CN217011139U

CN217011139U - Earphone is felt to body and earphone control system is felt to body

Info

Publication number: CN217011139U
Application number: CN202220196813.2U
Authority: CN
Inventors: 杜思思; 袁四军; 王鹏
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-21
Filing date: 2022-01-21
Publication date: 2022-07-19
Anticipated expiration: 2032-01-21

Abstract

The utility model discloses a body sensing earphone and a body sensing earphone control system, wherein the body sensing earphone comprises: a massager assembly; an audio playing component; the electronic control component is electrically connected with the massager component and the audio playing component respectively; the electronic control assembly is used for receiving a control signal triggered by a user and controlling the massager assembly and/or the audio playing assembly to work according to the received control signal. The body sensing earphone provided by the utility model can realize that the audio playing can be carried out while the ear is massaged, so that the human body is more relaxed, the massage and audio playing functions can be selected and switched according to the use requirements of users, the compatibility of the body sensing earphone is improved, and the use convenience of the users is also improved.

Description

Earphone is felt to body and earphone control system is felt to body

Technical Field

The utility model relates to the technical field of electronic circuits, in particular to a body sensing earphone and a body sensing earphone control system.

Background

With the development of society, the technology is continuously improved, the living standard is continuously improved, the requirements of people on all aspects are higher and higher, earphones are widely used as audio output tools of digital equipment, and most earphones do not have the massage function. The special ear massage instrument only has a massage function, and if a user wants to listen to audio while massaging ears, the user needs to put the audio outside through a mobile phone and a sound box, which brings inconvenience to the user. When the earphone is used, ear massage cannot be realized, and the massage and the audio playing cannot be compatible at the same time.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a body sensing earphone and a body sensing earphone control system, and aims to improve the compatibility of the body sensing earphone and the use convenience of a user.

In order to achieve the above object, the present invention provides a motion sensing earphone, including:

a massager assembly;

an audio playing component;

the electric control component is respectively and electrically connected with the massager component and the audio playing component; the electronic control assembly is used for receiving a control signal triggered by a user and controlling the massager assembly and/or the audio playing assembly to work according to the received control signal.

Optionally, the electronic control assembly further comprises:

a power supply;

the massager control circuit is respectively electrically connected with the power supply and the massager assembly, and is used for controlling the power supply to supply power to the massager assembly when receiving the control signal;

and the audio playing control circuit is respectively electrically connected with the power supply and the audio playing component and is used for controlling the power supply to supply power to the audio playing component when receiving the control signal.

Optionally, the motion sensing earphone further comprises:

a wearing portion;

the function selection key is arranged on the wearing part and is electrically connected with the electronic control assembly, and when the function selection key is triggered by a user, the control signal is output to the electronic control assembly, so that the electronic control assembly controls the massager assembly and/or the audio playing assembly to work according to the received control signal.

Optionally, the electronic control assembly comprises:

the wireless communication circuit is in communication and electric connection with an external terminal and is used for receiving the control signal triggered by the user;

the main controller is electrically connected with the wireless communication line, the massager assembly and the audio playing assembly respectively; the main controller is used for controlling the massager component and/or the audio playing component to work according to the control signal received by the wireless communication circuit.

Optionally, the motion sensing earphone further comprises:

the voice pickup device is used for receiving a control signal triggered by a user;

the main controller is electrically connected with the voice pickup device, the massager assembly and the audio playing assembly respectively; the main controller is used for controlling the massager component and/or the audio playing component to work according to the control signal received by the voice pickup device.

Optionally, the motion sensing earphone further comprises:

the sensor module is used for acquiring a control signal triggered by a user;

the main controller is electrically connected with the sensor module, the massager assembly and the audio playing assembly respectively; the main controller is used for controlling the massager assembly and/or the audio playing assembly to work according to the control signal received by the sensor module.

Optionally, the motion sensing earphone further comprises:

the audio memory is electrically connected with the electric control assembly, and audio data are stored in the audio memory;

and the electric control assembly outputs the audio data stored in the audio memory to the audio playing assembly when receiving a control signal triggered by a user and controlling the audio playing assembly to work.

Optionally, the massager assembly comprises:

a massager body;

the driving assembly is in driving connection with the massager body and is also electrically connected with the electric control assembly, and the driving assembly drives the massager assembly to work based on the control of the electric control assembly.

Optionally, the audio playing component includes:

a sound producing device;

the audio processing circuit is electrically connected with the electric control assembly and the sounding device respectively; the audio processing circuit is used for receiving the audio signal output by the electric control component, processing the audio signal and outputting the processed audio signal to the sounding device.

The utility model also provides a somatosensory earphone control system, which comprises a control terminal and the somatosensory earphone;

the control terminal is in communication connection with the somatosensory earphone and is used for controlling a massager component and/or an audio playing component in the somatosensory earphone to work when triggered by a user.

The motion sensing earphone is respectively and electrically connected with the massager component and the audio playing component by arranging the electric control component, and controls the massager component and/or the audio playing component to work according to the received control signal triggered by the commercial user. The body sensing earphone provided by the utility model can realize that the audio playing can be carried out while the ear is massaged, so that the human body is more relaxed, the massage and audio playing functions can be selected and switched according to the use requirements of users, the compatibility of the body sensing earphone is improved, and the use convenience of the users is also improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic circuit diagram of a motion sensing earphone according to an embodiment of the present invention;

fig. 2 is a schematic circuit diagram of another embodiment of the motion sensing earphone of the present invention;

fig. 3 is a schematic circuit diagram of a motion sensing earphone according to another embodiment of the present invention;

fig. 4 is a schematic circuit diagram of a motion sensing earphone according to another embodiment of the present invention;

FIG. 5 is a schematic structural diagram of an embodiment of a motion sensing earphone according to the present invention;

fig. 6 is a schematic main structural view of a motion sensing earphone according to an embodiment of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				10	Main machine case	124a	A first arm part
10b	Telescopic opening	124b	Second arm part
				10c	Sliding chute		125	First flexible sleeve
11	Advancing and retreating rack	20	Drive assembly
				12	In-ear type earplug	21	First driving member
13	Clamping cylinder	22	Transmission flexible shaft
				110	Wearing part	22a	Cylindrical bore
111	Wearing arm segment	25	Speed reducer
				112	Connecting arm segment	91	Vibration motor
113	Second elastic part	92	Magnetic therapy sheet
				114	Second flexible sleeve	93	Infrared light source
110a，130c	Air outlet		94					Massage device
				120	Supporting arm	98	Remote controller
121	Connecting terminal	99	Music storage module
				122	Suspension end	210	Sound production device
123	A first elastic part	310	Power supply
				124	First arm body	310	Massager control circuit
30	Ear canal massage piece	330	Audio control circuit
				40	Depth adjusting piece	340	Wireless communication circuit
100	Massager component	350	Main controller
				200	Audio playing component	360	Voice pickup device
300	Electric control assembly	370	Sensor module
				310	Function selection control key

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The term "and/or" herein is merely an association describing an associated object, meaning that three relationships may exist, e.g., a and/or B, may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

The utility model provides a somatosensory earphone.

In order to solve the above problem, the present invention provides a motion sensing earphone, and referring to fig. 1 to 6, in an embodiment of the present invention, the motion sensing earphone includes:

a massager assembly 100;

an audio playing component 200;

an electric control component 300300 electrically connected to the massager component 100 and the audio playing component 200, respectively; the electronic control assembly 300 is configured to receive a control signal triggered by a user, and control the massager assembly 100 and/or the audio playing assembly 200 to operate according to the received control signal.

In this embodiment, the body sensing earphone has a wearing portion 110, the wearing portion 110 includes a hanging portion and a supporting arm connected to each other, the massager assembly 100 is mounted on the wearing portion 110, the body sensing earphone further has an air outlet assembly including a fan mounted on the wearing portion 110, the wearing portion 110 is provided with an air outlet, and a heat source can be provided when hot air needs to be discharged, so as to realize thermal therapy; the hanging portion can be implemented by, but not limited to, a head-wearing type, a neck-wearing type, a strap, etc. The massager assembly 100 is used to massage a human ear, for example, the human ear canal may be massaged to stimulate the vagus nerve in the ear canal to relax the person. The massager assembly 100 may also be used to massage the pinna of a human body for the purpose of relaxing the human body. The audio playback component 200 can implement audio playback, voice call application functions, such as a phone call application, a video call function, a network voice call function, and so on.

The somatosensory earphone can realize a massage function independently and also can realize an audio play function independently, or both the massage and the audio play can be carried out simultaneously, and the somatosensory earphone can be specifically controlled according to the requirements of users. Specifically, the electronic control assembly 300 can control the power supply of the massager assembly 100 and the audio playing assembly 200 to control whether the massager assembly 100 and the audio playing assembly 200 work or not. The control signal triggered by the user can be one or a combination of voice trigger, key trigger, sensor trigger and control terminal trigger. When receiving any one of the control signals, the electronic control assembly 300 controls the corresponding one of the massager assembly 100 and the audio playing assembly 200 to work or controls the two to work simultaneously. For example, when a user needs to massage the ear with the motion sensing earphone, a control signal representing the massage may be triggered in the above manner, and when the electronic control component 300 receives the control signal, the massager component 100 is controlled to operate to massage the earphone of the user. When a user needs to feel the earphone body to play audio, the control signal for representing audio playing can be triggered in the above mode, and when the electric control assembly 300 receives the control signal, the audio playing assembly 200 is controlled to work, so that the earphone of the user is massaged. When a user needs to feel the body and the earphone body to play and massage the audio, the control signal for representing the audio playing and the massage can be triggered in the above mode, and when the electric control assembly 300 receives the control signal, the audio playing assembly 200 and the massager assembly 100 are controlled to work simultaneously so as to massage the earphone body of the user and play the audio simultaneously.

The body feeling earphone is respectively electrically connected with the massager assembly 100 and the audio playing assembly 200 through the electric control assembly 300, and controls the massager assembly 100 and/or the audio playing assembly 200 to work according to the received control signal triggered by the business user. The earphone can perform audio playing while massaging ears, so that a human body is more relaxed, the massage and audio playing functions can be selected and switched according to the use requirements of a user, the compatibility of the somatosensory earphone is improved, and the use convenience of the user is also improved.

Referring to fig. 2, in an embodiment, the electronic control assembly 300 further includes:

a power supply 310;

a massager control circuit 320 electrically connected to the power supply 310 and the massager assembly 100, respectively, wherein the massager control circuit 320 is configured to control the power supply 310 to supply power to the massager assembly 100 when receiving the control signal;

and the audio playing control circuit 330 is respectively electrically connected with the power supply 310 and the audio playing component 200, and the audio playing control circuit 330 is configured to control the power supply 310 to supply power to the audio playing component 200 when receiving the control signal.

In this embodiment, the massager control circuit 320 may be implemented by a switch device, a control chip, etc., and the control chip may control the on/off of the switch device to further control the on/off of the electrical connection between the power supply 310 and the massager assembly 100 to control whether the massager assembly 100 works, when the massager assembly 100 is controlled to work, the power supply 310 is controlled to be electrically connected to the massager assembly 100, and when the massager assembly 100 is controlled to work, the power supply 310 is controlled to be electrically disconnected from the massager assembly 100. The massager control circuit 320 can be realized by a switch device, a control chip and the like, the control chip can control the on-off of the switch device, and further control the on/off of the electrical connection between the power supply 310 and the audio playing component 200 to control whether the audio playing component 200 works, when the audio playing component 200 works, the power supply 310 is controlled to be electrically connected with the audio playing component 200, and when the audio playing component 200 works, the power supply 310 is controlled to be electrically disconnected with the audio playing component 200.

Referring to fig. 3, in an embodiment, the motion sensing earphone further includes:

a wearing portion 110;

a function selection button 400 disposed on the wearable portion 110, wherein the function selection button 400 is electrically connected to the electronic control assembly 300, and when the function selection button 400 is triggered by a user, the function selection button outputs the control signal to the electronic control assembly 300, so that the electronic control assembly 300 controls the massager assembly 100 and/or the audio playing assembly 200 to operate according to the received control signal.

In this embodiment, the function selection keys 400 may be mechanical keys or touch keys disposed on the housing of the wearing portion 110, and the number of the function selection keys 400 may be one or more, and when one function is set, the user may switch between activating only the audio playing function, activating only the massage function, and simultaneously activating the audio playing function and the massage function by the number of times of pressing the key, the length of pressing the key, and the like. Are provided in plurality so as to cause the electronic control assembly 300 to control the massager assembly 100 and the audio playing assembly 200 according to the operation setting instructions of the user. For example, the plurality of function selection buttons 400 includes a first button, a second button, a third button, and so on, and when the user triggers a control signal of the first button, the electronic control assembly 300 controls the massager assembly 100 to operate to massage the earphone of the user. When the user triggers the control signal of the second button, and the electronic control component 300 receives the control signal, the electronic control component 300 controls the audio playing component 200 to work, so as to massage the earphone of the user. When the user sends an operation signal of the third button, the electronic control assembly 300 controls the audio playing assembly 200 and the massager assembly 100 to work simultaneously, so as to massage the earphone of the user and play audio simultaneously. It is understood that through the function selection button 400, the operational parameters of the massage device assembly 100, such as the operation mode, the operation frequency, the operation time, etc., can be set, and the operational parameters of the audio playing assembly 200, such as the volume, the pause, etc., can also be set.

Referring to fig. 4, in one embodiment, the electronic control assembly 300 includes:

the wireless communication circuit 340 is in communication and electrical connection with an external terminal, and the wireless communication circuit 340 is used for receiving the control signal triggered by the user;

a main controller 350 electrically connected to the wireless communication line, the massager assembly 100 and the audio playing assembly 200, respectively; the main controller 350 is used for controlling the massager assembly 100 and/or the audio playing assembly 200 to work according to the control signal received by the wireless communication circuit 340.

In this embodiment, the main controller 350 may be implemented by a microprocessor, for example, a DSP, a single chip, etc., the main controller 350 is a control center of the motion sensing headset, and is a core for controlling and processing the whole motion sensing headset, and various interfaces and lines are used to connect various parts of the whole motion sensing headset, and various functions and processing data of the motion sensing headset are executed by running or executing stored software programs and/or modules and calling stored data, so as to perform overall monitoring on the motion sensing headset. For example, the main controller 350 has various functions such as power management, signal processing, and the like. The wireless communication circuit 340 may include a bluetooth module, which may enable the main controller 350 to establish a bluetooth communication connection with an external terminal. Through the bluetooth communication connection between the main controller 350 and the external terminal established by the wireless communication circuit 34030, the main controller 350 can realize signal interaction with the external terminal, can receive audio signals, control signals and the like sent by the external terminal, and the main controller 350 can send the working state of the somatosensory earphone to the external terminal, such as electric quantity, working time and the like. When a user needs to use the motion sensing earphone, the control signal can be sent to the motion sensing earphone through an external terminal, for example, a mobile phone, a remote controller, an intelligent bracelet, an intelligent watch and the like, and when the main controller 350 receives the control signal through the wireless communication circuit 340, the massager assembly 100 and/or the audio playing assembly 200 can be controlled to work. The wireless communication circuit 340 can further include a WIFI module, an infrared radiation module, and the like, and the main controller 350 can receive a control signal triggered by a user through the wireless communication circuit 340 in any form, and control the motion sensing earphone to work.

Referring to fig. 4, in an embodiment, the motion sensing earphone further includes:

a voice pickup device 360 for receiving a control signal triggered by a user;

a main controller 350 electrically connected to the voice pickup device 360, the massager assembly 100 and the audio playing assembly 200, respectively; the main controller 350 is used for controlling the massager assembly 100 and/or the audio playing assembly 200 to work according to the control signal received by the voice pickup device 360.

In this embodiment, the voice pickup device 360 can pick up voice information sent by a user, so as to realize voice control of the motion sensing earphone and the mobile terminal, and the voice pickup device 360 can also realize voice call, that is, the motion sensing earphone can play audio signals, that is, music, and can also perform a teleconference, internet of things control, a voice assistant, and the like. In this embodiment, the main controller 350 may identify the content of the voice information sent by the user, and determine whether the voice information sent by the user is dialog information or a voice control signal, for example, voice wake-up may be performed in a manner of a keyword, the keyword may be pre-stored in the motion sensing earphone, and when the voice information sent by the user matches the stored keyword, it may be determined that the voice information of the user includes a voice control instruction. The main controller 350 can control the operation of the massager assembly 100 and/or the audio player assembly 200 when receiving the voice control signal through the voice pickup device 360.

a sensor module 370, the sensor module 370 configured to collect a control signal triggered by a user;

a main controller 350 electrically connected to the sensor module 370, the massager assembly 100 and the audio playing assembly 200, respectively; the main controller 350 is used for controlling the operation of the massager assembly 100 and/or the audio playing assembly 200 according to the control signal received by the sensor module 370.

In this embodiment, the sensor module 370 may be provided with sensors such as an infrared detection sensor, a capacitive proximity sensor, a light-sensing sensor, an acceleration sensor, and a gyroscope, and these sensors may be used to detect a wearing condition of the motion sensing headset, an action instruction of the user (e.g., adjusting a volume, turning on a voice, pausing/starting a massage function, pausing/starting an audio playback, and the like). When the user needs to start/pause the massage function and/or the audio playing function, the control signal can be triggered by the sensors, and the main controller 350 can control the massager assembly 100 and/or the audio playing assembly 200 to work when receiving the control signal through the sensors.

Referring to fig. 5 and 6, in one embodiment, the massager assembly 100 comprises:

a massager body (not shown);

the driving component 20 is in driving connection with the massager body, the driving component 20 is further electrically connected with the electronic control component 300, and the driving component 20 drives the massager body to work based on the control of the electronic control component 300.

In this embodiment, the massager body may include an ear canal massage member 30 connected to the main housing 10 and drivingly connected to the driving unit 20, the ear canal massage member 30 being configured to extend into the external auditory canal of the user and stimulate the vagus nerve on the external auditory canal. In practical application, the ear canal massage part 30 may be inserted into the external auditory canal, and then the driving component 20 is utilized to automatically generate the stimulation action to the vagus nerve, so that the user can simply and conveniently enjoy the effects of relaxing the mind and body and relieving fatigue. Because the body feeling earphone is manufactured by an industrial production line in a unified way, the stimulation mode of the device can be standardized and normalized, namely, the quality of stimulation actions is uniformly controlled from the source, and the risk of ear damage is reduced while the quality of the stimulation actions is ensured. The ear damage includes damage to the outer skin of the outer ear, damage to the tympanic membrane of the middle ear, and even rupture.

Specifically, the drive assembly 20 in combination with the ear canal massage member 30 may effect stimulation of the vagus nerve within the external ear canal in a variety of ways, including but not limited to bristle contact stimulation, microcurrent stimulation, insufflation stimulation, vibration stimulation, and heat stimulation. For example, in the bristle contact stimulation mode, the driving component 20 is a motor or a linear motor, the ear canal massage member 30 is a bristle (such as animal hair or feather), and the motor or the linear motor drives the bristle to rotate or advance and retreat in the external ear canal and contact and stimulate the epidermis of the external ear canal, thereby achieving stimulation of the vagus nerve. For another example, in the microcurrent stimulation mode, the driving assembly 20 is configured as a power source and circuit capable of generating a low intensity microcurrent, and the ear canal massage member 30 is configured as an electrical conductor electrically connected to the circuit, which extends into the external auditory meatus and discharges the microcurrent, thereby stimulating the vagus nerve. For another example, in the insufflation stimulation mode, the driving unit 20 is configured as a motor and a wind wheel connected to the motor in a driving manner, and the ear canal massage unit 30 is configured as a wind guide body having a wind guide cavity therein, and the wind guide body extends into the external auditory canal and delivers a wind flow which blows to the epidermis of the external auditory canal to stimulate the vagus nerve. For another example, in the vibration stimulation mode, the driving unit 20 is configured as a vibration motor, and the ear canal massage member 30 is configured as a vibrator connected to the vibration motor, the vibrator extending into the external auditory canal, abutting against and transmitting vibration to the epidermis of the external auditory canal, thereby stimulating the vagus nerve. For another example, in the heating stimulation mode, the driving assembly 20 is configured as an electric heater, and the ear canal massage member 30 is configured as a heat conductor that extends into the external auditory canal and abuts against and transfers a minute amount of heat energy to the epidermis of the external auditory canal, thereby stimulating the vagus nerve. The transmission shaft is configured as a transmission flexible shaft 22, one end of the transmission flexible shaft 22 is connected to the first driving member 21 in a driving manner, and the other end of the transmission flexible shaft 22 is connected to the ear canal massage member 30. In this embodiment, the first driving element 21 is used to drive the shaft center of the flexible transmission shaft 22 to perform a rotational motion, and specifically, the first driving element 21 may be one of a servo motor, a stepping motor, a hydraulic motor, and a pneumatic motor. Referring to fig. 1, in order to adjust the extension length of the ear canal massage element 30 relative to the main housing 10, in a first embodiment, the main housing 10 is provided with a flexible cavity (not shown in the drawings) for the flexible transmission shaft 22 to movably penetrate through, and a flexible opening 10b communicating with the flexible cavity and facing the ear canal massage element 30, the body sensing earphone further includes a depth adjusting element 40, and the depth adjusting element 40 is used for driving the flexible transmission shaft 22 to move in a direction close to or away from the flexible opening 10 b. The body feeling earphone further comprises a wearing part 110 and a supporting arm 120 connected to the wearing part 110, the wearing part 110 is used for leaning against the head or the neck of a user, and the ear canal massage piece 30 is installed on the supporting arm 120. The supporting arm 120 has opposite connecting end 121 and a suspending end 122, the connecting end 121 is connected to the wearing portion 110, the suspending end 122 is connected to the ear canal massage member 30, the supporting arm 120 is provided with a first elastic portion 123, and the first elastic portion 123 is used for making the suspending end 122 have a tendency of being displaced toward a direction close to the ear of the user. The supporting arm 120 includes two opposite first arm bodies 124, the connecting end 121 and the suspending end 122 are respectively disposed on the two first arm bodies 124, and the first elastic portion 123 is connected between the two first arm bodies 124. The wearing portion 110 includes a wearing arm section 111 for hanging on the neck, a connecting arm section 112, and a second elastic portion 113 connected between the wearing arm section 111 and the connecting arm section 112, two supporting arms 120 are respectively disposed at two ends of the wearing arm section 111, two connecting arm sections 112 are disposed corresponding to the two supporting arms 120 and respectively connected to the two supporting arms 120, and the second elastic portion 113 is used for enabling the two connecting arm sections 112 to have a tendency of approaching each other. The earphone is still including air guide assembly 50 to the body, wear portion 110 and correspond air guide assembly 50 is equipped with air outlet 110a, 130c, air outlet 110a, 130c set up towards user's neck portion, air guide assembly 50 is used for the via air outlet 110a, 130c blow to the outside. The body feeling earphone further includes a magnet therapy sheet 92 provided on the wearing portion 110, an infrared light source 93, and a massager 94 (a rotary massager 94 or a vibration massager 94). Specifically, the magnetotherapy sheet 92 provides a magnetotherapy function to the user, the infrared ray light source 93 provides an infrared ray physiotherapy function to the user, and the rotary massager 94 or the vibratory massager 94 provides a head and neck massage function to the user. The body feeling earphone further comprises a power supply 310 or a battery installation cabin arranged on the main case 10, and the first driving piece 21 is electrically connected with the power supply 310 or the battery installation cabin. The body feeling earphone further comprises an audio playing control circuit 330 and a function selecting button 400 which are arranged on the main casing 10, wherein the function selecting button 400, the first driving piece 21, the air guide piece, the vibration motor 91, the magnetic therapy piece 92, the infrared light source 93, the rotary massager 94 and the vibration massager 94 are all electrically connected with the audio playing control circuit 330. In order to further enrich the use function of the body feeling earphone, the body feeling earphone further comprises an auricle massage mechanism 60 arranged on the supporting arm 120, and the auricle massage mechanism 60 is used for stimulating the auricle of the user. Specifically, the auricle massaging mechanism 60 stimulates the auricle in various ways, including but not limited to, a bristle touch stimulus, a micro-current stimulus, an air blowing stimulus, a vibration stimulus, a heating stimulus, and the like. Thus, the user can enjoy the stimulation of the ear canal massage piece 30 to the external ear canal and the stimulation of the auricle massage mechanism 60 to the auricle at the same time, so that the body and mind of the user are more relaxed, and the user experience is further improved.

Referring to fig. 1 to 6, in an embodiment, the audio playing component 200 includes:

a sound producing device 210;

an audio processing circuit (not shown) electrically connected to the electronic control assembly 300 and the sound generating device 210, respectively; the audio processing circuit is configured to receive the audio signal output by the electronic control component 300, process the audio signal, and output the processed audio signal to the sound generating device 210.

In the present embodiment, the sound generating device 210 is a speaker (air-borne) and/or a bone conduction sound generator; when the sound generating device 210 is a speaker, the speaker is disposed on the massager assembly 100, and may be implemented in an external placement type, an in-ear type, or an in-ear type. The music playing component is installed on the massager component 100, wherein the music playing component can be in the form of a loudspeaker or a bone conduction earphone, and when the music playing component is in the form of the loudspeaker, the sound outlet hole can be opened on the ear-in part or other positions of the massager component 100. Specifically, when the external placement type is adopted, the sound generating device 210 is disposed on the housing 10 in a region far from the ear, and the audio is transmitted to the eardrum through the open space and a far air transmission path. When the sound-generating device 210 is disposed on the housing 10 in the area near the ear, the sound-generating device 210 may be located either outside or inside the external auditory canal, by which is meant that the ear device does not extend into the external auditory canal, such as a headset; by in-ear is meant that the ear device has a portion that extends into the external ear canal, e.g. an in-ear earphone. When the bone conduction sounding is adopted for realizing, the sounding device can be arranged at a position which can be attached to the skin of the ear of the user, and the specific position is not limited.

The audio processing circuit can be implemented by adopting a power amplifier chip, an audio processor and the like, and the audio processing circuit can perform signal processing on the received audio signal, such as digital-to-analog conversion, audio amplification, filtering and the like, and then output the audio signal to the sound generating device 210, so that the audio playing of the somatosensory earphone is realized. The audio playing component 200 may further include a music storage module 99 for storing audio files, such as light music for relaxing the user.

the control terminal is in communication connection with the somatosensory earphone, and when the control terminal is triggered by a user, the control terminal controls the massager assembly 100 and/or the audio playing assembly 200 in the somatosensory earphone to work.

The detailed structure of the body sensing earphone can refer to the above embodiment, and is not described herein again; it can be understood that, because the body sensing earphone is used in the body sensing earphone control system of the present invention, embodiments of the body sensing earphone control system of the present invention include all technical solutions of all embodiments of the body sensing earphone, and the achieved technical effects are also completely the same, and are not described herein again. The control terminal can be a remote controller, a mobile phone, an intelligent bracelet, an intelligent watch and the like. The user can control the massager assembly 100 and/or the audio playing assembly 200 in the somatosensory earphone to work through the control terminal.

The utility model also provides a body sensing earphone control system, which comprises a control terminal and the body sensing earphone;

The detailed structure of the body sensing earphone can refer to the embodiment, and is not described again; it can be understood that, because the body sensing earphone is used in the body sensing earphone control system of the present invention, embodiments of the body sensing earphone control system of the present invention include all technical solutions of all embodiments of the body sensing earphone, and the achieved technical effects are also completely the same, and are not described herein again. The control terminal may be a remote controller 98, a mobile phone, a smart band, a smart watch, and the like. The user can control the massager component and/or the audio playing component in the somatosensory earphone to work through the control terminal.

The above description is only an alternative embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a body feeling earphone, its characterized in that, body feeling earphone includes:

a massager assembly;

an audio playing component;

2. The motion sensing headset of claim 1, wherein the electronic control assembly further comprises:

a power supply;

the massager control circuit is respectively and electrically connected with the power supply and the massager component and is used for controlling the power supply to supply power to the massager component when receiving the control signal;

3. The motion sensing earphone of claim 1, further comprising:

a wearing portion;

4. The motion sensing headset of claim 1, wherein the electronically controlled component comprises:

5. The somatosensory earphone of claim 1, further comprising:

6. The motion sensing earphone of claim 1, further comprising:

the sensor module is used for acquiring a control signal triggered by a user;

7. The motion sensing earphone of claim 1, further comprising:

8. The somatosensory earphone of claim 1 wherein the massager assembly comprises:

a massager body;

9. The motion sensing earphone according to any one of claims 1 to 8, wherein the audio playing component comprises:

a sound producing device;

the audio processing circuit is electrically connected with the electric control component and the sounding device respectively; the audio processing circuit is used for receiving the audio signal output by the electric control component, processing the audio signal and outputting the processed audio signal to the sounding device.

10. A somatosensory earphone control system, which is characterized by comprising a control terminal and the somatosensory earphone according to any one of claims 1-9;

the control terminal is in communication connection with the somatosensory earphone and is used for controlling the massager assembly and/or the audio playing assembly in the somatosensory earphone to work when triggered by a user.