CN223380978U - Ear device - Google Patents

Abstract

The utility model discloses an ear device which comprises a shell, a driving assembly and an ear canal acting piece, wherein the shell comprises an ear hanging bracket and an ear entering part which are connected, the ear hanging bracket is used for hanging against the auricle of a user, the driving assembly is arranged on the shell, and the ear canal acting piece is in driving connection with the driving assembly and is used for extending into the external auditory canal of the user and acting on the external auditory canal. The technical scheme of the utility model can ensure the experience quality of the ear device on auricle stimulation.

Description

Ear device

Technical Field

The utility model relates to the technical field of ear massage equipment, in particular to an ear device.

Background

The vagus nerve is involved in human inflammation, emotion and pain regulation, and research shows that the vagus nerve is stimulated to regulate brain, heart and gastrointestinal functions, and has therapeutic effects on epilepsy, depression and the like. Of course, besides the medical effect, the simple massage stimulation of the external ear (comprising auricles and external auditory meatus) can also play a good role in relaxing body and mind and relieving fatigue, so that the ear picking service industry is more and more popular in recent years.

At present, the service of massaging and stimulating the ears is completed manually, for example, the ear picking massage service industry has the defects of nonstandard and uneven service techniques, and the user experience is good and bad. Therefore, a new ear-stimulating technical scheme is needed to meet the use requirements of users, standardize and normalize the stimulating actions, and ensure the experience quality of the stimulating actions.

Disclosure of utility model

The main object of the utility model is to provide an ear device aimed at guaranteeing the quality of experience of the ear device with respect to the ear stimulating action.

To achieve the above object, the present utility model provides an ear device comprising:

The shell comprises a hanging bracket and an ear-in part which are connected, wherein the hanging bracket is used for being hung on the auricle of a user, and the ear-in part is arranged towards the external auditory canal of the user;

a driving assembly mounted to the housing, and

The ear canal acting piece is positioned at the ear insertion part and is in driving connection with the driving assembly, and the ear canal acting piece is used for extending into the external auditory canal of a user and acting on the external auditory canal.

Optionally, the hangers support is including being relative setting main part and clamp arm portion, and connect in main part with press from both sides the transition portion between the arm portion, press from both sides the arm portion with main part interval is formed with the centre gripping space, the centre gripping space is used for the cover to establish auricle.

Optionally, the ear device further comprises a first control electrically connected to the drive assembly, the first control being located on a side of the main body portion facing away from the clamp arm portion.

Optionally, the arm clamping portion comprises a first arm section and a second arm section, the first arm section is connected to the transition portion, one end of the second arm section is rotatably connected to the first arm section, and the other end of the second arm section is connected to the ear insertion portion.

Optionally, the first arm section is equipped with the joint convex part corresponding to the second arm section, the second arm section is equipped with and is used for supplying the draw-in groove of joint convex part card is put, the draw-in groove is followed the circumference extension of the axis of rotation of second arm section, and the central angle that corresponds is greater than or equal to one hundred eighty degrees.

Optionally, the driving assembly includes first driving piece and transmission flexible axle, the one end drive of transmission flexible axle connect in first driving piece, the other end connect in the ear canal effect piece, first driving piece is located the hangers support.

Optionally, the ear inserting portion is provided with a second cavity and a telescopic opening communicated with one end of the second cavity, the other end of the second cavity is communicated with the first cavity, the first cavity and the second cavity are used for being movably penetrated by the transmission flexible shaft, the ear canal acting piece penetrates through the telescopic opening and is connected with the transmission flexible shaft, and the ear device further comprises a depth adjusting piece, wherein the depth adjusting piece is used for driving the transmission flexible shaft to do telescopic motion close to or far away from the telescopic opening.

Optionally, the depth adjusting member is configured to be rotatably connected to a rotating wheel of the hanger bracket, the rotating wheel is provided with a first engagement tooth portion, and the first driving member is provided with a second engagement tooth portion for engagement connection of the first engagement tooth portion.

Optionally, the hanger bracket is provided with a mounting via hole corresponding to the rotating wheel, and the outer periphery of the rotating wheel is at least partially exposed in the mounting via hole.

Optionally, the ear device further comprises an in-ear earplug arranged on the in-ear part, the in-ear earplug is used for being worn at the outlet of the external auditory canal, an avoidance hole is formed in the in-ear earplug corresponding to the ear canal acting piece, and the ear canal acting piece can penetrate through the avoidance hole and is connected with the driving assembly.

Optionally, the ear device further comprises a blowing component arranged on the hanging bracket, the hanging bracket is provided with an air outlet corresponding to the blowing component, the air outlet is arranged towards the head and neck of the user, and the blowing component is used for blowing air outwards through the air outlet.

Optionally, the ear device further comprises an audio player, the audio player being provided in the housing.

Optionally, the ear device further comprises an auricle massage assembly provided to the insertion ear, the auricle massage assembly being configured to stimulate the auricle of the user.

According to the technical scheme, the auditory canal acting piece is firstly stretched into the external auditory canal, and then the stimulation action on the external auditory canal and/or the vagus nerve on the external auditory canal is automatically generated through the driving component, so that a user can enjoy the effects of relaxing body and mind and relieving fatigue simply and conveniently. Because the ear device is produced and 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 the stimulation action is unified and controlled at the source, so that the experience quality of the stimulation action can be ensured.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an embodiment of an ear device of the present utility model;

fig. 2 is a left side view of the ear device of fig. 1;

Fig. 3 is a cross-sectional view of the ear device of fig. 2 taken vertically at B.

Reference numerals illustrate:

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, if directional indications (such as up, down, left, right, front, and rear are referred to in the embodiments of the present utility model), the directional indications are merely used to explain the relative positional relationship, movement conditions, and the like between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" as it appears throughout includes three parallel schemes, for example "A and/or B", including the A scheme, or the B scheme, or the scheme where A and B are satisfied simultaneously. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

At present, the service of massaging and stimulating the ears is completed manually, for example, the ear picking massage service industry has the defects of nonstandard and uneven service techniques, and the user experience is good and bad. Therefore, a new ear-stimulating technical scheme is needed to meet the use requirements of users, standardize and normalize the stimulating actions, and ensure the experience quality of the stimulating actions.

In view of this, the present utility model proposes an ear device, referring to fig. 1 and 2, which in one embodiment of the utility model comprises:

The casing 10 comprises a hanging ear bracket 130 and an ear-in part 140 which are connected, wherein the hanging ear bracket 130 is used for being hung on the auricle of a user, and the ear-in part 140 is arranged towards the external auditory canal of the user;

A driving assembly 20 mounted to the housing 10, and

The ear canal action member 30 is located at the ear entrance part 140 and is in driving connection with the driving assembly 20, and the ear canal action member 30 is configured to extend into and act on the external auditory canal of the user.

According to the technical scheme of the utility model, the auditory canal acting part 30 is firstly stretched into the external auditory canal, and then the stimulation action to the external auditory canal and/or the vagus nerve on the external auditory canal is automatically generated through the driving component 20, so that a user can enjoy the effects of relaxing body and mind and relieving fatigue simply and conveniently. Because the ear device is produced and 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 the stimulation action is unified and controlled at the source, so that the experience quality of the stimulation action can be ensured. Secondly, this ear device can make things convenient for the user to wear through the hangers support, and still can not have obvious uncomfortable to feel in order to let the user wear for a long time after, this ear device has only set up hangers support 130 and income ear portion 140 to can reduce the volume and the weight of ear device, and make the ear device accomplish more exquisite and exquisite, and then conveniently accomodate and carry, improve the use convenience and the flexibility of this ear device.

In particular, the drive assembly 20 and the ear canal application 30 together may be used in a variety of ways to achieve external auditory canal stimulation, including, but not limited to, stroking stimulation, microcurrent stimulation, tacting stimulation, insufflation stimulation, vibration stimulation, heating stimulation, and the like.

Specifically, in the pacifying stimulation mode, the auditory canal acting member 30 has a hair-shaped part, the driving component 20 is configured as a motor which drives the hair-shaped part to rotate in the external auditory canal and contact with the epidermis of the external auditory canal, or the driving component 20 is configured as a linear motor which drives the hair-shaped part to move in the external auditory canal in a forward and backward motion relative to the external auditory canal and contact with the epidermis of the pacifying external auditory canal, so that stimulation to the external auditory canal and/or vagus nerve is realized. Specifically, the hair-shaped part can be configured as natural fiber or chemical fiber or elastic material, namely, the hair-shaped single body is prepared by using raw materials such as natural fiber or chemical fiber or elastic material, and a plurality of hair-shaped single bodies can be combined into a bundle or a ball according to the requirement to form a structure similar to a feather or a silica gel soft brush or a cotton swab, or the hair-shaped part can be directly used as the hair-shaped part by using only one hair-shaped single body, such as a horsetail hair. The natural fibers include plant fibers and animal fibers, wherein the plant fibers include cotton, hemp, flax and the like, the animal fibers include animal hair such as horsetail hair, pig hair, goat hair or feathers and the like, the chemical fibers include artificial fibers and synthetic fibers, wherein the artificial fibers include artificial protein fibers, viscose fibers, acetate fibers, copper ammonia fibers and the like, the synthetic fibers include terylene, chinlon, acrylic fibers and the like, and the elastic materials include silica gel, rubber, elastic PVC (Polyvinyl chloride ) and the like. Thus, the natural fiber, the chemical fiber or the elastic material is easy to obtain or prepare, and the related industrial production technology is mature, so that the manufacturing cost of the wool part can be effectively reduced. In addition, the hair-like portion made of these natural fibers or chemical fibers can be made into a hair-like shape, and the individual body is slim and soft, so that a good feeling stimulation effect can be achieved. Of course, in other embodiments, the bristles may be configured from other materials that can be made into a soft bristle shape, or from materials that can be made into a flexible or elastomeric body, such as a foam sponge, or the like.

Specifically, in a microcurrent stimulation mode, the drive assembly 20 is configured as a power source and controller capable of generating microcurrents (e.g., low level currents in medical applications, in the range of 50 microamps to 1000 microamps), and the ear canal active element 30 is configured as an electrical conductor (e.g., an electrode pad) in electrical communication with the controller, the electrical conductor contacting the external auditory canal and releasing microcurrents to stimulate the external auditory canal and/or vagus nerve. Since the related technology of the microcurrent instrument in the market is mature, the description is not repeated here.

Specifically, in the light touch stimulation mode, the driving assembly 20 may include a motor, an eccentric cam drivingly connected to the motor, and a lever rotatably connected to the motor, and the ear canal function member 30 is configured to drive a light touch massage head connected to the linear motor, one end of the lever is in rolling contact with the outer periphery of the eccentric cam, and the other end of the lever is connected to the light touch massage head. That is, the lever principle is utilized to enable the touch massage head to generate the action of approaching or separating from an epidermal area on the external auditory canal, and touch the epidermal area when approaching, thereby realizing the stimulation mode of regularly touching the external auditory canal. Of course, the driving assembly 20 may also include a linear motor, and a controller electrically connected to the linear motor, where the ear canal function member 30 is configured to drive the light touch massage head connected to the linear motor, and the controller is configured to send a pulse signal to control the linear motor to regularly operate, and the linear motor is configured to drive the light touch massage head to perform a translational motion. Therefore, the light touch massage head is regularly translated by utilizing the pulse signals, and the action of approaching or separating from a surface area on the external auditory canal is generated, for example, the action is a period every four seconds, and the surface area is touched when the action is in an approaching position, so that the stimulation mode of regularly light touching the external auditory canal is realized.

Specifically, in the blowing stimulation mode, the driving assembly 20 is configured as a motor and a wind wheel connected to the motor in a driving manner, the auditory canal action member 30 is configured as an air guide body with an air guide cavity therein, the air guide body extends into the external auditory canal and conveys air flow, and the air flow blows to the epidermis of the external auditory canal, thereby realizing stimulation to the external auditory canal and/or vagus nerve.

Specifically, in the vibration stimulation mode, the driving unit 20 may be configured as a vibration motor (a rotor motor or a linear motor), and the ear canal application member 30 may be configured as a vibrator connected to the vibration motor, and the vibrator may extend into the external auditory meatus, abut against and transmit the vibration to the epidermis of the external auditory meatus, thereby stimulating the external auditory meatus and/or vagus nerve. Of course, it is also possible that the driving assembly 20 includes a motor, a controller electrically connected to the motor, and a pendulum connected to the motor in a driving manner, and the ear canal acting member 30 is configured as a tuning fork, the controller is configured to send a pulse signal to control the motor to regularly operate, the motor is configured to drive the pendulum to strike the tuning fork, and the tuning fork vibrates (vibrates) and contacts the external auditory meatus after being hammered, thereby realizing stimulation to the external auditory meatus and/or vagus nerve.

Specifically, in the heating stimulation mode, the driving component 20 is configured as an electric heater, the ear canal acting element 30 is configured as a heat conductor, the heat conductor stretches into the external auditory canal and is abutted against and transmits trace heat energy (heat energy for avoiding scalding) to the epidermis of the external auditory canal, or the driving component 20 comprises a power supply and a controller electrically connected with the power supply, the ear canal acting element 30 is configured as an electric heater electrically connected with the power supply, or the driving component 20 is configured as a power supply, a motor electrically connected with the power supply, a wind wheel connected with the motor and an electric heater arranged at an air inlet or an air outlet of the wind wheel, the electric heater is electrically connected with the power supply and is used for heating air flow generated by the wind wheel, and the ear canal acting element 30 is configured as an air guide body internally provided with an air guide cavity, and the air guide body stretches into the external auditory canal and transmits the air flow, and the air flow blows to the epidermis of the external auditory canal, thereby realizing stimulation to the external auditory canal and/or the vagus nerve.

Of course, each of the above-mentioned stimulation modes may be combined with each other in addition to the independent stimulation, for example, the combination of the stroking stimulation, the blowing stimulation and the heating stimulation, or the combination of the stroking stimulation and the microcurrent stimulation, or the combination of the microcurrent stimulation, the heating stimulation and the vibration stimulation.

Referring to fig. 1 and 2, in an embodiment, the hanger bracket 130 includes a main body 131 and a clip arm 132 disposed opposite to each other, and a transition portion 133 connected between the main body 131 and the clip arm 132, wherein a clip space 130a is formed between the clip arm 132 and the main body 131, and the clip space 130a is used for housing the auricle. Specifically, the user can wear the ear device by merely aligning the holding space 130a with his or her auricle and then inserting the auricle into the holding space 130 a. The hanger bracket 130 is simple and compact in structure, and is convenient for a user to wear and remove. Of course, in other embodiments, the hanger bracket 130 may further include a main body 131 and a clip arm 132 rotatably connected to the main body 131, wherein a reference line is set to intersect with the rotation axis of the clip arm 132, and the clip arm 132 extends along the circumferential direction of the reference line.

Referring to fig. 1 and 2, in an embodiment, the ear device further includes a first control 97 electrically connected to the driving assembly 20, the first control 97 being located on a side of the main body 131 facing away from the arm 132. Specifically, the first control key 97 may be a physical key or a touch key, or a function key integrated on the touch screen display. The first control key 97 can control the start-stop or operation parameters of the driving assembly 20, for example, when the driving assembly 20 comprises a motor and a transmission shaft, the first control key 97 can adjust the rotation speed of the motor, and further adjust the rotation frequency of the auditory canal effect member 30. In this way, providing the first control 97 to the user can facilitate the user to directly operate the first control 97 to regulate the drive assembly 20. Secondly, set up first control key 97 in the main part 131 deviate from the one side of clamp arm 132, after this ear device is worn to the user, can make things convenient for the user to touch this first control key 97 to improve the convenience of user's operation regulation and control first control key 97.

Referring to fig. 1 and 2, in an embodiment, the arm clamping portion 132 includes a first arm segment 1321 and a second arm segment 1322, the first arm segment 1321 is connected to the transition portion 133, one end of the second arm segment 1322 is rotatably connected to the first arm segment 1321, and the other end is connected to the ear insertion portion 140. Specifically, since the second arm segment 1322 is rotatable relative to the first arm segment 1321, the ear canal application member 30 is oriented toward the left ear of the user when the second arm segment 1322 is in the initial position, and the ear device is worn on the left ear of the user, and when the second arm segment 1322 is rotated one hundred eighty degrees relative to the first arm segment 1321, the ear canal application member 30 is disposed away from the left ear of the user, and the ear device can be worn on the right ear of the user. In this way, an ear device can be realized which is simultaneously suitable for use by a user with respect to both the left and right ears, i.e. the left and right ear versatility of the ear device is realized, thereby improving the flexibility and convenience of use of the ear device. Of course, in other embodiments, the second arm segment 1322 may be fixedly disposed on the first arm segment 1321, or the second arm segment 1322 and the first arm segment 1321 may be integrally formed.

Referring to fig. 2 and 3, in an embodiment, the first arm segment 1321 is provided with a clamping protrusion 132a corresponding to the second arm segment 1322, the second arm segment 1322 is provided with a clamping groove 132b for clamping the clamping protrusion 132a, and the clamping groove 132b extends along a circumferential direction of a rotation axis of the second arm segment 1322, and a corresponding central angle is greater than or equal to one hundred eighty degrees. By the engagement of the engaging protrusion 132a and the engaging groove 132b, not only the structure is simple, but also the rotation is smooth and stable. Of course, in other embodiments, the first arm segment 1321 may be provided with a rotation hole for inserting the second arm segment 1322 and a threaded through hole for communicating with the rotation hole, and the ear device further includes a machine screw, where one end of the machine screw can penetrate through the threaded through hole and abut against the outer peripheral surface of the second arm segment 1322.

Referring to fig. 1 and 2, in an embodiment, the driving assembly 20 includes a first driving member 21 and a transmission flexible shaft 22, one end of the transmission flexible shaft 22 is drivingly connected to the first driving member 21, the other end is connected to the ear canal action member 30, and the first driving member 21 is located on the ear hanging bracket 130. In this way, under the support of the transmission flexible shaft 22, the first driving piece 21 can be arranged on the main body 131 (the hanging bracket 130), so that the first driving piece 21 is far away from the ear canal acting piece 30, and thus the working noise transferred to the ear canal acting piece 30 during the operation of the first driving piece 21 can be reduced, and the perception degree of the working noise of the first driving piece 21 by a user can be reduced, so that the user experience is improved. Of course, in other embodiments, the first driving member 21 may be disposed on the transition portion 133 or the arm portion 132.

Referring to fig. 1 and 2, in order to enable the extension length of the ear canal action member 30 relative to the casing 10 to be adjustable, in an embodiment, a first cavity (not shown in the drawing) is disposed in the ear hanging bracket 130, the ear inserting portion 140 is provided with a second cavity 10a, and a telescopic opening 10b connected to one end of the second cavity 10a, the other end of the second cavity 10a is connected to the first cavity, the first cavity and the second cavity 10a are used for movably penetrating the transmission flexible shaft 22, the ear canal action member 30 penetrates through the telescopic opening 10b and is connected to the transmission flexible shaft 22, and the ear device further includes a depth adjusting member 40, wherein the depth adjusting member 40 is used for driving the transmission flexible shaft 22 to make a telescopic movement close to or far from the telescopic opening 10 b. That is, the depth adjusting member 40 is capable of driving the protruding length of the ear canal procedure member 30 on the transmission flexible shaft 22 with respect to the casing 10, thereby adjusting the depth of the protruding of the ear canal procedure member 30 into the external auditory canal. In this way, the ear device is adapted to different users and different usage situations, wherein when the users change the ear canal function piece 30 with different forms, the proper telescopic position of the transmission flexible shaft 22 can be selected according to the form of the ear canal function piece 30, so that better user experience is obtained.

Referring to fig. 1 and 2, in an embodiment, the depth adjusting member 40 is configured to rotate a rotating wheel 43 connected to the hanger bracket 130, the rotating wheel 43 is provided with a first engaging tooth portion 431, and the first driving member 21 is provided with a second engaging tooth portion 213 for engaging and connecting the first engaging tooth portion 431. In this way, by using the engagement transmission method of the first engagement tooth portion 431 and the second engagement tooth portion 213, the transmission can be smoother and more stable, and thus the sliding of the first driving member 21 can be smoother and more stable. Of course, in other embodiments, the depth adjusting member 40 may be a pushing slider or a push-pull rod slidably connected to the hanger bracket 130, and the pushing slider or the push-pull rod is further connected to the first driving member 21.

Referring to fig. 1 and 2, in an embodiment, the hanger bracket 130 is provided with a mounting via 130b corresponding to the rotating wheel 43, and an outer periphery of the rotating wheel 43 is at least partially exposed from the mounting via 130b. Specifically, the outer periphery of the rotating wheel 43 is for the user to push against to be shifted to generate rotation. In this way, the user can conveniently operate the depth adjustment member 40.

Referring to fig. 1 and 2, in an embodiment, the ear device further includes a blower assembly 50 disposed on the ear mount 130, the ear mount 130 is provided with an air outlet 130c corresponding to the blower assembly 50, the air outlet 130c is disposed towards the head and neck of the user, and the blower assembly 50 is configured to blow air outwards through the air outlet 130 c. In this manner, by blowing the air blowing assembly 50 toward the head and/or neck of the user, a certain air blowing stimulation effect can be achieved, thereby enriching the use functions of the ear device and improving the user experience.

In one embodiment, the blower assembly 50 includes a blower and a heater for heating the air flow blown by the blower. Specifically, the heating member may be disposed at the air inlet of the blowing member, may be disposed in the internal air flow passage of the blowing member, and may be disposed at the air outlet 130c of the blowing member. In this way, the air blown to the user by the blowing member is warmed up by the heating member, that is, the warm air blowing function is provided to the user, so that the comfort of the ear device can be improved. Of course, in other embodiments, the heating element may not be provided, and only the blowing element may be used to provide the air flow at normal temperature to the user.

Referring to fig. 1 and 2, in one embodiment, the ear device further includes an auricle massage assembly 70 disposed on the ear insertion portion 140, and the auricle massage assembly 70 is configured to massage and stimulate the auricle of the user. Specifically, the auricle massage assembly 70 can be used for stimulating auricles in a variety of ways, including, but not limited to, stroking, tapping, microcurrent, blowing, vibration, heating, etc., and the specific structure and principle can be referred to above with respect to the related art of the auditory canal working member 30. In this way, the user can enjoy the stimulation of the auditory meatus acting member 30 to the external auditory meatus and the stimulation of the auricle massage member 70 to the auricle at the same time, so that the body and mind of the user are relaxed more, and the user experience is improved.

Referring to fig. 1 and 2, in an embodiment, the ear insertion portion 140 has a first end 141 and a second end 142 opposite to each other, the ear canal action member 30 is disposed at the first end 141, the auricle massage assembly 70 includes a second driving member 71 disposed in the ear insertion portion 140, and an auricle action member 72 movably connected to the second end 142, and the auricle action member 72 is used for touching the auricle. Specifically, the auricle-acting element 72 may be configured as natural fibers or chemical fibers, such as horsetail, pig hair or feathers, etc., among animal fibers. In this way, the auricle-stimulating effect can be achieved by the auricle-acting member 72, and the auricle-massaging member 70 is simple in structure, which is advantageous in reducing the manufacturing cost of the auricle-massaging member 70. Of course, in other embodiments, the auricle-acting element may be made of an elastic material, such as bristles made of a silicone material or a rubber material.

Referring to fig. 1 and 2, in an embodiment, the ear device further includes a first controller 96 disposed on the ear mount 130, a wireless communication module (not shown in the drawings) electrically connected to the first controller 96, and a remote controller (not shown in the drawings), and the remote controller is communicatively connected to the first controller 96 through the wireless communication module. Specifically, the Wireless communication module may be a Wi-Fi (Wireless-Fidelity) module or a bluetooth module, and the first controller 96 may be configured as a printed circuit board or a microprocessor, and may integrate some functional modules such as a Wireless communication module and a speaker, etc. on the printed circuit board. So, provide the remote controller simultaneously to the user, the convenience of customers selects whether through first control key 97 or through the remote controller according to the service scenario to regulate and control each functional module, and then improve the use convenience of this ear device.

In one embodiment, the ear device further comprises an audio player 99 electrically connected to the first controller 96, the audio player 99 being provided on the ear-in portion 140 or the ear-hanging bracket 130. Without loss of generality, the currently mainstream audio playing modes include two modes of air transmission and bone conduction, wherein the air transmission can be further divided into external mode, in-ear mode and the like. As will be readily appreciated, the externally placed means that the audio player 99 is disposed on the housing 10 in an area remote from the ear where audio travels through the open space and a relatively long air travel path to the tympanic membrane. When the audio player 99 is disposed on the housing 10 in an area near the ear, the audio player may be disposed either outside or inside the external auditory meatus, which refers to a portion of the ear device that does not protrude into the external auditory meatus, such as a headphone, and in-ear refers to a portion of the ear device that protrudes into the external auditory meatus, such as an in-ear headphone. In this embodiment, the audio player 99 may take either an air-borne or bone-conduction form. In this way, the audio player 99 provides the user with a music playing function, so that the user can listen to music or hypnotize white noise while receiving the ear canal massage stimulus, thereby improving the user experience.

Specifically, in one embodiment, the ear-in portion 140 further includes an ear-in earplug 12 disposed at the first end 141, the ear-in earplug 12 is configured to be worn at an outlet of the external auditory canal, the ear-in earplug 12 is provided with an avoidance hole, the ear canal acting member 30 can be disposed through the avoidance hole and connected with the transmission flexible shaft 22, the audio player 99 includes a speaker disposed at the ear-in portion 140, and the speaker is disposed near the ear-in earplug 12 and is disposed toward the avoidance hole. So, after the user wears the ear device, utilize the speaker orientation to dodge Kong Bofang audios, this audio can be through dodging in the hole gets into user's ear to make the tone strength of audio can not show to weaken, and then provide better hearing enjoyment for the user. Of course, in other embodiments, the speaker may be located in other areas of the ear-in portion 140 or on the ear-hanging bracket 130, and the ear-in portion 140 or the ear-hanging bracket 130 is provided with a sound outlet corresponding to the speaker. Thus, the music playing function is provided for the user in an audio playing mode.

In one embodiment, the audio player 99 further includes a memory module electrically connected to the first controller 96. The storage module can store audio so as to provide preset audio for users to select, for example, light music, classical music or white noise which can relax the human heart are prestored in the storage module. Of course, in other embodiments, the speaker may be electrically connected to the wireless communication module, and the smart mobile terminal (including but not limited to a mobile phone and a tablet computer) may directly transmit the audio to the speaker for playing by using the wireless communication module.

The foregoing description is only of the optional embodiments of the present utility model, and is not intended to limit the scope of the utility model, and all the equivalent structural changes made by the description of the present utility model and the accompanying drawings or the direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. An ear device, comprising:

The shell comprises a hanging bracket and an ear-in part which are connected, wherein the hanging bracket is used for being hung on the auricle of a user, and the ear-in part is arranged towards the external auditory canal of the user;

a driving assembly mounted to the housing, and

The ear canal acting piece is positioned at the ear insertion part and is in driving connection with the driving assembly, and the ear canal acting piece is used for extending into the external auditory canal of a user and acting on the external auditory canal.

2. The ear device of claim 1 wherein said ear mount includes oppositely disposed body and arm portions and a transition portion connected between said body and arm portions, said arm portions being spaced from said body to define a clamping space for nesting said auricle.

3. The ear device of claim 2 further comprising a first control electrically connected to the drive assembly, the first control being located on a side of the main body portion facing away from the clamp arm portion.

4. The ear device of claim 2 wherein said clip arm portion comprises a first arm segment and a second arm segment, said first arm segment being connected to said transition portion, said second arm segment being rotatably connected at one end to said first arm segment and at the other end to said ear-in portion.

5. The ear device of claim 4, wherein said first arm segment is provided with a snap projection corresponding to said second arm segment, said second arm segment is provided with a snap groove for said snap projection to snap, said snap groove extends circumferentially along the axis of rotation of said second arm segment and corresponds to a central angle of one hundred eighty degrees or more.

6. The ear device of claim 1 wherein said drive assembly comprises a first drive member and a drive flexible shaft, one end of said drive flexible shaft being drivingly connected to said first drive member and the other end being connected to said ear canal application member, said first drive member being located in said ear mount.

7. The ear device of claim 6, wherein the ear mount has a first cavity, the ear-receiving portion has a second cavity and a telescoping opening connected to one end of the second cavity, the other end of the second cavity is connected to the first cavity, the first cavity and the second cavity are configured to be movably penetrated by the transmission flexible shaft, the ear canal acting member is penetrated by the telescoping opening and connected to the transmission flexible shaft, and the ear device further includes a depth adjusting member for driving the transmission flexible shaft to make telescoping movement near or far from the telescoping opening.

8. The ear device of claim 7, wherein said depth adjustment member is configured to rotate a rotatable wheel coupled to said hanger bracket, said rotatable wheel being provided with a first engagement tooth, said first drive member being provided with a second engagement tooth for engagement by said first engagement tooth.

9. The ear device of claim 8 wherein said hanger bracket is provided with mounting vias corresponding to said rotating wheel, an outer periphery of said rotating wheel at least partially exposed to said mounting vias.

10. The ear device of claim 1, further comprising an in-ear earplug disposed in the in-ear portion, the in-ear earplug being configured to be worn at an outlet of the external auditory canal, the in-ear earplug having a relief aperture corresponding to the ear canal action member, the ear canal action member being configured to be disposed through the relief aperture and coupled to the drive assembly;

And/or, the ear device further comprises a blowing component arranged on the hanging bracket, the hanging bracket is provided with an air outlet corresponding to the blowing component, the air outlet is arranged towards the head and neck of the user, and the blowing component is used for blowing air outwards through the air outlet;

And/or the ear device further comprises an audio player, the audio player being provided to the housing;

And/or the ear device further comprises an auricle massage assembly provided to the insertion ear, the auricle massage assembly being configured to stimulate the auricle of the user.