CN214906815U - Protective clothing based on intelligent medical health remote monitoring and treatment platform - Google Patents

Abstract

The utility model discloses a protective clothing based on an intelligent medical health remote monitoring and treatment platform, wherein a positioning part sends a positioning signal to a server and a mobile terminal through a control unit; the control unit outputs inflation signals when the neck airbag and the waist airbag fall down; the blood pressure measuring part is annularly arranged on the upper arm of the long-sleeve garment; the body temperature measuring part is arranged at the armpit of the long-sleeve garment and comprises a temperature sensor which is exposed and can be attached to the skin; the injection part is arranged at the right wrist of the long-sleeve garment, and when the blood pressure measuring part, the body temperature measuring part or the electrocardio part detects that the parameters exceed the threshold value, injection starting is carried out on the mobile terminal; the electrocardiogram part is arranged at the left wrist of the long-sleeved garment and is used for measuring the heart rate and the electrocardiogram by adopting a photoelectric volume pulse wave tracing technique and an electrocardiography. The utility model discloses the realization is to the remote monitoring and the processing of multiple sign, collect the location, prevent falling, monitoring, injection in an organic whole.

Description

Protective clothing based on intelligent medical health remote monitoring treatment platform

Technical Field

The utility model belongs to the field of medical equipment, a protective clothing based on intelligent medical health remote monitoring treatment platform is related to.

Background

In recent years, the mortality and disability rate of chronic diseases such as cardiovascular diseases have leap first, and become serious diseases seriously threatening the health of residents. Cardiovascular disease is the general term for cardiovascular and cerebrovascular disease, and refers broadly to cardiovascular disease. Cardiovascular diseases are ischemic or hemorrhagic diseases of the heart, brain and general tissues due to hyperlipidemia, blood viscosity, atherosclerosis, hypertension, etc. Has the characteristics of high morbidity, high disability rate and high mortality. The cardiovascular diseases have the difficulties of treatment and easy relapse during the onset.

Cardiovascular diseases are common diseases of middle-aged and elderly people over 50 years old, but according to investigation, people suffering from heart and lung chronic diseases tend to be younger due to irregular green and strong life and severe spicy heavy oil in eating and drinking. The quality of life of the patients with cardiovascular diseases is affected, and the families and the society bear great care pressure and economic burden, so that the cardiovascular diseases are serious problems affecting national health and economic sustainable development. Rehabilitation care becomes an urgent problem to be solved.

Aerobic exercise is a main method for exercising the cardio-pulmonary function, and is beneficial to improving the basic cardio-pulmonary function, and because the heart rate and the blood pressure of a patient are rapidly improved when the patient participates in the aerobic exercise, cerebral hemorrhage and cerebral infarction are suddenly caused during external exercise, and the life is threatened once the patient is not rescued in time.

Mainly solves the daily nursing and treatment problems of chronic cardiopulmonary disease patients, and aims to research medical clothing based on an intelligent medical health remote detection treatment platform. Aim at provides professional medical guardianship undershirt, and real-time supervision patient's physical sign situation can be used for replacing professional manual work and attend to, alleviates family's burden. The emergency accident is treated when the patient is in a separate place, simple treatment is implemented at the first time, and meanwhile, an alarm signal is sent.

The existing safety monitoring vest for the old comprises an electrocardiogram measuring device, a body temperature measuring device and the like by means of physical sign sensors in a vest, and body condition detection information is transmitted to a mobile phone and an alarm through Bluetooth. By utilizing the positioning device, the condition of patient loss is reduced.

When the patient generates abnormal conditions, the alarm voice is sent out to send out information to medical staff and relatives, so as to achieve the purpose of ensuring the life safety of the old.

The prior art has at least the following disadvantages:

1) the traditional device can not acquire monitoring information to analyze and output behavior treatment strategies, and only plays a role in alarming and warning. Because cardiovascular diseases are prone to sudden cerebral infarction, analysis of patient data and medical feedback are required in addition to real-time monitoring. Meanwhile, patients with cardiovascular diseases cannot participate in excessive outdoor aerobic exercises, heart rate is increased too fast when the patients participate in excessive exercises, a traditional monitoring device alarm system cannot formulate exercise plans according to health of the patients, and the patients cannot be intervened to protect the safety of the patients in the first time.

2) The old patients with cardiovascular diseases have degenerative changes of organs, slow movement, slow reaction, insufficient ultraviolet irradiation and muscle lack exercise, and the old people are easy to get osteoporosis. When a patient falls down during outdoor activities, the patient sits on the ground, and the supporting point falls on the hip, which is easy to cause lumbar compression fracture. The patient needs to lie in bed for 3 months after fracture due to spinal injury caused by longitudinal overload, and the healing is very slow. If the vertebral body is compressed beyond 1/2, the more severe will require surgical treatment. If the patient falls, the wrist joint is injured by hand, and the fracture of the far ulna or the far radius is caused. If the patient is bedridden, the rehabilitation and mental conditions of the patient can be seriously affected, and the patient can be seriously injured if the patient is not helped in time. The traditional monitoring vest for the old people only has the alarm function and cannot comprehensively protect the fallen old people. When a patient falls down, the traditional monitoring product adopts an alarming device which is in distress, and sends an alarming signal to a guardian when in distress. However, before rescue comes, the patient is in gold rescue time, the patient may miss the best opportunity in waiting time, and the alarm function of the monitoring clothes cannot achieve effective effect. Is a great safety hazard for patients.

3) In order to avoid the patient from injuring himself when the patient has an uncontrolled behaviour, tranquilizers or other medicaments need to be injected. Pain caused by technical operation reasons of ordinary needle tube injection is common, and the patient is stimulated to emotion due to the pain of intramuscular injection, so that the patient is in a partially excited behavior that the patient is not matched with nursing personnel for treatment and the nursing personnel is injured. At present, the traditional intramuscular injection administration mode adopts a needle tube injector to carry out manual injection, the technical problem of needle insertion cannot be completely mastered due to the manual injection, and the manual adjustment of the injection speed by medical workers has certain difficulty. Meanwhile, when the patient is in a single position, the medical staff cannot inject the injection at the first time.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above purpose, the technical scheme of the utility model is that: protective clothing based on intelligent medical health remote monitoring treatment platform comprises a positioning part, a neck air bag, a blood pressure measuring part, a body temperature measuring part, an injection part, an electrocardiogram part, a waist air bag, a control unit, a server and a mobile terminal which are arranged on long-sleeved clothing, wherein,

the positioning part sends a positioning signal to the server and the mobile terminal through the control unit; the control unit outputs inflation signals when the neck airbag and the waist airbag fall down; the blood pressure measuring part is annularly arranged on the upper arm of the long-sleeve garment; the body temperature measuring part is arranged at the armpit of the long-sleeve garment and comprises a temperature sensor which is exposed and can be attached to the skin; the injection part is arranged at the right wrist of the long-sleeve garment, and when the blood pressure measuring part, the body temperature measuring part or the electrocardio part detects that the parameters exceed the threshold value, injection starting is carried out on the mobile terminal; the electrocardiogram part is arranged at the left wrist of the long-sleeved garment and adopts a photoelectric volume pulse wave tracing technique and an electrocardiography to measure the heart rate and the electrocardiogram; the control unit is connected with the positioning part, the blood pressure measuring part, the body temperature measuring part, the injection part and the electrocardiogram part, uploads the collected data to the server and the mobile terminal, and the server is also connected with the mobile terminal.

Preferably, the neck airbag and the waist airbag each include an acceleration sensor and a posture sensor, detect a falling posture and a falling direction, and the control unit preferentially inflates the airbag at a corresponding position according to different postures and directions.

Preferably, the blood pressure measuring part comprises a cuff, a miniature inflating pump, a blood pressure sensor, a piezometric tube, a controller, a deflation electromagnetic valve and a micro air bag; the cuff is arranged at the upper arm sleeve on one side of the long-sleeve garment, the blood pressure sensor is arranged on the inner side of the cuff, the cuff is connected with the micro air bag through a piezometric tube, the micro air bag is inflated by a micro inflator pump and is deflated by an deflation electromagnetic valve; the controller is connected with the micro inflator pump, the blood pressure sensor and the deflation electromagnetic valve, and the air bag is controlled by the controller to pressurize the cuff; the blood pressure sensor transmits the collected blood pressure data into the controller, the controller uploads the stored information to the server, and the blood pressure condition of the measured person can be checked through the mobile terminal connected with the server.

Preferably, the body temperature measuring part comprises a temperature sensor, a signal processor, a wireless transmitting end and a relay module which are connected in sequence, wherein the temperature sensor measures the body temperature, the relay module is connected with the server and transmits body temperature data to the server, and the server receives the body temperature data, stores the body temperature data, generates a body temperature curve and reads the body temperature data through the mobile terminal.

Preferably, the relay module receives the body temperature data sent by the wireless sending end by adopting near field wireless communication.

Preferably, the injection part is integrally annular and comprises an upper buckle, a control block, a nano microneedle patch, an injection needle head sealing film, an injection unit, an injection sealing film, an air release part, an inner side air bag, an outer side air bag and a bottom buckle, wherein the control block is connected with the mobile terminal, and according to the conditions of blood pressure, heart rate, electrocardiogram, body temperature or tumbling, when injection is needed, the mobile terminal sends an injection command to the control block, determines whether medicine needs to be injected or not after the condition of illness and the physical sign of a patient, and sends the injection command; the nano microneedle patch is arranged on one side of the annular inner wall and forms an annular shape together with the injection unit, the nano microneedle patch is isolated from the injection unit through an injection sealing film, and the nano microneedle patch is covered with an injection needle sealing film; the inner air bag, the injection unit and the outer air bag are arranged from inside to outside; the upper buckle and the bottom buckle are arranged on the annular outer wall at the positions on the opposite sides, the gas release piece is arranged at the bottom buckle and penetrates through the inner side air bag and the outer side air bag, and the control block controls the inner side air bag and the outer side air bag to deflate.

Preferably, the electrocardiogram part comprises a touch key, a touch display screen, a micro motor, a shell, a wearing key, an adjusting key, a pressure sensor and a wrist strap, wherein the pressure sensor and the micro motor are arranged on the inner side of the wrist strap; the adjustment button is pressed down, the micro motor rotates reversely, and the wrist strap is loosened; the touch keys and the touch display screen are both arranged on the upper surface of the shell, and the touch keys are used for function selection and pressing display.

Preferably, the electrocardiograph part further comprises a bluetooth mainboard, an analog-to-digital converter, a battery, an electrocardiograph sensor, a photoelectric sensor and a memory, wherein the photoelectric sensor acquires PPG electrocardiograph signals, the photoelectric sensor comprises a photoelectric receiving tube and a plurality of LED lamps, the photoelectric receiving tube and the plurality of LED lamps are arranged on the same plane, and the plurality of LED lamps surround the photoelectric receiving tube and are arranged at equal intervals; the ECG sensor acquires ECG electrocardiosignals, the ECG sensor comprises a first ECG electrocardio electrode metal sheet, a second ECG electrocardio electrode metal sheet and a third ECG electrocardio electrode metal sheet, the bottom surface of the bottom shell, namely the surface in contact with the skin, is provided with the first ECG electrocardio electrode metal sheet and the second ECG electrocardio electrode metal sheet, and the upper surface of the bottom shell is provided with the third ECG electrocardio electrode metal sheet; the Bluetooth mainboard is connected with the mobile terminal and sends the electrocardiogram data to the mobile terminal; the analog-to-digital converter analyzes and processes the electrocardio detection result, the analog-to-digital converter is connected with the memory, and the memory stores the electrocardio data to form a database.

Preferably, the shell is a graphene material.

Preferably, reflective strips are further arranged on the front and back of the long-sleeve garment.

The utility model discloses following beneficial effect has at least:

1. a wireless electrocardiogram detection device is added, so that the patient can carry about when freely moving, and the heart rate of the patient is monitored in real time to find out abnormal electrocardiogram fluctuation;

2. increase and prevent falling the device, adopt the buffering gasbag, can aerify to the gasbag in and make its inflation when the patient falls down, cushion the protection to patient's hip bone and caudal vertebra, prevent to take place the fracture when falling down, effectively guarantee patient's health safety. The device is light and handy, the use is comfortable,

the device has the safety guarantee, and the gas in the gas-filled bottle can be released only when the acceleration sensor sends an effective signal, so that the gas bag is rapidly inflated to form the buffer for a human body. And effectively and comprehensively protect the buttocks, the hip, the chest and the abdomen;

3. the injection part comprises an inner side air bag, an outer side air bag, a control block and a micro-needle nano patch which are independent. When the control block judges that the measured parameter data exceeds the range of the preset data, the measured parameter data is uploaded to the mobile terminal, the mobile terminal sends an injection instruction to the control block, the control block inflates the air bag, and medicine is injected by using the pressure generated when the air is input. The independent air bag in the injection part can not be triggered when the anti-falling device is started, so that the safety of injection is ensured. The painless injector can not be used for rapidly detecting in the initial stage of the disease and effectively injecting in the first time mainly by judging whether the patient has the disease symptoms and the behavior of injury;

4. the device adopts nano-material, has tens of thousands of puncture projections invisible to naked eyes at the head of the injector, and the micro-needle nano patch has strong penetrating power, can transmit the medicine to subcutaneous tissues through pressure, and can carry out accurate injection on specific parts. The patch bulges do not reach the dermis layer and hardly have pain. The injector has smaller volume and can be arranged in the service clamping layer. Meanwhile, the device can be detached and medicines can be added;

5. the health monitoring system is additionally arranged, the intelligent mobile terminal and the cloud server are combined with the body sign detector, the information of the patient is acquired in real time and is combined with voice recognition and scene recognition, and the monitoring vest mainly comprises a body temperature measuring module, a blood pressure measuring module, an electrocardiogram measuring module and the like through various body indexes. The cloud server further analyzes and evaluates the health condition of the user, assists nursing staff to judge a diagnosis result, provides nursing and treatment suggestions, modularly stores medicines, issues instructions after remote consultation of doctors, and the injection module injects the medicines after receiving injection permission.

Drawings

Fig. 1 is a schematic structural view of a protective garment based on an intelligent medical health remote monitoring and treatment platform according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a blood pressure measuring part of the protective clothing based on the intelligent medical health remote monitoring treatment platform according to the embodiment of the present invention;

fig. 3 is a block diagram of a body temperature measuring part of a protective garment based on an intelligent medical health remote monitoring and treatment platform according to an embodiment of the present invention;

fig. 4 is a schematic structural view of an injection part of the protective clothing based on the intelligent medical health remote monitoring treatment platform according to the embodiment of the present invention;

fig. 5 is a three-dimensional structure diagram of the injection part of the protective clothing based on the intelligent medical health remote monitoring treatment platform according to the embodiment of the present invention;

fig. 6 is a schematic view of the structure of the electrocardiographic part of the protective clothing based on the intelligent medical health remote monitoring treatment platform according to the embodiment of the present invention;

fig. 7 is the utility model discloses an embodiment's the electrocardio portion internal structure sketch of protective clothing based on intelligent medical treatment health remote monitoring treatment platform.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

On the contrary, the invention is intended to cover alternatives, modifications, equivalents and alternatives which may be included within the spirit and scope of the invention as defined by the appended claims. Furthermore, in order to provide a better understanding of the present invention to the public, certain specific details are set forth in the following detailed description of the invention. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details.

Referring to fig. 1, a protective clothing structure diagram based on an intelligent medical health remote monitoring and treatment platform according to an embodiment of the present invention is shown, which includes a positioning portion 1, a neck airbag 2, a blood pressure measuring portion 3, a body temperature measuring portion 4, an injection portion 5, an electrocardiogram portion 6, a waist airbag 7, a control unit 8, a server 100 and a mobile terminal 200, which are disposed on a long-sleeved garment, wherein,

the location part 1 transmits a location signal to the server 100 and the mobile terminal 200 through the control unit 8; the control unit 8 outputs inflation signals when the neck airbag 2 and the waist airbag 7 fall down; the blood pressure measuring part 3 is annularly arranged on the upper arm of the long-sleeve garment; the body temperature measuring part 4 is arranged at the armpit of the long-sleeve garment and comprises a temperature sensor 41 which is exposed and can be attached to the skin; the injection part 5 is arranged at the right wrist of the long-sleeve garment, and when the blood pressure measuring part 3, the body temperature measuring part 4 or the electrocardio part 6 detects that the parameters exceed the threshold value, injection starting is carried out on the mobile terminal 200; the electrocardiogram part 6 is arranged at the left wrist of the long-sleeved garment and adopts a photoelectric volume pulse wave tracing technique and an electrocardiography to measure the heart rate and the electrocardiogram; the control unit 8 is connected with the positioning part 1, the blood pressure measuring part 3, the body temperature measuring part 4, the injection part 5 and the electrocardiogram part 6, the control unit 8 uploads the acquired data to the server 100 and the mobile terminal 200, and the server 100 is also connected with the mobile terminal 200.

The neck airbag 2 and the waist airbag 7 each include an acceleration sensor and a posture sensor, detect a falling posture and a falling direction, and the control unit 8 preferentially inflates the airbag at the corresponding position according to different postures and directions.

Referring to fig. 2, the blood pressure measuring part 3 includes a cuff 37, a micro inflator 32, a blood pressure sensor 36, a pressure measuring tube 35, a controller 33, a deflation solenoid valve 31 and a micro air bag 34; the cuff 37 is arranged at the position of an upper arm sleeve on one side of the long-sleeve garment, the blood pressure sensor 36 is arranged on the inner side of the cuff 37, the cuff 37 is connected with the micro air bag 34 through the piezometric tube 35, the micro air bag 34 is inflated by the micro inflating pump 32 and is deflated by the deflation electromagnetic valve 31; the controller 33 is connected with the micro-inflator 32, the blood pressure sensor 36 and the deflation electromagnetic valve 31, and the controller 33 controls the air bag to pressurize the cuff 37; the blood pressure sensor 36 transmits the collected blood pressure data into the controller 33, the controller 33 uploads the stored information to the server 100, and the blood pressure condition of the subject can be checked through the mobile terminal 200 connected with the server 100.

Referring to fig. 3, the body temperature measuring unit 4 includes a temperature sensor 41, a signal processor 42, a wireless transmitting terminal 43, and a relay module 44, which are connected in sequence, wherein the temperature sensor 41 measures the body temperature, the relay module 44 is connected to the server 100 to transmit the body temperature data to the server 100, the server 100 receives the body temperature data, stores the body temperature data, generates a body temperature curve, and reads the body temperature data through the mobile terminal 200.

The relay module 44 receives the body temperature data sent by the wireless sending end 43 by using near field wireless communication.

Referring to fig. 4 and 5, the injection part 5 is annular, and includes an upper buckle 51, a control block 52, a nano microneedle patch 53, an injection needle sealing film 59, an injection liquid unit 55, an injection liquid sealing film 510, a gas release 57, an inner side airbag 56, an outer side airbag 54 and a bottom buckle 58, wherein the control block 52 is connected with the mobile terminal 200, and according to blood pressure, heart rate, electrocardiogram, body temperature or tumbling condition, when injection is required, the mobile terminal 200 sends an injection command to the control block 52, determines whether medicine needs to be injected or not after illness condition and patient physical sign condition, and sends the injection command; the nano microneedle patch 53 is arranged on one side of the annular inner wall and forms an annular shape together with the injection liquid unit 55, the nano microneedle patch 53 is isolated from the injection liquid unit 55 through an injection liquid sealing film 510, and the nano microneedle patch 53 is covered with an injection needle sealing film 59; the inner air bag 56, the injection liquid unit 55 and the outer air bag 54 are arranged from inside to outside; an upper catch 51 and a lower catch 58 are provided on the outer wall of the ring at opposite sides thereof, and a gas release 57 is provided at the lower catch 58, extending through the inner and outer air bags 56, 54, and controlled by the control block 52 to deflate the inner and outer air bags 56, 54.

If an injection is desired, the control block 52 first activates the outer bladder 54 to fully engage the remaining components of the injection portion 5 with the body surface. The injection needle on the nano-microneedle patch 53 will pierce the injection needle sealing film 59 into the skin of the human body. The inner side airbag 56 is activated by the control block 52, the gas generating point of the inner side airbag 56 is located at the opposite side of the microneedle patch 53, and since the injection liquid unit 55 is tightly attached to the human body and the inner side airbag 56 at this time, and the outer side airbag 54 presses inward, the injection liquid in the injection liquid unit 55 can be gathered from the opposite side of the microneedle patch 53 (the distal end side of the microneedle patch 53) to the microneedle patch 53 after the inner side airbag 56 is activated, so that the purpose of injecting the injection liquid to the subcutaneous region can be achieved. When the injection sealing film 510 reaches the upper pressure bearing limit, the injection sealing film 510 is broken, and the injection is injected into the human body through the nano microneedle patch 53.

Referring to fig. 6 and 7, the electrocardiograph portion 6 includes a touch button 61, a touch display screen 63, a micro motor 13, a housing 14, a wearing button 15, an adjusting button 16, a pressure sensor 17 and a wrist strap 18, wherein the pressure sensor 17 and the micro motor 13 are disposed on the inner side of the wrist strap 18, the wearing button 15 is pressed, the micro motor 13 rotates forward to tighten the wrist strap 18, and the micro motor 13 stops rotating forward according to the pressure detected by the pressure sensor 17; the adjustment button 16 is pressed down, the micro motor 13 rotates reversely, and the wrist strap 18 is loosened; the touch key 61 and the touch display screen 63 are both provided on the upper surface of the housing 14, and the touch key 61 performs function selection and push display.

The electrocardiogram part 6 further comprises a bluetooth mainboard 64, an analog-to-digital converter 65, a battery 66, an electrocardiogram sensor 67, a photoelectric sensor 12 and a memory 19, wherein the photoelectric sensor 12 acquires PPG electrocardiogram signals, the photoelectric sensor 12 comprises a photoelectric receiving tube 610 and a plurality of LED lamps 11, the photoelectric receiving tube 610 and the plurality of LED lamps 11 are arranged on the same plane, and the plurality of LED lamps 11 surround the photoelectric receiving tube 610 and are arranged at equal intervals; the electrocardio sensor 67 acquires ECG electrocardiosignals, the electrocardio sensor 67 comprises a first ECG electrocardio electrode metal sheet 68, a second ECG electrocardio electrode metal sheet 69 and a third ECG electrocardio electrode metal sheet 62, the bottom surface of the bottom shell, namely the surface in contact with the skin, is provided with the first ECG electrocardio electrode metal sheet 68 and the second ECG electrocardio electrode metal sheet 69, and the upper surface of the bottom shell is provided with the third ECG electrocardio electrode metal sheet 62; the Bluetooth main board 64 is connected with the mobile terminal 200 and sends the electrocardiogram data to the mobile terminal 200; the analog-to-digital converter 65 analyzes and processes the electrocardiogram detection result, the analog-to-digital converter 65 is connected with the memory 19, and the memory 19 stores electrocardiogram data to form a database.

The measurement and sensing of the electrocardiogram adopts a PPG method and an ECG method, the PPG is pulse wave tracing technology (PPG for short), and the pulse state of the blood vessel is recorded and the pulse wave is measured by tracking the attenuated light of the green light after the reflection and absorption of the blood vessel and the artery and vein in the human body. The method can realize continuous non-destructive measurement on human bodies, is simple and convenient to use, has quick response, and is widely used. ECG, Electrocardiography (ECG), is a method for recording the electrophysiological activity of the heart in time units via the thorax, and the electric potential transmission of the heart can be detected by using electrodes attached to the skin surface of the human body, and the electrocardiogram records the electric potential change of not a single ventricle or an atrial cell, but the whole heart. However, since the PPG signal is susceptible to motion interference and ambient light, measurement bias may occur. The mismatch in contact impedance of the ECG tracing technique body skin and impedance between sensors, which results in large deviations; in addition, the influence of interference problems generated by contact noise and an electromagnetic source is required, the electrocardiogram measuring sensor adopts a heart rate measuring mode combining PPG and ECG innovatively, the PPG photoelectric heart rate measurement is used for automatic measurement all day long, the ECG electrocardio is used for single accurate measurement, the two items are combined, heart data are continuously and accurately acquired, and the obtained data are ensured to be accurate and effectively reduce the influence of external interference on the ECG measurement.

The electrocardiogram measurement and sensing in the device adopts an integrated structure of PPG signals and ECG signals to reduce interference. PPG signal detection is employed during sleep. The electrocardiogram part 6 is sewn on the cuff, and the touch key 61 is connected with the third ECG electrocardiogram electrode metal sheet 62, so that the touch and electrode two-in-one is realized. On the side of the housing 14, a wear button 15 and an adjustment button 16 are provided.

When the artery scanning sensor comprises the photoelectric sensor 12 and the electrocardio sensor 67, when the artery scanning sensor is used, after the wrist strap 18 is worn on a hand, the wrist is pressed on the electrocardio sensor 67 and the photoelectric sensor 12 and is jointed with the skin, the electrocardio part 6 can also be provided with a pressure controller and an air bag, the pressure controller is connected with the pressure sensor 17, the photoelectric sensor 12 and the electrocardio sensor 67 are not jointed when the wrist moves, the pressure controller is not pressed and sends a signal for activating the air bag, and the part which is not jointed is pressed down under the action of the air bag to be jointed with the skin, so that the photoelectric sensor 12 and the electrocardio sensor 67 can be always jointed with the skin. Through the mobile terminal 200, such as any one of mobile phone app or a screen, measurement is started, a light beam emitted by the LED lamp 11 irradiates human tissues, and a light signal reflected by blood is received by the photoelectric receiving tube 610, so as to obtain a PPG electrocardiograph signal. The first ECG electrode metal sheet 68 and the second ECG electrode metal sheet 69 contact with the skin of the wrist on the bottom surface of the shell 14, and the third ECG electrode metal sheet 62 is pressed by using another finger of a hand without equipment, so that the 3 ECG electrode metal sheets are ensured to be in good contact with the corresponding skin, and the ECG can be detected. The shell 14 is made of an insulating graphene flexible material, so that potential safety hazards caused by electric leakage are avoided, and safety is improved.

Signals detected by the signal acquisition electrodes are transmitted into the analog-to-digital converter 65 through the photoelectric sensor 12 and the electrocardio sensor 67, the detected signals are converted and transmitted into the data processing module for analysis and processing, the detected results are stored in the memory 19, an electrocardiogram data diagram is synthesized, data connection is established between a remote position and a doctor, and the doctor can detect and monitor reactions possibly threatening life at the mobile terminal 200 through data uploading. When the photoelectric sensor 12 and the electrocardio sensor 67 detect that the electrocardiogram deviates from the normal mode, the doctor judges the cause of the disease by the abnormal wave bands, which indicates that the heart has a problem. T-band abnormalities appear in patients with myocardial ischemia, and appear as low T-band levels. The image of high apex in T wave band is usually seen in patients with myocardial infarction in acute stage and hyperkalemia.

Still include alarm device and be located the control unit 8, including pronunciation distress signal device and location portion 1 for send and exceed the body temperature, rhythm of the heart and the blood pressure data of predetermineeing the data threshold value, fall down the protection gasbag at the patient and pop out the back simultaneously, send alarm signal to family and attending doctor.

In the specific embodiment, the front surface is sewn with a positioning part 1, the positioning part 1 comprises a GPS signal emitter, the GPS signal emitter is connected with a control unit 8, and a wireless transmission module is arranged in the control unit 8 and is used for emitting signals by using a GPS. The rescue personnel can obtain the information of the patient in time to rescue after the patient is attacked or lost outdoors; after the patient leaves the monitoring range, the background monitoring center can find the patient in time.

This cardiovascular disease remote monitoring protective clothing is equipped with the front and back reflection of light strip of pasting, can help the patient to be surveyed by clear differentiation when traffic the trip at ordinary times, promotes the striking nature of this protective clothing, and then strengthens the security that this patient used. The protective clothing is a multi-layer righting and comprises an abrasion-resistant layer on the outer side, an air bag protective layer in the middle and a heat-insulating layer on the inner side. The wear-resistant layer fixes the GPS positioning device and the signal transmitting and receiving device.

The utility model discloses mainly solve the healthy monitoring when cardiovascular disease patient is alone, through the daily real-time supervision patient sign situation of device, can be used to replace the artifical nursing of specialty, alleviate the family burden. The emergency accident is treated when the patient is in a separate place, simple treatment is implemented at the first time, and meanwhile, an alarm signal is sent.

The self-protection in the independent distress can effectively cure the patient in the first time in the distress and monitor the physical state of the patient in real time in daily life. The device carries out the protection of full aspect when the patient falls down, because old person takes place cervical bone, thighbone, lumbar vertebrae, coccyx and ulna fracture easily when falling down, needs in time to salvage. At present, China gradually enters an aging society, so that the health of the weak population of the old people is more concerned. The device shares the physical index data of the patient in real time to ensure that the guardian knows the health status of the patient.

The utility model discloses a design that device was prevented falling by buffering gasbag makes the device can carry out effective and comprehensive protection to user's neck, waist and wrist.

The nano microneedle patch injection mode is adopted, so that the detection can be rapidly carried out at the early stage of disease attack and the effective injection can be carried out at the first time. And ensures the safety of injection of the user and no obvious pain.

The light and simple operation allows the user to use it easily and ensures an effective working state for a long time.

The method can be applied to home care and hospitals, necessary protective measures are made for emergency situations which threaten personal safety when users are in the single places, and the safety of vulnerable groups is emphasized.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. Protective clothing based on intelligent medical health remote monitoring and treatment platform is characterized by comprising a positioning part, a neck air bag, a blood pressure measuring part, a body temperature measuring part, an injection part, an electrocardio part, a waist air bag, a control unit, a server and a mobile terminal which are arranged on long-sleeve clothing, wherein,

the positioning part sends a positioning signal to the server and the mobile terminal through the control unit; the control unit outputs inflation signals when the neck airbag and the waist airbag fall down; the blood pressure measuring part is annularly arranged on the upper arm of the long-sleeve garment; the body temperature measuring part is arranged at the armpit of the long-sleeve garment and comprises a temperature sensor which is exposed and can be attached to the skin; the injection part is arranged at the right wrist of the long-sleeve garment, and when the blood pressure measuring part, the body temperature measuring part or the electrocardio part detects that the parameters exceed the threshold value, injection starting is carried out on the mobile terminal; the electrocardiogram part is arranged at the left wrist of the long-sleeved garment and adopts a photoelectric volume pulse wave tracing technique and an electrocardiography to measure the heart rate and the electrocardiogram; the control unit is connected with the positioning part, the blood pressure measuring part, the body temperature measuring part, the injection part and the electrocardiogram part, uploads the collected data to the server and the mobile terminal, and the server is also connected with the mobile terminal.

2. The protective clothing based on the intelligent medical health remote monitoring and treatment platform is characterized in that the neck airbag and the waist airbag respectively comprise an acceleration sensor and a posture sensor, the falling posture and direction are detected, and the control unit preferentially inflates the airbag at the corresponding position according to different postures and directions.

3. The protective clothing based on the intelligent medical health remote monitoring and treating platform is characterized in that the blood pressure measuring part comprises a cuff, a micro inflator pump, a blood pressure sensor, a pressure measuring tube, a controller, a deflation electromagnetic valve and a micro air bag; the cuff is arranged at the upper arm sleeve on one side of the long-sleeve garment, the blood pressure sensor is arranged on the inner side of the cuff, the cuff is connected with the micro air bag through a piezometric tube, the micro air bag is inflated by a micro inflator pump and is deflated by an deflation electromagnetic valve; the controller is connected with the micro inflator pump, the blood pressure sensor and the deflation electromagnetic valve, and the air bag is controlled by the controller to pressurize the cuff; the blood pressure sensor transmits the collected blood pressure data into the controller, the controller uploads the stored information to the server, and the blood pressure condition of the measured person can be checked through the mobile terminal connected with the server.

4. The protective clothing based on the intelligent medical health remote monitoring and treatment platform is characterized in that the body temperature measuring part comprises a temperature sensor, a signal processor, a wireless transmitting end and a relay module which are sequentially connected, wherein the temperature sensor measures the body temperature, the relay module is connected with a server and transmits body temperature data to the server, the server receives the body temperature data, stores and generates a body temperature curve, and the body temperature data are read through the mobile terminal.

5. The protective suit based on the intelligent medical health remote monitoring and treatment platform according to claim 4, wherein the relay module receives the body temperature data sent by the wireless sending end by adopting near field wireless communication.

6. The protective clothing based on the intelligent medical health remote monitoring and treatment platform is characterized in that the injection part is integrally annular and comprises an upper buckle, a control block, a nano microneedle patch, an injection needle head sealing film, an injection unit, an injection sealing film, a gas release part, an inner side air bag, an outer side air bag and a bottom buckle, wherein the control block is connected with the mobile terminal, when injection is needed, the mobile terminal sends an injection command to the control block, determines whether the medicine needs to be injected or not after the condition of illness and the physical sign of a patient, and sends the injection command; the nano microneedle patch is arranged on one side of the annular inner wall and forms an annular shape together with the injection unit, the nano microneedle patch is isolated from the injection unit through an injection sealing film, and the nano microneedle patch is covered with an injection needle sealing film; the inner air bag, the injection unit and the outer air bag are arranged from inside to outside; the upper buckle and the bottom buckle are arranged on the annular outer wall at the positions on the opposite sides, the gas release piece is arranged at the bottom buckle and penetrates through the inner side air bag and the outer side air bag, and the control block controls the inner side air bag and the outer side air bag to deflate.

7. The protective clothing based on the intelligent medical health remote monitoring and treatment platform is characterized in that the electrocardio part comprises a touch key, a touch display screen, a micro motor, a shell, a wearing key, an adjusting key, a pressure sensor and a wrist strap, wherein the pressure sensor and the micro motor are arranged on the inner side of the wrist strap, the wearing key is pressed down, the micro motor rotates in the forward direction, the wrist strap is tightened, and the micro motor stops rotating in the forward direction according to the pressure detected by the pressure sensor; the adjustment button is pressed down, the micro motor rotates reversely, and the wrist strap is loosened; the touch keys and the touch display screen are both arranged on the upper surface of the shell, and the touch keys are used for function selection and pressing display.

8. The protective clothing based on the intelligent medical health remote monitoring and treatment platform is characterized in that the electrocardiogram part further comprises a Bluetooth main board, an analog-digital converter, a battery, an electrocardiogram sensor, a photoelectric sensor and a memory, wherein the photoelectric sensor acquires PPG electrocardiogram signals, the photoelectric sensor comprises a photoelectric receiving tube and a plurality of LED lamps, the photoelectric receiving tube and the LED lamps are arranged on the same plane, and the LED lamps are arranged around the photoelectric receiving tube at equal intervals; the ECG sensor acquires ECG electrocardiosignals, the ECG sensor comprises a first ECG electrocardio electrode metal sheet, a second ECG electrocardio electrode metal sheet and a third ECG electrocardio electrode metal sheet, the bottom surface of the bottom shell, namely the surface in contact with the skin, is provided with the first ECG electrocardio electrode metal sheet and the second ECG electrocardio electrode metal sheet, and the upper surface of the bottom shell is provided with the third ECG electrocardio electrode metal sheet; the Bluetooth mainboard is connected with the mobile terminal and sends the electrocardiogram data to the mobile terminal; the analog-to-digital converter analyzes and processes the electrocardio detection result, the analog-to-digital converter is connected with the memory, and the memory stores the electrocardio data to form a database.

9. The protective garment based on the intelligent medical health remote monitoring and treatment platform as claimed in claim 7, wherein the shell is made of graphene.

10. The protective clothing based on the intelligent medical health remote monitoring and treatment platform is characterized in that reflective strips are further arranged on the front and back of the long-sleeve clothing.

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