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WO2018082614A1 - Dispositif de soins de santé et son système - Google Patents

Dispositif de soins de santé et son système Download PDF

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Publication number
WO2018082614A1
WO2018082614A1 PCT/CN2017/109124 CN2017109124W WO2018082614A1 WO 2018082614 A1 WO2018082614 A1 WO 2018082614A1 CN 2017109124 W CN2017109124 W CN 2017109124W WO 2018082614 A1 WO2018082614 A1 WO 2018082614A1
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WO
WIPO (PCT)
Prior art keywords
health
control module
user
environment
gas
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/CN2017/109124
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English (en)
Chinese (zh)
Inventor
王江
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from CN201710835053.9A external-priority patent/CN107997866B/zh
Application filed by Individual filed Critical Individual
Priority to US15/775,004 priority Critical patent/US11202733B2/en
Publication of WO2018082614A1 publication Critical patent/WO2018082614A1/fr
Anticipated expiration legal-status Critical
Priority to US17/111,458 priority patent/US11077012B2/en
Ceased legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H1/00Apparatus for passive exercising; Vibrating apparatus; Chiropractic devices, e.g. body impacting devices, external devices for briefly extending or aligning unbroken bones

Definitions

  • the present invention relates to the field of spinal health, and more particularly to a health device and system thereof, wherein the health device is healthy for the spine by providing force to the spine rhythmically.
  • Spinal diseases refer to the bones, intervertebral discs, ligaments, and muscles of the spine, which in turn cause compression and traction, and stimulate the spinal cord, spinal nerves, blood vessels, and autonomic nerves to present complex and diverse symptoms.
  • Common spinal diseases are cervical spondylosis and lumbar spondylosis.
  • spinal diseases have shown a trend of rejuvenation.
  • more than 40% of people have various diseases in the spine.
  • the causes of these spinal diseases are related to the incorrect posture of young people studying or working at the desk. Incorrect posture tends to cause the spine to be in a flexion position or a certain specific position for a long time, which not only increases the pressure in the intervertebral disc, but also causes the muscle ligament of the spine to be in a non-coordinated state for a long time, thereby causing spinal lesions.
  • traction is used to enter a common form of health care.
  • it is necessary to continuously apply a force along the cervical vertebra to the head for a period of time to stretch the cervical vertebra.
  • Cervical traction can increase the intervertebral space and enlarge the narrowed intervertebral foramen, so that the nerve root and vertebral artery have sufficient space for movement, and the vertebral artery is kept free from squeezing and improves blood supply.
  • the nerve roots are protected from compression and pushing, and the inflammation caused by compression adhesions is also absorbed, so that the numbness caused by compression or the pain caused by adhesion inflammation is gradually alleviated.
  • the lumbar vertebrae When the lumbar vertebrae are towed, it is necessary to apply a force along the lumbar vertebrae for a period of time to stretch the lumbar vertebrae, thereby widening the intervertebral space and making the crypts larger.
  • the widening of the intervertebral space is beneficial to the return of the intervertebral disc, the lateral crypt becomes larger, and the nerve passage becomes wider.
  • the nerve root is prevented from being squeezed by the protrusion to reduce or eliminate a series of stimulating sensation abnormalities caused by nerve root compression, such as pain, numbness, sinking, soreness, etc., thereby achieving therapeutic purposes.
  • a series of stimulating sensation abnormalities caused by nerve root compression such as pain, numbness, sinking, soreness, etc.
  • the force applied to the cervical or lumbar vertebrae by means of traction is applied along the direction of the spine in order to increase the intervertebral space.
  • the traction of the cervical vertebra can have side effects. Traction of the cervical vertebra is to exert a force on the cervical vertebra along the cervical vertebrae away from the cervical vertebrae over a period of time.
  • the main force of cervical traction is the neck.
  • the cervical vertebra is a small muscle cluster, and the surrounding ligaments are weak. Improper application of force will cause new damage. Also pay attention to the angle when cervical traction.
  • the cervical vertebra has a natural physiological curvature, and the direction of the force has a flat angle with the spine. If the traction treatment is performed in a sitting position, if the force is applied vertically, the intervertebral space is unevenly stressed, and the force at the top of the arc is the largest, which is difficult for the patient to accept.
  • the position of the neck and jaw traction belt should be placed away from the neck movement, otherwise it will cause syncope.
  • Lumbar vertebrae traction also has side effects that can not be ignored. If lumbar traction is performed, the force away from the spine is applied along the spinal axis over a period of time. From the anatomical structure, the spine is flanked by sacral spine muscles, interspinous ligaments between the spinous processes, and spinous ligaments extending through the spinous processes. The intervertebral space is significantly widened under the action of tension.
  • the muscles of the ligament are also elongated, and the ligament is pulled for a long time, which will inevitably cause relaxation and weakness, which will affect the stability of the lumbar spine and the lumbar spine will be overweight.
  • Lumbar muscles are pulled into the muscle spindle and become longer, which can cause muscle fatigue and even cause lumbar spondylolisthesis.
  • lumbar treatment and cervical treatment require no different equipment. That is to say, there is no traction device in the current market that can simultaneously treat the lumbar vertebrae and the cervical vertebrae. The reason is that the cervical and lumbar spine are located at different positions of the spine.
  • the same force applying structure cannot simultaneously apply the cervical vertebrae and the lumbar vertebrae.
  • the treatment of the cervical vertebra by traction means that the head needs to be fixed, and then the force is applied to the head so that the head is subjected to the force away from the cervical vertebra.
  • fixing and applying force to the head cannot be applied to fixing and stretching the waist.
  • the current health care device for the lumbar spine only provides health care for the lumbar spine.
  • the health care device for the cervical vertebra is only for the cervical vertebra. No corresponding health measures are taken for the neck muscles and neck skin.
  • there are various ways of health care for the cervical or lumbar spine such as heat care, massage, and light health care. Each health care method corresponds to one type of equipment. That is to say, there is currently no device that provides multiple ways of health care for the cervical or lumbar spine.
  • the manufacturer attaches a usage instruction with the traction device.
  • the instructions for use describe the recommended use time and recommended traction for the traction unit. It is worth noting that the recommended use time and recommended traction force of the traction equipment is an average value obtained by the manufacturer after data collection. In other words, the recommended usage time of the traction device is the average usage time. The recommended traction force for the traction equipment is the average traction force.
  • the recommended use time and recommended traction are better than the use time and traction strength determined by the user's feeling.
  • the recommended time of use and recommended traction may not be suitable for every user. How to set the user's use time and traction force for the user to make the user get effective health care is an urgent problem to be solved.
  • Health is a constant topic in social life, and it is especially valued in today's life.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device provides a spine stretch by providing a rhythmic driving force.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device is used to relax adjacent two vertebrae by providing a rhythmic driving force.
  • Another object of the present invention is to provide a health care device and system thereof, wherein the health care device provides a rhythmic driving force through an adjustment device.
  • Another object of the present invention is to provide a health device and system thereof, wherein the adjustment device of the health device provides a rhythmic driving force in an electrically driven manner.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device passes through a housing that provides a rhythmic driving force to drive the housing to reciprocate.
  • Another object of the present invention is to provide a health device and system thereof, wherein the housing provides integral support to the waist of the user.
  • Another object of the present invention is to provide a health device and system thereof, wherein the housing provides integral support to the neck of the user.
  • Another object of the present invention is to provide a health device and system thereof, wherein the housing is a rigid material.
  • Another object of the present invention is to provide a health device and system thereof, wherein the adjustment device provides a driving force by means of air pressure.
  • Another object of the present invention is to provide a health device and system thereof, wherein the adjustment device provides a driving force in a mechanical manner.
  • Another object of the present invention is to provide a health apparatus and system thereof, wherein the adjustment apparatus provides an air bag that is pressurized by inflating the air bag to cause the housing to reciprocate.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides a control module that rhythmically controls the adjustment device to provide a driving force.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides a control module that controls the frequency at which the adjustment device provides the driving force.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides a heat source that regulates temperature.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides a light emitting device that provides illumination.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides an adjustment module that adjusts the control module to control the adjustment module, the heat source and the illumination device to cooperate.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides a massaging device that provides massage.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides an energy supply module that provides electrical energy.
  • Another object of the present invention is to provide a health device and system therefor that provides a bow health through the adjustment device.
  • Another object of the present invention is to provide a health device and system thereof that provides conventional bow health through the adjustment device.
  • Another object of the present invention is to provide a health device and a system thereof, the health device providing expansion by the adjustment device Exhibition bow health.
  • Another object of the present invention is to provide a health care device and system thereof, the health care system further providing a health platform that provides an initialization environment for the health device to initialize.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health platform adjusts the health device for bow health during the health of the health device.
  • Another object of the present invention is to provide a health apparatus and system thereof, wherein the driving portion intermittently drives the health portion to reciprocate.
  • Another object of the present invention is to provide a health apparatus and system thereof, wherein the driving portion rhythmically drives the health portion to reciprocate.
  • Another object of the present invention is to provide a health device and system thereof, wherein the driving portion drives the health portion in a pneumatic manner.
  • Another object of the present invention is to provide a health device and system thereof, wherein the driving portion electromagnetically drives the health portion.
  • Another object of the present invention is to provide a health care device and system therefor, wherein the drive portion is in the form of a lifting device.
  • Another object of the present invention is to provide a health apparatus and system thereof, wherein the driving portion provides a gas adjusting device and a gas containing portion that adjusts the air pressure by adjusting the gas capacity of the gas containing portion.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides a control module that controls the gas regulating device to intermittently inflate the gas volume of the gas receiving portion.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides a control module that controls the gas regulating device to rhythmically inflate the gas volume of the gas receiving portion.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides at least one detection element that provides detection data.
  • Another object of the present invention is to provide a health device and system thereof, wherein the detecting element further provides at least one pressure sensor.
  • Another object of the present invention is to provide a health device and system thereof, wherein the detecting element further provides at least one air pressure sensor.
  • Another object of the present invention is to provide a health device and system thereof, wherein the detecting element further provides at least a myoelectric sensor.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides a health environment former that provides a healthy environment.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides a heat source device that provides for adjusting the health environment temperature.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides a light source device that provides illumination.
  • Another object of the present invention is to provide a health device and a system thereof, wherein the health device further provides a light source device, and the health department provides magnetic health.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device further provides a massaging device that provides massage.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device can be used to provide a reciprocating stretch for the lumbar spine.
  • Another object of the present invention is to provide a health device and system thereof that can be used to provide a reciprocating stretch for a cervical spine.
  • Another object of the present invention is to provide a health device and system therefor that can be used to provide a reciprocating stretch for the lumbar spine and can also be used to provide a reciprocating stretch for the cervical spine.
  • Another object of the present invention is to provide a health care device and system thereof, wherein the health care device is capable of providing a multi-faceted care in which a plurality of aspects of care synergize so that the health care effect is better.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device can provide dual care for stretching and hyperthermia for the waist and/or cervical vertebra, thereby providing a healthier effect.
  • Another object of the present invention is to provide a health-care device and a system thereof, wherein the health-care device provides a health benefit of stretching by providing an airbag, and has the advantages of being light, comfortable, simple in operation, and good in stretching effect.
  • Another object of the present invention is to provide a health care device and system thereof, wherein the health care device achieves the effect of reciprocating stretching by charging and deflation of an air bag, wherein the air charge and discharge of the air bag can be controlled and realized by an electric method.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device is capable of collecting human body health parameters and storing them, thereby providing a more suitable personalized health care for the user based on the stored health parameters.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device is capable of retrieving parameters related to the user's health care, thereby providing the user with a more suitable personalized health care.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device is capable of retrieving parameters related to user health care recorded by other health devices, thereby providing a more suitable personalized health care for the user.
  • Another object of the present invention is to provide a health care device and system thereof, wherein the health care device is capable of retrieving parameters related to user health care recorded by a medical institution such as a hospital, thereby providing a more suitable personalized health care for the user.
  • Another object of the present invention is to provide a health device and a system thereof, wherein the health device can acquire health parameters of the user when performing health care for the user, and can share the health parameters to facilitate the user. Get more comprehensive and appropriate health care and treatment.
  • Another object of the present invention is to provide a health device and a system thereof, wherein the health device can acquire health parameters of the user when performing health care for the user, and can upload the health parameters to facilitate other health care. Device acquisition and utilization.
  • Another object of the present invention is to provide a health device and a system thereof, wherein the health device can acquire the health parameters of the user when performing health care for the user, and can upload the health parameters, thereby facilitating medical treatment such as hospitals. Agency acquisition and utilization.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device provides a control method suitable for use in a condition in which the health device is underpowered.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device is capable of producing light effects of different colors and shapes, wherein the elements that produce light effects are capable of providing more uniform illumination of light, light, and spectrum.
  • Another object of the present invention is to provide a health device and a system thereof, wherein the health device generates heat through a heat generating film, thereby providing a heat application effect.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device provides a stretched tempo and frequency that can be controlled.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device provides a stretched tempo and frequency that can be set as desired.
  • Another object of the present invention is to provide a health device and system thereof, wherein the health device provides a surface that is adapted to the human bone and has a relatively fixed contour to provide a better support effect.
  • Another object of the present invention is to provide a health-care apparatus and system thereof, wherein the health-care apparatus can not only achieve an overall lifting and lowering to provide a stretching effect, but also provide a stretching effect by partial lifting.
  • Another object of the present invention is to provide a health-care apparatus and system thereof, wherein the health-care apparatus can not only achieve an overall lifting and lowering to provide a stretching effect, but also provide a stretching effect by partial lifting.
  • An object of the present invention is to provide a health device and a system thereof, wherein the driving portion rhythmically drives the health portion to perform a reciprocating motion for making a user's healthy part in a large bow state and a small bow state Switch between them to make a bow health for the healthy part of the user.
  • An object of the present invention is to provide a health apparatus and system thereof, wherein the driving portion provides at least one fluid accommodating portion that drives the health department to have a rhythm by causing a regular change in the fluid capacity of the fluid accommodating portion. Reciprocating movement.
  • the healthy part is bowed and healthy.
  • An object of the present invention is to provide a health device and a system thereof, wherein the fluid regulating device is capable of simultaneously adjusting a fluid capacity of the fluid containing portion and a fluid capacity of the sub-driving device such that the supporting portion and the fluid receiving portion can mutually Cooperate to give the user's healthy part a greater bow.
  • An object of the present invention is to provide a health device and a system thereof, wherein the number of the support portions is plural, and the contact area of the support portion with the user's healthy portion is small to facilitate the user to increase the support portion. At the same time as the bow of the healthy part, a partial massage is performed on the healthy part of the user.
  • a health device comprising:
  • the drive unit is disposed on one side of the health department, and
  • control module communicatively connecting the driving portion, wherein the control module controls the driving portion to rotationally drive the health portion to perform a reciprocating motion.
  • control module adjusts a speed at which the driving portion provides a driving force by controlling the driving portion to form a driving tempo driving the health portion.
  • the driving part further comprises:
  • control module controls the gas regulating device to adjust a gas capacity of the gas accommodating portion, wherein the control module adjusts the gas accommodating portion by controlling the gas adjusting device
  • the speed of the gas volume controls the rhythm of the gas accommodating portion to provide the driving force.
  • the driving portion further includes an air bag through which the gas receiving portion is formed, the gas adjusting device communicates with the air bag, wherein the control module controls the gas adjusting device for adjusting the gas receiving The amount of gas contained in the part.
  • the health part further has a receiving cavity
  • the gas adjusting device is disposed in the receiving cavity
  • the gas adjusting device and the air bag are respectively disposed on both sides of the bottom of the health part .
  • the bottom of the health portion further has at least one through hole, wherein the gas adjusting device communicates with the gas receiving portion through the through hole.
  • the health department further includes at least one health environment former forming a health environment, wherein the health environment former is disposed in a middle portion of the health department.
  • the health environment former further includes a heat source device, the control module communicatively connecting the heat source device, wherein the control module controls the heat source device to generate heat to form a thermal environment, thereby causing the health environment Provide this thermal environment.
  • the health environment former further includes a light source device communicatively coupled to the light source device, wherein the control module controls the light source device to form a light environment, thereby enabling the health environment to provide The light environment.
  • the light source device further includes at least one light source and a light transmitting device, the light transmitting device covers the light source, and the light generated by the light source forms the light environment through the light transmitting device.
  • the heat source device is disposed between the light source and the light source device, wherein the heat source device is pre-formed such that the light source illuminates the heat source device to exhibit a predetermined shape.
  • the method further includes at least one massage device, wherein the massage device is communicatively coupled to the control module, the control module controls the massage device to provide a massage environment, wherein the massage device is disposed in the health care portion .
  • a magnetic component is further included, wherein the magnetic component is disposed in the health portion to provide a magnetic environment.
  • the health environment former further includes at least one detecting component communicatively coupled to the control module, wherein the control module adjusts the gas containing portion according to the detected data fed back by the detecting component The amount of gas.
  • the detecting element further comprises at least one pressure sensor disposed in the health part to detect the pressure provided by the health part, wherein the pressure sensor is communicatively connected to the control module, the control The module adjusts the driving force provided by the driving portion according to the feedback of the pressure sensor.
  • the detecting element further comprises at least one myoelectric sensor, the myoelectric sensor being disposed in the health part, wherein the myoelectric sensor is communicatively coupled to the control module such that the control module is based on the muscle
  • the feedback of the electric sensor adjusts the driving force provided by the driving portion.
  • the health portion further includes a receiving case and a top cover, the edge of the receiving case being coupled to the edge of the top case to shape the receiving cavity.
  • the top cover further has a health environment forming aperture, wherein the health environment former is embedded in the health environment to form a hole.
  • the health device further includes a sub-driving device disposed between the outer side of the bottom of the health environment former and the bottom inner side of the health portion for driving the health environment former .
  • the sub-driving device is configured as a second air bag, wherein the second air bag is connected to the second air bag.
  • a gas regulating device that controls the gas regulating device to adjust an amount of gas contained in the second air bag.
  • the sub-drive device is implemented as a lifting device, wherein the lifting device is communicatively coupled to the control module to control operation with the drive portion via the control module.
  • a health care system comprising:
  • At least one health device communicatively coupled to the health platform, wherein the health platform analyzes the health data obtained from the health device to generate a health plan, wherein the health plan is sent to the health plan, the health device The device performs health according to the health plan.
  • the health platform further comprises:
  • At least one data center that stores health data provided by the health device.
  • the data center communicatively connects to the analysis center, wherein the analysis center analyzes the health data and generates a health plan.
  • the health platform further includes at least one modeling center, wherein the modeling center is communicably connected to the data center and the analysis center, wherein the modeling center is configured to establish at least one spine model, wherein The analysis center is based on a user's spine model and the health data.
  • the health device further comprises:
  • the driving part is disposed on one side of the health department
  • control module is communicatively coupled to the driving portion and the analysis center, wherein the control module receives the health plan sent by the analysis center, and the control module controls the health device to be driven rhythm according to the health plan
  • the health department performs a reciprocating motion.
  • control module controls the health department to provide a health environment according to the health plan.
  • the driving part further comprises:
  • control module controls the gas regulating device to adjust a gas capacity of the gas accommodating portion, wherein the control module controls the gas by The speed at which the adjusting device adjusts the gas capacity of the gas containing portion controls the rhythm in which the gas receiving portion provides the driving force.
  • the driving portion further includes an air bag
  • the gas receiving portion is formed by the air bag
  • the gas adjusting device is connected to the air bag
  • the control module controls the gas adjusting A device for adjusting the amount of gas contained in the gas receiving portion.
  • the health part further comprises at least one health environment former, the health environment former forming a health environment, wherein the health environment former is disposed in a middle of the health part.
  • a health device comprising:
  • At least one health care module that is used to provide a health care function
  • At least one energy supply module is used to provide energy to the health care module.
  • the health care module includes at least one adjustment device, wherein the adjustment device is electrically connectable to the energy supply module to enable energy to be extracted from the energy supply module.
  • the manner in which the adjustment device effects the stretching is selected from the group consisting of air pressure, electromagnetic action, hydraulic action and mechanical lift.
  • the adjustment device comprises at least one expansion module and at least one inflation module, wherein the inflation module is used to inflate the expansion module to expand the expansion module.
  • the adjustment device further comprises at least one pressure sensing module for sensing the pressure inside the expansion module.
  • the health care module further comprises at least one heat source for providing a thermal care ring
  • the heat source is electrically connected to the energy supply module.
  • the health care module further comprises at least one light emitting device, wherein the light emitting device is electrically connected to the power supply module.
  • the health care module further comprises at least one massage, wherein the massage device is electrically connectable to the energy supply module.
  • the health care module further comprises at least one control module, wherein the control module is electrically connected to the power supply module.
  • the method further includes at least one support module, wherein the support module provides fixation and protection for the health care module and the energy supply module, and is used to support a human body.
  • the present invention provides a health device comprising:
  • the driving portion includes two fluid receiving portions, each of the fluid receiving portions being respectively disposed on a same side of the health portion, wherein the driving portion drives the fluid capacity of each of the fluid receiving portions
  • the Ministry of Health performs reciprocating movements.
  • the driving portion further includes at least one fluid regulating device coupled to the fluid regulating device to adjust a fluid capacity of the fluid receiving portion by the fluid regulating device.
  • the drive unit further includes a control module, the fluid adjustment device being controllably coupled to the control module.
  • the fluid regulating device is an air pump
  • the fluid containing portion is an air bag
  • the fluid adjusting device drives the health portion to reciprocate in a manner of adjusting a gas volume of the fluid containing portion.
  • the health device further includes at least one sub-drive device and at least one support portion slidably coupled to the sub-drive device, wherein the health portion has a receiving cavity and a communication chamber At least one perforation, each of the sub-driving devices being disposed in the receiving cavity of the health portion, each of the supporting portions extending from the receiving cavity of the health portion to the health portion through each of the perforations of the health portion external.
  • the health device further includes at least one sub-drive device and at least one support portion slidably coupled to the sub-drive device, wherein the health portion has a receiving cavity and communicates with the receiving cavity At least one perforation, each of the sub-driving devices being disposed in the receiving cavity of the health portion, each of the supporting portions extending from the receiving cavity of the health portion to the health portion via each of the perforations of the health portion
  • the outer portion wherein the sub-driving device is a fluid bladder, and the sub-driving device is coupled to the fluid regulating device to drive the support portion by adjusting the fluid capacity of the sub-driving device by the fluid regulating device.
  • the health device further includes a health environment former that forms a wellness environment in the middle of the health department.
  • the health environment former includes a heat source device disposed in the health portion to form a thermal environment in the middle of the health portion by the heat source device, thereby enabling the health environment Provide this thermal environment.
  • the health environment forming device includes a light source device disposed in the health portion to form a light environment in the middle of the health portion by the light source device, thereby enabling the health environment Provide this light environment.
  • the light source device comprises at least one light source and a light transmitting device, the light transmitting device covers the light source, and the light generated by the light source forms the light environment through the light transmitting device.
  • the present invention further provides a health device comprising:
  • the health part has at least one receiving cavity and at least one perforation communicating with the receiving cavity;
  • a driving portion wherein the driving portion is disposed on the health portion for driving the health portion to perform a reciprocating motion
  • At least one sub-drive device wherein each of the sub-drive devices is respectively disposed in the receiving cavity of the health portion;
  • At least one support portion wherein the driven ends of each of the support portions are respectively drivably disposed on each of the sub-driving devices, and the support ends of each of the support portions are respectively driven by the perforations of the health-care portion
  • the accommodating chamber of the health department extends to the outside of the health department.
  • the number of the sub-driving devices is one, the number of the supporting portions is four, and the driven ends of each of the supporting portions are respectively drivably disposed in the same sub-driving device; or
  • the number of the sub-driving devices is two, the number of the supporting portions is four, and the driven ends of each of the two supporting portions are respectively drivably disposed in the same sub-driving device; or the number of the sub-driving devices
  • the sub-drive device is a fluid capsule that drives the support portion in such a manner that the fluid capacity inside the sub-drive device is adjusted.
  • the sub-driving device is a lifting device that drives the support portion in a lifting manner.
  • the health device further includes a fluid regulating device, wherein the fluid bladder is coupled to the fluid regulating device, wherein the fluid regulating device is driven in a manner to adjust a fluid capacity of the interior of the sub-driving device The support portion.
  • the health device further includes a control module, the fluid regulating device being controllably coupled to the control module.
  • the health device further includes a health environment former that forms a wellness environment in the middle of the health department.
  • the health environment former includes a heat source device disposed in the health portion to form a thermal environment in the middle of the health portion by the heat source device, thereby enabling the health environment Provide this thermal environment.
  • the health environment forming device includes a light source device disposed in the health portion to form a light environment in the middle of the health portion by the light source device, thereby enabling the health environment Provide this light environment.
  • the light source device comprises at least one light source and a light transmitting device, the light transmitting device covers the light source, and the light generated by the light source forms the light environment through the light transmitting device.
  • the present invention further provides a health device comprising:
  • the health part has a receiving cavity and at least one perforation and a connecting groove respectively communicating with the receiving cavity;
  • the driving portion includes at least one fluid receiving portion formed in the health portion, and the fluid receiving portion extends to the receiving chamber via the connecting groove of the health portion;
  • At least one support portion wherein the driven ends of each of the support portions are respectively drivably disposed in the fluid accommodation portion of the drive portion, and each of the support portions of the support portion respectively passes through the perforation of each of the health portions
  • the accommodating chamber of the health department extends to the outside of the health department.
  • the number of supports is three, four, five, six, seven or eight.
  • the driving portion includes at least one fluid regulating device coupled to the fluid regulating device to drive the fluid regulating device by adjusting a fluid capacity of the fluid receiving portion
  • the health department reciprocates and drives each of the support portions to reciprocate.
  • the drive unit further includes a control module, the fluid adjustment device being controllably coupled to the control module.
  • the fluid regulating device is an air pump
  • the fluid containing portion is an air bag
  • the fluid adjusting device drives the health portion to reciprocate in a manner of adjusting a gas volume of the fluid containing portion.
  • the health device further includes a health environment former, the health environment forming The device forms a healthy environment in the middle of the health department.
  • the health environment former includes a heat source device disposed in the health portion to form a thermal environment in the middle of the health portion by the heat source device, thereby enabling the health environment Provide this thermal environment.
  • the health environment forming device includes a light source device disposed in the health portion to form a light environment in the middle of the health portion by the light source device, thereby enabling the health environment Provide this light environment.
  • the light source device comprises at least one light source and a light transmitting device, the light transmitting device covers the light source, and the light generated by the light source forms the light environment through the light transmitting device.
  • Figure 1 illustrates a health device in accordance with a first preferred embodiment of the present invention.
  • Figure 2 is a perspective view showing the structure of the health care device according to the first preferred embodiment of the present invention.
  • FIG. 3 illustrates the health device in accordance with the above first preferred embodiment of the present invention.
  • Figure 4 illustrates a top view of the health device of the first preferred embodiment of the present invention.
  • Figure 5 illustrates a disassembled structure of the health device according to the above first preferred embodiment of the present invention.
  • Figure 6A is a cross-sectional view taken along line A-A of Figure 3 of the above-described first preferred embodiment of the present invention.
  • Figure 6B is a cross-sectional view of the health care device taken along line B-B of Figure 3, in accordance with the first preferred embodiment of the present invention.
  • FIG. 7A and 7B are schematic side views showing the health care apparatus according to the above first preferred embodiment of the present invention.
  • FIG. 7C and 7D are schematic views of an application of the health care device according to the above first preferred embodiment of the present invention.
  • Figure 8 illustrates a health device in accordance with a second preferred embodiment of the present invention.
  • Figure 9 is a perspective view showing the structure of the health care device according to the above second preferred embodiment of the present invention.
  • FIGS. 10A and 10D are schematic side views showing the health care apparatus according to the above first preferred embodiment of the present invention.
  • Figure 11 is a perspective view of the exercise device applied to the waist health in accordance with one of the preferred embodiments of the present invention.
  • Figure 12 is a view of a preferred embodiment of the present invention in which the health device is applied to a neck health, wherein the second adjustment device is raised for neck health.
  • Figure 13 illustrates a wellness system in accordance with the present invention.
  • 14A and 14B are another preferred embodiment of the present invention, a schematic view of the health device, illustrating the driving device of the health device to drive the health portion.
  • 14C and 14D are another preferred embodiment of the present invention, the health device being used for a schematic view of the waist health.
  • Figure 15 is a schematic view of the health care device according to another preferred embodiment of the present invention, the bottom portion of the health portion of the health device having a through hole.
  • Figure 16A is a schematic illustration of the health device of another preferred embodiment of the present invention depicting the curved surface of the health device in the A-A direction.
  • Figure 16B is a schematic view of the health care device in accordance with another preferred embodiment of the present invention, depicting the curved surface of the health device in the B-B direction.
  • Figure 17 is a schematic illustration of the health device of another preferred embodiment of the present invention, illustrating the operation of the health device through the control terminal.
  • Figure 18 is a top plan view of the health care device in accordance with another preferred embodiment of the present invention.
  • Figure 19 is a schematic illustration of the health device of another preferred embodiment of the present invention, depicting the health device in a top open state.
  • Figure 20 is a block diagram showing the structure of the health care system in accordance with another preferred embodiment of the present invention.
  • 21A and 22B are schematic views of another preferred embodiment of the health device of the present invention, illustrating that the health environment former is movable.
  • 21C and 22D are cross-sectional views of the health device of the present invention depicting the sub-drive device driving the health environment former movement.
  • 22A and 22B are cross-sectional views of the health device of the present invention, depicting another alternative embodiment of the drive device.
  • 23A and 23B are cross-sectional views of the health device of the present invention, depicting another alternative embodiment of the drive device.
  • 24A and 24B are cross-sectional views of the health device of the present invention, depicting another alternative embodiment of the drive device.
  • 24C and 24D are cross-sectional views of the health device of the present invention, depicting two states of another modified embodiment of the health device.
  • 24E and 24F are cross-sectional views of the health device of the present invention, depicting two states of another modified embodiment of the health device.
  • Figure 25 depicts a schematic diagram of the health device of another preferred embodiment of the present invention.
  • 26 to 29 illustrate the operational state of the health care device in accordance with another preferred embodiment of the present invention.
  • Figure 30 depicts a rear elevational view of the health device in accordance with another preferred embodiment of the present invention.
  • Figure 31 depicts a side view of the health device in accordance with another preferred embodiment of the present invention.
  • Figure 32 depicts an exploded view of the health device in accordance with another preferred embodiment of the present invention.
  • 33 to 36 illustrate an application scenario of the health care device in accordance with another preferred embodiment of the present invention.
  • Figure 37 depicts a schematic view of a center housing of the health device in accordance with another preferred embodiment of the present invention.
  • Figure 38 depicts a schematic diagram of the health device of another preferred embodiment of the present invention.
  • Figure 39 depicts a schematic diagram of the health device of another preferred embodiment of the present invention.
  • Figure 40 depicts a block diagram of the health device of another preferred embodiment of the present invention.
  • Figure 41 depicts a schematic diagram of the health device of another preferred embodiment of the present invention.
  • Figure 46 depicts a rear view of the health device in accordance with another preferred embodiment of the present invention.
  • Figure 47 depicts a side view of the health device in accordance with another preferred embodiment of the present invention.
  • Figure 48 depicts an exploded view of the health device in accordance with another preferred embodiment of the present invention.
  • 49 to 52 illustrate an application scenario of the health care device in accordance with another preferred embodiment of the present invention.
  • Figure 53 depicts a schematic view of a center housing of the health device in accordance with another preferred embodiment of the present invention.
  • Figure 54 depicts a schematic diagram of the health device of another preferred embodiment of the present invention.
  • Figure 55 depicts a schematic diagram of the health device of another preferred embodiment of the present invention.
  • Figure 56 depicts a block diagram of the health device of another preferred embodiment of the present invention.
  • 57A is a perspective view of a perspective view of a health device in accordance with a preferred embodiment of the present invention.
  • Figure 57B is a perspective view showing another perspective of the health care device according to the above preferred embodiment of the present invention.
  • Figure 58 is an exploded perspective view of the health care device in accordance with the above preferred embodiment of the present invention.
  • Figure 59 is a perspective cross-sectional view of the health care device according to the above preferred embodiment of the present invention, which depicts the The internal structure of the health device.
  • Figure 60A is a front elevational view showing a state of the health care device in accordance with the above preferred embodiment of the present invention.
  • Figure 60B is a front elevational view showing another state of the health care device in accordance with the above-described preferred embodiment of the present invention.
  • Figure 60C is a front elevational view showing another state of the health care device in accordance with the above-described preferred embodiment of the present invention.
  • Figure 60D is a front elevational view of another state of the health device in accordance with the above-described preferred embodiment of the present invention.
  • Figure 60E is a front elevational view showing another state of the health care device in accordance with the above-described preferred embodiment of the present invention.
  • Figure 60F is a front elevational view showing another state of the health care device in accordance with the above-described preferred embodiment of the present invention.
  • 61A is an exploded perspective view of a health device in accordance with another preferred embodiment of the present invention.
  • 61B is an exploded perspective view of a health device in accordance with another preferred embodiment of the present invention.
  • 62A is a perspective view of a perspective view of a health device in accordance with another preferred embodiment of the present invention.
  • Figure 62B is a perspective view of another perspective of the health care device in accordance with the above-described preferred embodiment of the present invention.
  • 63A is a perspective view of a perspective view of a health care device in accordance with another preferred embodiment of the present invention.
  • Figure 63B is a perspective view of another perspective view of the health care device in accordance with the above-described preferred embodiment of the present invention.
  • Figure 63C is a perspective, cross-sectional view of the health care device in accordance with the above-described preferred embodiment of the present invention.
  • the term “a” is understood to mean “at least one” or “one or more”, that is, in one embodiment, the number of one element may be one, and in other embodiments, the element The number can be multiple, and the term “a” cannot be construed as limiting the quantity.
  • the present invention provides a health device and system thereof for facilitating health care by a user to help maintain good health.
  • the "health device” of the present invention refers to a device capable of providing health care, rehabilitation, care, massage, or any combination thereof.
  • Health refers to health care, rehabilitation, care, massage or any combination thereof.
  • FIG. 1 the health device includes a support module 10 , a health care module 20 , and an energy supply module 30 .
  • the health care module 20 is disposed on the support module 10 to be secured and protected by the support module 10.
  • the energy supply module 30 is used to provide energy to the health care module 20 to enable the health care module 20 to provide a health care function.
  • the support module 10 is shaped, sized, and configured to conform to the shape, size, and configuration of the human body and its bones to provide support to the human body, such as to provide support for a person's lumbar or cervical spine.
  • the health care module 20 is disposed on the support module 10 to facilitate the health care of the human body supported by the support module 10.
  • the health care module 20 includes a heat source 21, an adjustment device 22, a light-emitting device 23, a massage device 24, and a regulation module 25.
  • the heat source 21 is disposed so that the health device can Heating treatment function.
  • the heat source 21 is capable of generating heat to provide a suitable temperature environment to provide heat or heat therapy.
  • the adjustment device 22 is arranged such that the health device is capable of providing a stretch care function.
  • the illumination device 23 is used to provide a preset illumination effect.
  • the massage device 24 is provided such that the health device can provide a massage function.
  • the regulation module 25 is arranged to regulate and control the heat source 21, the adjustment device 22, the illumination device 23 and the massage device 24, and to adjust and control the synergy relationship therebetween.
  • the control module 25 includes a monitoring module 251 , a storage module 252 , a data interaction module 253 , a control module 254 , and an adjustment module 255 .
  • the monitoring module 251 is used to monitor the physical parameters of the user of the health device and the energy supply status of the energy supply module 30. More specifically, the monitoring module 251 can monitor the heat source 21, the adjustment device 22, the illumination device 23, and the massage device 24 to obtain physical parameters of the user of the health device.
  • the monitoring module 251 includes an energy monitoring module 2511 and a body parameter monitoring module 2512.
  • the energy monitoring module 2511 is used to monitor data related to the energy supply status of the energy supply module 30, and further serves as a basis for the adjustment module 255 to adjust the heat source 21, the adjustment device 22, the illumination device 23, and the massage device 24.
  • the energy supply module 30 is used to provide electrical energy.
  • the energy monitoring module 2511 is used to monitor the power supply status of the power supply module 30. For example, when the energy monitoring module 2511 detects that the power supply module 30 is insufficient in power, it adjusts the heat source 21, the adjusting device 22, the lighting device 23, and the massage according to the power state that the power supply module 30 can provide. The device 24 and its mutual coordination.
  • the adjustment module 255 can adjust the power supply module 30 to preferentially supply power to the heat source 21 and the adjustment device 22, and stop the illumination device 23 and the massage device 24. Power is supplied to suspend the lighting and massage functions of the wellness device.
  • the power priority in the low battery condition can be set automatically or according to the user's needs. The invention is not limited in this regard.
  • the body parameter monitoring module 2512 of the monitoring module 251 is used to monitor data related to the body parameters of the user of the health device.
  • the storage module 252 stores the parameters monitored by the monitoring module 251 so that the data interaction module 253 applies the parameters.
  • the data interaction module 253 includes an acquisition module 2531, an input module 2532, a processing module 2533, and an output module 2534.
  • the obtaining module 2531 can acquire data monitored by the monitoring module 251 or data stored by the storage module 252. That is to say, the obtaining module 2531 can obtain data directly from the monitoring module 251, and thus the storage module 252 can acquire data. That is to say, the data monitored by the monitoring module 251 can be directly transmitted to the obtaining module 2531, or can be first stored in the storage module 252, and then the obtaining module 2531 via the storage module 252.
  • the obtaining module 2531 can not only acquire the data monitored by the monitoring module 251 and the data stored by the storage module 252, but also can be used in other ways from other places. Acquiring data, such as obtaining data through a networked network platform or thereby acquiring data from other systems, platforms or modules of the Internet.
  • the input module 2532 inputs the data acquired by the acquisition module 2531 into the processing module 2533.
  • the processing module 2533 processes the input data to facilitate the output module 2534 to output the data.
  • the output module 2534 includes a presentation module 25341 and an upload module 25342.
  • the rendering module 25341 presents data that is input by the input module 2532 and processed by the processing module 2533 to be known.
  • the uploading module 25342 uploads data input by the input module 2532 and processed by the processing module 2533 for subsequent use.
  • the uploading module 25342 can upload the data to the storage module 252, so that the storage module 252 stores the data to facilitate utilization of the data when the health device is used again.
  • the health device will track and record the user's condition during continuous use, and it will become more and more "smart", and more and more understand the user and its needs, so as to better function. .
  • the uploading module 25342 can also upload the data to other systems, platforms or modules.
  • the data is now shared so that the user can utilize the data while performing other aspects of wellness treatment or exercise to better serve the user.
  • the user can take health care through the health device every day, and receive treatment from the regular hospital.
  • the health device collects and uploads the user's physical health data.
  • the data can be utilized by the user in other ways, for example, the user can copy the data through the output module 2534 and carry the copied data to the required one. Occasionally, such as a hospital.
  • the output module 2534 further includes an output port 25343.
  • the output port 25343 can be used to connect to a storage device, such as a USB flash drive, a mobile phone, to transfer data to the storage device.
  • control module 254 includes a thermal control module 2541, an adjustment control module 2542, a light control module 2543, and a massage control module 2544, which are respectively used to control the heat source 21, the adjustment device 22, The illuminating device 23 and the massaging device 24.
  • the adjustment module 255 is used to adjust the control function of the control module 254 to the heat source 21, the adjusting device 22, the illuminating device 23, and the massaging device 24, so that the heat source 21, the adjusting device 22, and the illuminating device 23 The synergy effect is better achieved by the massage device 24.
  • the support module 10 includes a first housing 11 for fixing and protecting the heat source 21 of the health care module 20, The adjustment device 22, the illumination device 23 and the massage device 24, and the energy supply module 30.
  • the heat source 21 is embodied as a heat generating film 21.
  • the stretching action of the adjustment device 22 is achieved by the action of inflation.
  • the adjustment device 22 includes an expansion module 221 and an inflation module 222.
  • the inflation module 222 is used to inflate the expansion module 221.
  • the expansion module 221 is inflated and expanded to drive the first housing 11 to move, thereby acting on the waist of the human body lying on the first housing 11.
  • the expansion module 221 is embodied as an air bag 221.
  • the inflation module 222 is embodied as an air pump 222, wherein the air pump 222 takes energy from the energy supply module 30 and communicates with the air bag 221 to be used to inflate the air bag 221.
  • the airbag 221 is disposed at the bottom of the first casing 11. When the airbag 221 is inflated, it expands to have a larger volume, thereby pushing the first housing 11 upward, and at this time, the waist of the person lying above the housing 11 is pushed upward, so that the waist thereof The bending curvature is increased.
  • the airbag 221 When the airbag 221 releases a certain amount of gas, the degree of expansion of the airbag 221 is weakened, so that the airbag 221 drives the first housing 11 to move downward, thereby bending the curvature of the waist of the person supported by the first housing 11. Decrease accordingly. After the reciprocating charging and discharging process, a reciprocating force is generated on the waist of the person.
  • the cross section of the first housing 11 has a predetermined curvature to conform to the shape of the human body.
  • FIG. 7C of the accompanying drawings when the human body is lying on the health device, it is supported by the first casing 11, and the waist of the human body is supported by the preset curvature.
  • the heat source 21 of the health care module 20, the massage device 24, and the light-emitting device 23 can all have an effect on the human body.
  • the adjustment device 22 can be controlled by the control module 254 if the curvature of the person's waist is to be adjusted.
  • the degree of expansion of the airbag 221 is controlled by the stretch control module 2542.
  • the airbag 221 is inflated to increase the degree of expansion of the airbag 221, and the position of the first casing 11 is raised, and the person lying in the first casing 11 is further The waist is raised so that the waist curvature is enhanced, as shown in Fig. 7D.
  • the airbag 221 is released with a certain amount of gas, so that the degree of expansion of the airbag 221 is weakened, and the position of the first casing 11 is sunk, thereby lying on the first casing.
  • the bending of the waist of the person of 11 is weakened. In this way, the human lumbar vertebrae can be stretched many times to protect the waist. It is worth mentioning that the frequency and intensity by which the airbag 221 provides reciprocation to the person's waist can be controlled by the stretch control module 2542.
  • the power supply module 30 includes a power source 31 and a series of conductive elements 32.
  • the air pump 222 is electrically connected to the power source 31 through the conductive member 32, so that electric energy can be obtained from the power source 31. On the basis of electric power, this reciprocating stretching effect is well realized.
  • the adjustment device 22 further includes a pressure sensing module 223.
  • the inflation control module 2562 of the control module 254 controls the charging and discharging of the expansion module 221 to control the expansion of the expansion module 221.
  • the pressure sensing module 223 is used to sense the pressure of the expansion module 221, thereby serving as a basis for the inflation control module 2562 to control the inflation and deflation of the expansion module 221. For example, different users are different from fat and thin, and their lumbar vertebral arches have different tolerances, so a pressure threshold can be set. When the pressure sensing module 223 senses that the internal pressure of the expansion module 221 reaches the pressure threshold, the expansion module 221 is stopped from inflating.
  • the inflation control module 2562 includes a solenoid valve 25621 and a microcomputer chip 25622.
  • the pressure sensing module 223 is embodied as a pressure sensor 223.
  • the solenoid valve 25621 is provided to the airbag 221 so as to be capable of controlling the rhythm of the air pump 222 to inflate the airbag 221.
  • the expansion module 221, the inflation module 222, the inflation control module 2562 and the pressure sensing module 223 can be controlled by the extension control module 2562, thereby realizing the reciprocating motion of different rhythms and the selection of different stretching strengths.
  • the pressure sensor 223 can sense the pressure of the airbag 221, so that the inflation control module 2562 controls the inflation speed and time of the inflation module 222, thereby achieving control of the degree of expansion of the airbag 221, and thus the speed, frequency, and amplitude of the reciprocating motion. And the stretching effect it plays to control.
  • the microcomputer chip 25622 is connected to the pressure sensing module 223, and is used to control the air bag 221, the air pump 222, and the electromagnetic valve 25621 provided on the air bag 221. Thereby, the adjustment device 22 is controlled.
  • the illumination device 23 includes a series of light emitting elements 231 and a light processing element 232.
  • the light emitting element 231 emits light to the light processing element 232.
  • the light emitted by the light-emitting element 231 is processed by the light-treating element 232 to form a light-emitting area with a large light-emitting area and uniform light.
  • the light processing component 232 is embodied as a screen material, similar to a television screen, such that the light-emitting device 23 is embodied as a "light-emitting panel" having uniform light and large illumination area. The advantage of thin.
  • the implementation of the light processing element 232 as a screen material is merely an example and not a limitation of the invention. According to other embodiments of the invention, the light processing element 232 can also be implemented as other materials, such as a transparent module.
  • the present invention is not limited in this regard as long as the object of the present invention can be attained.
  • the thin feature of the light-emitting device 23 is advantageous for the overall shape of the health-care device to be thinner, and the shape thereof is beautiful, and the space is small, compact, portable, and convenient to use.
  • the illuminating device 23 is disposed in a receiving cavity 110 formed by the first housing 11 so as to be received and fixed by the first housing 11.
  • the light-emitting device 23 is electrically connected to the power source 31 through the conductive member 32, so that electric energy can be obtained from the power source 31.
  • the first housing 11 is provided with at least one see-through window 119 so that the light emitted by the light-emitting device 23 is emitted outside the receiving cavity 110.
  • the see-through window 119 is translucent so that light emitted by the light-emitting device 23 can be emitted from the see-through window 119.
  • the see-through window 119 can be provided in various shapes so that the light emitted by the light-emitting device 23 is projected from the see-through window 119 to form a preset pattern, thereby increasing the aesthetics and attractiveness of the health-care device.
  • the illumination device 23 further includes a light reflecting layer 233.
  • the light reflecting layer 233 is disposed on a side opposite to the light processing element 232 with respect to the light emitting element 231, so that when the light emitted by the light emitting element 231 is projected onto the light reflecting layer 233, the light reflecting layer 233 reflects it
  • the light processing element 232 is disposed so that the light processing element 232 processes it such that the light produced by the light emitting device 23 is stronger.
  • the illuminating device 23 can not only generate visible light, but also provide attractive light styling, and can also be used to provide far infrared, LED, blue light and set the material of the light processing component 232 to ceramic, including ⁇ Materials, etc., to care for the user by means of light.
  • the invention is not limited in this regard.
  • the heat source 21 is embodied as a heat generating film 21 disposed on the back side of the light emitting device 23.
  • the first housing 11 includes a housing body 111 and a center housing 112.
  • the case body 111 surrounds the center housing 112.
  • the center housing 112 further has a limiting portion 1121. This is shown in Figure 6A and Figure 7A. If the user uses the health device to care for the user's waist. The user lies flat on the health device, and the waist of the user is disposed on the first housing 11. Specifically, the waist of the user is disposed at the limiting portion 1121 of the center housing 112. During the adjustment of the first housing 11 by the adjusting device 22, the first housing 11 is subjected to the force of the adjusting device 22 to cause the first housing 11 to rise.
  • the first housing 11 applies a force to the waist of the user to lift the waist of the user so that the spine of the user is stretched by the force.
  • the limiting portion 1121 limits the lateral movement of the user's waist to prevent the user's spine from reducing the stretching effect of the spine due to lateral movement.
  • the waist of the user descends with the first casing 11.
  • the limiting portion 1121 of the center housing 112 restricts the lateral movement of the user's waist, thereby avoiding lateral movement of the user's lumbar vertebrae.
  • the limiting portion 1121 is formed by providing a curved surface on the center housing 112. In this way, the limiting portion is adapted to the curve of the human body to improve the comfort in use.
  • the center housing 112 is concave along the cross section of AA as shown in FIG. 3, as shown in FIG. 6A. Shown.
  • the center housing 112 when the human body is lying on the first housing 11, the center housing 112 needs to provide a support for the human body, such as the waist of the human body, in conformity with the shape of the lumbar vertebra. Therefore, the center housing 112 is along the BB as shown. The cross section is convex inward as shown in Fig. 6B.
  • the see-through window 119 is formed in the center housing 112.
  • the housing body 111 and the center housing 112 are separately provided merely as an example and not a limitation of the present invention. According to other embodiments of the invention, they may also be integrally provided for integral connection. The present invention is not limited in this regard as long as the object of the present invention can be attained.
  • the light-emitting device 23 and the heat-generating film 21 are both disposed on the back side of the center housing 112.
  • the heat generating film 21 is disposed away from the center housing 112 relative to the light emitting device 23 to facilitate a more uniform thermal environment on the front surface of the center housing 112, thereby enabling better human body.
  • the human waist is used for care, such as providing hyperthermia.
  • the heat generating film 21 is disposed away from the center housing 112 with respect to the light emitting device 23 merely by way of example and not limitation. According to other embodiments of the present invention, it may also be disposed between the center housing 112 and the heat generating film 21 and provide a function of generating light effects.
  • the heat generating film 21 may also be disposed outside the center housing 112. The present invention is not limited in this regard as long as the object of the present invention can be attained.
  • the shell body 111 includes a first shell body 1111 and a second shell body 1112.
  • the first shell body 1111 and the second shell body 1112 are detachably connected to facilitate installation, disassembly, repair and replacement of components disposed in the accommodating chamber 110.
  • the heat generating film 21 can be electrically connected to the power source 31 by the conductive member 32, so that a heat source of heat can be obtained from the power source 31.
  • the heat generating film 21 is also connected to the heat control module 2561 of the control module 256 so as to be controllable by the heat control module 2561.
  • the illumination device 23 is coupled to the light control module 2563 of the control module 256 so as to be controllable by the light control module 2563.
  • the massage device 24 is embodied as a vibration motor 24 that massages the human body by vibration, and is connected to the first housing 11 to drive the vibration when the vibration
  • the first housing 11 vibrates, and the human body is massaged through the first housing 11.
  • the massaging device 24 is electrically connected to the power source 31 by the conductive element 32 so that energy can be extracted from the power source 31.
  • the massage device 24 is also coupled to the massage control module 2564 of the control module 256 so as to be controllable by the massage control module 2564.
  • control module 25 can also form a power consumption policy according to the power provided by the power supply module 30.
  • the strength of the stretch provided by the adjustment device 22 of the health device may gradually decrease until the power is exhausted.
  • the regulating module 25 can intelligently shorten the working time of the adjusting device 22, thereby ensuring the strength of the stretching action provided by the adjusting device 22, so that the user can still experience the unfolding stretch service when the power is insufficient.
  • control module 256 of the control module 25 of the health device is embodied as a controller.
  • control module 256 is embodied as a controller only as an example and not a limitation of the invention. According to other embodiments of the invention, it may also be provided to the first housing 11. According to other embodiments of the invention, it may also be provided as an electronic device, such as an APP of a mobile phone.
  • the present invention is not limited in this regard as long as the object of the present invention can be attained.
  • the curved shape of the first housing 11 is advantageous for providing good support for the waist and neck of the human body.
  • the health device can be used for both the waist and the neck. In the specific application process, it can not only adjust the function and effect according to different users, but also adjust the function and effect according to different parts of the human body.
  • first housing 11 and the components disposed on the first housing 11 are integrally raised and lowered together is merely an example and not a limitation of the present invention. According to other embodiments of the present invention, it is also possible to set the elevation of the different components to be separately controlled for a more diverse application.
  • the manner in which the adjusting device 22 is disposed at the bottom of the first casing 11 is merely an example and not a limitation of the present invention.
  • the adjustment device 22 can also be arranged in other ways in accordance with other embodiments of the invention.
  • the first housing 11 is divided into two layers, and the adjusting device 22 is disposed between the two layers.
  • the arrangement of the adjustment device 22 as a balloon is also merely an example of the invention and not a limitation. According to other embodiments of the invention, it may also be provided in other ways, such as by means of electromagnetic principles, with hydraulics and with mechanical control. The present invention is not limited in this regard as long as the object of the present invention can be attained.
  • the function of the health device to set hyperthermia, stretch, massage and illuminate is merely an example and not a limitation of the invention. According to other embodiments of the invention, it is also possible to provide other functions, such as increasing the functionality of the electrotherapy. It is worth mentioning that the health device also reserves a function space, so that users can add functions as needed. When the product needs to be upgraded, there is no need to replace the health device as a whole, and only the functional components need to be added. For example, a metal conductive sheet is added to upgrade the health device to a "medium or low frequency" health care device.
  • Figures 8 through 10D of the accompanying drawings illustrate a health device in accordance with a second preferred embodiment of the present invention.
  • the adjustment device 22A of the health device includes a first adjustment device 229A and a second adjustment device 228A.
  • the first adjusting device 229A and the second adjusting device 228A can be adjusted at the same time or can be partially adjusted as needed, that is, only one of them can be adjusted.
  • the first adjusting device 229A drives a first housing 11A of the health device to reciprocate integrally so as to be adapted to stretch the waist of a person.
  • the second adjusting device 228A drives the center housing 112A of the first housing 11A of the health device to reciprocate so that the neck of the human body can be stretched.
  • the first adjustment device 229A and the second adjustment device 228A can also function simultaneously to increase the adjustable amplitude of the intermediate region.
  • FIG. 13 of the accompanying drawings illustrates a health care system in accordance with the present invention that includes at least one health device 1000 and a health platform 2000.
  • the health device 1000 can upload the health parameters of the collected users to the health platform 2000 to share the data. These data can be obtained by other health facilities such as health facilities or hospitals through the health platform to better provide health services for users.
  • the health device 1000 can also obtain health data provided by other health devices, hospitals or some health institutions from the health platform 2000, thereby starting up.
  • a health program that adapts to the individual needs of the user.
  • the "Health Platform” refers to a module that can acquire, store, process and export health data.
  • the user uses the wellness device 1000 of the present invention in a lying position.
  • the health device 1000 is placed at the waist of the user. It is worthwhile to relax the user's body when using the lying position to improve the effect of using the health device of the present invention.
  • the adjustment device 22 drives the first housing 11 to rise. After the adjusting device 22 drives the first housing 11 to rise to a predetermined threshold, the adjusting device 22 stops driving the first housing 11 to rise. During the ascent of the first housing 11, the user's waist is integrally raised to increase the bow of the user's lumbar spine. The adjusting device 22 reduces the driving force to cause the first housing 11 to descend.
  • the waist of the user as a whole is lowered with the first housing 11, and the bow of the user's lumbar vertebra is reduced.
  • the adjusting device 22 stops reducing the driving force.
  • the adjusting device 22 drives the first housing 11 to rise, the waist of the user is integrally raised, and the lumbar curvature of the user is increased.
  • the adjusting device 22 stops driving the first housing 11 to rise.
  • the adjusting device 22 reduces the driving force to lower the first casing 11, and the waist of the user integrally descends with the first casing 11, and the bow of the user's lumbar vertebra is reduced.
  • the adjusting device 22 stops reducing the driving force. In this manner, the adjustment device 22 drives the first housing 11 to reciprocate up and down to cause the user's lumbar curvature to change, thereby performing bowing health on the user's lumbar spine. Further, during the process in which the adjusting device 22 drives the first housing 11 to reciprocate, the waist muscle of the user is also exercised.
  • the control module 254 controls the adjustment device 22 to adjust the driving force. Specifically, the control module 254 controls the adjustment device 22 to provide a driving force to lift the first housing 11. The control module 254 controls the adjustment device 22 to reduce the provided driving force to cause the first housing 11 to descend. It is worth mentioning that after the adjusting device 22 drives the first housing 11 to rise to the preset threshold, the control module 254 can control the adjusting device 22 to continue to increase the driving force. The waist of the user is raised by the first housing 11. The bow of the user's lumbar spine is further increased. The control module 254 controls the adjustment device 22 to increase the driving force according to an extended threshold.
  • the control module 254 controls the adjusting device 22 to stop increasing the driving force.
  • the control module 254 controls the adjustment device 22 to reduce the driving force to the preset threshold.
  • the waist of the user descends with the first housing 11.
  • the lumbar vertebrae of the user is restored to the lumbar curvature of the adjustment device 22 that drives the first housing 11 to rise to the predetermined threshold.
  • the control module 254 controls the adjusting device 22 to increase the driving force so that the waist of the user is lifted with the first housing 11.
  • the user's waist is raised.
  • the user's lumbar curvature is increased.
  • the control module 254 controls the adjusting device 22 to stop increasing the driving force.
  • the control module 254 controls the adjustment device 22 to reduce the driving force to the preset threshold.
  • the waist of the user descends with the first housing 11.
  • the lumbar curvature of the user is restored to the lumbar curvature of the adjustment device 22 that drives the first housing to rise to the predetermined threshold.
  • the health device 1000 of the present invention provides extended bow health.
  • the bow health provided by the health device 1000 of the present invention comprises two stages, one of which is a regular health stage and the other is an extended bow health stage.
  • the control module 254 controls the adjustment device 22 to provide a driving force to raise the first housing 11 to the predetermined threshold. The user's lumbar curvature is increased. Then, the control module 254 controls the adjustment device 22 to reduce the supply of the driving force to cause the first housing 11 to descend to the initial state. The user's lumbar curvature is restored to the initial state.
  • the extended bow health phase the user's lumbar curvature reaches the maximum during the normal health phase.
  • the control module 254 controls the adjusting device 22 to provide a driving force to raise the first housing 11 to the preset threshold.
  • the control module 254 controls the adjustment device 22 to continue to provide a driving force to cause the first housing 11 to continue to rise.
  • the user's lumbar spine continues to increase.
  • the control module 254 controls the adjusting device 22 to stop increasing the driving force.
  • the control module 254 controls the adjustment device 22 to reduce the driving force to the preset threshold.
  • the waist of the user descends with the first housing 11.
  • the lumbar vertebrae of the user is restored to the lumbar arch that the adjustment device 22 drives the first housing 11 to rise to the predetermined threshold degree.
  • the first housing 11 is lifted less than the conventional bow fitness phase. That is to say, the user's lumbar vertebrae adjustment range is less than that of the user's lumbar vertebrae during the extended bow health stage.
  • the gap between adjacent vertebrae has been increased to some extent.
  • the extended bow health phase after the gap between adjacent two spines has been increased to a certain extent, the first continues to increase the gap between adjacent two spines.
  • the first housing 11 is raised to the extended threshold, the first housing 11 is lowered to the predetermined threshold. The gap between adjacent two vertebrae is reduced.
  • the first housing 11 reciprocates between a preset threshold and an extended threshold to relax the adjacent two vertebrae in such a manner as to facilitate the health of the spine.
  • control module 254 controls the adjustment device 254 to provide a rhythm of the driving force. Specifically, the control module 254 controls the adjustment device to rhythmically provide the driving force to cause the first housing to be lifted. The control module 254 controls the adjustment device to rhythmically reduce the providing of the driving force to cause the first housing to descend. It is worth mentioning that the control module 254 controls the adjustment device 22 to change the tempo of providing the driving force. The control module 254 controls the adjustment device 22 to drive using different cadences, respectively, during the normal wellness phase and the extended bow health phase. It is worth mentioning that the control module 254 further controls the adjustment device 22 to provide a conversion tempo of the driving force.
  • control module 254 controls the adjustment device 22 to provide a transition of the driving force to the time during which the adjusting device 22 reduces the driving force, and the adjusting device 22 maintains the driving force. That is, the adjustment device 22 further has a process of maintaining the driving force in the process of the adjustment device 22 from the supply of the driving force to the conversion to the reduction of the driving force.
  • the adjustment device 22 is implemented as the air bag 221 and the inflation module 222.
  • the control module 254 controls the inflation module 222 to inflate the airbag 221 to expand the airbag to generate a driving force, thereby driving the first housing 11 to rise.
  • the control module 254 controls the inflation module 222 to stop inflating the airbag 221.
  • the control module 254 then controls the inflation module 222 to deflate the air bag 221 to cause the air bag 221 to be reduced, thereby reducing the driving force.
  • the first housing 11 is lowered.
  • the control module 254 controls the inflation rhythm of the inflation module 222 to the airbag 221.
  • the control module 254 controls the deflation rhythm of the inflation module 222 to the air bag 221.
  • the control module 254 controls the inflation module 222 to change to the air bag 221. It is worth mentioning that the adjusting device 22 can provide the driving force electromagnetically or mechanically.
  • the adjustment module 255 adjusts the control module 254 such that the control module 254 controls the heat source 21 and the adjustment device 22 to work in cooperation. For example, when the health device 1000 is just starting to work, if the current temperature is low, which is not conducive to health through the health device 1000, the adjustment module 255 adjusts the control module 254 to cause the control module 254 to control the heat source 21 to start working. The temperature is high so that the temperature is suitable for the health of the waist muscles. Then, the adjustment module 255 adjusts the control module 254 to control the adjustment device 22 to provide a driving force. The first housing 11 is raised. The user's waist is raised. The user's spine is increased.
  • the control module 254 controls the adjusting device 22 to reduce the driving force, and the first housing 11 is lowered.
  • the adjustment module 255 adjusts the control module 254 to control the heat source 21 to maintain temperature to facilitate bow health. That is, if the temperature is higher than the temperature suitable for health, the adjustment module 255 adjusts the control module 254 to control the heat source 21 to stop controlling heating. If the temperature is too low, the adjustment module 255 adjusts the control module 254 to control the heat source 21 to supply heat to increase the temperature.
  • the adjustment module 255 adjusts the control module 254 to control the illumination device 23 to emit light, thereby performing photo-care on the waist skin.
  • the light source generated by the light-emitting device 23 illuminates the skin of the user, and provides beauty to the waist skin.
  • the adjustment module 255 adjusts the control module 254 to control the illumination intensity of the illumination device 23 to emit light.
  • the adjustment module 255 adjusts the control 254 to control the heat source and the illumination device 23 to work together to establish a healthy environment suitable for bow health.
  • the adjustment module 255 adjusts the control module 254 to separately control the heat source 21, the illumination device 23, and the adjustment device 22 to cooperate to enable the adjustment device 22 to perform bow health in the health environment.
  • the heat source 21 can be implemented as a heat generating film or a heating wire.
  • the body parameter monitoring module 2512 is capable of monitoring parameters such as the body temperature, the myoelectric signal of the body, and the like.
  • the body parameter monitoring module 2512 sends the body temperature adjustment module 255.
  • the adjustment module 255 adjusts the control module 255 according to the body temperature to control the heat source 21 to adjust the temperature. Specifically, the adjustment module 255 analyzes the body temperature. If the body temperature is lower than a temperature suitable for bow health, the adjustment module 255 adjusts the control module 254 to control the heat source 21 to supply heat to provide temperature. If the body temperature is higher than a temperature suitable for bow health, the adjustment module 254 adjusts the control module 254 to control the heat source 21 to stop heating to lower the temperature.
  • the adjustment module 254 can obtain a temperature suitable for bow health by analyzing the myoelectric signal of the body and the body temperature. That is, in the process of performing the bow health, the adjustment module 254 adjusts the control module by analyzing the electromyogram information of the body, the body temperature, the pressure data transmitted by the pressure sensor, and the illumination intensity of the illumination device 23. 254 controls the adjustment device 22, the heat source 21, and the illumination device 23 to work in cooperation. Further, the adjustment module 255 adjusts the control module 254 to control the massage device 24 to cooperate with the adjustment device 22, the heat source 21 and the illumination device 23.
  • the wellness platform 2000 communicatively connects the health device 1000. Specifically, the health platform 2000 is communicatively coupled to the data interaction module 253. The adjustment module 255 sends the received body temperature data, the body myoelectric signal, the pressure data, and/or the illumination intensity to the health platform 2000 via the data interaction module 253.
  • the health platform 2000 is configured to receive and store at least one user data.
  • the user data includes the body temperature data, the body myoelectric signal, the pressure data, the light intensity, and/or the time the user performed the bow health. If the user transmits the user data of the user to the health platform 2000 through the health device 1000, the health platform 2000 selects a plurality of user data according to the user data for processing, and generates an initialization environment data.
  • the initialization environment data is sent to the health device 1000 by the health platform 2000.
  • the initialization environment data is transmitted to the adjustment module 255 through the data interaction module 253.
  • the adjustment module 255 adjusts the control module 254 according to the initialization environment data to respectively control the heat source 21, the adjustment device 22, the illumination device 23 and the massage device 24 to work together. It is worth mentioning that the adjustment module 255 adjusts the control module 254 according to the initialization environment data to respectively control the heat source 21 and the illumination device 23 to form the health environment.
  • the adjustment module 255 separately acquires the received body temperature data, the body myoelectric signal, the pressure data, and/or the illumination intensity for analysis. After the analysis, the adjustment module 255 adjusts the control module 254 according to the analysis result to respectively control the heat source 21, the adjustment device 22, the illumination device and the massage device 24 to cooperate to facilitate the bow health.
  • the user further obtains the physical data of the user by means of X-ray, B-ultrasound, CT, nuclear magnetic resonance and the like.
  • the body data is transmitted to the health platform 2000, which analyzes the user's body data to determine the physiological curvature of the user's spine.
  • the wellness platform 2000 includes the physiological bow of the spine in the initialization environment data.
  • the adjustment module 255 analyzes the initialization environment data to obtain the physiological bow of the spine.
  • the adjustment module 255 adjusts the control module 254 to control the adjustment device 22 to provide a driving force to lift the first housing 11.
  • the user has a lumbar vertebrae raised to a physiological degree by lifting the first housing 11.
  • the adjustment module 255 adjusts the control module 254 to control the adjustment device 22 to continue to provide a driving force to continue lifting the first housing 11.
  • the user's lumbar spine has an increased bow.
  • the adjustment module 255 adjusts the control module to control the adjustment device 22 to reduce the driving force, and the first housing 11 is lowered to cause the lumbar curvature to decrease.
  • the adjustment module 255 adjusts the control module 254 to stop reducing the driving force.
  • the adjustment module 255 adjusts the control module 254 to provide a force to cause the first housing 11 to rise, and the lumbar curvature increases from the physiological bow.
  • the bow health further includes a physiological bow stage.
  • the adjustment device 22 adjusts the control module 254 to control the adjustment device 22 to provide a driving force to cause the first housing 11 to be lifted.
  • the user's physiological bow is used as the adjustment device 22 to adjust the control module 254 to control the adjustment device 22 to perform an initial value of conventional bow health.
  • the health platform 2000 provides monitoring of the health device 1000 for bow health. That is to say, during the process of performing bow health, the health platform 2000 adjusts the health device 1000 based on the body temperature data, the body myoelectric signal, the pressure data, and/or the light intensity.
  • the Ming Kangjian device 10B includes a driving portion 12B and a health portion 11B.
  • the driving portion 12B drives the health portion 11B to reciprocate to provide bow health.
  • the drive unit 12B intermittently drives the health unit 11B.
  • the driving portion 12B rhythmically drives the health portion 11B.
  • the drive unit 12B is provided on one side of the health part 11B.
  • the driving portion 12B is disposed below the health portion 11B.
  • the health device 10B of the present invention is used for back health.
  • the health device 10B of the present invention is used for the health of the waist or neck.
  • the body part that the user contacts with the health part 11B is defined as the health part of the user.
  • the healthy part of the user is the waist and the neck.
  • the bow health refers to the effect of intermittently adjusting the force to relax the adjacent two vertebrae.
  • the bow health is used for the lumbar spine. The rhythmically acts on the lumbar adjustment force to relax the adjacent two lumbar vertebrae. The bow health is also used in the cervical spine. The rhythmically acts on the cervical vertebra adjustment force to relax the adjacent two cervical vertebrae.
  • the health device 10B of the present invention is used to perform health care for the waist of the user.
  • the driving portion 12B intermittently drives the health portion 11B such that the health portion 11B intermittently adjusts the force to the waist of the user.
  • the driving unit 12B drives the wellness unit 11B to apply a force to the waist of the user.
  • the driving portion 12B gradually increases the driving force, the wellness portion 11B is driven to apply a force to the waist of the user.
  • the waist of the user is raised to increase the bow of the user's lumbar spine.
  • the driving portion 12B adjusts the generated driving force such that when the driving force is smaller than the gravity received by the user's waist, the waist of the user is lowered to reduce the bow of the user's lumbar vertebrae.
  • the driving portion 12B intermittently increasing the driving force and reducing the driving force, the health portion 11B is intermittently raised and lowered to increase and decrease the waist column of the user at intervals, thereby enabling the user The waist is bowed and healthy.
  • the driving portion 12B intermittently driving the health portion 11B means that the driving portion 12B is intermittently switched between increasing the driving force and reducing the driving force. That is, the driving force is intermittently adjusted by the driving portion 12B, and the driving portion is driven to reciprocate by the health portion. Specifically, the driving portion 12B is converted into a process of reducing the driving force after the process of increasing the driving force is completed; the driving portion 12B is converted into a process of increasing the driving force after the process of reducing the driving force is completed. It is worth mentioning that between the process of increasing the driving force and the process of reducing the driving force, the driving portion further provides a process of maintaining the driving force.
  • the driving portion 12B maintains the driving force.
  • the wellness portion 11B supports the waist of the user to maintain the bow of the lumbar spine for a predetermined period of time. After a predetermined period of time, the driving portion 12B reduces the driving force, and the health portion 11B is lowered to reduce the bow of the user's lumbar vertebrae.
  • the period in which the driving portion 12B maintains the driving force can be set.
  • the maximum value at which the driving portion 12 provides the driving force can be set. It is worth mentioning that in the process of gradually increasing the lumbar vertebrae of the user, the interval between adjacent two lumbar vertebrae is gradually increased.
  • the user's lumbar spine is stretched. That is to say, the effect of the interval on the lumbar vertebrae changing force is such that the user's lumbar vertebra gradually adapts to the interval of the adjacent two lumbar vertebrae, which helps the user's lumbar vertebrae to restore the physiological bow. Similarly, the bow health is also applicable to the cervical spine.
  • the driving portion 12B adjusts the force intermittently, and the driving portion further controls the adjustment gap so that the interval forms a rhythm. Further, the driving portion 12B forms a driving tempo by controlling the speed at which the driving force is switched. That is to say, the driving portion 12B controls the increase of the driving force to be converted into the speed at which the driving force is reduced to form the driving tempo.
  • the driving portion 12B forms a driving tempo by controlling the adjustment speed of the driving force. Specifically, the driving portion 12B controls the speed at which the driving force is increased and/or the speed at which the driving force is reduced to form a driving tempo.
  • the driving rhythm is controlled by the driving unit 12B, and the rhythm of the reciprocating motion of the health part 11B is also controlled, and further, the rhythm of the user's lumbar spine is controlled.
  • the driving portion 12B drives the health portion 11B by air pressure.
  • the driving portion 12B further includes a gas adjusting device 121B and an elastic covering 122B.
  • the elastic cover 122B is disposed at a bottom of the health portion 11B.
  • the edge of the elastic cover 122B is sealingly connected to the bottom of the health portion 11B to form a gas between the bottom of the health portion 11B and the elastic cover 122B.
  • the health portion 11B further has a housing chamber 111B.
  • the accommodating chamber 111B is located inside the health portion 11B.
  • the gas accommodating portion 1221B is formed outside the health portion 11B.
  • the gas accommodating portion 1221B and the accommodating chamber 111B are respectively disposed on both sides of the bottom portion of the health portion 11B.
  • the gas adjusting device 121B communicates with the gas housing portion 1221B.
  • the gas adjusting device 121B is disposed inside the accommodating chamber 111B.
  • the gas adjusting device 121B adjusts the gas capacity of the gas containing portion 1221B.
  • at least one through hole 1113B is provided in the bottom of the health part 11B.
  • the gas adjusting device 121B communicates with the gas accommodating portion 1221B through the through hole 1113B.
  • the gas adjusting device 121B supplies the gas to the gas accommodating portion 1221B such that the gas accommodating portion 1221B is filled with gas.
  • the gas adjusting device 121B extracts gas from the gas containing portion 1221B to discharge the gas of the gas containing portion 1221B.
  • the gas regulating device 121B adjusts the capacity of the gas in the gas containing portion 1221B to adjust the air pressure of the gas containing portion 1221B, thereby adjusting the driving portion 12B to supply the driving force to the health portion 11B.
  • the bottom of the health part 11B has a connecting groove 1112B.
  • the elastic cover 112B is sealingly coupled to the connection groove 1112B.
  • an edge of the elastic covering 112B is sealingly connected to the connecting groove 1112B to form the gas receiving portion 1221B.
  • the elastic covering 112B has good airtightness. That is, the gas containing portion 1221B formed by the elastic covering 112B has good airtightness.
  • the elastic cover 122B can be implemented as an air bag 122C.
  • the air bag 122C has a gas receiving portion 1221C and a connecting port 1222C.
  • the connection port 1222C is in communication with the through hole 1113B.
  • the gas adjusting device 121B communicates with the through hole 1113B.
  • the gas adjusting device 121B communicates with the connecting port 1222C through the through hole 1113B.
  • the gas adjusting device 121B communicates with the gas receiving portion 1221C through the through hole 1113B and the connecting port 1222B'.
  • the gas adjusting device 121B communicates with the gas containing portion 1221C to adjust the capacity of the gas containing portion 1221C.
  • the user can adopt a lying posture or a sitting posture. If the user is in a lying position, such as lying on a bed, the health device 10B is placed under the waist such that the health device 10B supports the user's waist. The health device 10B can also be placed under the neck. Preferably, the health device 10B is placed horizontally on the waist or neck of the user.
  • the health device 10B When the health device 10B is in use, the health device 10B is placed on a support member. If the user is lying on the support member using the health device 10B, the support member supports the health device 10B. If the user sits on a chair and uses the wellness device 10B, the seat back serves as the support member for supporting the wellness device 100. That is to say, the health device of the present invention is suitable for a healthy posture in a lying position or a sitting position.
  • the health device 10B is used as an example in which the user uses the lying position.
  • the bottom of the health device 10B is placed horizontally on the support element.
  • the support element supports the health device 10B.
  • the elastic cover 122B is in contact with the support member.
  • the gas adjusting device 121B inflates the gas containing portion 1221B. After the gas containing portion 1221B is filled with the gas, the gas capacity of the gas containing portion 1221B is continuously increased. The gas pressure of the gas containing portion 1221B is gradually increased. Gas is applied to the health portion 11B and the elastic cover 122B, respectively. However, the supporting member blocks the gas accommodating portion 1221B from expanding toward the supporting member, so that the gas accommodating portion 1221B is used to expand in the direction of the health portion 11B. That is, the air pressure of the gas accommodation portion 1221B is used as the driving force.
  • the health portion 11B moves in a direction away from the support member.
  • the health part 11B is pushed away from the initial position. If the health portion 11B is in contact with the waist of the user, the health portion 11B exerts a force on the waist of the user to cause the user's lumbar spine to be subjected to a force. After the user's lumbar spine is subjected to a force, the user's lumbar vertebra moves in a direction away from the support member as the health portion 11B moves away.
  • the user's lumbar spine has an increased bow.
  • the user's lumbar vertebrae have an increased bow, resulting in an increase in the lumbar intervertebral space. Further, the lumbar muscles are also passively exercised.
  • the gas adjusting device 121B sets an inflation preset value. After the gas regulating device 121B reaches the inflation preset value by the amount of the gas supplied to the gas accommodating portion 1221B, the gas adjusting device 121B stops supplying the gas to the gas accommodating portion 1221B. At this time, the health part 11B stops moving.
  • the gas contained in the gas accommodating portion 1221B applies a force to the health portion 11B to support the current position at which the health portion 11 stays.
  • the health part 11B supports the waist of the user.
  • the user's lumbar spine is maintained at the current bow.
  • the user's waist muscles are stretched in such a way that the user's waist The muscles are also getting exercise.
  • the gas adjusting device 121B further adjusts the gas capacity of the gas containing portion 1221B to adjust the driving force provided by the gas containing portion 1221B by reducing the gas capacity of the gas containing portion 1221B.
  • the gas capacity of the gas storage portion 1221B is reduced, and the force applied by the gas to the health portion 11B is reduced.
  • the driving force of the health part 11B for providing the waist of the user is reduced.
  • the gas adjusting device 121B further controls the speed at which the gas capacity of the gas containing portion 1221B is adjusted. Specifically, the gas adjusting device 121B further controls the charging speed and/or the pumping speed of the gas containing portion 1221B to form the driving tempo by controlling the charging speed and/or the pumping speed of the gas containing portion 1221B. Further, the gas adjusting device 121B further controls the switching speed from the inflation to the pumping of the gas housing portion 1221B and/or the switching speed from the pumping to the charging to control the driving rhythm. Further, the gas adjusting device 121B controls the amount of gas of the gas containing portion 1221B to maintain the driving force provided.
  • the gas adjusting device 121B is further provided with a gas supplement preset value. After the gas capacity of the gas accommodating portion 1221B reaches the gas replenishment preset value, the gas adjusting device 121B supplies the gas to the gas accommodating portion 1221B.
  • the health part 11B stops moving to the support element. When the force of the gas contained in the gas pocket inner portion 1221B applied to the health portion 11B is greater than the force applied to the health portion by the waist of the user, the health portion 11B moves in a direction away from the support member. The user's vertebrae are increased, resulting in an increase in the gap between the two vertebrae. The two adjacent vertebrae are relaxed.
  • the gas adjusting device 121B controls the gas to flow out of the body housing portion 1221B.
  • the health portion 11B receives less force from the gas, and the force received by the user's waist is reduced.
  • the bow of the user's spine is lowered and the gap between the two vertebrae of the user is reduced.
  • the amount of gas contained in the gas accommodating portion 1221B is repeatedly adjusted by the gas adjusting device 121B, and the health portion 11B reciprocates to adjust a force applied to the lumbar vertebra of the user, thereby causing a gap between the two lumbar vertebrae of the user. Constant change.
  • the gap between the two lumbar vertebrae is constantly changed, so that the lumbar vertebrae are exercised, so that the lumbar vertebrae adapt to the gap between the lumbar vertebrae.
  • the user's waist muscles are also exercised. It is worth mentioning that by adjusting the way the user applies the waist, the user's waist is prevented from dealing with a state for a long time. For example, the user's lumbar vertebrae are subjected to a force for a long time so that the user's lumbar vertebrae are maintained at a large gap. Maintaining the posture as shown in Fig. 12B for a long time may cause damage to the lumbar spine. Further, it is also possible to damage the waist muscles.
  • the health device 10B further includes a control module 13B.
  • the control module 13B communicatively connects the gas regulating device 121B.
  • the control module 13B controls the gas regulating module 121B to adjust the gas capacity of the gas containing portion 1221B.
  • the control module 13B controls the gas regulating module 12B to supply gas to the gas housing portion 1221B at intervals. Further, the control module 13B controls the gas regulating module 12B to supply gas to the gas housing portion 122 rhythmically.
  • the control module 13B controls the gas conditioning module 12 to rhythmically extract the gas.
  • the control module 13B controls the force received by the health portion 11B, thereby controlling the force applied by the health portion 11B to the waist of the user to prevent the user's waist from being Maintained in a state for a long time.
  • the control module 13B controls the height of the health portion 11B.
  • the health part 11B moves to the support element.
  • the force received by the health part 11B increases, the health part 11B moves to the waist of the user. In this manner, the health portion 11B applies a force to the waist of the user to change the bow of the user's lumbar spine.
  • control module 13B sets an exercise range.
  • the exercise range means that the control module 13B changes the force received by the user's waist within a certain range by controlling the gas adjustment module 121B for a predetermined period of time, thereby causing the user's lumbar spine bow. Degrees vary within a certain range.
  • the user's waist is exercised to accommodate changes in lumbar curvature.
  • the user's waist muscles are also exercised within the range of exercise. That is, the control module 13B controls the gas adjusting device 121B so that the health portion 11B can intermittently apply a force to the user.
  • the control module 13B passes the control The gas adjusting device 121B is formed such that the health portion 11B rhythmically exerts a force on the user.
  • the health device 10B further includes at least one detection element 14B.
  • the detecting element 14B is communicatively coupled to the control module 13B.
  • the detecting element 14B further includes at least one pressure sensor 141B.
  • the pressure sensor 141B is provided in the health part 11B.
  • the pressure sensor 141B can detect the pressure applied by the health part 11B to the waist of the user.
  • the pressure sensor 141B is also operable to detect the pressure applied by the user to the health device 10B.
  • the pressure sensor 141B is disposed in the accommodating chamber 111B of the health portion 11B.
  • the detecting element 14B further includes at least one air pressure sensor 142B.
  • the air pressure sensor 142B is for detecting the pressure of the gas containing portion 1221B.
  • the pressure sensor 141 may be disposed in the gas housing portion 1221B.
  • the control module 13B obtains the pressure applied to the health portion 11B by the user's waist.
  • the control module 13B obtains the pressure of the gas in the gas containing portion 1221B.
  • the control module 13B controls the gas adjusting device 121B to adjust the gas capacity of the gas receiving portion 1221B according to the pressure applied to the health portion 11B of the user's waist and the pressure of the gas in the gas receiving portion 1221B. Thereby, the pressure supplied from the gas containing portion 1221B is adjusted.
  • the detecting element 14B further includes at least one myoelectric sensor 143B, which is disposed in the health portion 11B.
  • the myoelectric sensor 142B is provided on the surface of the health portion 11B.
  • the elastic cover 122B and the myoelectric sensor 143B are respectively disposed on both sides of the health part 11B.
  • the myoelectric sensor 143B is for acquiring electromyographic data with the healthy part of the user.
  • the myoelectric sensor 143B acquires an electromyographic signal generated by the user's lumbar muscles.
  • the myoelectric sensor 143B acquires the myoelectric signal of the user by the user's waist skin contacting the myoelectric sensor 143B.
  • the detecting element 14B further includes a temperature sensor 144B.
  • the temperature sensor 144B is provided on the surface of the health part 11B. If the skin of the healthy part of the user is in contact with the temperature sensor 144B, the temperature sensor 144B obtains the temperature of the skin of the healthy part of the user.
  • the myoelectric sensor 142B transmits the acquired myoelectric signal to the control module 13B.
  • the control module 13B obtains the lumbar muscle state of the user by analyzing the myoelectric signal. Further, by analyzing the myoelectric signal, the control module 13B obtains the lumbar state of the user.
  • the control module 13B controls the gas adjusting device 121B to adjust the gas capacity of the gas containing portion 121 in accordance with the lumbar state, thereby controlling the force applied by the health portion 11B to the waist of the user.
  • control module 13B adjusts the volume of the gas of the gas receiving chamber through the gas adjusting device 121B according to the lumbar state and/or the lumbar state of the user, thereby controlling the health portion 11B to be applied to the user. force.
  • the user detects the waist state of the user and/or the lumbar state in real time when using the health device 10 for health, in order to obtain a better use effect.
  • the health device 10B further includes at least one health environment former 16B.
  • the wellness environment former 16B forms the wellness environment 119B.
  • the wellness environment former 16B is disposed in the middle of the wellness portion 11B.
  • the wellness environment former 16B controls the supply of thermal energy to form a thermal environment. That is, the wellness environment former 16B regulates the temperature of the thermal environment by controlling the supply of thermal energy.
  • the control module 13B is communicatively coupled to the health environment former 16B. That is, the control module 13B adjusts the temperature of the wellness environment 119B through the health environment former 16B.
  • the wellness environment former 16B further includes at least one heat source device 161B.
  • the heat source device 161B generates thermal energy.
  • the control module 13B communicatively connects the heat source device 161B. That is, the control module 13B controls the temperature of the wellness environment 119B by controlling the heat source device 161B. For example, before the health device 10B is used to perform bow health, the control module 13B controls the heat source device 161B to generate heat. In one aspect, the temperature of the wellness environment 119B is altered to facilitate health. On the other hand, the feeling of discomfort generated when the user's healthy part is in contact with the health part 11B is eliminated, and the user experience is improved. Further, adjusting the temperature of the health environment 119B is advantageous for shortening the time required for the preparation activity of the lumbar muscles, thereby improving the efficiency of the user's bow health.
  • the heat source device 161B is implemented as the heat generating device 1611B, for example, Heating film or heating wire.
  • the wellness environment former 16B further includes at least one light source device 162B.
  • the light source device 162B is communicably connected to the control module 13B.
  • the control module 13B controls the light source device 162B to emit light to form a light environment. That is, the illumination intensity of the light environment of the wellness environment is controlled by the control module 13B.
  • the light environment of the health environment 119B acts on the skin of the healthy part of the user to perform light health on the skin of the health part of the user. That is to say, the light generated by the light source device 162B acts on the skin of the healthy part of the user to perform light health on the skin of the healthy part of the user.
  • the light source device 162B further includes at least one light source 1621B and at least one light transmitting device 1622B.
  • the light transmitting device 1622B covers the respective light sources 1621B. Light generated by each of the light sources 1621B is irradiated through the light transmitting means 1622B to form the light environment.
  • the light transmitting device 1622B is further provided with a high transmittance color conversion layer to set the light transmitting device 162B to obtain a desired color light as needed. Such as absorption of blue light, light green light. Or only allow red light to pass through.
  • the light transmissive device 1622B can further process the transmitted light to enable the transmitted light to be illuminated to a greater extent.
  • the light transmitting device 1622B provides a light transmitting process.
  • the heat source device 161B is disposed between the light source 1621B and the light transmitting device 1622B.
  • the heat generating film 161B is provided between each of the light sources 1621B and the light transmitting means 1622B.
  • the light transmissive device 1622B is disposed on top of the health environment former 16B. The healthful portion of the user can be in contact with the light transmissive device 1622B.
  • the heat generating film 1611B is fixedly disposed below the light transmitting device 1622B.
  • Each of the light source devices 1621B is disposed below the heat generating film 1611B.
  • the heat generating film 1611B is disposed in a preset shape such that the light generated by each of the light sources 1621B passes through the light transmitting device 1622B and is presented in a preset shape. It is worth mentioning that the heat generating film 161B can be alternatively implemented as a heating wire. It is worth mentioning that the control module 13B controls the heat source device 161B and the light source 1621B, respectively, so that the light source 1621B can serve as an auxiliary heat source for forming the thermal environment.
  • Fig. 16A shows the health device 10B taken along the A-A section shown in Fig. 18.
  • both end portions of the health portion 11B are gradually lowered toward the middle portion of the health portion 11B to form a stopper portion 118B in the middle portion of the health portion 11B.
  • the health department 11B further includes a limit portion 118B.
  • the limiting portion 118B is disposed at the top of the wellness environment former 16B. If the user's waist is placed behind the limit portion 118B, the user's waist is restricted from moving horizontally. In this manner, when the user performs bow health, the user's waist is prevented from moving horizontally, thereby facilitating maintenance of the user's waist at the limit portion 118 for health.
  • Fig. 16B shows the health device 10B taken along the line B-B shown in Fig. 18.
  • the middle portion of the health portion 11B is gradually lowered toward both sides of the health portion to form a curved surface.
  • the curved surface is adapted to the curve of the user's healthy part.
  • the curved surface is adapted to the physiological curve of the user's waist.
  • the top of the wellness environment former 16B is lowered from the middle to the sides. In this manner, the health device 10B can be attached to the curved surface when the health device 10B is in use.
  • the wellness device 10B further includes at least one massage device 17B.
  • the massage device 17B is communicably coupled to the control module 13B.
  • the control module 13B controls the massage device 17B to provide a massage environment. That is to say, the wellness environment further provides a massage environment.
  • This massage device 17B is provided in the health part 10B.
  • the massage device 17B provides massage in a vibrating manner. That is, the control module 13B provides massage to the wellness environment 119B by controlling the massage device 17B. It is worth mentioning that before the user performs the bow health, the control module 13B controls the massage device 17B to provide a massage to shorten the adaptation time of the user's healthy part before the bow health.
  • the massaging device 17B when the bowing health is performed on the healthy part of the user, the massaging device 17B simultaneously provides a massage to cause the wellness environment 119B to accompany the massage while performing the bow health.
  • the massaging device 17B is implemented as the vibration motor.
  • the massage device 17B is disposed in the accommodating chamber 111B.
  • the health device 10B further provides at least one magnetic element 19B.
  • the magnetic element 19B provides a magnetic health environment.
  • the magnetic element 19B is provided in the health part 10B. That is, the wellness environment 119B further provides a magnetic environment. Magnetic health is provided by this magnetic environment. Bowing at the user Degree health, can perform magnetic health in this magnetic environment at the same time.
  • the magnetic element 19B is disposed in the middle of the surface of the health environment generator 16B.
  • the magnetic member 19B is disposed in the middle of the surface of the light transmitting device 1622B.
  • the health device 10B further includes at least one energy supply device 18B.
  • the energizing device 11 is electrically connected to the driving device 12B, the control module 13B, the detecting element 14B, the health environment former 16B, and the massage module 17B, respectively.
  • the energizing device 18B is capable of providing electrical energy.
  • the energizing device 18B is implemented as a power source or as a battery.
  • the energizing device 18B is disposed in the accommodating chamber 111B.
  • the health device 10B further includes at least one control terminal 15B.
  • the control terminal 15B is communicably connected to the control module 13B.
  • the user controls the health device 10B via the control terminal 15B.
  • the control terminal 15B can communicatively connect the control module 13B in a wireless manner or in a wired manner.
  • the health portion 11B further includes a housing case 112B and a top cover 113B.
  • the edge of the accommodating case 112B is connected to the edge of the top cover 113B to form the accommodating cavity 111B inside the accommodating case 112B and the top cover 113B.
  • the edge of the storage case 112B is coupled to the edge of the top cover 113B.
  • the energy supply device 18B, the control module 13B, the gas adjustment device 121B, and the massage device 17B are fixedly placed in the housing case 112B.
  • the wellness environment former 16B is provided in the storage case 112B.
  • the wellness environment former 16B is disposed in the middle of the storage case 112B.
  • the top cover 113B further has a health environment forming hole 1131B.
  • the health environment forming hole 1131B is disposed in the middle of the top cover 113B.
  • the wellness environment former 16B is embedded in the health environment forming hole 1131B.
  • the wellness environment 119B formed by the wellness environment generator 16B can be extended to the surface of the top cover 113B.
  • the health environment generator 16B is embedded in the health environment forming hole 1131B, and the surface of the top cover 113B is located on the same curved surface as the surface of the top of the health environment generator 16B.
  • the through hole 113B is provided at one side of the health environment generator 16B.
  • the body adjustment device 121B is disposed on the same side as the through hole 113B.
  • the massage device 17B and the gas adjusting device 121B are respectively disposed on both sides of the health environment generator 16B.
  • the light transmitting device 1622B further has a spacing groove 16221B.
  • the spacer groove 16221B divides the light transmitting device 1622B into two sub-transmissive devices 16222B. That is, the light transmitting device 1622B further includes at least one spacing groove 16221B and at least two sub-transmissive devices 16222B disposed between the two sub-transmissive devices 16222B. That is to say, a spacing groove 16221B is disposed between the adjacent two sub-transmissive devices 16222B. At least one of the light sources 1621B is disposed correspondingly below each of the sub-light transmitting devices 16222B.
  • the illumination tempo of the light source 1621B corresponding to each of the sub-transmission devices 16222B is controlled by the control module 13B to display preset information through each of the sub-transmission devices 16222B.
  • the preset information may be used to prompt the user to perform health using the health device 10B.
  • the light transmissive device 1622B has more sub-transmission portions. The amount of information that the light transmitting device 1622B can display is more.
  • the pressure sensor 141B, the myoelectric sensor 143B can be disposed on the surface of the top cover 113B and/or the surface of the health environment generator. Preferably, the myoelectric sensor 143B can be disposed in the spacing groove 16221B.
  • the skin of the healthy part of the user can be in contact with the myoelectric sensor to obtain the electromyographic signal of the healthy part of the user.
  • the pressure sensor 141B may also be disposed in the spacer groove 16221B.
  • the pressure sensor 141B collects pressure data and transmits the pressure data collected by the pressure sensor 141B to the control module 13B.
  • the health device 10B is used as an example of the user's waist.
  • the user uses the health device 10B in a lying position. After the health device 10B is placed under the user's waist, the user's waist is in contact with the health device 10B.
  • the wellness device 10B is under pressure from the user.
  • the pressure sensor 141B detects the pressure applied by the user to the health device 10B.
  • the temperature sensor 144B detects the temperature of the user.
  • the control module 13B receives the pressure information provided by the pressure sensor 141B and the temperature information provided by the temperature sensor 144B, respectively.
  • the control module 13B controls the activation of the health device 10B based on the received pressure information and temperature information. Specifically, the control module 13B analyzes the temperature information.
  • the control module 13B controls the driving gas adjustment device.
  • the setting 121B adjusts the amount of the gas accommodated in the gas containing portion 1221B so that the gas containing portion 121B supplies the driving force to the health portion 11B, thereby causing the health portion 11B to be lifted.
  • the health part 11B applies a driving force to the waist of the user to drive the waist of the user to move in the direction in which the health part 11B moves.
  • the myoelectric sensor 143B provides the myoelectric signal to the control module 13B.
  • the control module 13B determines the waist state of the user based on the myoelectric signal.
  • the control module 13B can further determine the lumbar state of the user according to the myoelectric signal.
  • the control module 13B controls the gas adjusting device 121B to adjust the amount of gas contained in the gas containing portion 1221B according to the waist state. Specifically, if the control module 13B determines that the waist of the user is unsuitable to be lifted based on the myoelectric signal, the control module 13B controls the gas adjusting device 121B to stop supplying the gas to the gas containing portion 1221B. The control module 13B further controls the gas adjusting device 121B to extract gas from the body housing portion 1221B to reduce the capacity of the gas in the gas housing portion 1221B, thereby reducing the driving force provided by the gas housing portion 1221B to the health portion 11B. The health section 11B moves downward. The user's waist moves down.
  • the downward movement of the health portion 11B enables the lumbar vertebrae of the user to return to the physiological curve of the lumbar spine.
  • the myoelectric sensor 143B continues to provide the myoelectric signal to the control module 13B.
  • the control module 13B determines whether the gas adjusting device 121B stops drawing the gas from the gas containing portion 1221B by analyzing the myoelectric information. After the control module 13B controls the gas adjusting device 121B to stop drawing the gas from the gas containing portion 1221B, the control module 13B controls the gas adjusting device 121B to supply the gas to the gas containing portion 1221B.
  • the gas accommodating portion 1221B supplies a driving force to the health portion 11B to drive the health portion 11B to rise.
  • the user's waist moves upward and the user's lumbar curvature increases.
  • the control module 13B analyzes the myoelectric signal acquired from the myoelectric sensor 143B and concludes that supply of gas to the gas accommodation portion is stopped, the control module 13B controls the gas adjustment device 121B to stop supplying the gas accommodation portion 1221B. gas.
  • the control module 13B controls the gas adjusting device 121B to extract gas from the gas containing portion 1221B.
  • the health portion 11B moves downward, and the bow of the user's lumbar spine is reduced.
  • the control module 13B continuously adjusts the supply gas and the extracted gas by controlling the gas adjusting device 121B to continuously adjust the lumbar curvature of the user, thereby performing bowing health on the lumbar vertebra of the user.
  • control module 13B can judge from the pressure information acquired by the pressure sensor 141B and the air pressure sensor 142B, respectively, to determine the operation of controlling the gas adjusting device 121B.
  • the control module 13B controls the operation of the gas regulating device 121B to stop supplying gas, stop extracting gas, supplying gas, and extracting gas.
  • the control module 13B can combine the temperature information acquired from the temperature sensor 144B, the pressure information acquired from the pressure sensor 141B, and the pressure information acquired from the air pressure sensor 142B and the myoelectric signal acquired from the myoelectric signal sensor. Judge.
  • control module 13 can control the light source device 162B to illuminate the user's waist to provide light care to the user's waist. Such as beauty.
  • the control module 13 can also control the heat source device 161B to perform temperature adjustment so that the user's waist muscles are suitable for bow health.
  • the control module 13B analyzes the temperature information provided from the temperature sensor 144B. If the control module 13B determines that the current temperature is not suitable for bowing health, the control module 13B controls the heat source device 161B to adjust the temperature. For example, the control module 13B controls the heat source device 161B to raise the temperature to be suitable for bow health. It is worth mentioning that the control module 13B obtains the light provided by the light source device 162B to generate heat. The control module 13B controls the light source device 162B to emit light to generate heat by light, thereby speeding up the temperature to achieve a temperature condition suitable for bow health. The control module 13B continuously analyzes the temperature information provided by the temperature sensor 144B.
  • control module 13B obtains the current temperature for performing the bow health by analyzing the temperature information provided by the temperature sensor 144B, the control module 144B controls the gas adjusting device 121B to supply the gas to the gas receiving portion 1221 to start the bowing. healthy.
  • the control module 144B controls the light source device 162B to provide a light lake,
  • the health care system of the present invention further includes a health platform 20B communicatively coupled to the health device 10B.
  • the health device 10B provides the health data of the user to the health platform 20B.
  • the health platform 20B analyzes the user's health information, the health platform 20B generates a health plan.
  • the adjustment strategy is sent by the wellness platform 20B to the health device 10B, which performs the wellness program to adjust the health device 10B such that the health device 10B is adapted to perform health for the user.
  • the health device 10B The control module 13B is communicatively coupled to the health platform 20B.
  • the control module 13B provides the health information of the user to the health platform 20B.
  • the health device 10B provides driving force, temperature, light intensity, a range of changes in the lumbar curvature of the user, and the like.
  • the health platform 20B further includes a data center 21B and an analysis center 22B.
  • the data center 21B is communicatively coupled to the analysis center 22B.
  • the data center 21B analyzes and stores at least one of the health data provided by the health device 10B.
  • the health data refers to the data of the control module 13B of the health device 10B during use of the health device 10B, in particular, the data of the bow health.
  • the speed at which the gas adjusting device 121B supplies the gas to the gas accommodating portion 1221 the speed at which the gas adjusting device 121B extracts the gas from the gas accommodating portion 1221, and the temperature change during the bowing health
  • the data the light intensity provided by the light source device 162, and the like.
  • the analysis center 22B acquires the user's health data from the data center 21B.
  • the analysis center 22B analyzes the health data of the user to generate a health plan.
  • the analysis center 22B transmits the health plan to the control module 13B of the health device 10B, and the control module 13B controls the gas adjustment device 121B, the heat source device 161B, and the light source device 162B to work in cooperation according to the health plan.
  • the gas conditioning device 121B, the heat source device 161B, and the light source device 162B cooperate to provide a healthy environment suitable for the user.
  • the data center 21B can be implemented as at least one storage module or storage device.
  • the analysis center 22B can be implemented as at least one server.
  • the health platform 20B further includes a modeling center 23B that communicatively connects the analysis center 22B and the data center 21B, respectively.
  • the modeling center 23B provides for building a body model for the user.
  • the model is a three-dimensional model.
  • the model is a spine model of the user.
  • the modeling center 23B receives the modeling information provided by the user.
  • the user can provide modeling information to the modeling center 23B by means of X-ray, B-scan ultrasonography, CT (Computed Tomography), and nuclear magnetic resonance.
  • CT Computerputed Tomography
  • the modeling center 23B can also acquire modeling information directly from the X-ray machine.
  • the modeling center 23B acquires modeling information by communicably connecting an X-ray machine.
  • the modeling center 23B communicatively connects the B-mode machine to acquire modeling information.
  • the modeling center 23B communicatively connects the CT detecting means to acquire modeling information.
  • the modeling center 23B communicatively connects the nuclear magnetic resonance apparatus to acquire modeling information.
  • the modeling center 23B establishes the spine model of the user based on the acquired modeling information.
  • the modeling center 23B establishes the three-dimensional spine model of the user based on the acquired modeling information.
  • the user's spinal model is stored in the data center 21B.
  • the modeling center 23 provides for communicatively connecting the display device for displaying the spine model.
  • the modeling center 23B provides a communication connection to the smart device. That is, the smart device is communicably coupled to the modeling center 23B.
  • the smart device includes a smartphone, a computer, a tablet, a laptop, smart glasses, and the like.
  • the model center 23B is accessed through the smartphone, and the user's spine model is displayed on the smartphone. Professionals, such as doctors and professors, advise the user based on the spine of the user.
  • the analysis center further analyzes the spine model and the health data of the user to generate the health plan.
  • the health device performs health care according to the health plan to improve the health effect.
  • control module 13B of the health device 10B communicatively connects the modeling center 23B.
  • the control module 13B receives the health plan issued by the data center 23B.
  • the control module 13B controls the gas adjusting device 121B, the heat source device 161B, and the light source device 162B to operate in cooperation according to the health plan.
  • the health environment is formed by the gas adjusting device 121B, the heat source device 161B, and the light source device 162B working in cooperation.
  • the control module 13B transmits the pressure information, the air pressure information, the myoelectric information, and the temperature information to the modeling center 23B, respectively. This pressure information is provided by the pressure sensor.
  • the air pressure information is provided by the air pressure sensor.
  • This myoelectric signal is provided by the myoelectric sensor.
  • This temperature information is provided by the temperature sensor.
  • the modeling center 23B analyzes the pressure information, the air pressure information, the myoelectric information, and the temperature information to pass the health device 10B through the pressure information, the air pressure information, the myoelectric information, and the temperature information.
  • the effect on the user's spine during use is reflected to the user's spinal model. That is, the modeling center 23B uses the health device 10B during the use of the user's spine. The effect is reflected to the spinal model so that the professional can understand the spine state of the user and/or the use of the health device 10B.
  • the modeling center 13B dynamically displays the user's use of the health device 10B.
  • the professional can access the modeling center 23B through the smart device.
  • the professional views the situation in which the user uses the health device 10B through the smart device.
  • the professional can view the situation in which the user uses the health device 10B in real time.
  • the professional device can adjust the health device 10B by the smart device.
  • the professional adjusts the spine curve in the user's spinal model through the smart device.
  • the modeling center 23B sends the adjusted spine curve to the analysis center 22B.
  • the analysis center 22B analyzes the adjusted spine curve to obtain pressure information, temperature information, and barometric pressure information.
  • the analysis center 22B generates an adjustment scheme based on the obtained pressure information, the temperature information, the pressure information, and the like.
  • the analysis center 22B sends the adjustment scheme to the control module 13B.
  • the control module 13B controls the gas adjusting device 121B, the heat source device 161B, and the light source device 162B to work in cooperation according to the adjustment scheme.
  • the professional instructs the user to use the wellness device 10B.
  • the professional can access the modeling center 23B through a plurality of smart devices to view the situation in which the plurality of users use the health device 10B, thereby respectively using the health device 10B for multiple users. Provide guidance.
  • the professional directs the use of the health device 10B in real time.
  • the professional also adjusts the health device 10B by setting pressure information, temperature information, barometric pressure information, light intensity, vibration information or body information of the user.
  • the analysis center 23B generates the adjustment scheme based on the pressure information, the temperature information, the air pressure information, the light intensity, or the body information of the user.
  • the control module 13B controls the gas adjusting device 121B, the heat source device 161B, the light source device 162B, and/or the massage module 17B to work in cooperation according to the adjustment scheme.
  • the analysis center 13 further generates a reminder scheme to remind the user to use the health device 10B.
  • the analysis center 13 sends the reminder plan to the control module 13B.
  • the control module 13B controls the light source device 162B to emit light according to the preset rhythm according to the reminding scheme to remind the user to use the health device 10B.
  • the wellness environment former 16B is movably provided to the health portion 11B.
  • the health device 10B further includes a sub-driving device 123B disposed between the outer side of the bottom of the health environment former 16B and the inner side of the bottom of the health portion 11B.
  • the sub-drive device 123B pneumatically drives the health environment former 16B to move.
  • the sub-drive device 123B is implemented as a second air bag 1231B.
  • the second airbag 1231B is disposed between the outer side of the bottom of the health environment former 16B and the inner side of the bottom of the health part 11B.
  • the second airbag 1231B communicates with the gas adjusting device 121B.
  • the gas adjusting device 121B is capable of adjusting the gas capacity of the second air bag 1231B. Specifically, the gas adjusting device 121B supplies gas to the second air bag 1231B such that the second air bag 1231B supplies a driving force to the health environment former 16B, thereby driving the health environment former 16B away from the health portion 11B. The bottom moves. The gas adjusting device 121B extracts the gas in the second airbag such that the driving force provided by the second airbag to the health environment former 16B is reduced, thereby causing the health environment former 16B to move toward the bottom of the health portion 11B.
  • control module 13B controls the gas regulating device 121B to adjust the capacity of the gas of the second airbag to adjust the driving force provided by the health environment former 16B by adjusting the gas capacity of the second airbag 1231B. That is to say, in the health plan generated by the analysis center 22B, the gas adjustment device 121B can be controlled by the control module 13B to adjust the gas capacity of the second air bag to cooperate. In this manner, the adjustment range and adjustment speed of the driving force provided by the health device 10B.
  • the control module 13B is capable of controlling the gas adjusting device 121B to simultaneously adjust the gas capacity of the gas containing portion 1221B and the gas capacity of the second air bag 1231B.
  • At least one blocking member 169B is disposed on the inner side of the bottom portion of the health portion 11B.
  • the stopper 169B prevents the outer side of the bottom of the wellness environment former 16B from coming into contact with the inner side of the bottom of the health portion 11B.
  • a reserved space 1691B is formed between the outer side of the bottom of the health environment former 16B and the outer side of the bottom of the health part 11B for placing the second air bag 1231B.
  • the driving device 12B' is electromagnetically driven to drive the health portion 11B.
  • the driving device 12B' Further included is an electromagnet element 122B' and a permanent magnet element 124B'.
  • the electromagnet element 122B' is electrically connected to the energizing device 18B.
  • the electromagnet element 122B' is provided at the bottom of the health portion 11B.
  • the permanent magnet element 123B' has permanent magnetism.
  • the electromagnet element 122B' is disposed outside the bottom of the health portion 11B.
  • the permanent magnet element 123' is attached to the electromagnet element 122B'.
  • the energizing device 18B supplies electrical energy to the electromagnet element such that a repulsive force is generated between the electromagnet element 122B' and the permanent magnet element 124B', thereby causing the electromagnet element 122B' to move away from the permanent magnet element 124B' mobile.
  • the control module 13B communicatively connects the energizing device 18B.
  • the control module 13B controls the energizing device 18B to supply electrical energy to the electromagnet element 122B' to control the magnitude of the repulsive force produced by the electromagnet element 122B' and the permanent magnet element 124B', thereby controlling the driving device 12B'
  • control module 13B can control the energizing device 18B to supply electric energy to the electromagnet element 122B' according to the health plan. That is, the control module 13B can control the drive device 12B' to work in cooperation.
  • the control module 13B controls the driving device 12B' to intermittently drive the health portion 11B.
  • the control module 13B controls the drive device 12B' to rotationally drive the health portion 11B.
  • the sub-drive device 123B' is implemented in an electromagnetic manner.
  • the sub-driving device 123B' further includes an electromagnet driving element 1231B' and a permanent magnet driving element 1232B'.
  • the electromagnet driving element 1231B' is disposed at the bottom of the health environment former 16B.
  • the electromagnet driving element 1231B' is disposed outside the bottom of the health environment former 16B. It is worth mentioning that the electromagnet driving element 1231B' can be provided as the bottom of the health environment former 16B.
  • the permanent magnet driving element 1232B' is attached to the electromagnetic member driving element 1231B'.
  • the energizing module 18B supplies electric energy to the electromagnet driving element 1231B' such that a repulsive force is generated between the electromagnet driving element 1231B' and the permanent magnet driving element 1232B', thereby driving the health environment former 16B away from the permanent The direction of the magnet drive element 1232B' moves.
  • the wellness environment former 16B is driven to move away from the permanent magnet driving element 1232B'.
  • the control module 13B controls the power supply module 18B to supply electrical energy to the electromagnet drive element 1231B' to reduce the repulsive force generated between the electromagnet drive element 1231B' and the permanent magnet drive element 1232B', thereby causing the electromagnet The drive element 1231B' moves in a direction approaching the permanent magnet element.
  • the wellness environment former 16B is driven to move in a direction approaching the permanent magnet element. It is worth mentioning that the control module 13B controls the sub-driving device 123B' to intermittently drive the health environment former 16B. Preferably, the control module 13B controls the drive unit 123B' to rotationally drive the health environment former 16B. It is worth mentioning that the control module 13B can control the sub-drive device 123B' to intermittently drive the health environment former 16B according to the health plan. Preferably, the control module 13B controls the sub-drive device 12B' to rotationally drive the health environment former.
  • the sub-drive device 123B" is implemented as a lifting device 1231B".
  • the lifting device 1231B" supports the wellness environment former 16B.
  • the lifting device 1231B” further includes at least one lifting support member 11231B", each of which supports the wellness environment former 16B.
  • the control module 13B controls the lifting and lowering of each of the lifting supports 11231B" to drive the health environment former 16B to move.
  • the sub-drive portion 115B can be implemented as a lifting device 1154B'.
  • the lifting device 1154B' is disposed below the sub-health portion 114B. This is shown in Fig. 16E and Fig. 16F.
  • the lifting device 1154B' supports the sub-health portion 114B.
  • the lifting device 1154B' further includes at least one lifting support 11541B'. Each of the lifting supports 11541B' supports the sub-health portion 114B.
  • the control module 13B communicatively connects the lift support 11541B'.
  • the control module 13B controls the lifting and lowering of each of the lifting supports 11541B' to drive the movement of the sub-health portion 114B to apply a force to the healthy portion of the use.
  • the control module 13B drives the sub-health portion 114B in a spaced manner by controlling each of the elevating support members 11541B'.
  • the control module 13B rhythmically drives the sub-health portion 114B by controlling each of the lifting supports 11541B'.
  • the child health department 114B rhythmically provides health to the healthy part of the user. It is worth mentioning that the lifting device 1154B' also serves as an alternative embodiment of the driving portion 12B.
  • 24C and 24D show another modified embodiment of the health device 10B, the health device 10B
  • One step includes a flexible connector 130B having an outer edge joined to an inner edge of the top cover 113B, the inner edge of the flexible connector 130B being coupled to an inner edge of the health environment former 16B.
  • the inner edge of the flexible connector 130B is coupled to the inner edge of the sub-transmissive device 16222B of the health environment former 16B to block the sub-function of the health environment former 16B by the flexible connector 130B.
  • a gap is formed between the light transmitting device 16222B and the top cover 113B of the health portion 11B, thereby preventing dust, debris and the like from entering the inside of the health device 10B to ensure the hygienicness of the health device 10B.
  • the flexible connector 130B can block the child light transmitting device 16222B in the health environment former 16B by deformation.
  • a gap is formed between the top cover 113B of the health part 11B.
  • the manner in which the outer edge of the flexible connector 130B is connected to the inner edge of the top cover 113B and the inner edge of the flexible connector 130B are connected to the outer edge of the sub-transmissive device 16222B are
  • the health device 10B of the present invention is not limited.
  • the outer edge of the flexible connector 130B may be bonded to the top cover 113B by glue.
  • the inner edge, and the inner edge of the flexible connector 130B, may be bonded to the outer edge of the top cover 113B by glue.
  • the flexible connecting member 130B may also be formed between the top cover 113B and the sub-light transmitting device 16222B by a process such as embedding and ejecting, that is, the flexibility.
  • the outer edge of the connector 130 is integrally coupled to the inner edge of the top cover 113B, and the inner edge of the flexible connector 130B is integrally coupled to the outer edge of the sub-light transmission device 16222B.
  • the material of the flexible connector 130B is not limited in the health device 10B of the present invention.
  • the flexible connector 130B may be, but not limited to, a rubber member or a silicone member.
  • the flexible connector 130B can be deformed as long as it can be driven by the health environment former 16B.
  • Figure 24E shows another variant embodiment of the health device 10B, the health device 10B further comprising at least one support portion 120B, wherein each of the support portions 120B is respectively disposed in the health environment former 16B, wherein
  • the sub-driving device 123B drives the health environment former 16B to reciprocate
  • the health environment former 16B can drive each of the supporting portions 120B to reciprocate synchronously, so that the health of the user is supported by each of the supporting portions 120B.
  • Massage the area Preferably, each of the support portions 120B is respectively disposed in the child light transmitting device 16222B of the health environment forming 16B.
  • the skin of the user's healthy part can directly contact each of the support portions 120B to support the user by the support end of each of the support portions 120B. Healthy part.
  • the number of the support portions 120B is not limited in the health device 10B of the present invention.
  • the support portion 120B The number is implemented as four, each of which is disposed at a distance from each other.
  • the support portion 120B may also be implemented as, but not limited to, three, five, six, seven. Or eight.
  • the type of the support portion 120B is not limited in the health device 10B of the present invention.
  • the support portion 120B may be, but not limited to, a magnetic element to perform magnetic health on the healthy part of the user; infrared emission The component performs infrared health protection on the healthy part of the user.
  • the manner in which the support portion 120B is disposed in the health environment former 16B is not limited in the health device 10B of the present invention.
  • the support portion 120B may integrally extend to the health environment former 16B.
  • the sub-transmissive device 16222B, or the support portion 120B is detachably mounted to the sub-transparent device 16222B of the health environment former 16B, with reference to FIG.
  • This type of support portion 120B when the user does not need to use the support portion 120B, the support portion 120B can be detached from the sub-transparent device 16222B of the health environment former 16B, and the health of the user needs to be magnetic health.
  • the sub-transparent device 16222B of the health environment former 16B can be installed as the support portion 120B of the magnetic component, when the user's health site needs to enter
  • the support portion 120B implemented as an infrared emitting element may be mounted to the sub-light transmitting device 16222B of the health environment former 16B.
  • the user can also install different types of the support portion 120B to the sub-light transmission device 16222B of the health environment former 16B.
  • the user may also select the number of the support portions 120B of the child light transmitting device 16222B mounted to the health environment former 16B. .
  • Fig. 25 shows the health care device according to another preferred embodiment of the present invention.
  • the health device of the present invention further includes a driving portion 12C and a health environment former 11C, and the driving portion 12C drives the health environment former 11C. Reciprocating motion.
  • the user uses the health device of the present invention, it is preferable to adopt a lying posture. That is, the user lies flat to contact the health environment former 11C of the user's neck.
  • the health environment former 11C is driven by the driving portion 12C to reciprocate so that the cervical vertebrae of the user are pushed apart, so that the cervical vertebrae are relaxed. In this way, the cervical spine of the user is healthy.
  • the wellness environment former 11C further provides a wellness environment 119C. That is, the wellness environment former 11C further creates a wellness environment 119C to facilitate the user's bow health.
  • the bow health refers to the rhythmic force of the neck of the user to cause a rhythmic change in the bow of the user's cervical spine.
  • the driving portion 12C drives the wellness environment former 11C to raise a force to apply a force to the neck of the user so that the neck of the user is raised, thereby Increase the cervical curvature of the user. After the driving force generated by the driving portion 12C reaches a predetermined value, the driving portion 12C reduces the value of the generated driving force.
  • the wellness environment former 11C moves toward the driving portion 12C to lower the cervical curvature of the user.
  • the user's cervical vertebrae return to conform to the physiological curvature of the human cervical vertebrae.
  • the driving portion 12C By continuously adjusting the driving force generated by the driving portion 12, the driving portion 12C generates a driving force rhythmically, thereby causing the health environment former 11C to rhythmically exert a force on the neck of the user in a rhythm.
  • the bow of the user's cervical vertebra is changed. That is, the driving portion 12C rhythmically changes the driving force to cause the user's cervical vertebra to change rhythmically, thereby performing bowing health on the cervical vertebra of the user. In this manner, the neck muscle of the user and the cervical vertebra of the user are relaxed to facilitate the bowel health of the user's cervical spine.
  • the driving portion 12C can change the driving force according to a preset time interval. Specifically, the driving unit 12C drives the wellness environment former 11C to apply a force to the health environment former 11C to the neck of the user. Specifically, the driving portion 12C drives the wellness environment former 11C to rise, so that the health environment former 11C exerts a force on the neck of the user, thereby increasing the bow of the user's cervical vertebra. After the preset time interval, the driving portion 12C reduces the driving force to cause the health environment former 11C to descend, and the bow of the user's cervical vertebra is reduced.
  • the driving portion 12C drives the health environment former 11C to rise, so that the health portion exerts a force on the neck of the user, so that the bow of the user's cervical vertebra is reduced. . In this manner, the driving portion 12C continues to adjust the driving force to increase or decrease, thereby performing bowing health on the neck of the user. That is, the driving portion 12C can be driven to the health environment former 11C rhythmically by controlling the time interval. As shown in Figures 26 to 29 .
  • the driving portion 12C further includes a gas adjusting device 121C and an air bag 122C, and the gas adjusting device 121C communicates with the air bag 122C.
  • the gas adjusting device 121C supplies air to the air bag 122C to expand the air bag to provide a driving force to drive the health environment former 11C to rise.
  • the wellness environment former 11C receives the driving force provided by the driving portion 12C, and applies a force to the cervical vertebra of the user to increase the bow of the user's cervical vertebra.
  • the gas adjusting device 121C draws gas to the air bag 122C to cause the air bag 122C to contract to reduce the driving force.
  • the health environment former 11C is reduced in the driving force provided by the driving portion 12C so that the force applied by the health portion 11 to the cervical vertebra of the user is reduced.
  • the user's cervical vertebra has a reduced bow.
  • the air bag 122C is disposed below the health environment former 11C.
  • the health device of the present invention further includes a control module 13C, and the control module 13C communicates.
  • the drive unit 12C is connected to the ground.
  • the control module 13C controls the driving portion 12C to adjust the driving force provided by the driving portion 12C. That is, the control module 13C controls the driving portion 12C to increase, decrease, or maintain the driving force of the driving portion 12C.
  • the control module 13C communicatively connects the gas regulating device 121C.
  • the control module 13C controls the gas adjusting device 121C to supply gas to the air bag 122C. Further, the control module 13C controls the speed at which the airbag increases the driving force by controlling the amount by which the gas adjusting device 121C supplies the air to the air bag 122C.
  • the control module 13C controls the gas adjusting device 121C to extract the gas in the air bag 122C. Further, the control module 13C controls the speed at which the airbag reduces the driving force by the amount of gas extracted from the airbag 122C by the gas adjusting device 121C. It is worth mentioning that the control module 13C controls the gas adjusting device 121C to increase the driving force and reduce the driving force to form a driving force conversion rhythm.
  • the health environment former 11C rhythmically provides a force to the cervical vertebra by controlling the rhythm of the switching driving force.
  • control module 13C maintains the capacity of the gas in the air bag 122C through the gas adjusting device 121C, so that the air bag 122C maintains the driving force provided. That is, the control module 13C generates a rhythm of the driving force by controlling the amount of gas of the air bag 122C, thereby causing the health department to rhythmically exert a force on the cervical vertebra of the user. Specifically, the control module 13C controls the amount of gas supplied to the air bag by the gas adjusting device 12C, the gas adjusting device 12C maintains the amount of gas in the air bag, and the gas adjusting device 12C reduces the amount of gas in the air bag. Convert to produce a rhythm of driving force changes. Further, the control module 13C converts the time interval between the supply and the exhaust by controlling the gas adjustment device 121C to form a rhythmic drive.
  • the wellness environment former 11C further includes a heat source 111C.
  • This heat source 111C is disposed at the top of the health environment former 11C.
  • the heat source 111C is communicably coupled to the control module 13C.
  • the control module 13C controls the heat source 111C to provide heat. That is, the health environment former 11C forms a thermal environment by the heat source 111C.
  • the user's body is relaxed when the user is in a lying position. That is to say, the user's neck muscles are relaxed, which is conducive to bow health.
  • the control module 13C controls the heat source 111C to generate heat to form a thermal environment before performing the bow health. In this thermal environment, the ambient temperature rises and the user's neck feels comfortable.
  • the heat source 111C can be implemented as a heat generating film, a heating wire, or the like. It is worth mentioning that the health environment former 11C is driven by the driving portion 12C such that the heat source 111C provided to the top of the health environment former 11C is attached to the neck of the user, so that the heat source 111C is paired The effect of the heat care of the neck of the user is improved.
  • the wellness environment former 11C further includes at least one low frequency device 112C.
  • the low frequency device 112C is disposed on top of the health environment former.
  • the low frequency device 112C is communicatively coupled to the control module 13C.
  • the control module 13C controls the low frequency device 12C to provide a low frequency environment. After the neck of the user is supported by the wellness environment former 11C, the low frequency device 112C contacts the neck of the user to perform low frequency pulses on the user, thereby facilitating the user to perform low frequency care. It is worth mentioning that the control module 13C controls the low frequency device 112C to provide a low frequency.
  • the wellness environment former 11C includes two of the low frequency devices 112C.
  • Two of the low frequency devices 112C are respectively disposed at the top of the health environment former 11C.
  • the two low frequency devices 112C are symmetrically arranged based on the center line of the wellness environment former 11C.
  • the control module 13C controls the driving portion 12C to provide the tempo of the driving force
  • the control module 13C can simultaneously control the frequency provided by the low frequency device 112C.
  • the control module 13C controls the drive unit 12C to provide the tempo of the driving force, and the control module 13C can control the heat source 111C in the same manner.
  • the heat source 111C can be disposed between the low frequency setting 112C and the top of the health environment former 11C.
  • the wellness environment former 11C exerts a force on the neck of the user, so that the low frequency device 112C is used for fitting.
  • the air bag 122C drives the wellness environment former 11C such that the low frequency device 112C is attached to the neck of the user.
  • the low frequency device 112C can provide heat. That is, the low frequency device 112C works in conjunction with the heat source 111C.
  • the low frequency The device 112C can not only provide a low frequency environment, but also provide the thermal environment through the low frequency device. Further, the low frequency device 112C cooperates with the heat source to form the thermal environment by the control of the control module 13C.
  • control module 13C controls the heat source 111C to generate heat to form the heat source.
  • the control module 13C controls the low frequency device 112C to form a point heat source.
  • the control module 13C controls the low frequency device 112C to simultaneously form the low frequency environment and the thermal environment, so that the user's neck performs low frequency care while also performing thermal health care.
  • the control module 13C controls the heat source 111C and the low frequency device 112C to work in cooperation. After the heat source 111C is turned on, controlling the low frequency device 112C to provide heat through the control module 13C increases the amount of heat of the region corresponding to the low frequency device 112C. Further, the heating rhythm of the heat source 111C and the low frequency device 112C can be separately controlled by the control module 13C.
  • the wellness environment former 11C further includes a light source 113C.
  • the light source 113C is communicatively coupled to the control module 13C.
  • the control module 13C controls the light source 113C to emit light to form a light environment, thereby providing light care. In this light environment, the neck skin of the user is irradiated to perform phototherapy on the neck skin of the user.
  • the control module 13C can control the illumination intensity of the light emitted by the light source 113C. Further, the control module 13C controls the light source 113C to cooperate with the driving portion 12C, the heat source 111C, and/or the low frequency device 112C, respectively.
  • the control module 13C further controls the illuminating tempo of the light source 113C.
  • the bow health is performed in the health environment, the user's cervical vertebra is exerted by the rhythm force, and at the same time, the user's neck muscle performs thermal health care and low frequency health care, and at the same time, The user's skin is protected by light. In this way, the time for the user to perform bow health, heat care, low frequency care, and light care separately is saved. The efficiency of bow health is improved.
  • the thermal environment, the low frequency environment, the light environment, and the bow health can be formed separately by the control module 13.
  • the wellness environment former 11C further has a limiting portion 115C.
  • the stopper portion 115C is provided at the top of the health environment former 11C.
  • the limiting portion 115C matches the physiological curve of the human neck.
  • the neck of the user is adapted to be placed in the limit portion 115C.
  • the middle portion of the limiting portion 115C is lower than both end portions of the limiting portion 115C.
  • both ends of the limiting portion 115C are in the same horizontal plane.
  • the cervical vertebra of the user is adapted to be placed in the limiting portion 115C such that the cervical vertebra of the user is fixed to the limiting portion 115C when the cervical vertebra of the user is rhythmically reciprocated.
  • the heat source 111C is disposed on the surface of the limiting portion 115C.
  • the driving portion 12C drives the health environment forming device 11C to move the positioning portion 115C to the cervical vertebra of the user, so that the heat source disposed on the surface of the limiting portion 115C fits the neck of the user.
  • the air bag 122C drives the limiting portion 115C of the health environment former 11C to be close to the neck of the user by expanding, so that the heat source 111C fits the neck of the user.
  • the low frequency device 112C is disposed in the limiting portion 115C. After the neck of the user is placed in the limiting portion 115C, the low frequency device 112C is in contact with the neck of the user.
  • the driving portion 12 drives the wellness environment former 11C such that the low frequency device 112C fits the neck of the user.
  • the low frequency device 112C includes at least two low frequency components 1121C, and the two low frequency components 112C are respectively disposed in the middle of the limiting portion 115C.
  • the two low frequency components 1211C are respectively disposed on both sides of the center line of the limiting portion 115C.
  • the two low frequency components 1211C are symmetrically arranged based on the central axis of the limiting portion 115C.
  • the heat source 111C is disposed to surround the low frequency device 112C.
  • the wellness environment former 11C is provided with two heat sources 111C.
  • the heat source 111C is disposed on one side of the low frequency element 1121C.
  • the two heat sources 111C are symmetrically arranged.
  • the heat source 111C can be implemented as a heat generating film and a heating wire.
  • the control module 13C controls the heat source 111C and the low frequency device 112C, respectively, to cause the heat source 111C and the low frequency device 112C. It is worth mentioning that the control module 13C can control the low frequency device 112C to provide low frequency health and/or thermal energy. Specifically, the control module 13C controls the two low frequency components 1121C to provide thermal energy, respectively, such that the low frequency component 1121C acts as a point heat source. The control module 13C controls the heat source 111C and the low frequency device 112C to cooperate to make the heat generated by the low frequency device 112C complement each other.
  • the light source 113C can be disposed on the surface of the limiting portion 115C such that the neck of the user is illuminated by the light source. The control module 13C can control the illumination tempo of the light source 113C. In one of the embodiments, the heat source 111C is disposed around the light source 113C.
  • the health device of the present invention further includes an additional health environment former 14C.
  • the additional health environment former 14C further has a limit channel 141C.
  • the health environment former 14C is embedded in the limit channel 141C such that the additional health environment former 14C surrounds the health environment former 14C.
  • the wellness environment former 14C reciprocates in the limit passage 141C.
  • the gas adjusting device 121C inflates the air bag 122C to cause the air bag 122C to expand.
  • the air bag 122C is inflated to drive the health environment former 14C to rise in the limit passage 141C.
  • the gas adjusting device 121C evacuates the air bag to cause the air bag 122C to contract, thereby causing the health environment former 14C to be lowered at the limit passage 141C. It is worth mentioning that the health environment former 14C moves in the limit channel 141C, and the limit channel 141C provides a movement restricting the health environment former 14C in the horizontal direction to maintain the health environment former 14C in the vertical direction. The movement of the direction.
  • the additional wellness environment former 14C further includes an additional bracket 147C.
  • the additional heat source 144C, the additional light source 145C, and the additional low frequency device 146C are disposed on top of the additional bracket 147C.
  • the additional light source 146C, the additional low frequency device 145C, and the additional heat source 144C form an additional environment forming layer 148C.
  • the limiting channel 141C further includes a first limiting channel 1411C and a second limiting channel 1412C.
  • the first limit channel 1411C is disposed on the additional environment forming layer 148C.
  • the second limiting channel 1412C is disposed on the additional bracket 147C.
  • the first limiting channel 1411C is aligned with the second limiting channel 1412C to form the limiting channel 141C.
  • the health device further includes a limiting device 15C.
  • the limiting device 15C is for limiting the movement of the health environment former 14C in the vertical direction of the limiting channel 141C.
  • the limiting device 15C further includes at least two limiting members 151C and at least two sockets 152C.
  • the stopper 151C is fixedly disposed.
  • the socket 152C is correspondingly sleeved on the limiting member 151C.
  • the sleeve member 152C is slidably sleeved on the limiting member 151C to move the sleeve member 152C along the limiting member 151C.
  • the socket 152C is fixedly coupled to the health environment former 11C.
  • the side of the socket 152C is fixedly coupled to the side of the health environment former 11C such that the health environment former 11C is movable along the stopper 151C.
  • the limiting member 151C restricts the health environment former 11C from moving in the limiting channel 141C.
  • the two limiting members 151C are disposed on the outer periphery of the air bag 122C on opposite sides of the diagonal line of the air bag. In another preferred embodiment of the invention, four of the limit members 151C are provided.
  • limiting members 151C are respectively disposed at the periphery of the airbag 122C, so that the health environment former 11C is stably moved along the limiting member 151C along the limiting passage 141C. Further, the limiting device 15C limits the health environment former 14C such that the health environment former 11C aligns the limiting channel 141C.
  • the additional health environment former 14C cooperates with the limit device 15C.
  • the health environment former 14C is driven to pass through the limit passage 141C.
  • the surface of the wellness environment former 11C is slightly higher than the surface of the additional health environment former 14C.
  • the additional wellness environment former 14C further includes a head support portion 142C.
  • the head support portion 142C supports the user's head.
  • the head support portion 143C supports the posterior brain of the user's head.
  • the additional wellness environment former 14C further includes a neck support portion 143C.
  • the neck support portion 143C is for supporting the neck of the user when the user uses the health device.
  • the head support portion 142C and one side of the neck support portion 143C surround the limit passage 141C. That is, the movable passage is provided at a joint portion of the head support portion 142C and the neck support portion 143C.
  • the limiting channel 141C is disposed on a side of the additional health environment former 14C that is adjacent to the user's head. That is, the wellness environment former 11C is limited to the side close to the user's head.
  • the neck of the user is simultaneously supported by the health environment former 11C and the additional health environment former.
  • the head support portion 143C of the additional wellness environment former 14C supports the head of the user.
  • the wellness environment former 11C supports the neck of the user.
  • the neck support portion 142C of the additional wellness environment former 14C assists the wellness environment former 11C in supporting the neck of the user.
  • the wellness environment former 11C is driven to be lifted by the driving portion 12C
  • the wellness environment former 11C is driven at the limiting passage 141C to lift the neck of the user.
  • the user's neck is raised, the The user's head gradually leaves the support of the head support portion 143C, and the gravity of the user's brain acts on the neck used.
  • the user's cervical spine is stretched such that the gap between adjacent two cervical vertebrae is increased.
  • the driving portion 12C reduces the driving force, the health environment forming device 11C descends, and the neck of the user descends as the health environment forming device 11C descends.
  • the health environment former 11C descends in the limit passage 141C, and the rear brain portion of the user comes into contact with the head support portion 143C.
  • the health environment former 11C returns to the initial position, the user's head is supported by the head support portion 143C to alleviate the effect of the user's head on the user's neck force.
  • the physiological curve of the cervical vertebra of the user is restored for the cervical vertebra of the user.
  • the control module 13C controls the driving portion 12C to drive the rhythm of the health environment former 11C so that the driving portion 12C rhythmically drives the health environment former 11C, thereby causing the health environment former 11C to perform rhythmical reciprocation. That is, the neck of the user is rhythmically lifted by the health environment former 11C to stretch the cervical vertebra of the user by the gravity of the head of the user, thereby causing the adjacent two cervical vertebrae The gap between them increases. The user's neck is rhythmically lowered with the wellness environment 11 former 11C such that the user's head is supported by the head support portion 143C to relieve the user's head to the user. The effect of the force exerted by the neck is beneficial to the physiological curve of the cervical spine of the user.
  • the user's neck is subjected to a rhythmic reciprocating motion by the health environment former 11C, which is advantageous for relaxing the user's neck and facilitating the user's cervical vertebra to restore the user's cervical vertebrae.
  • the wellness environment former 11C also provides health to the neck muscles of the user. Specifically, when the driving portion 12C drives the wellness environment former 11C to rise, the neck of the user is lifted, and the neck muscle of the user is stretched. When the wellness environment former 11C descends, the neck of the user gradually relaxes as the health environment former 11C descends.
  • the drive unit 12C is controlled by the control module 13C to drive the driving rhythm of the health environment former 11C, and the neck muscle of the user is switched between stretching and relaxation, thereby obtaining health.
  • the control module 13C affects the temperature in the vicinity of the health environment former 11C by controlling the heat generated by the heat source 111C to form a healthy environment for promoting health. Particularly in the case of a lower temperature, the control module 13C controls the heat source 111C to generate heat to form the health environment to provide an effect of performing neck health. Specifically, in the case of a lower temperature, the temperature of the neck of the user is lower.
  • the control module 13C controls the heat generated by the heat source 111C to facilitate the neck of the user to feel comfortable.
  • the heat source 111C provided to the health environment former 11C makes the neck of the user feel more comfortable. Moreover, the neck of the user can increase the temperature of the neck muscle of the user by contacting the heat source 111C, and the neck muscle of the user is relaxed. Avoid strains caused by low temperature and stiffness of the neck muscle of the user. Further, the light source 113C disposed in the health environment former 11C may further provide an effect of providing illumination to the neck skin of the user to provide phototherapy or beauty. The low frequency device 112C disposed in the wellness environment former 11C may further provide low frequency and/or heat.
  • the heat source 111C, the light source 113C, and the low frequency device 112C are respectively controlled by the control module 13C, and the health environment former 11C can form the health environment to provide thermal health, illumination, and low frequency health.
  • the health environment former 11C provides the health environment according to the needs of the user during the neck fitness process of the user. Thermal health, light and low frequency health are available in this healthy environment. In this healthy environment, the user's cervical, neck, and neck skins are taken care of.
  • the wellness environment former 11C further includes a vibration device 115C communicatively coupled to the control module 13C.
  • the control module 13C controls the vibration rhythm of the vibration device 115C to provide a massage. That is, the wellness environment former 11C provides the wellness environment to further provide massage.
  • the additional health environment former 14C cooperates with the health environment former 11C.
  • the additional health environment former 14C further includes an additional heat source 144C disposed on the surface of the additional health environment former 14C.
  • the additional heat source 144C is communicatively coupled to the control device 13C.
  • the control module 13C controls the additional heat sources 144C to work in conjunction.
  • the additional health environment former 14C further includes at least one additional light source 145C disposed on a surface of the additional health environment former 14C.
  • the additional light source 145C communicatively connects the control Device 13C.
  • the control module 13C controls the additional light sources 145C to work in conjunction.
  • the additional health environment former 14C further includes an additional low frequency device 146C that is disposed on the surface of the additional health environment former 14C.
  • the additional low frequency device 147C is communicatively coupled to the control module 13C.
  • the control module 13C controls the additional low frequency devices 147C to cooperate.
  • the heat source 111C and the additional heat source 144C are controlled by the control module 13C to provide heat. That is, the control module 13C cooperates to control the heat source 111C and the additional heat source 144C to form the health environment. Further, the control module 13C cooperates with the heat source 111C and the additional heat source 144C to expand the range of the health environment.
  • the wellness environment is enlarged to cover the user's head and the user's neck and the user's torso.
  • the control module 13C controls the additional light source 145C and the additional low frequency device 146C to cooperate to provide illumination and low frequency health in the formed health environment, respectively.
  • the head support portion 143C has a head support surface 1431C that is in contact with the back of the head of the user's head and is provided to the user in a manner that shares the gravity of the user's head. Support of the head.
  • the head support surface 1431C is a slope.
  • An end of the head support surface 1431 that is adjacent to the health environment former 11C is higher than an end of the head support surface 1431C that is away from the health environment former 11C.
  • the inclination of the head support surface 1431C matches the physiological curvature between the posterior brain of the head and the neck.
  • the neck support portion 142C has a neck support surface 1421C extending from the health environment former 11C in a direction away from the health environment former 11C.
  • the neck support surface 1421C is a slope. An end of the neck support surface 1421C that is adjacent to the health environment former 11C is higher than an end of the neck support surface 1421C away from the health environment former 11C. In such a manner, the entire neck of the user is supported by the neck support surface 1421C.
  • the inclination of the neck support surface 1421C matches the inclination of the neck to the neck and the torso joint such that the neck support surface 1421C fits to the neck of the user.
  • the health device of the present invention further includes a control device 16C and a connector 17C.
  • the control device 16C is connected to the connector 17C.
  • the connector 17C includes at least one electrical channel (electrical connector) 171C and at least one airflow channel 172C. Through the electrical passage 171C, the connecting member 17C is electrically connected to the heat source 111C, the additional heat source 144C, the low frequency device 112C, the light source 113C, the additional light source 146C, and the additional low frequency device 145C, respectively.
  • the control device 16C communicatively connects the control module 13C.
  • the control device 16C controls the power supply to the heat source 111C, the additional heat source 144C, the low frequency device 112C, the light source 113C, the additional light source 146C, and the additional low frequency device 145C by the control module 13C.
  • the control device 16C supplies gas or extracts gas to the air bag 122C through the air passage 172C.
  • the gas regulating device 121C is disposed in the control device 16C.
  • the gas adjusting device 121C supplies gas to the air bag 122C through the air passage 172C to cause the air bag 122C to drive the health environment generator 11C.
  • the gas adjusting device 121C extracts gas through the gas passage 172C to reduce the driving force provided by the air bag 122C.
  • the health device of the present invention further includes a base 18C that supports the additional health environment former 14C.
  • the base 18C further has a limiting port 181C.
  • the limit port 181C is aligned with the limit channel 141C of the additional health device 14C.
  • the base 18C further has a receiving cavity 182C.
  • the receiving cavity 182C communicates with the limiting channel 141C through the limiting port 181C.
  • the wellness environment former 14C is placed in the accommodating chamber 182C. Specifically, a part of the health environment former 14C is placed in the accommodating chamber 182C through the limiting port 181C. Another portion of the wellness environment former 14C is placed in the active channel 14C of the additional health environment former 14C.
  • the top surface of the wellness environment former 14C is higher than the top surface of the additional health environment former 14C.
  • the air bag 122C is disposed between the health environment former 11C and the inner side of the bottom surface of the base 18C.
  • the air bag 122C is aligned with the bottom of the wellness environment former 11C.
  • the limiting device 15C is fixed to the bottom of the base 18C.
  • each of the limiting members 151C is respectively fixed to the bottom of the base 18C.
  • Each of the stoppers 151C is disposed around the health environment former 11C.
  • the limiting member 151C corresponds to the socket 152C.
  • the socket 152C is disposed on the health ring The bottom of the environment former 11C.
  • the control module 13C controls the gas regulating module 121C to supply gas to the air bag 122C.
  • the air bag 122C is inflated to generate a driving force. This driving force drives the health environment former 11C to rise.
  • the socket 152C is moved along the limiting member 151C such that the wellness environment former 11C is restricted from moving in the limiting passage 141C.
  • the bottom of the base 18C further has an air bag accommodating chamber 183C.
  • the driving portion 12C further includes an additional airbag 123C that is disposed in the airbag accommodating chamber 183C.
  • the additional air bag 123C communicates with the gas adjusting device 121C.
  • the gas adjusting device 121C supplies a gas to the additional air bag 123C to adjust the height of the base by the expansion of the additional air bag 123C, thereby making the health device suitable for performing the bow health of the neck.
  • the control module 13C forms the rhythm of the health of the neck of the user by controlling the air supply and deflation rhythm of the air bag 122C and the additional air bag 123C, respectively.
  • control module 13C controls the gas adjusting device 121C to simultaneously inflate the air bag 122C and the additional air bag 123C.
  • the control module 13C controls the gas adjusting device 121C to simultaneously deflate the air bag 122C and the additional air bag 123C.
  • the control module 13C controls the gas adjusting device 121C to inflate the air bag 122C to deflate the additional air bag 123C.
  • the control module 13C controls the gas adjusting device 121C to deflate the air bag 122C to inflate the additional air bag 123C.
  • the control module 13C adjusts the air bag 122C and the additional air bag 123C by the gas adjusting port 121C to form an adjusted rhythm.
  • control module 13C controls the inflation speed and the deflation speed of the air conditioning device 121C to the airbag 122C, and the inflation speed and the deflation speed of the additional airbag 123C form an adjustment rhythm.
  • the health environment former 11C is provided with a rhythm of bowing health to the neck of the user.
  • the base 18C further includes an interface 184C.
  • the interface 184C is disposed on the base 184C.
  • the interface 184C is disposed on one side of the base 18C.
  • the interface 184C is connected to the connector 17C. That is, the control device 16C accesses the interface 184C through the connector 17C.
  • the interface 184C provides electrical and pneumatic connections.
  • the electric passage 171C and the air passage 172C of the connecting member 17B are respectively connected to the interface 184C.
  • the interface 184C is electrically coupled to the heat source 111C, the additional heat source 144C, the low frequency device 112C, the light source 113C, the additional light source 146C, and the additional low frequency device 145C, respectively.
  • the interface 184 is adapted to connect the two air passages 172C such that the two air passages 172C are in communication with the air bag 122C and the additional air bag 123C, respectively. That is, after the connecting member 17C is respectively connected to the control device 16C and the interface 184C, the control device 16C can control the air bag 122C to be inflated or deflated, and control the additional air bag 123C to be inflated or deflated. That is, the control device 16C can control the health device of the present invention through the connector. It is worth mentioning that electrical energy can be supplied through the interface 184C. In another alternative embodiment, the battery is placed into the containment chamber 182C to supply electrical energy. The interface 184C can be disposed elsewhere in the base 18C.
  • the base 18C further has a curved surface which is a sloped surface.
  • the end of the surface adjacent to the health environment generator is higher than the end remote from the health environment generator.
  • the base 18C is centrally symmetrical.
  • the base 18C has the central axis as an axis of symmetry, and the two sides of the central axis are symmetric.
  • the central portion of the base 18C is lower than both ends of the base.
  • the base 18C, the additional health environment former 14C and the central axis of the health environment former 11C coincide.
  • the additional health environment former 14C is axisymmetric.
  • the central axis of the additional health environment former 14C is an axis of symmetry.
  • the wellness environment former 14C is axisymmetric.
  • the central axis of the additional health environment former 14C is an axis of symmetry.
  • the base can contact the shoulder used.
  • the health device can also be used for the waist of the user.
  • Figure 41 is a health care device in accordance with another preferred embodiment of the present invention.
  • This preferred embodiment is preferably applied to the cervical vertebra of the user.
  • the health device of the present invention includes a center housing 112D and a second adjusting device 228D.
  • the second adjusting device 228D is disposed at the bottom of the center housing 112D, and the second adjusting device 228D drives the center housing 112D to provide reciprocating motion.
  • the health device of the present invention further includes a heat source 21D disposed in the center housing 112D.
  • the heat source 21D is disposed at the top of the center housing 112D.
  • the health device of the present invention further includes a low frequency device 25D.
  • the low frequency device 25D is disposed on the surface of the center housing 112D.
  • the second adjusting device 228D is driven by the second adjusting device 228D, and the low frequency device 15D further conforms to the skin of the user.
  • the low frequency device 25D further includes at least two low frequency components 251D. Two of the low frequency elements 251D are placed on the top surface of the center housing 112D.
  • the two low frequency elements 251D are axisymmetric. Specifically, the two low frequency elements 251D have a central axis as an axis of symmetry.
  • the light emitting device 23D may also be disposed on the top of the center housing 112D.
  • the illumination device 23D provides illumination. In one of the embodiments, the light emitting device 23D is disposed around the low frequency component 251D.
  • the heat source 21D further includes at least one heat generating member 211D and a protective layer 27D.
  • the protective layer 27D covers the heat generating member 211D to prevent the user from directly contacting the heat generating member 221D, thereby protecting the user. Further, the protective layer 27D is capable of conducting heat.
  • the heat generated by the heat generating element 211D can be propagated through the protective layer to expand the range of the heat influence.
  • the heat generating element 211D is provided on one side of the low frequency element 251D.
  • the heat generating element 211D is disposed outside the low frequency element 251D.
  • the heat source 21D includes two heat generating members 211D. The two heat generating members 211D are arranged in an axisymmetric manner.
  • the health device of the present invention further includes a limiting device 26D.
  • the limiting device 26D is for defining a moving direction of the center housing 112D.
  • the center housing 112D is restricted from moving along the limiting device 26D during the ascending process by the limiting device 26D.
  • the center housing 112D is prevented from moving horizontally during the ascent to affect the health effect.
  • the limiting device 26D further includes at least two limiting members 261D and at least two socket members 262D.
  • the socket 262D is sleeved on the limiting member 261D.
  • the edge of the socket 262D is coupled to one side of the center housing 112D.
  • the second adjusting device 228D drives the center housing 112D to reciprocate.
  • the limiting device 26D further includes at least two limiting members 261D disposed on a periphery of the center housing 112D. That is, each of the limiting members 261D surrounds the periphery of the center housing 112D. Preferably, the two of the limiting members 261D are disposed on an extension of the diagonal of the center housing 112D.
  • the health device of the present invention further includes a first housing 11D into which the center housing 11D is placed.
  • the first housing 11D further has a receiving cavity 111D and a limiting port 115D.
  • the accommodating chamber 111D communicates with the outside of the first housing 11D through the limiting port 115D.
  • the center housing 11D is placed into the housing chamber 111D through the limiting port 115D.
  • the second adjusting device 228D is placed in the accommodating chamber 111D. It is worth mentioning that the center housing 11D is not limited to the position, but preferably, the second adjusting device 228D is aligned with the center housing 11D.
  • the limiting device 26D is placed in the receiving cavity 111D.
  • the limiting device 26D is fixed to the inner side of the bottom of the first casing 11D. That is, each of the stoppers 112D is placed in the accommodating chamber 111D. Each of the stoppers 112D is fixed to the inner side of the bottom of the first casing 11D.
  • the center housing 112D is restrained by the limiting device 26D such that the limiting port 115D moves vertically. That is, the limiting device 26D limits the movement of the center housing 112D in the horizontal direction.
  • the limiting port 115D is disposed on one side of the first housing 11D.
  • the center housing 112D is also placed on one side of the first housing 11D such that the center housing 112D is adapted to perform bowing health on the neck of the user.
  • the first housing 11D provides support for the entire neck.
  • the side on which the limiting port 115D is disposed is higher than the side away from the limiting port 115D.
  • one side of the limiting port 115D is gradually lowered toward a side away from the limiting port 115D. That is, the top surface of the first casing 11D is a slope to fit the physiological curve of the neck of the human body.
  • the limiting port is disposed at a middle portion of the first housing 11D.
  • the first housing 11D further includes a fixing portion 185D.
  • the fixing portion 185D is provided at the bottom of the first casing 11D.
  • the limiting device 26D is fixed to the fixing portion 185D.
  • the center housing 112D is aligned with the fixing portion 185D.
  • the outer side of the bottom of the first casing 11D further has an adjusting device accommodating chamber 113D.
  • the health device of the present invention further includes a first adjustment device 229D.
  • the first adjusting device 229D is fixed to the adjusting device receiving chamber 113D.
  • the first adjustment device 229D drives the first housing to reciprocate.
  • the adjusting device accommodating chamber 113D is aligned with the fixing portion 185D.
  • the other side of the fixing portion 185D serves as the bottom of the adjusting device accommodating chamber 113D. In this manner, the second adjustment device 228D is aligned with the first adjustment device 229D.
  • the change in the driving force generated by the first adjusting device 229D can be more quickly transmitted to the second adjusting device 228D, so that the second adjusting device responds more quickly. That is, the first adjustment device 229D and the second adjustment device 228D work together to provide more drive cadence.
  • the health device of the present invention further includes an additional housing 14D.
  • the additional housing 14D is fixed to the top of the first housing 11D.
  • the additional housing 14D further has a limiting passage 141D.
  • the limiting channel 141D is aligned with the limiting port 115D.
  • the center housing 112D reciprocates the limiting passage 141D in the center housing 112D during the bowing health.
  • the top surface of the center housing 112D is higher than the surface of the additional housing 14D.
  • the additional housing 14D further includes a head support portion 142D and a neck support portion 143D.
  • the head support portion 142D and the neck support portion 143D surround the limit passage 141D. That is, the head support portion 142D is coupled to the neck support portion 143D to form the limit passage 141D.
  • the neck support portion 143D has a neck support surface 1431D. One end of the neck supporting portion 143D adjacent to the limiting passage 141D is gradually lowered toward an end away from the limiting passage 141D to be adapted to support the neck of the user. That is, the neck support portion 143D further has a neck support surface 1431D which is a sloped surface. One end of the head supporting portion 142D adjacent to the limiting passage 141D is lowered toward an end away from the limiting passage 141D to be adapted to support the head of the user.
  • the head of the user is in contact with the head support portion 142D, and the head support portion 142D provides support to the user by sharing the weight of the head.
  • the center housing 112D pushes the neck of the user to rise.
  • the gravity of the user's head is directly applied to the user's neck.
  • the center housing 112D serves as a point. In this manner, the user's cervical vertebrae are stretched to increase the gap between adjacent two cervical vertebrae.
  • the neck of the user descends with the center housing 112D.
  • the center housing 112D reciprocates in the limit passage. That is, the center housing 112D is surrounded by the neck support portion 143D and the head support portion 142D such that the center housing 112D becomes the center of the neck support portion 143D and the head support portion 142D. That is, the center housing 112D is not a limitation on the position of the center housing 112D. Further, the center housing 112D is disposed on one side of the first housing 112D. Preferably, the center housing 112D is disposed on a side of the first housing 112D near the head such that the head support portion 142D more effectively supports the head of the user.
  • the additional housing 14D further includes at least one additional heat source 144D.
  • the additional heat source 144D is disposed on the surface of the additional casing 14D. Specifically, the additional heat source 144D is disposed on the surface of the neck support portion 143D and the head support portion 142D.
  • the additional heat source 144D can work in conjunction with the heat source.
  • the additional housing 14D further includes at least one additional light source 145D.
  • the additional light source 145D is disposed on the surface of the additional housing 14D. Specifically, the additional light source 145D is disposed on the surface of the head support portion 142D and/or the surface of the neck support portion 143D.
  • the additional housing 14D further includes at least one additional low frequency device 146D disposed on a surface of the additional housing 14D.
  • the additional low frequency device 146D is disposed on the surface of the neck support portion 143D and/or the head support portion 142D.
  • the additional housing 14D further includes an additional bracket 147D.
  • the additional heat source 144D, the additional light source 145D, and the additional low frequency device 146D are disposed on top of the additional bracket 147D. That is, the additional light source 145D, the additional low frequency device 146D, and the additional heat source 144D form an additional layer of environmental formation layer 148D.
  • the limit pass The track 141D further includes a first limit channel 1411D and a second limit channel 1412D.
  • the first limit channel 1411D is disposed on the additional environment forming layer 148D.
  • the second limiting channel 1412D is disposed on the additional bracket 147D.
  • the first limiting channel 1411D is aligned with the second limiting channel 1412D to form the limiting channel 141D.
  • the health device of the present invention further includes at least one control module 256D communicatively coupled to the first adjustment device 229D, the second adjustment device 228D, the heat source 21D, the low frequency device 25D, the Light emitting device 23D, the additional heat source 144D, the additional light source 145D, and the additional low frequency device 146D.
  • the control module 256D controls the first adjustment device 229D, the second adjustment device 228D, the heat source 21D, the low frequency device 25D, the illumination device 23D, the additional heat source 144D, the additional light source 145D, and the additional low frequency device 146D to work together. .
  • the control module 256D controls the second adjustment device 228D to drive the center housing 112D to reciprocate. Further, the control module 256D controls the driving rhythm provided by the second adjusting device 282D to drive the center housing 112D to reciprocate, so that the cervical vertebra of the user performs bowing health. Specifically, when the user uses the health device, the user lies flat on the health device. The neck of the user is in contact with the center housing 112D. That is, the center housing 112D supports the neck 112D of the user. The center housing 112D has a limiting portion 1121D.
  • the limiting portion 1121D is disposed at the top of the center housing 112D, and the limiting portion 1121D is disposed at the top of the center housing 112D. Both ends of the limiting portion 1121D are higher than the central portion of the limiting portion 1121D to be adapted to limit the neck of the user. Preferably, the limiting portion 1121D matches the neck curve of the center housing 112D.
  • the neck support portion 143D assists the center housing 112D in supporting the neck of the user.
  • the neck support surface 1431D is a curved surface adapted to fit the neck of the user.
  • the head support portion 142D assists in supporting the head of the user.
  • the head support surface 1421D is a curved surface to form a position where the head restraint defines the head.
  • the control module 256D controls the second adjustment module 228D to drive the center housing 112D to rise. During the ascent of the center housing 112D, the bow of the user's cervical vertebra gradually increases. That is to say, the gap between the adjacent two cervical vertebrae gradually increases.
  • the control module 256D controls the second adjustment module 228D to reduce the driving force to cause the center housing 112D to descend.
  • the center housing 112D is lowered such that the bow of the user's cervical vertebra is gradually reduced. That is to say, the gap between the adjacent two cervical vertebrae is gradually reduced.
  • the control module 256D controls a change in the driving force provided by the second adjusting device 228D to form a rhythmically driven central housing 112D, thereby rhythmically changing the force applied by the center housing 112D to the neck of the user.
  • the bow of the user's cervical vertebra is changed. In this way, the user's cervical vertebra is relaxed, which is beneficial to restore the physiological curve of the cervical vertebra.
  • the control module 256D controls the first adjustment device 229D to drive the first housing 11D to reciprocate. Further, the control module 256D controls the first adjusting device 228D to drive the driving tempo of the first housing 11D to drive the center housing 112D to reciprocate. Specifically, the first adjustment device 229 drives the first housing 11D to raise to increase the bow of the user's cervical spine. The second adjustment device has a small driving force to lower the first housing 11D to lower the bow of the user's cervical vertebra. The control module 256D reciprocally drives the first housing 11D by controlling the first adjustment device 229D to relax the used neck, which is beneficial for the user's cervical vertebra to return to the physiological curve.
  • control module 256D controls the first adjusting device 229D and the second adjusting device 228D to work together. That is, the control module 256D controls the driving tempo of the first adjusting device 229D and the second adjusting device 228D, respectively, to form a rhythm of adjusting the cervical vertebra of the health device of the present invention. Specifically, the control module 256D controls the second adjustment device 228D to rise to adjust the initial position of the first housing 11D. The control module 256D controls the second adjustment device 228D to rotationally drive the center housing 112D to reciprocate. The control module 256D provides another mode of control. The control module 256D controls the first adjustment device 229D to drive the first housing 11D to rise.
  • control module 256D controls the second adjusting device 228D to drive the center housing 112D to rise.
  • the control module 256D provides another mode of control.
  • the control module 256D controls the first adjustment device 229D to reduce the driving force to cause the first housing 11D to descend.
  • control module 256D controls the second adjusting device 228D to drive the center housing 112D to rise, in such a manner as to form a rhythm.
  • the control module 256D provides another mode of control.
  • the control module 256D controls the first adjustment device 229D to drive the first housing 11D to rise.
  • control module 256D The second adjusting device 228D is controlled to reduce the driving force to cause the center housing 112D to descend, forming another rhythm in such a manner.
  • the control module 256D control provides another mode of control.
  • the control module 256D controls the first adjustment device 229D to reduce the driving force to cause the first housing 11D to descend.
  • the control module 256D controls the second adjustment device 230D to reduce the driving force to cause the center housing 112D to descend. Form another rhythm in this way.
  • the control module 256D controls the first adjusting device 229D to increase the tempo of the driving force or reduce the tempo of the driving force to adjust the tempo of the reciprocating movement of the first housing 11D by adjusting the driving tempo of the driving force.
  • the control module 256D controls the second adjusting device 228D to increase the tempo of the driving force or reduce the tempo of the driving force to adjust the rhythm of the reciprocating motion of the center housing 112D by adjusting the driving tempo of the driving force. Further, the control module 256D cooperatively controls the first adjusting device 229D to adjust the rhythm of the driving force and the second adjusting device 228D adjusts the rhythm of the driving force to form a rhythm in which the center housing 112D provides reciprocating motion.
  • the first adjustment device 228D further includes a gas adjustment device 2281D and an air bag 2282D.
  • the gas adjusting device 2281D communicates with the air bag 2282D.
  • the gas adjusting device 2281D inflates the air bag 2282D to expand the air bag 2282D to provide a driving force.
  • the gas adjusting device 2281D evacuates the air bag 2282D to reduce the air bag 2282D, thereby reducing the driving force.
  • the gas conditioning device 1121D is communicatively coupled to the control module 256D.
  • the airbag 2282D provides a driving force to drive the first housing 11D to reciprocate.
  • the control module 256D controls the gas regulating device 2281D.
  • the gas regulating device 1121D can be implemented as an air pump 222D.
  • the control module 256D communicatively connects the air pump 222D to control the air pump 222D to inflate or pump the air bag 2282D.
  • the second adjusting device 229D further includes a second gas adjusting device 2291D and a second air bag 2292D.
  • the second gas adjusting device 2291D communicates with the second air bag 2292D.
  • the second gas adjusting device 2291D inflates the second air bag 2292D to expand the second air bag, thereby generating a driving force to drive the center housing 112D to rise.
  • the second gas regulating device 2291D extracts the gas of the second air bag 2292D such that the second air bag 2292D is lowered, so that the center housing 112D descends with the second air bag 2292D.
  • the second gas regulating device 2291D can be implemented as a second air pump 2221D.
  • the control module 256D communicatively connects the second air pump 2221D.
  • the second air pump 2221D communicates with the second air bag 2292D.
  • the second air pump 2221D inflates or pumps the second air bag 2292D.
  • the control module 256D communicatively connects the second air pump 2221D.
  • the second air bag 2292D can be connected to the gas adjusting device 2281D. That is, the control module 256D controls the gas regulating device 2281D to adjust the gas of the air bag 2282D and the second air bag 2292D.
  • control module 256D forms a healthy environment by controlling the heat source 21D, the light-emitting device 23D, and/or the low-frequency device 25D. Specifically, the control module 256D adjusts the temperature of the center housing 112D by controlling the heat source 21D to form a thermal environment through the heat source 21D. That is, the health environment includes the thermal environment. The control module 256D adjusts the temperature of the heat source 21D to change the surface temperature of the center housing 112D to be suitable for bow health. Taking the cervical spine as an example, after the user lies flat on the health device, the neck of the user is in contact with the center housing 112D. That is, the neck of the user is supported by the center housing 112D.
  • the control module 256D controls the heat source 21D to regulate the temperature.
  • the heat source 21D raises the temperature of the neck of the user to reciprocate the neck of the user.
  • the temperature of the neck of the user is raised to relax the neck muscles of the user. Especially in the case of cold weather.
  • the control module 256D controls the heat source 21D to adjust the temperature before the user uses the health device.
  • the heat source 21D affects the temperature of the environment in the vicinity of the center housing 112D.
  • the health environment makes the user feel comfortable when the user's neck enters the wellness environment.
  • the healthy environment raises the neck temperature of the user such that the neck muscle of the user is suitable for bow health to avoid neck muscle injury of the user.
  • control module 256D further controls the additional heat source 144D to assist in forming the health environment by controlling the additional heat source 144D.
  • This additional heat source 144D can increase the range of the wellness environment.
  • the additional heat source 114D can speed up the temperature increase of the health environment. That is, the control module 256D adjusts the temperature by separately controlling the heat source 21D and the additional heat source 114D to form the health environment.
  • the control module 256D further controls the illumination device 25D to provide illumination to form a light environment. That is, the wellness environment further includes illumination by the illumination device 25D. Specifically, after the user's neck is placed in the center housing 112D, the illumination device 25D provides a photo to the user's neck skin to provide light care in the light environment. Further, the control module 256D controls the additional light source 145D to provide illumination. With this additional light source 145D, the illumination range in the wellness environment is increased. That is to say, the irradiation range of the neck skin of the user is increased. More neck skin is illuminated.
  • the control module 256D controls the low frequency device 25D to generate low frequency electrical stimulation to stimulate the user's skin. That is to say, the health environment further provides a low frequency environment. Further, the control module 256D controls the second adjusting device 228D to drive the center housing 112D to rise so that the low frequency device 25D fits the neck skin of the user. The low frequency device 25D is more suitable for the skin of the user, and the low frequency device 25D performs better for the low frequency health care of the user.
  • the control module 256D controls the additional low frequency device 146D. The additional low frequency device 146D assists the low frequency device 25D in providing low frequency health.
  • the control device 146D controls the first adjustment device 229D to drive the first housing 11D to rise. The additional housing 14D rises with the first housing 11D such that the additional low frequency device 146D fits the neck of the user.
  • the health device of the present invention further includes a massaging device 24D that is disposed in the first housing 11D.
  • the massaging device 24D is disposed in the receiving cavity 111D.
  • the massaging device 24D communicatively connects the control module 256D.
  • the control module 256D controls the massaging device 24D to provide a massage.
  • the massaging device 24D is implemented as a vibration motor.
  • the massage device 24D provides a massage environment.
  • the health device of the present invention further includes a monitoring module 251D.
  • the monitoring module 251D communicatively connects the center housing 112D.
  • the monitoring module 251D is communicatively coupled to the control module 251D.
  • the monitoring module 251D monitors that the user's neck is placed in the center housing 112D, and the monitoring module 251D generates a startup message.
  • the monitoring module 251D transmits the startup information to the control module 256D.
  • the control module 256D controls the heat source 21D to adjust the temperature of the health environment.
  • the control module 256D controls the low frequency device 25D to provide low frequency health in the wellness environment.
  • the control module 256D controls the illumination device 23D to provide illumination in the wellness environment. Further, the control module 256D controls the massaging device 24D to provide massage in the wellness environment.
  • the monitoring module 251D communicably connects the heat source 21D, the low frequency device 25D, the light emitting device 23D, and the massaging device 24D, respectively.
  • the monitoring module 251D monitors the heat source 21D, the low frequency device 25D, and the light emitting device 23D, respectively, to obtain the thermal data, the low frequency data, and the optical data.
  • the control module 256D adjusts the heat source 21D by the thermal data.
  • the control module 256D controls the low frequency device 25D by the low frequency data.
  • the control module 256D controls the illumination device 23D by the optical data.
  • the monitoring module 251D further communicably connects the additional heat source 144D, the additional light source 145D, and the additional low frequency device 146D, respectively.
  • the monitoring module 251D monitors the additional heat source 21D, the additional low frequency device 146D, and the additional light source 145D, respectively, to obtain the additional thermal data, the additional low frequency data, and the additional optical data.
  • the control module 256D adjusts the additional heat source 21D based on the additional thermal data.
  • the control module 256D adjusts the additional heat source 144D based on the additional thermal data.
  • the control module 256D adjusts the additional low frequency device 146D based on the additional low frequency data.
  • the control module 256D controls the additional light source 145D based on the additional light data.
  • the health device of the present invention further includes a control device 16D and a connecting member 17D.
  • the control device 16D is connected to the connector 17D.
  • the connector 17D includes at least one electrical connector 171D and at least one airflow channel 172D.
  • the heat source 21D, the low frequency device 25D, the light emitting device 23D, the additional heat source 144D, and the additional low frequency device 145D are electrically connected by the electrical connector 171D, respectively.
  • the control device 16D communicatively connects the control module 13D.
  • the control device 16D supplies power to the heat source 21D, the low frequency device 25D, the light emitting device 23D, the additional heat source 144D, and the additional low frequency device 145D through the control module 13D.
  • the air passage 172D communicates with the second air bag 2292D.
  • the control module 13D communicatively connects the second gas regulating device 2292D.
  • the control module 13D communicatively connects the second gas regulating device 2292D.
  • the control device 16D is in communication with the air passage 172D.
  • the control device 16D passes through the air through Lane 172D controls the amount of gas of the second bladder 2292D.
  • the second gas adjusting device 2282D is controlled to pump or supply air to the second air bag 2292D.
  • the second gas regulating device 2292D is disposed in the control device 16D.
  • the second gas adjusting device 2282D supplies air to the second air bag 2292D through the air passage 172C to cause the second air bag 2292D to drive the center housing 112D.
  • the second gas regulating device 2292D draws gas through the gas passage 172D to reduce the driving force provided by the second air bag 2292D.
  • the connector 17D further includes another air passage 172D.
  • the other air passage 172D is in communication with the airbag 2282D.
  • the other air passage 172D is in communication with the gas regulating device 2281D.
  • the control device 16D controls the gas regulating device 2281D to adjust the amount of gas of the air bag 2282D through the other air passage 172D. Specifically, the control device 16D controls the gas adjusting device 2281D to supply gas to the air bag 2282D through another air passage 172D such that the air bag 2282D provides a driving force to drive the first housing 11D to rise. The control device 16D controls the gas regulating device 2281 to draw gas to the air bag 2282D through the other air passage 172D to reduce the driving force provided by the air bag 2282D, thereby causing the first housing 11D to descend.
  • the first housing 11D further includes an interface 184D disposed on the first housing 184D.
  • the interface 184D is disposed on one side of the first housing 184D.
  • This interface 184D is used to connect the connector 17D. That is, the control device 16D accesses the interface 184D through the connector 17D.
  • the interface 184D provides electrical and pneumatic connections. Specifically, the electric passage 171D and the air passage 172D of the connecting member 17D are respectively connected to the interface 184D.
  • the interface 184D is electrically coupled to the heat source 21D, the low frequency device 25D, the light emitting device 23D, the additional heat source 144D, and the additional low frequency device 145D, respectively.
  • the interface 184D is connectable to the two air passages 172D such that the two air passages 172D are in communication with the airbags 22822D and the second airbags 2292D, respectively. That is, after the connecting member 17D is respectively connected to the control device 16D and the interface 184D, the control device 16D can control the air bag 2282D to inflate or deflate, and control the additional air bag 2292D to be inflated or deflated. That is, the control device 16D can control the health device of the present invention through the connector 17D.
  • a power source is supplied to the heat source 21D, the low frequency device 23D, the light emitting device 23D, the additional heat source 144D, the additional light source 145D, the additional low frequency device 146D, and the additional massaging device through the interface.
  • the first housing 11D and the accommodating chamber 111D are provided with a battery for supplying electric energy using a battery. That is, the health device of the present invention can be driven using electrical energy. The wellness device can also be used for the waist.
  • a health device in accordance with another preferred embodiment of the present invention is disclosed and illustrated in the following description, wherein the health device includes a health component 40 and a driving portion 50, wherein the driving portion 50 is disposed on the health portion 40, wherein the driving portion 50 can drive the health portion 40 to reciprocate to provide health to a user of the health device, for example, the driving portion 50 can The position of the waist or neck of the user of the health device is provided to the bow health by driving the health portion 40 to reciprocate.
  • the driving portion 50 is capable of intermittently driving the health portion 40 to reciprocate, so that the driving portion 50 rhythmically drives the health portion 40. More preferably, the driving portion 50 is disposed at one side of the health portion 40. For example, the driving portion 50 is disposed below the health portion 40, so that the user's waist or neck position abuts against the user. When the health part 40 is above the driving unit 50, the driving unit 50 can rhythmically drive the health part 40 by driving the health part 40 below the health part 40, and the user can be driven by the health part 40 by the health part 40.
  • the waist or neck is healthy.
  • the user when the user uses the health device, the user may be placed above the health part 40 in a manner of lying above the health part 40 of the health device, or may be in the health of the health device.
  • the upper portion of the portion 40 abuts against the upper portion of the health portion 40.
  • the body part that the user contacts with the health part 40 of the health device is defined as the user's health part, such as the user's waist or neck. Can form a healthy part.
  • the bow health referred to in the present invention refers to the effect of spacing on the adjustment force so that the adjacent Two spines relax.
  • the bow health is used in the lumbar spine to rhythmically exert an effect on the lumbar adjustment force to relax the adjacent two lumbar vertebrae.
  • the bow health is also used in the cervical vertebra, rhythmically affecting the cervical vertebra adjustment force to relax the adjacent two cervical vertebrae.
  • the health device can also be used by the user to perform health care for other parts of the body, and the health device of the present invention is not limited in this respect.
  • the health device of the present invention will be further described by taking the health device as an example for the health of the user's waist.
  • the user can use the health device in a manner lying above the wellness portion 40 of the health device, wherein the health portion 40 of the health device is used to support the waist of the user, and in general, the health device
  • the drive portion 50 of the device is in contact with the bed. Nonetheless, it will be understood by those skilled in the art that when the user uses the health device in a sitting position, the driving portion 50 of the health device can be in contact with the backrest of the sofa or the backrest of the seat.
  • the driving portion 50 intermittently drives the health portion 40 such that the health portion 40 intermittently provides an adjustment force to the waist of the user.
  • the driving unit 50 drives the health unit 40 to apply a force to the waist of the user.
  • the driving unit 50 drives the health unit 40 to apply a supporting force to the waist of the user.
  • the driving portion 40 gradually increases the driving force
  • the healthy portion 40 is driven to exert a force to the waist of the user
  • the health portion 40 is driven to gradually increase the force applied to the waist of the user.
  • the driving force generated by the driving portion 50 is greater than the gravity received by the user's waist, the user's waist can be raised to increase the bow of the user's lumbar spine.
  • the driving force generated by the driving portion 50 can be adjusted such that when the driving force provided by the driving portion 50 is smaller than the gravity received by the user's waist, the waist of the user is lowered, so that the lumbar curvature of the user's waist is reduced. .
  • the driving portion 50 intermittently increases the driving force and reduces the driving force, the health portion 40 can be raised and lowered at intervals, thereby enabling the bow of the user's lumbar vertebrae to be intermittently increased and decreased, so that The waist of the user is bowed and healthy.
  • the driving portion 50 intermittently driving the health portion 40 means that the driving portion 50 is intermittently switched between increasing the driving force and reducing the driving force.
  • the driving unit 50 can drive the health unit 40 to reciprocate by the manner in which the driving unit 50 intermittently adjusts the driving force. Specifically, after the driving portion 50 completes the process of increasing the driving force, it is converted into a process of reducing the driving force; accordingly, after the driving portion 50 completes the process of reducing the driving force, it is converted into a process of increasing the driving force.
  • the driving portion 50 further provides a process of maintaining the driving force between the process of increasing the driving force and the process of reducing the driving force. That is, when the value of the driving force increased by the driving portion 50 reaches a preset value, the driving portion 50 maintains the driving force, so that the health portion 40 supports the waist of the user and maintains the waist for a preset period of time. Lumbar vertebrae; correspondingly, after a predetermined period of time, the driving portion 50 reduces the driving force, and the height of the health portion 40 is lowered to reduce the bow of the user's lumbar spine. In addition, a period of time during which the driving portion 50 maintains the driving force can be set, and the maximum value of the driving force provided by the driving portion 50 can be set.
  • the interval between adjacent two lumbar vertebrae is gradually increased, that is, the user's lumbar vertebrae are stretched. That is to say, the effect of the interval on the lumbar vertebrae changing force is such that the user's lumbar vertebra gradually adapts to the interval of the adjacent two lumbar vertebrae, which helps the user's lumbar vertebrae to restore the physiological bow.
  • the bow health is also applicable to the cervical spine.
  • the driving portion 50 adjusts the force intermittently, and the driving portion 50 further controls the adjustment gap so that the intervals form a rhythm. Further, the drive unit 50 forms a drive knot by controlling the speed at which the drive force is switched. That is, the driving portion 50 controls the speed at which the driving force is increased to be converted into the driving force to reduce the driving force. Further, the drive unit 50 forms a drive knot by controlling the adjustment speed of the driving force. Specifically, the driving portion 50 controls the speed at which the driving force is increased and/or the speed at which the driving force is reduced to form a driving knot.
  • the knotting of the reciprocating motion of the health portion 40 can also be conveniently controlled, and further, the lumbar vertebrae of the user perform the knotting of the bowel health It can also be conveniently controlled.
  • the driving portion 50 further includes at least one fluid adjusting device 51 and at least one elastic covering 52, wherein each of the elastic coverings 52 is respectively disposed at the bottom of the health portion 40. And the edge of each of the elastic coverings 52 is sealingly connected to the bottom of the health part 40, respectively, and at the health part 40
  • a fluid accommodating portion 521 is formed between the bottom and each of the elastic coverings 52 for accommodating a fluid, and the fluid regulating device 51 communicates with each of the fluid accommodating portions 521 to adjust the accommodating portion 521 of each of the fluid accommodating portions 521. Fluid capacity.
  • the fluid regulating device 51 is implemented as a gas regulating device, correspondingly formed between the bottom of the health portion 40 and each of the elastic coverings 52.
  • Each of the fluid accommodation portions 521 is a gas accommodation portion, so that the fluid adjustment device 51 can adjust the gas capacity accommodated inside each of the fluid accommodation portions 521.
  • the contents of the health device of the present invention will continue to be described with the number of the elastic coverings 52 being exemplified, but those skilled in the art will be described. It should be understood that in other possible examples of the health device of the present invention, the number of the elastic covers 52 may also be implemented as one or three or more.
  • the elastic cover 52 is two, and two of the elastic covers 52 are respectively disposed at a bottom of the health part 40 at intervals. Preferably, two of the elastic coverings 52 are symmetrically disposed at the bottom of the health portion 40.
  • the elastic covering 52 has the fluid receiving portion 521 that communicates with the fluid receiving portion 521 of the elastic covering 52. That is, the fluid containing portion 521 may be formed between the elastic covering 52 and the health device 40, or may be formed inside the elastic covering 52. In other words, in the embodiment in which the fluid containing portion 521 is formed inside the elastic covering 52, the elastic covering 52 is an air bag.
  • an outer protective layer of the elastic covering 52 may be provided with an elastic protective layer for protecting the elastic covering 52, so that when the health device is used, the elastic protective layer is in contact with the outside, thereby avoiding The elastic cover 52 is directly in contact with the outside to prevent the elastic cover 52 from being damaged.
  • the health part 40 of the health device further includes a housing case 41 and a top cover 42 and has a receiving cavity 43, wherein the top cover 42 is disposed on the receiving case 41, and the top cover 42 and the receiving case 41
  • the accommodation chamber 43 is formed between them. That is, the accommodation chamber 43 is formed inside the health portion 40.
  • each of the fluid accommodating portion 521 and the accommodating chamber 43 are formed on both sides of the accommodating case 41 of the health part 40, and the fluid regulating device 51 is disposed on the accommodating case 41 and the top cover.
  • the fluid accommodation device 51 is communicated between the housing case 41 and each of the elastic coverings 52 to be subsequently passed by the body adjusting device 51.
  • the fluid capacity within each of the fluid containing portions 521 is adjusted. That is, the edges of each of the elastic coverings 52 are sealingly connected to the housing shell 41 of the health portion 40, respectively, to form each of the fluid accommodation between each of the elastic coverings 52 and the housing shell 41. Part 521.
  • the accommodating case 41 of the accommodating portion 40 has at least one through hole 411, wherein each of the through holes 411 communicates with the accommodating cavity 43 and the fluid accommodating portion 521 to allow being held in the accommodating cavity 43.
  • the fluid regulating device 51 communicates with the fluid containing portion 521 through the through hole 411.
  • the accommodating case 41 has two through holes 411 that are symmetrical with each other, and each of the through holes 411 of the accommodating case 411 communicates with the accommodating cavity 43 and each of the fluid accommodating portions 521, respectively, thereby allowing to be held at
  • the fluid regulating device 51 of the accommodating chamber 43 communicates with each of the fluid accommodating portions 521 through each of the through holes 411, whereby the fluid capacity accommodated in each of the fluid accommodating portions 521 is adjusted by the fluid adjusting device 51.
  • the fluid regulating device 51 is capable of supplying fluid to each of the fluid containing portions 521 such that each of the fluid containing portions 521 is filled with a fluid, and accordingly, the fluid regulating device 51 can be withdrawn from each of the fluid containing portions 521.
  • the fluid is discharged to discharge the fluid of each of the fluid containing portions 521, thereby adjusting the fluid capacity of each of the fluid containing portions 521, thereby adjusting the driving force supplied from the driving portion 50 to the health portion 40.
  • the capacity of each of the fluid accommodation portions 521 can be adjusted by adjusting the capacity of each of the fluid accommodation portions 521 by the fluid adjustment device 51.
  • the fluid regulating device 51 is capable of simultaneously adjusting the capacity of the fluid of each of the fluid containing portions 521 such that the driving portion 50 can reciprocate each end portion of the health portion 40 in synchronization.
  • the fluid adjusting device 51 can adjust the driving force provided by the driving portion 50 for driving the health portion 40 by adjusting the fluid capacity of each of the fluid containing portions 521.
  • the health part 40 includes at least one box body 44 having at least one communication hole 412, the box body 44 is disposed in the housing case 41 in such a manner as to be accommodated in the accommodating cavity 43, and the box The body 44 corresponds to the communication hole 412 of the housing case 41, wherein the elastic cover 52 is disposed on the case body 44.
  • the number of the communication holes 412 of the housing case 41 is two, and the two communication holes 412 are symmetrically disposed at two ends of the housing case 41, and correspondingly, the box body The number of 44 is two, and the two cases 44 are symmetrically disposed at both ends of the housing case 41, and each of the cases 44 corresponds to each of the communication holes 412.
  • each of the casings 44 includes a box body 441 and a box cover 412, and the box body 441 of each of the box bodies 44 is symmetrically disposed at both ends of the housing case 41, and each The bottoms of the box main bodies 441 respectively correspond to each of the communication holes 412 of the housing case 41, and each of the elastic coverings 52 is respectively disposed at the bottom of the box main body 441 of each of the cases 44, the box main body
  • the 441 has a cartridge chamber 4411 which is disposed in the cartridge body 441 and is used to close the cartridge chamber 4411 of the cartridge body 441.
  • the cover 412 is attached to the inner wall of the top cover 42.
  • the bottom of the housing case 41 of the health part 40 has a connecting groove 412, and the elastic cover 52 is sealingly connected to the connecting groove 412.
  • the edge of the elastic cover 52 is sealingly connected to the connecting groove 412 to form the fluid receiving portion 521.
  • the through hole 411 is formed in the box main body 441 of the casing 44 and the receiving case 41 to communicate the connecting groove 412 and the cavity 4411 through the through hole 411.
  • the fluid adjusting device 51 is disposed on the box body.
  • the number of fluid adjusting devices 51 can also be implemented as two, so that each of the fluid adjusting devices 51 is used for adjustment The fluid capacity of each of the fluid containing portions 521.
  • the user can adopt a lying posture or a sitting posture. If the user is in a lying position, such as lying on a bed, the health device is placed under the user's waist such that the health device supports the user's waist. Of course, the health device can also be placed under the neck of the user. Preferably, when the health device is placed under the waist of the user, the health device is horizontal, ie the health portion 40 of the health device is in contact with the waist of the user, the drive portion 50 of the health device Contact with the bed. More specifically, each of the elastic coverings 52 of the driving portion 50 of the health device is in contact with the bed.
  • the fluid regulating device 51 charges each of the fluid containing portions 521 with a fluid, for example, the fluid regulating device 51 charges a gas into each of the fluid containing portions 521, and the gas capacity of each of the fluid containing portions 521 is continuously increased. At this time, the air pressure of each of the fluid containing portions 521 is gradually increased.
  • the gas applies pressure to the health portion 40 and each of the elastic coverings 52, respectively, but the bed blocks the expansion of each of the fluid containing portions 52 toward the bed, and at this time, the health device allows only each of the fluids to be accommodated.
  • the portion 52 expands in the direction of the health portion 40. At this time, the air pressure of each of the fluid containing portions 52 is taken as a driving force.
  • the health portion 40 moves away from the bed.
  • the health department 40 is pushed away from the initial position. If the health part 40 is in contact with the waist of the user, the health part 40 exerts a force on the waist of the user to cause the user's lumbar spine to be subjected to a force. After the lumbar vertebrae of the user are subjected to the force, the user's lumbar vertebra moves in a direction away from the bed body, and the bow of the user's lumbar vertebra increases, and the gap between the lumbar vertebrae increases. Further, the lumbar muscles are also passively exercised.
  • the fluid regulating device 51 is provided with an inflation preset value. If the amount of gas supplied from the fluid regulating device 51 to each of the fluid accommodating portions 521 reaches a predetermined value of inflation, the fluid regulating device 51 stops the fluid to each of the fluids.
  • the accommodation portion 521 supplies the gas, and at this time, the health portion 40 stops moving.
  • the force of the gas contained in each of the fluid receiving portions 521 is applied to the health portion 40 for supporting the health portion 40 to stay at the current position.
  • the health portion 40 is used to support the waist of the user so that The user's lumbar vertebrae are maintained at the current bow, and the user's waist muscles are stretched, that is, the user's waist muscles are also exercised.
  • the fluid regulating device 51 further adjusts the gas capacity of each of the fluid containing portions 521 by reducing each of the flows
  • the driving force provided by each of the fluid accommodating portions 521 is adjusted in such a manner as the gas capacity of the body accommodating portion 521.
  • the gas capacity of each of the fluid containing portions 521 is reduced, the force applied by the gas to the health portion 40 is reduced, and the driving force provided by the health portion 40 to the waist of the user is reduced.
  • the health portion 40 applies less force to the waist of the user than when the health portion 40 receives the gravity of the waist of the user, the health portion 40 moves in the direction of the bed, and the bow of the user's lumbar vertebra is reduced.
  • the gap between the two lumbar vertebrae is reduced.
  • the fluid regulating device 51 further controls the inflation rate and/or the pumping speed of each of the fluid containing portions 521 to be adjusted. Specifically, the fluid regulating device 51 further controls the charging speed and/or the pumping speed for each of the fluid containing portions 521 to control the formation of the charging speed and/or the pumping speed of each of the fluid containing portions 521. The driver section is scraped. Further, the fluid regulating device 51 further controls the switching speed for each of the fluid containing portions 521 from the inflation to the pumping and/or the switching speed from the pumping to the charging to control the driving throttle. Further, the fluid regulating device 51 controls the amount of gas of each of the fluid containing portions 521 to maintain the driving force provided.
  • the fluid regulating device 51 is further provided with a fluid supplemental preset value, for example, the fluid regulating device 51 is provided with a gas supplemental preset value.
  • the fluid adjusting device 51 supplies a gas to each of the fluid containing portions 521 when the gas capacity of each of the fluid containing portions 521 reaches a gas supplemental preset value.
  • the health department 40 stops moving toward the bed. When the force of the gas contained in each of the fluid accommodating portions 521 is greater than the force applied to the health portion 40 by the user's waist, the health portion 40 moves in a direction away from the bed, and is used.
  • the lumbar vertebrae of the person is increased by the support of the health department 40, so that the gap between the two lumbar vertebrae is increased, and the adjacent two lumbar vertebrae are relaxed.
  • the fluid adjustment device 51 controls the gas to flow out of each of the fluid accommodation portions 521, and the health portion 40 receives less force of the gas, and the user's waist is subjected to the pressure. The force is reduced, the user's lumbar vertebrae is lowered, and the gap between the two lumbar vertebrae of the user is reduced.
  • each of the fluid accommodation portions 521 is repeatedly adjusted by the fluid regulating device 51, and the health portion 40 performs a reciprocating motion to adjust a force applied to the lumbar vertebra of the user, thereby causing a gap between the two lumbar vertebrae of the user.
  • the user's waist is prevented from being in a state for a long time, such as exerting a force on the user's lumbar vertebra for a long time, so that the user's The two lumbar vertebrae are maintained in a large gap, which may damage the lumbar spine and may also cause damage to the lumbar muscles.
  • the drive unit 50 of the health device further includes a control module 53 that is communicatively coupled to the fluid adjustment device 52 such that the fluid adjustment device 52 is controllably coupled to the control module 53.
  • the control module 53 is capable of controlling the fluid regulating device 51 to adjust the fluid capacity of each of the fluid containing portions 521.
  • the control module 53 controls the fluid regulating device 51 in such a manner as to control the fluid adjusting device 51 to intermittently supply fluid to the fluid receiving portion 521, that is, the control module 53 controls the fluid adjusting device 51 to be used in a conservative manner.
  • Fluid is supplied to each of the fluid containing portions 521, and the control module 53 controls the fluid regulating device 51 to withdraw the fluid in each of the fluid containing portions 521 in a tangible manner.
  • the control module 53 can control the force received by the health portion 40, thereby controlling the force applied by the health portion 40 to the waist of the user to avoid the waist of the user. It is maintained in a state for a long time.
  • the control module 53 can control the height of the health portion 40.
  • control module 53 sets an exercise range, wherein the exercise range refers to the control module 53 controlling the fluid adjustment device 51 so that the force received by the user's waist is constant within a preset time period.
  • the range is varied such that the bow of the user's lumbar spine varies within a certain range.
  • the user's waist is exercised to accommodate changes in the lumbar curvature.
  • the user's waist muscles are exercised within the range of exercise. That is, the control module 53 controls the fluid adjusting device 51 such that the health portion 40 can intermittently apply a force to the user.
  • the control module 53 causes the health portion 40 to rhythmically exert a force on the user by controlling the fluid adjusting device 51.
  • the health device further includes at least one detecting component 60 disposed on the health component 40, and the detecting component 60 is communicably coupled to the control module 53.
  • the detecting element 60 further includes at least one pressure sensor 61 disposed to the health portion 40, and the pressure sensor 61 is communicably coupled to the control module 53.
  • the pressure sensor 61 is capable of detecting the pressure applied by the health part 40 to the waist of the user.
  • the pressure sensor 61 can also detect the pressure applied by the user to the health device.
  • the pressure sensor 61 is disposed in the accommodating cavity 43 of the health part 40.
  • the detecting element 60 further includes at least one air pressure sensor 62 disposed on the housing case 42 or the elastic cover 52, and the air pressure sensor 62 is communicably coupled to the control module 53.
  • the air pressure sensor 62 is disposed in the fluid accommodation portion 521.
  • the air pressure sensor 62 is for detecting the pressure of the fluid containing portion 521.
  • the control module 53 obtains the pressure applied by the user's waist to the health part 40; through the air pressure sensor 62, the control module 53 obtains the pressure of the fluid in the fluid accommodation part 521, for example, the control The module 53 can obtain the pressure of the gas in the fluid containing portion 521 through the air pressure sensor 62.
  • the control module 53 controls the fluid adjusting device 51 to adjust the fluid capacity of each of the fluid containing portions 521 according to the obtained pressure applied to the health portion 40 by the user's waist and the pressure of the gas in the fluid containing portion 521. Thereby adjusting the pressure provided by the fluid accommodation portion 521.
  • the detecting element 60 further includes at least one myoelectric sensor 63 disposed on the health portion 40, and the myoelectric sensor 63 is communicably coupled to the control module 53.
  • the myoelectric sensor 63 is disposed on a surface of the health portion 40.
  • the myoelectric sensor 63 may be disposed on a surface of the top cover 42 of the health portion 40.
  • the myoelectric sensor 63 and the elastic cover 52 are respectively located on both sides of the health part 40.
  • the myoelectric sensor 63 is for obtaining electromyographic data related to the healthy part of the user. In this preferred example of the health device of the present invention, the myoelectric sensor 63 acquires an electromyographic signal generated by the user's waist muscles.
  • the myoelectric sensor 63 can acquire the myoelectric signal of the user by the user's waist skin contacting the myoelectric sensor 63. It is worth mentioning that the manner of obtaining the myoelectric signal is not limited in the health device of the present invention. That is to say, the manner in which the myoelectric signal is obtained by contact or non-contact type belongs to the protection range of the health device of the present invention.
  • the myoelectric sensor 63 transmits the acquired myoelectric signal to the control module 53, and the control module 53 obtains the user's lumbar muscle state by analyzing the myoelectric signal. Further, by analyzing the myoelectric signal, the control module 53 obtains the lumbar state of the user.
  • the control module 53 controls the fluid adjusting device 51 to adjust the fluid capacity of each of the fluid containing portions 521 according to the lumbar state of the user, thereby controlling the force applied by the health portion 40 to the waist of the user, in such a manner that the control
  • the module 53 adjusts the fluid capacity of each of the fluid receiving chambers 521 through the fluid adjusting device 51 according to the lumbar state and/or the lumbar state of the user, thereby controlling the force applied by the health portion 40 to the user, in such a manner.
  • the user's waist state and/or lumbar state are monitored in real time for better use.
  • the detecting element 60 further includes at least one temperature sensor 64 disposed on a surface of the health portion 40, and the temperature sensor 64 is communicably coupled to the control module 53.
  • the temperature sensor 64 may be disposed on a surface of the top cover 42 of the health portion 40. If the skin of the healthy part of the user is in contact with the temperature sensor 64, or the skin of the healthy part of the user is within the detection range of the temperature sensor 64, the temperature sensor 64 can obtain the temperature of the skin of the healthy part of the user.
  • the health device further includes at least one health environment former 70 for forming a wellness environment 701.
  • the wellness environment former 70 is capable of forming the wellness environment 701 in the middle of the wellness portion 40.
  • the wellness environment former 70 can be disposed in the middle of the health portion 40 such that the health environment former 70 can
  • the wellness environment 701 is formed in the middle of the wellness section 40.
  • the wellness environment former 70 can form a thermal environment in a manner that provides and controls thermal energy. That is, the health environment former 70 can pass the control The way in which heat is applied controls the temperature of the thermal environment.
  • the control module 53 is communicably coupled to the health environment former 70 to regulate the temperature of the wellness environment 701 by the control module 53 via the health environment former 70.
  • the health environment former 70 further includes at least one heat source device 71 for generating thermal energy, wherein the heat source device 71 is disposed at the health portion 40, and the control module 53 is communicably coupled to the heat source device 71. So that the heat source device 71 can be controlled by the control module 53. That is, the control module 53 can adjust the temperature of the thermal environment by controlling the heat source device 71 to generate heat. For example, the control module 53 can control the heat source device 71 to generate heat before the health device is used to perform bow health.
  • the temperature of the health environment 701 can be changed to facilitate health, and on the other hand, eliminate The feeling of discomfort generated when the user's health part is in contact with the health department 40 to enhance the user experience.
  • the heat source device 71 can be implemented as a heat generating device such as, but not limited to, a heat generating film or a heating wire.
  • the health environment former 70 further includes at least one light source device 72 for generating light to form a light environment, wherein the light source device 72 is disposed on the health portion 40, and the control module 53 is communicably coupled to the light source device 72, so that the light source device 72 can be controlled by the control module 53.
  • the control module 53 can control the illumination intensity of the light environment of the health environment 701 by controlling the working state of the light source device 72. If the healthy part of the user is located in the health environment 701, the light environment of the health environment 701 acts on the skin of the healthy part of the user to perform light health on the skin of the user's healthy part. That is to say, the light generated by the light source device 72 can act on the skin of the healthy part of the user to perform light health on the skin of the healthy part of the user.
  • the light source device 72 further includes at least one light source 721 and at least one light transmitting device 722 covering each of the light sources 721, that is, the light transmitting device 722 is held by the light of each of the light sources 721.
  • the radiation path, each of the light generated by the light source 721 can pass through the light transmitting means 722 to form the light environment.
  • the light transmitting device 722 is further provided with a high transmittance color conversion layer to set the light transmitting device 722 to obtain a desired color light, such as, but not limited to, absorbing blue light and transmitting green light. , or to allow red light to pass through.
  • the light transmissive device 722 can further process the transmitted light to enable the transmitted light to illuminate a larger range.
  • the light transmitting device 722 provides a light transmissive process.
  • the heat source device 71 is disposed between the light source 721 and the light transmitting device 722.
  • a heat generating film or a heating wire of the heat generating device 71 is disposed between each of the light source 721 and the light transmitting device 722.
  • the light transmissive device 722 is disposed on top of the health environment former 70. The healthy portion of the user can be in contact with the light transmissive device 722.
  • the heat generating film or the heating wire of the heat generating device 71 is fixedly disposed below the light transmitting device 722.
  • Each of the light sources 721 is disposed below the heat generating film or the heating wire of the heat generating device 71.
  • the heat generating film or the heating wire of the heat generating device 71 is set to a predetermined shape such that the light generated by each of the light sources 721 passes through the light transmitting device 722 and is presented in a preset shape.
  • the control module 53 controls the heat source device 71 and the light source 721, respectively, such that the light source 721 can serve as an auxiliary heat source for the thermal environment forming the health environment 701.
  • the health department 40 further includes a limiting portion 45, wherein the height of the health portion 40 gradually decreases from the both ends of the health portion 40 toward the middle portion along the length direction of the health device to form the middle portion of the health portion 40.
  • Limiting portion 45 Preferably, the limiting portion 45 is formed at the top of the wellness environment former 70. If the user's waist is placed behind the limit portion 45 of the health portion 40, the user's waist can be restrained from moving in the horizontal direction, in such a manner that the user performs the bow by the health device. In the case of health, the user's waist is prevented from moving horizontally, thereby facilitating the maintenance of the user's waist at the limit portion 45 for health. That is, when the user performs the bowing health of the waist using the health device, the limiting portion 45 serves to maintain the user's waist and the health device in a relatively fixed position.
  • the height of the health portion 40 gradually decreases from the central portion to the both ends of the health portion 40 to form a curved surface so that when a user's healthy portion (for example, the waist portion) is in contact with the health portion 40 After that, the surface adapts to the curve of the user's healthy part.
  • the curved surface is adapted to the physiological curve of the healthy part of the user.
  • the top of the health environment former 70 gradually decreases toward the middle along the width direction of the health device, such that In a manner, when the health device is used, the user's healthy part can be attached to the curved surface.
  • the user's waist curve and/or neck curve fits the curved surface of the health portion 40.
  • the wellness environment former 70 further includes at least one magnetic element 73 for providing a magnetic health environment for providing magnetic health through the magnetic environment, wherein the magnetic element 73 is disposed on the health portion 40, and the magnetic element 73
  • the control module 53 is communicably coupled to control the magnetic element 73 by the control module 53. That is to say, when the user uses the health device for bow health, the user can perform magnetic health in a magnetic environment.
  • the magnetic element 73 is disposed in the middle of the surface of the wellness environment former 70.
  • the magnetic member 73 may be disposed in the middle of the surface of the light transmitting device 722.
  • the health device further includes at least one massage device 80 to provide a massage environment, wherein the massage device 80 is disposed on the health portion 40, and the massage device 80 is communicably coupled to the control module 53 for control Module 53 controls the massaging device 80.
  • the massage device 80 is disposed in the accommodating cavity 43 of the health part 40.
  • the massaging device 80 is disposed in the chamber 4411 of the cartridge body 441.
  • the massaging device 80 provides a massage in a vibrating manner.
  • the control module 53 can provide a massage to the wellness environment 701 formed by the wellness environment former 70 by controlling the massaging device 80.
  • the control module 53 can control the massage device 80 to massage the healthy part of the user to shorten the healthy part of the user before bowing health. Adaptation time. Further, when the bowing health is performed on the healthy part of the user, the massaging device 80 can simultaneously massage the healthy part of the user, so that the health environment 701 is accompanied by providing the massage while performing the bow health. It is worth mentioning that the type of the massage device 80 is not limited in the health device of the present invention, for example, the health device 80 can be implemented as, but not limited to, a vibration motor.
  • the health device further includes at least one energy supply device 90 disposed to the health portion 40.
  • the energy supply device 90 is disposed in the accommodating cavity 43 of the health part 40.
  • the energizing device 90 is disposed in the chamber 4411 of the cartridge body 441.
  • the fluid regulating device 51 of the driving portion 50 and the control module 53, the detecting component 60, the heat source device 71 of the health environment forming device 70, the light source device 72, the magnetic element 73, and the massaging device 80 are respectively connected to The energy supply device 90.
  • the energy supply device 90 can provide electrical energy.
  • the energy supply device 90 can be implemented as, but not limited to, a battery or a power source, such that the fluid adjustment device 51 of the driving portion 50 and the control module 53 and the detecting component 60
  • the heat source device 71 of the health environment former 70, the light source device 72, the magnetic element 73, and the massaging device 80 are respectively electrically connected to the energy supply device 90.
  • the health device further includes at least one control terminal 100 communicably connected to the control module 53 of the driving portion 50, and the user can control the health device through the control terminal 100.
  • the control terminal 100 can be communicably connected to the control module 53 by wire or wirelessly.
  • the type of the control terminal 90 is not limited in the health device of the present invention.
  • the control terminal 100 may be a dedicated remote controller, or the control terminal 100 may be a mobile phone, a tablet computer, or the like. Digital electronics.
  • the edge of the housing case 41 of the health portion 40 and the edge of the top cover 42 are interconnected to the storage case 41 and the top cover 42.
  • the accommodation chamber 43 is formed between them.
  • the edge of the housing case 41 is matingly coupled to the edge of the top cover 42. More preferably, the edge of the receiving case 41 and the edge of the top cover 42 are detachably fitted.
  • the energizing device 80 and the fluid adjusting device 51 of the driving portion 50, each of the elastic covering 52 and the control module 53 are fixedly disposed on the casing 44, and the energizing device 80 and the driving portion
  • the fluid regulating device 51 of the 50 and the control module 53 are housed in the chamber 4411 of the casing 44 of the health portion 40, and each of the elastic coverings 52 is disposed outside the health portion 40, for example,
  • the elastic coverings 52 are respectively located at the bottom of the housing case 41.
  • the wellness environment former 70 is provided in the housing case 41 of the wellness unit 40.
  • the wellness environment former 70 is disposed in the middle of the housing case 41 of the health part 40.
  • the middle portion of the top cover 42 of the health portion 40 has a health environment forming hole 421, and the health environment former 70 is placed before the edge of the top cover 42 is embeddedly connected to the edge of the housing case 41.
  • the wellness environment embedded in the top cover 42 forms a hole 421 in such a manner that the wellness environment 701 formed by the wellness environment former 70 It can be extended to the surface of the top cover 42.
  • the health environment former 70 is embedded in the health environment forming aperture 421, the surface of the top cover 42 being on the same curved surface as the top surface of the wellness environment former 70.
  • the light transmitting device 722 further includes at least two sub-transmissive devices 7221 and has at least one spacing groove 7222, wherein the spacing groove 7222 divides the light transmitting device 722 into each of the sub-transmissive devices 7221. That is to say, there is one spacer groove 7222 between two adjacent sub-light transmission devices 7221. At least one light source 721 is disposed correspondingly below each of the sub-light transmitting devices 7221.
  • the control module 53 can respectively control the illuminating tempo of the light source 721 corresponding to each of the sub-light transmitting devices 7221 to pass each of the sub-transmission devices 7221.
  • the light transmitting device 7221 exhibits the formation of preset information.
  • the preset information can be used to prompt the user to use the health device for health. It can be understood that the more the number of the sub-transmissive devices 7221 of the light transmitting device 722, the more information the light transmitting device 722 can display. Therefore, it should be understood by those skilled in the art that in the health device of the present invention, the number of the sub-light transmitting devices 7221 and the spacing grooves 7222 of the light transmitting device 722 is not limited.
  • the pressure sensor 61 of the detecting element 60 and the myoelectric sensor 63 may be disposed on a surface of the top cover 42 and/or a surface of the health environment former 70.
  • the myoelectric sensor 63 can be disposed in the spacing groove 7222.
  • the skin of the user's healthy part can be in contact with the myoelectric sensor 63 to obtain the myoelectric signal of the user's healthy part by the myoelectric sensor 63.
  • the pressure sensor 61 can also be disposed in the spacing slot 7222. When the user uses the health device, the pressure sensor 61 collects pressure data and transmits the pressure data collected by the pressure sensor 61 to the control module 53.
  • the health device further includes at least one sub-driving device 110 and at least one supporting portion 120, each of the sub-driving devices 110 being respectively disposed on the health device.
  • the accommodating case 41 of the portion 40, each of the supporting portions 120 is drivably provided to each of the sub-driving devices 110, wherein each of the sub-driving devices 110 is used to drive each of the supporting portions 120, respectively.
  • the health environment former 70 has at least one through hole 74, wherein each of the support ends of the support portion 120 extends from the receiving cavity 43 of the health portion 40 to the health through each of the perforations 74 of the health environment former 70, respectively.
  • the exterior of the portion 40, and the support end of each of the support portions 120 are respectively held in the wellness environment 701. That is, each of the sub-driving device 110 and the driven end of the support portion 120 are respectively held in the accommodating chamber 43 of the health portion 40.
  • the number of the sub-drive devices 110, the number of the support portions 120, and the number of the perforations 74 of the health environment former 70 are each implemented as four. Nonetheless, those skilled in the art will appreciate that in other possible examples of the health device of the present invention, the number of sub-drives 110, the number of supports 120, and the perforations 74 of the health environment former 70 The number may be less or more, and therefore, the health device of the present invention is disclosed in FIGS. 25A to 27, including four such sub-driving devices 110 and four of the supporting portions 120, and a specific example having four such perforations 74 only For the sake of example, it should not be seen as limiting the content and scope of the health device of the present invention.
  • each of the sub-driving devices 110 is disposed at a distance from each other in the housing case 31 of the health-care portion 40, such that the supporting portions of each of the supporting portions 120 are also spaced apart from each other in the health environment former.
  • the health environment 701 formed by 70 Nevertheless, in other possible examples of the health device of the present invention, one of the sub-driving devices 110 can also be used to drive two of the support portions 120, with reference to FIG. 61A; or one of the sub-driving devices 110 can also Used to drive all of the support portion 120, refer to Figure 61B.
  • each of the sub-driving devices 110 drives each of the support portions 120 in a preset manner.
  • the preset manner of the present invention means that each of the sub-driving devices 110 can synchronously drive each of the supporting portions 120 to move in the same amplitude manner, or each of the sub-driving devices 110
  • Each of the support portions 120 may be driven to move in a different amplitude manner in synchronization, or each of the sub-driving devices 110 may drive each of the support portions 120 asynchronously.
  • four sub-drive devices 110 are respectively defined as a first sub-drive device 110a, a second sub-drive device 110b, and a third sub-device.
  • the driving device 110c and a fourth sub-driving device 110d, and the four supporting portions 120 are respectively defined as a first supporting portion 120a and a second The support portion 120b, a third support portion 120c, and a fourth support portion 120d.
  • the first sub-driving device 110a is disposed on the accommodating case 41 of the health-care unit 40.
  • the support portion of the first supporting portion 120a extends from the accommodating cavity 43 to the outside of the health-care portion 40 via the through-hole 74, and the The first sub-driving device 110a is configured to drive the first supporting portion 120a to move the supporting end of the first supporting portion 120a within the health environment 701.
  • the second sub-driving device 110b is disposed on the accommodating case 41 of the health-care portion 40.
  • the support portion of the second supporting portion 120b extends from the accommodating cavity 43 to the outside of the health-care portion 40 via the through-hole 74, and the The second sub-driving device 110b is configured to drive the second supporting portion 120b to move the supporting end of the second supporting portion 120b within the health environment 701.
  • the accommodating case 41 is disposed in the accommodating case 41 of the accommodating portion 40.
  • the supporting portion of the third supporting portion 120c extends from the accommodating cavity 43 to the outside of the health part 40 via the through hole 74, and the The third sub-driving device 110c is configured to drive the third supporting portion 120c to move the supporting end of the third supporting portion 120c within the health environment 701.
  • the fourth sub-drive device 110d is disposed on the housing case 41 of the health-care portion 40.
  • the support portion of the fourth support portion 120d extends from the receiving cavity 43 to the outside of the health-care portion 40 via the through-hole 74, and
  • the fourth sub-driving device 110d is configured to drive the fourth supporting portion 120d to move the supporting end of the fourth supporting portion 120d within the health environment 701.
  • each of the sub-driving devices 110 pneumatically drives each of the support portions 120 to move.
  • the sub-drive device 110 can be implemented as, but not limited to, a fluid bladder, such as an air bag, wherein the sub-drive device 110 is coupled to the fluid regulating device 51 of the drive portion 50 for subsequent passage through the fluid regulating device 51.
  • the support portion 120 is driven in such a manner as to adjust the fluid capacity of the sub-driving device 110.
  • the fluid adjusting device 51 supplies gas to the sub-driving device 110 such that the sub-driving device 110 provides a driving force to the supporting portion 120 to drive the support.
  • the portion 120 moves in a direction away from the bottom of the health portion 40.
  • the fluid adjusting device 51 extracts the gas in the sub-driving device 110 such that the driving force provided by the sub-driving device 110 to the supporting portion 120 is reduced, so that the supporting portion 120 can be directed to the bottom of the healthy portion 40. mobile.
  • the control module 53 can control the fluid regulating device 51 to adjust the fluid capacity of the sub-driving device 110.
  • 60A through 60F illustrate a process in which a user uses the health device.
  • the user can place the health device on the bed, at which point each of the fluid containing portions 521 is not charged to drive the health portion 40 away from the bed.
  • each of the sub-driving devices 110 is not charged with a fluid that generates a driving force for driving each of the supporting portions 120 away from the bottom of the housing case 41 of the wellness portion 40.
  • the user can feel whether the temperature of the health environment 701 is appropriate by the hand, or whether the temperature of the health environment 701 detected by the temperature sensor 64 and the displayed data is appropriate. For example, the user can feel the temperature of the health environment 701 by the way the hand touches the outer surface of the top cover 42 of the health part 40.
  • the skin of the user's health part may feel very uncomfortable when it comes into contact with the outer surface of the top cover 42 of the health part 40.
  • the temperature of the health environment 701 may be raised in a heated manner by the heat source device 71 of the health environment former 70, and then the skin of the health part and the outer cover 42 of the health part 40 may be externally
  • the surface contact, in such a manner, can increase the comfort of the user when using the health device for bow health.
  • the skin of the user's healthy portion is in contact with the outer surface of the top cover 42 of the health portion 40.
  • the health device is placed below the waist of the user in a horizontal manner.
  • the driving portion 50 of the health device is in contact with the bed.
  • the massaging device 80 of the health device can be operated to massage the waist of the user and Relax to avoid the discomfort of the user's waist using the health device.
  • the control module 53 can expand the fluid accommodation portion 521 by controlling the fluid adjustment device 51 to fill each of the fluid accommodation portions 521, at this time, because the bed body limits the drive portion 50 downward. Extending, therefore, the drive unit 50 can only Upwardly extending, if the driving force generated by the fluid capacity of the fluid containing portion 521 of the driving portion 50 is greater than the pressure received by the health portion 40, the driving portion 50 is configured to drive the health portion 40 to generate a distance away from the bed. The movement of the body in the direction to increase the bow of the user's waist.
  • control module 53 can drive each of the sub-drives 110 to drive each of the support portions 110 upward by controlling the fluid adjustment device 51 to fill each of the sub-drive devices 110 with fluid. Movement to further provide support to the user's waist, thereby further increasing the user's waist bow.
  • the first sub-driving device 110a, the second sub-driving device 110b, the third sub-driving device 110c, and the fourth sub-driving device 110d synchronously drive the first supporting portion 120a
  • the second support portion 120b, the third support portion 120c, and the fourth support portion 120d are moved away from the bottom of the housing case 11 of the health-care portion 40 for providing a supporting force to act on the waist of the user. .
  • the control module 53 can reduce the amount of fluid generated in the fluid containing portion 521 by controlling the fluid adjusting device 51 to reduce the amount of heat generated by the driving portion 50 for driving the health portion 40.
  • Driving force when the driving force provided by the driving portion 50 for driving the health portion 40 is less than the pressure received by the health portion 40, the health portion 40 moves toward the bed body, at this time, the user's waist The bow is reduced.
  • the control module 53 can reduce the amount of fluid generated by the sub-drive device 110 for driving each of the support portions by controlling the fluid adjustment device 51 to extract the fluid of each of the sub-drive devices 110.
  • the driving force of 120 when the driving force for driving each of the supporting portions 120 provided by the sub-driving device 110 is less than the pressure received by each of the supporting portions 120, each of the supporting portions 120 approaches the health-care portion 40.
  • the direction of the bottom of the housing case 41 is moved, and at this time, the waist of the user is further reduced.
  • the user's waist is operated by the health device to switch between a large bow state and a small bow state to achieve bowing of the user's waist. healthy.
  • the muscles of the user's waist are also exercised.
  • the support portion 120 may have other modes to choose from, such as in the specific example shown in FIG. 28F, each of the support portions 120.
  • the movement of the first sub-drive device 110a and the second sub-driving device 110b does not drive the first support portion 120a and the second support portion 120bc, and only the third sub-drive device 110c and the fourth sub-driving device 110d drive the third supporting portion 120c and the fourth supporting portion 120d to support the waist of the user only by the fourth supporting portion 120d.
  • each of the supports The portion 120 can be used intermittently to support the waist of the user to provide point support. It can also be said that the area of the support force received by the user's waist is reduced, which is useful for the health of the local position of the user's waist.
  • Figures 62A and 62B show another variant embodiment of the health device, which differs from the health device shown in Figures 57A to 59 in the health device of Figures 30A and 30B.
  • the number of the sub-drives 110 and the support portion 120 of the health device and the number of the perforations 74 are implemented as one.
  • the driving portion 50 of the health device includes one elastic covering 52 such that only one fluid receiving portion 521 is formed at the bottom of the health portion 40.
  • a portion of the fluid containing portion 521 may extend to the receiving cavity 41 of the health portion 40 via the connecting groove 412 formed at the bottom of the housing case 41 of the health portion 40.
  • each of the supporting portions 120 may be disposed on the fluid receiving portion 521, and the supporting end of each of the supporting portions 120 extends from the receiving cavity 43 to the health portion 40 via the through hole 74, respectively. external. That is, the fluid accommodation portion 521 can not only drive the health portion 40 to reciprocate, but the fluid accommodation portion 521 can also drive each of the support portions 120 to reciprocate. Preferably, the fluid accommodation portion 521 is capable of synchronously driving the health portion 40 and each of the support portions 120 to reciprocate.

Landscapes

  • Health & Medical Sciences (AREA)
  • Epidemiology (AREA)
  • Pain & Pain Management (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Rehabilitation Therapy (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Percussion Or Vibration Massage (AREA)

Abstract

L'invention concerne un dispositif de soins de santé, comprenant une coque centrale (112D), un second dispositif de réglage (228D), et un module de commande (256D). Le second dispositif de réglage (228D) est disposé au fond de la coque centrale (112D) pour entraîner la coque centrale (112D) pour effectuer un mouvement de va-et-vient. Le module de commande (256D) est relié en communication au deuxième dispositif de réglage (228D), le module de commande (256D) commandant le deuxième dispositif de réglage (228D) pour entraîner régulièrement la coque centrale (112D) en effectuant un mouvement de va-et-vient régulier. La coque centrale (112D) fournit un environnement de soins de santé pour faciliter les soins de santé.
PCT/CN2017/109124 2016-02-11 2017-11-02 Dispositif de soins de santé et son système Ceased WO2018082614A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
US15/775,004 US11202733B2 (en) 2016-11-02 2017-11-02 Health-regain device and system thereof
US17/111,458 US11077012B2 (en) 2016-02-11 2020-12-03 Health-regain device and system thereof

Applications Claiming Priority (6)

Application Number Priority Date Filing Date Title
CN201610952089.0 2016-11-02
CN201610952089 2016-11-02
CN201710835053.9A CN107997866B (zh) 2016-11-02 2017-09-15 康健装置及其系统
CN201710835053.9 2017-09-15
CN201710995463.X 2017-10-23
CN201710995463.XA CN108056896B (zh) 2016-11-02 2017-10-23 康健装置及其系统

Related Child Applications (2)

Application Number Title Priority Date Filing Date
US15/775,004 A-371-Of-International US11202733B2 (en) 2016-11-02 2017-11-02 Health-regain device and system thereof
US17/111,458 Continuation US11077012B2 (en) 2016-02-11 2020-12-03 Health-regain device and system thereof

Publications (1)

Publication Number Publication Date
WO2018082614A1 true WO2018082614A1 (fr) 2018-05-11

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Application Number Title Priority Date Filing Date
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Country Status (1)

Country Link
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Cited By (1)

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CN109846702A (zh) * 2019-01-10 2019-06-07 山东中医药大学附属医院 一种颈椎理疗仪

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CN102988147A (zh) * 2011-09-14 2013-03-27 厦门兴翔天电子有限公司 人体肌肉拉伸装置
US20130079690A1 (en) * 2011-09-23 2013-03-28 Jui Yao Chen Muscle stretching device
CN205108002U (zh) * 2015-11-16 2016-03-30 崔伟 一种颈椎治疗仪
CN105726191A (zh) * 2016-02-02 2016-07-06 张贤利 多功能电子枕

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CN1732880A (zh) * 2004-08-09 2006-02-15 欧姆龙健康医疗事业株式会社 按摩器
CN201505268U (zh) * 2009-09-23 2010-06-16 漳州蒙发利实业有限公司 一种用于按摩机芯的按摩强度调节装置
CN102988147A (zh) * 2011-09-14 2013-03-27 厦门兴翔天电子有限公司 人体肌肉拉伸装置
US20130079690A1 (en) * 2011-09-23 2013-03-28 Jui Yao Chen Muscle stretching device
CN205108002U (zh) * 2015-11-16 2016-03-30 崔伟 一种颈椎治疗仪
CN105726191A (zh) * 2016-02-02 2016-07-06 张贤利 多功能电子枕

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109846702A (zh) * 2019-01-10 2019-06-07 山东中医药大学附属医院 一种颈椎理疗仪
CN109846702B (zh) * 2019-01-10 2021-07-27 山东中医药大学附属医院 一种颈椎理疗仪

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