CN219355096U - Nerve regulation and control equipment and system with bone conduction function - Google Patents

Abstract

The utility model discloses a nerve regulation and control device and system with bone conduction function, wherein the nerve regulation and control device with bone conduction function comprises: a head-wearing device comprising a clamping member therein for contacting and applying a clamping force to the head of the user to maintain the position of the head-wearing device relative to the head of the user; a vibration generating part for transmitting vibration to bones corresponding to skin of a head area of a user to reach auditory nerves; an electrical stimulation assembly for outputting an electrical current to the skin of the user's head area; and a control unit. According to the technical scheme, the vibration generating component and the electric stimulation component are integrally arranged to form the nerve regulation and control equipment, so that functions of the nerve system regulated and control by electric stimulation are guaranteed, the function of audio conduction and playing is realized, a user can selectively listen to audio while carrying out nerve regulation and control, functions of the nerve regulation and control equipment are enriched, and experience of the user is improved.

Description

Nerve regulation and control equipment and system with bone conduction function

Technical Field

The utility model relates to the technical field of nerve regulation, in particular to nerve regulation equipment and system with bone conduction function.

Background

Neurotransmitters in the brain are chemicals that transfer information between neurons or between neurons and effector cells such as muscle cells, gland cells, etc. The disturbance of neurotransmitter secretion affects the normal regulation of the brain and thus the normal operation of the various functions of the human body.

In sleep regulation, electrical stimulation of the brain is often used to regulate neurotransmitters in the brain. The brain is subjected to repeated electrical stimulation by applying an electrical current through the head to the cortex of the brain, for example in the form of repeated transcranial stimulation (repetitive transcranial magnetic stimulation, rTMS), transcranial direct current stimulation (transcranial direct current stimulation, tDCS), transcranial alternating current stimulation (Transcranial alternating current stimulation, tcacs) or vagal nerve stimulation (Vagus Nerve Stimulation, VNS) or the like. But the nerve control equipment in the prior art only has the function of electrically stimulating one treatment, has single functionality and has poor experience in the use process of a user.

In the prior art, the related equipment of the electrical stimulation has single function, cannot meet the aim of better nerve regulation and control, and needs to provide more effective regulation and control equipment for improving the nerve regulation and control effect.

Disclosure of Invention

The utility model provides nerve regulation and control equipment and system with a bone conduction function, which are used for solving the problem of single functionality of the nerve regulation and control equipment in the prior art.

According to an aspect of the present utility model, there is provided a neuromodulation device having a bone conduction function, the neuromodulation device comprising:

a head-wearing device comprising a clamp for contacting the head of a user and applying a clamping force to the head of the user to maintain the position of the head-wearing device relative to the head of the user in a use state;

a vibration generating member provided on the holder, the vibration generating member being configured to transmit vibrations to bones corresponding to skin of a head region of a user to reach auditory nerves in a use state;

an electro-stimulation component, which is used for outputting current to the skin of the head area of the user when in use;

the control unit is respectively in communication connection with the vibration generating component and the electric stimulation component; the control unit controls the vibration generation of the vibration generating component; the control unit controls the current output of the electro-stimulation component.

Optionally, the clip applies a force to the skin of the at least one lateral condyle map such that the at least one vibration-generating component may transmit vibrations through the condyle to reach the auditory nerve.

Optionally, the vibration generating part includes: a control assembly, a transduction assembly and a vibration assembly;

the control component is respectively in communication connection with the control unit and the transduction component, and is used for outputting control electric signals to the transduction component according to control signals of the control unit; the energy conversion component is used for converting the control electric signal into a mechanical vibration signal; the vibration assembly is in communication connection with the transduction assembly and is used for receiving the mechanical vibration signal and transmitting vibration according to the mechanical vibration signal.

Optionally, the electrical stimulation assembly includes a first electrical transmission element capable of simultaneously acting on at least a portion of the skin of the mastoid region on both sides of the head when in use.

Optionally, the electrical stimulation assembly includes a second electrical transmission element capable of simultaneously acting on at least a portion of the skin in the forehead region when in use;

the nerve regulation and control equipment comprises a channel selection circuit which is connected with the electric stimulation component;

wherein, in the use state, the control unit controls the channel selection circuit to pair the first electric transmission element and the second electric transmission element so as to control the first electric transmission element or/and the second electric transmission element to output current to the head of the user.

Optionally, the head-wearing device comprises a head holder;

the head holder is U-shaped when in use, and the clamping pieces are respectively positioned on two lateral wings of the head holder.

Optionally, the electrical stimulation assembly includes a first electrical transmission element, the first electrical transmission element being provided with two electrical transmission elements and being located in respective first relative positions of the head-mounted device, the first electrical transmission element being capable of simultaneously acting on at least part of the skin of the mastoid region on both sides of the head in the use state.

Optionally, the head-mounted device comprises a mounting region in which the first electrical transmission element is disposed.

Optionally, the assembly region is disposed in the holder.

Optionally, the electrical stimulation assembly includes a second electrical transmission element, the second electrical transmission element being provided with two electrical transmission elements and being respectively located at a second relative position of the head-mounted device, the second electrical transmission element being capable of simultaneously acting on at least part of the skin in the forehead region in the use state;

the nerve regulation and control equipment comprises a channel selection circuit which is connected with the electric stimulation component;

wherein, in the use state, the control unit controls the channel selection circuit to pair the first electric transmission element and the second electric transmission element so as to control the first electric transmission element or/and the second electric transmission element to output current to the head of the user.

Optionally, the head holder has a chamber in which the control unit and the channel selection circuit are disposed.

Optionally, the head holder comprises:

the shell is positioned in front of the forehead of a user when in a use state, and the cavity is formed in the shell;

the shell is provided with an inner side wall facing the forehead of the user in a use state, and the second electric transmission element is arranged on the inner side wall.

According to another aspect of the present utility model, there is provided a system of a neuromodulation device having a bone conduction function, including the neuromodulation device, further including:

the signal interaction module is arranged in the nerve regulation and control equipment;

a terminal;

the signal interaction module is respectively in communication connection with the control unit and the terminal.

According to the technical scheme, the vibration generating component and the electric stimulation component are integrally arranged to form the nerve regulation and control equipment, and compared with a nerve regulation and control mode in the prior art, the nerve regulation and control equipment not only ensures the function of an electric stimulation regulation and control nerve system, but also realizes the function of audio transmission and play, so that a user can selectively listen to audio while carrying out nerve regulation and control, the functions of the nerve regulation and control equipment are enriched, and the experience of the user is improved. Meanwhile, in the embodiment of the utility model, the vibration generating component is arranged to realize the conduction playing of the audio, compared with the arrangement of the in-ear earphone in the nerve regulation and control equipment, the technical scheme of the embodiment of the utility model solves the problems that the in-ear earphone is easy to fall off and has poor sound transmission effect, and certain damage is caused to ears when the in-ear earphone is used for listening to the audio for a long time.

It should be understood that the description in this section is not intended to identify key or critical features of the embodiments of the utility model or to delineate the scope of the utility model. Other features of the present utility model will become apparent from the description that follows.

Drawings

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

Fig. 1 is a schematic structural view of a first nerve modulation device having a bone conduction function according to an embodiment of the present utility model;

fig. 2 is a schematic exploded view of a second nerve modulation device with bone conduction function according to an embodiment of the present utility model;

fig. 3 is a schematic wearing view of a first nerve modulation device with bone conduction function according to an embodiment of the present utility model;

fig. 4 is a schematic wearing view of a second nerve modulation device with bone conduction function according to an embodiment of the present utility model;

fig. 5 is a schematic structural view of a vibration generating member provided according to an embodiment of the present utility model;

fig. 6 is a schematic structural view of a first housing provided according to an embodiment of the present utility model;

FIG. 7 is a schematic view of a connector according to an embodiment of the present utility model;

fig. 8 is a schematic view showing a first partial structure of a second nerve modulation device having a bone conduction function according to an embodiment of the present utility model;

fig. 9 is a schematic view showing a second partial structure of a nerve modulation device having a bone conduction function according to an embodiment of the present utility model;

fig. 10 is a schematic view showing a first angle structure of a second nerve modulation device with bone conduction function according to an embodiment of the present utility model;

fig. 11 is a schematic view showing a second angle structure of a nerve modulation device having a bone conduction function according to an embodiment of the present utility model.

Detailed Description

In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present utility model and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein.

Fig. 1 is a schematic structural diagram of a first nerve modulation device with a bone conduction function according to an embodiment of the present utility model, and fig. 2 is an exploded structural diagram of a second nerve modulation device with a bone conduction function according to an embodiment of the present utility model, where the embodiment may be adapted to perform audio playback while performing electrical stimulation to modulate nerves to enhance the experience of a user, and in conjunction with the embodiment shown in fig. 1 and 2, the nerve modulation device with a bone conduction function provided by the embodiment of the present utility model includes:

the head-wearing device 1, the head-wearing device 1 comprising a clamping member 10, the clamping member 10 being adapted to contact the head of a user and apply a clamping force to the head of the user to maintain the position of the head-wearing device 1 relative to the head of the user in a use state;

a vibration generating member 2, the vibration generating member 2 being provided on the clip 10, the vibration generating member 2 being configured to transmit vibrations to bones corresponding to skin of a head region of a user to reach auditory nerves in a use state;

an electro-stimulation component 3, wherein in a use state, the electro-stimulation component 3 is used for outputting current to the skin of the head area of a user;

a control unit 4, wherein the control unit 4 is respectively connected with the vibration generating component 2 and the electric stimulation component 3 in a communication way; the control unit 4 controls the vibration generation of the vibration generating member 2; the control unit 4 controls the current output of the electro-stimulation component 3.

In the use state, the clamping piece 10 in the head wearing device 1 can be clamped and worn on the head of a user, so that the head can be acted by related parts for nerve regulation and control while the wearing effect is achieved, the clamping piece 10 can be symmetrically arranged relative to two sides of the head, and can also be asymmetrically arranged relative to two sides of the head, the embodiment of the utility model is not limited in this way, and the clamping piece 10 can play a role in clamping and wearing.

The vibration generating component 2 in the nerve control device utilizes the principle of vibration sound transmission, and the vibration generating component 2 converts sound into vibration with different frequencies and transmits the vibration to auditory nerves in the brain by taking bones of a human body as a medium so as to realize the function of sound transmission. In the embodiment of the utility model, the vibration generating component 2 is arranged on the clamping piece 10, so that when the clamping piece 10 contacts the head of a user and applies clamping force, the vibration generating component 2 can transmit vibration in bones corresponding to skin by using the clamping piece 10 to reach auditory nerves, and the sound conduction is realized. In the embodiment of the present utility model, at least one clamping member 10 needs to be provided with the vibration generating component 2, and the vibration generating components 2 may be disposed on each clamping member 10, which is not limited in the embodiment of the present utility model. In addition, the vibration generating component 2 in the embodiment of the present utility model may be a bone conduction speaker, the bone conduction speaker is disposed on the holder 10, and in the use state, the holder 10 contacts the skin of the head region of the user, and the control unit 4 controls the bone conduction speaker to transmit vibration into the bone corresponding to the skin of the head region to reach the auditory nerve.

Wherein, the electric stimulation component 3 in the nerve control device is used for transmitting current to the skin of the head area of the user so as to achieve the purpose of controlling the nervous system. The electrostimulation assembly 3 can be integrally arranged with the head-wearing device 1 or can be arranged independently of the head-wearing device 1, and the embodiment of the utility model is not limited to this, so that the electrostimulation assembly 3 can be ensured to transmit current to the skin of the head area. The electrical stimulation assembly 3 may include a battery 31, a wire harness 32 and a conductive carrier 33, wherein the wire harness 32 is electrically connected with the battery 31 and the conductive carrier 33, respectively, and is used for transmitting the current output from the battery 31 to the conductive carrier 33. The electrically conductive carrier 33 may act directly or indirectly on the skin surface to transmit electrical current to the head of the user. The conductive carrier 33 may be made of conductive materials such as metal materials and PU conductive materials. In the practical application process of using the conductive metal sheet as the conductive carrier 33, the conductive gel sheet 34 may be attached to the surface of the conductive metal sheet, so that the conductive gel sheet 34 contacts the skin of the head area of the user. The double sides of the conductive gel piece 34 are provided with the adhesiveness and can be detached on the conductive metal piece, so that a user can automatically replace the conductive gel piece 34 in the use process, the problem of poor adhesiveness of the conductive gel piece 34 after a certain use time is avoided, the problem of skin allergy caused by long-time current stimulation can be effectively avoided by directly contacting the conductive gel piece 34 with the skin, and the pricking sensation caused by the current acting on the skin is reduced during use.

Fig. 3 is a schematic wearing view of a first nerve modulation device with bone conduction function according to an embodiment of the present utility model, fig. 4 is a schematic wearing view of a second nerve modulation device with bone conduction function according to an embodiment of the present utility model, and in combination with fig. 1, 2, 3 and 4, in a use state, a user clamps the clamp 10 on the head wearer 1 on both sides of the head and makes the conductive carrier 33 in the electro-stimulation assembly 3 act on the skin of the corresponding head area, the control unit 4 controls the electro-stimulation assembly 3 to start an electro-stimulation operation mode, and the electro-stimulation assembly 3 transmits current to the skin of the corresponding head area; the control unit 4 controls the vibration generating part 2 in the holder 10 to transmit vibrations into bones corresponding to the skin of the head area where the holder 10 contacts to reach the auditory nerve to thereby achieve acoustic wave transmission. In the embodiment of the utility model, the control unit 4 can not only independently control the electric stimulation component 3 to realize the function of single electric stimulation, but also independently control the vibration generating component 2 to realize the function of single audio playing by sound wave transmission, and can also control the electric stimulation and the audio playing simultaneously by the control unit 4, and the working modes can be set according to the requirements of users.

Compared with the nerve regulation and control mode in the prior art, the nerve regulation and control equipment in the embodiment of the utility model not only ensures the function of regulating and controlling a nerve system by using electric stimulation, but also realizes the function of audio conduction and play, so that a user can selectively listen to audio or can also regulate and control the nerve in the process of listening to the audio while carrying out nerve regulation and control, the functions of the nerve regulation and control equipment are enriched, and the experience of the user is improved. Meanwhile, in the embodiment of the utility model, the vibration generating component is arranged to realize the conduction and playing of the audio, and compared with the arrangement of the in-ear earphone in the nerve regulation and control equipment, the technical scheme of the embodiment of the utility model solves the problems that the in-ear earphone is easy to fall off, the sound transmission effect is poor and the ear is damaged due to long-time wearing.

Optionally, the clip applies a force to the skin of the at least one lateral condyle map such that the at least one vibration-generating component may transmit vibrations through the condyle to reach the auditory nerve.

Wherein, in order to ensure the sound wave transmission effect of the vibration generating component, the vibration generating component can be acted on the bones corresponding to the condylar area to reach the auditory nerve in the cochlea. The corresponding clamping piece is required to ensure that clamping force is applied to the skin mapped by at least one side of the condyle, and the vibration generating component is arranged in the clamping piece for applying force to the skin in the condyle area, so that vibration is transmitted to bones corresponding to the condyle, the audio transmission playing effect is ensured, and the experience of a user is further improved.

Alternatively, fig. 5 is a schematic structural view of a vibration generating member provided according to an embodiment of the present utility model, and as shown in fig. 5, the vibration generating member 2 includes: a control assembly 21, a transduction assembly 22 and a vibration assembly 23;

the control component 21 is respectively in communication connection with the control unit 4 and the transduction component 22, and the control component 21 is used for outputting a control electric signal to the transduction component 22 according to a control signal of the control unit 4; the transducer assembly 22 is used for converting the control electrical signal into a mechanical vibration signal; the vibration assembly 23 is in communication with the transducer assembly 22, and the vibration assembly 23 is configured to receive a mechanical vibration signal and to transmit vibrations in response to the mechanical vibration signal.

Since the working principle of the vibration generating component 2 is vibration transmission, the vibration component 23 needs to be disposed in the vibration generating component 2, and when the vibration generating component is in use, the control unit 4 controls the control component 21 in the vibration generating component 2 to output a control electric signal and transmit the control electric signal to the transducer component 22, the transducer component 22 converts the control electric signal into a mechanical vibration signal and transmits the mechanical vibration signal to the vibration component 23, and the vibration component 23 transmits vibration to the bone corresponding to the skin of the head region of the user according to the mechanical vibration signal so as to reach the auditory nerve, so that the user receives sound. According to the technical scheme provided by the embodiment of the utility model, the working principle and the working process of the vibration generating component are defined by limiting the internal structure of the vibration generating component, so that the sound conduction function of the nerve regulating and controlling equipment is realized.

Optionally, as shown with continued reference to fig. 1 and 2, the electro-stimulation component 3 includes a first electrical transmission element 331 therein, the first electrical transmission element 331 being capable of simultaneously acting on at least a portion of the skin of the mastoid region on both sides of the head when in use.

The first electrical transmission element 331 may be disposed in such a manner that the wire harness 32 is connected to the conductive carrier 33, and in a use state, the user contacts the conductive carrier 33 with the skin of the mastoid region of the user to achieve the electrical stimulation of the skin of the mastoid region. The first electrical transmission element 331 may also be fixedly arranged on the head-mounted device 1. In the embodiment of the utility model, the first electric transmission element is arranged in the nerve regulation device, so that the first electric transmission element acts on the skin in the mastoid region, and the function of electric stimulation in the nerve regulation device is ensured.

Optionally, as shown in fig. 1 and 2, the electrical stimulation assembly 3 includes a second electrical transmission element 332, and in the use state, the second electrical transmission element 332 is capable of simultaneously acting on at least part of the skin of the forehead region;

the nerve regulation and control equipment comprises a channel selection circuit which is connected with the electric stimulation component 3;

wherein, in the use state, the control unit 4 controls the channel selection circuit to pair the first electric transmission element 331 and the second electric transmission element 332 so as to control the first electric transmission element 331 and/or the second electric transmission element 332 to output current to the head of the user.

The second electric transmission element 332 for transmitting electric current to the skin of the forehead area is added in the electric stimulation component 3, and meanwhile, a channel selection circuit is connected with the first electric transmission element 331 and the second electric transmission element 332, so that any two electric transmission elements are paired to form a channel loop.

Illustratively, the control unit 4 controls the channel selection circuit to select two first electrical transmission elements 331 to pair such that the electrical stimulation signals are both transmitted to the mastoid region skin; the control unit 4 controls the channel selection circuit to select the two second electrical transmission elements 332 for pairing, so that the electrical stimulation signals are transmitted to the skin of the forehead area. Alternatively, the control unit 4 controls the channel selection circuit to select one of the first electric transmission elements 331 and one of the second electric transmission elements 332 to pair so that the electric stimulation signal is transmitted to the forehead area skin and the mastoid area skin. Similar to the above, the electrostimulation scheme can realize the scheme of multiple configuration loops through the channel selection circuit, and the current can be diversified in the action direction of the head or in the optional action position, so that the electrostimulation scheme is effectively enriched, and the use effect is further improved.

On the basis of the above embodiments, the neuromodulation device in the embodiments of the present utility model may further be configured as follows:

optionally, with continued reference to fig. 2, the head-mounted device 1 includes a head holder;

the head holder has a U-shape in use, and the clip members 10 are respectively located on both flanks of the head holder.

Wherein, because the clamping member 10 has a clamping effect, the clamping member 10 is arranged on two lateral wings of the head holding member, so that the head holding member can be worn on the head of a user through the clamping member 10 when the head holding member is in a use state. The head holder may also be provided with a clamping function to further enhance the stability of head wear.

The head retainer is U-shaped on the head of the wearer, and the head retainer needs to be firmly worn on the head of the wearer and has an arc-shaped structure which is suitable for the radian of the head. Wherein the head holder and the vibration generating member 2 can be assembled by being connected as follows:

for example, fig. 6 is a schematic structural diagram of a first housing provided according to an embodiment of the present utility model, and referring to fig. 2 and 6, the head holder includes a first housing 1111 and a second housing 1112, the first housing 1111 is an injection molded part, and a soft rubber and a hard rubber are connected in a two-color mold, and a first rubber coating wall 1113 and a second rubber coating wall 1114 in the first housing 1111 may be made of soft rubber and have a hollow structure, and the first rubber coating wall 1113 and the second rubber coating wall 1114 correspond to a first cavity surface 1115 and a second cavity surface 1116; the first housing 1111 further includes a body 1117, and the body 1117 may be made of hard plastic.

Fig. 7 is a schematic structural view of a connector provided according to an embodiment of the present utility model, and as shown in fig. 7, the head-wearing device 1 further includes a connector 5, and the head holder and the clip 10 are connected by using the connector 5. The connecting member 5 may be made of a material having a certain elasticity, the connecting member 5 may be a structure with a large end and a small end, and the connecting member 5 is a hollow structure, and has a through hole 51, the small end is a first end surface 52, the first end surface 52 is an elliptical surface, and the large end includes a first fixing wall 53 and a second fixing wall 54.

Fig. 8 is a first partial structure diagram of a second nerve modulation device with bone conduction function according to an embodiment of the present utility model, fig. 9 is a second partial structure diagram of the second nerve modulation device with bone conduction function according to an embodiment of the present utility model, and as shown in connection with fig. 2, 7, 8 and 9, the vibration generating component 2 is connected to the control unit 4 by a wire harness, one end of which is connected to the control unit 4, and the other end of which passes through the first cavity surface 1115 and the through hole 51 of the connector 5 so as to be electrically connected to the control unit 21 in the vibration generating component 2 and fixed to the first clamping housing 101 of the clamping member 10, the first clamping housing 101 and the second clamping housing 102 form a cavity after being buckled, and the vibration generating component 2 is disposed in the cavity, and the vibration generating component 2 can be fixed to the first clamping housing 101 and the second clamping housing 102 by using the double-sided adhesive foam 24. The first end surface 52 of the connector 5 is inserted into the first cavity surface 1115 and fixed by gluing. Because the connecting piece 5 is made of elastic materials, after the first fixing wall 53 and the second fixing wall 54 recover to the shape due to elasticity, the first limiting wall 1011 and the second limiting wall 1012 on the first clamping housing 101 are clamped, and the positioning function is achieved.

According to the embodiment of the utility model, the head retainer is arranged in the shape of the approximate U, so that the nerve control equipment is stably worn, and the integrity of the nerve control equipment is ensured.

Optionally, with continued reference to fig. 2, the electro-stimulation component 3 includes a first electrical transmission element 331, where the first electrical transmission element 331 is provided with two first electrical transmission elements and is located at first relative positions of the head-mounted device 1, respectively, and in use, the first electrical transmission element 331 is capable of simultaneously acting on at least part of the skin of mastoid regions on both sides of the head.

The first electrical transmission element 331 may be disposed in such a manner that the wire harness 32 is connected to the conductive carrier 33, and in a use state, the user contacts the conductive carrier 33 with the skin of the mastoid region of the user to achieve the electrical stimulation of the skin of the mastoid region. In the embodiment of the utility model, the first electric transmission element 331 is arranged in the nerve control device, so that the first electric transmission element 331 acts on the skin of the mastoid region, and the function of electric stimulation in the nerve control device is ensured.

Alternatively, as shown in connection with fig. 2, 7, 8 and 9, the head-mounted device 1 comprises a mounting region in which the first electrical transmission element 331 is arranged.

Specifically, in the use state, the head-wearing device 1 is worn on the head of a user, and the first electric transmission element 331 is disposed in the assembly area of the head-wearing device 1 so that the first electric transmission element 331 transmits the electric current to the skin of the mastoid region, thereby achieving the purpose of nerve regulation.

The head-wearing device 1 may further include a fitting 12, where the fitting 12 is disposed at the end of the head holder, and the fitting 12 includes a first fitting housing 121 and a second fitting housing 122, and the first fitting housing 121 and the second fitting housing 122 form a cavity after being buckled, and the position of the cavity is the fitting area. In use, the head-mounted device 1 corresponding to the mounting area is positioned to at least partially contact the skin of the mastoid region, and the first electrical transmission element 331 is disposed in the mounting area to ensure that the first electrical transmission element 331 can output electrical current to the skin of the mastoid region.

The head holder and fitting 12 may be connected in the following manner: the head-wearing device also comprises a connecting piece 5, and the head-holding piece and the fitting 12 are connected by the connecting piece 5. During assembly, the first electrical transmission element 331 is electrically connected to the control unit 4 using a wire harness 32, the wire harness 32 is connected to the control unit 4, one end of the wire harness 32 remote from the control unit 4 is passed through the first cavity surface 1115 of the head holder and the through-hole 51 of the connector 5, and then the wire harness 32 is electrically connected to the first electrical transmission element 331. The first end surface 52 of the connector 5 is inserted into the first cavity surface 1115 and fixed by gluing. At the same time, the end of the connection member 5 is plugged into the fitting through hole of the first fitting housing 121. Because the connecting piece 5 is made of elastic materials, after the first fixing wall 53 and the second fixing wall 54 recover to the shape due to elasticity, the third limiting wall 1211 and the fourth limiting wall 1212 of the first assembly housing 121 clamp the first fixing wall 53 and the second fixing wall 54 of the connecting piece 5, so as to play a role in positioning.

In the embodiment of the utility model, the first electric transmission element is arranged in the assembly area by arranging the assembly area, so that the structure of the sleeping instrument is simplified, and the portability of the sleeping instrument is enhanced.

Alternatively, not shown in the figures, the assembly area is provided in the holder.

The first electric transmission element outputs current to the mastoid region skin at the corresponding position of the head region skin of the clamping piece, and the vibration generation component transmits vibration to the skeleton corresponding to the mastoid region skin, so that the structure of the head wearing device is simplified, and the head wearing device is convenient for a user to wear.

Optionally, fig. 10 is a schematic view of a first angle structure of a second nerve modulation device with bone conduction function according to an embodiment of the present utility model, and fig. 11 is a schematic view of a second angle structure of a second nerve modulation device with bone conduction function according to an embodiment of the present utility model, and referring to fig. 2, 10 and 11, the electrical stimulation assembly 3 includes second electrical transmission elements 332, where the second electrical transmission elements 332 are disposed at two positions and are respectively located at second relative positions of the head-mounted device 1, and in use, the second electrical transmission elements 332 can synchronously act on at least part of skin in the forehead area;

the nerve regulation and control equipment comprises a channel selection circuit which is connected with the electric stimulation component 3;

wherein, in the use state, the control unit 4 controls the channel selection circuit to pair the first electric transmission element 331 and the second electric transmission element 332 so as to control the first electric transmission element 331 and/or the second electric transmission element 332 to output current to the head of the user.

The second electric transmission element 332 for transmitting electric current to the skin of the forehead area is added in the electric stimulation component 3, and meanwhile, a channel selection circuit is connected with the first electric transmission element 331 and the second electric transmission element 332, so that any two electric transmission elements are paired to form a channel loop.

By way of example, the mode of operation of electrical stimulation may be as follows: the control unit 4 controls the channel selection circuit to select the two first electric transmission elements 331 to pair so that the electric stimulation signals are transmitted to the skin of the mastoid region; the control unit 4 controls the channel selection circuit to select the two second electrical transmission elements 332 for pairing, so that the electrical stimulation signals are transmitted to the skin of the forehead area. Alternatively, the control unit 4 controls the channel selection circuit to select one of the first electric transmission elements 331 and one of the second electric transmission elements 332 to pair so that the electric stimulation signal is transmitted to the forehead area skin and the mastoid area skin. Similar to the above, the electrostimulation scheme can realize the scheme of multiple configuration loops through the channel selection circuit, and the current can be diversified in the action direction of the head or in the optional action position, so that the electrostimulation scheme is effectively enriched, and the use effect is further improved.

Alternatively, with continued reference to fig. 2, 10 and 11, the head holder has a chamber in which the control unit 4 and the channel selection circuit are disposed.

Wherein a chamber is provided in the head holder, and a channel selection circuit and a control unit 4 are provided in the chamber, maintaining the integrity of the sleep apparatus. The specific setting mode is as follows: the head holder includes a first housing 1111 and a second housing 1112 therein, and the first housing 1111 and the second housing 1112 may be snapped together to form a chamber. According to the embodiment of the utility model, the channel selection circuit and the control unit are arranged in the cavity, so that the sleeping instrument is stronger in integrity and simple and convenient to install.

Alternatively, with continued reference to fig. 2, 10 and 11, the head holder includes:

the shell is positioned in front of the forehead of a user when in a use state, and the cavity is formed in the shell;

the casing has an inner sidewall facing the forehead of the user in use, and the second electrical transmission element 332 is disposed on the inner sidewall.

The housing may be composed of a first housing 1111 and a second housing 1112, the first housing 1111 and the second housing 1112 may be buckled to form a cavity, the second housing 1112 may include an inner sidewall far away from the first housing 1111, the second electric transmission element 332 is disposed on the inner sidewall, and when the wearing state is in a wearing state, the second electric transmission element 332 transmits current to the forehead area skin or performs electroencephalogram signal acquisition.

For example, a switch button 17 may be further disposed in the chamber, and the switch button 17 is communicatively connected to the control unit 4, for controlling the working state of the nerve control device. Through setting up the casing in the place ahead of user's forehead to set up second electricity and send the electrical component on the inside wall of casing, make the head wear the ware and still can be simultaneously to the collection of forehead area skin output current or brain signal when head is firmly worn, promoted the wholeness of sleep appearance.

According to the technical scheme, the vibration generating component and the electric stimulation component are integrally arranged to form the nerve regulation and control equipment, and compared with a nerve regulation and control mode in the prior art, the nerve regulation and control equipment in the embodiment of the utility model ensures the functions of an electric stimulation regulation and control nerve system and realizes the function of audio conduction and play, so that a user can selectively listen to audio while carrying out nerve regulation and control, the functions of the nerve regulation and control equipment are enriched, and the experience of the user is improved. Meanwhile, in the embodiment of the utility model, the vibration generating component is arranged to realize the conduction playing of the audio, compared with the arrangement of the in-ear earphone in the nerve regulation and control equipment, the technical scheme of the embodiment of the utility model solves the problems that the in-ear earphone is easy to fall off and has poor sound transmission effect, and certain damage is caused to ears when the in-ear earphone is used for listening to the audio for a long time.

Based on the same inventive concept, the embodiments of the present utility model further provide a system of a neuromodulation device having a bone conduction function, including the neuromodulation device, further including:

the signal interaction module is arranged in the nerve regulation and control equipment;

a terminal;

the signal interaction module is respectively in communication connection with the control unit and the terminal.

The signal interaction module is used for carrying out signal interaction with the terminal, and can be connected with the terminal in a wired mode or in a wireless mode. The signal interaction module can send information such as a working mode, a working state, a working time length and the like to the terminal; the terminal can transmit control requirement information to the signal interaction module, the signal receiving and transmitting unit transmits the control requirement information to the control unit, and the control unit further controls the working state. The signal interaction module can be integrated with the control unit and arranged in the nerve regulation and control equipment, the signal interaction module is in communication connection with the control unit, the terminal can be independent of the nerve regulation and control equipment, the signal interaction module and the terminal perform information interaction, and not only can electric stimulation be regulated and controlled, but also the vibration generation component can be controlled to generate vibration and transmit the vibration to the auditory nerve of a user. Through set up the signal interaction module in nerve regulation and control equipment for terminal and signal interaction module carry out information interaction, accurately satisfy the user demand, further promote neurotransmitter regulation and control's effect.

According to the technical scheme, the vibration generating component and the electric stimulation component are integrally arranged to form the nerve regulation and control equipment, and compared with a nerve regulation and control mode in the prior art, the nerve regulation and control equipment in the embodiment of the utility model ensures the functions of an electric stimulation regulation and control nerve system and realizes the function of audio conduction and play, so that a user can selectively listen to audio while carrying out nerve regulation and control, the functions of the nerve regulation and control equipment are enriched, and the experience of the user is improved. Meanwhile, in the embodiment of the utility model, the vibration generating component is arranged to realize the conduction playing of the audio, compared with the arrangement of the in-ear earphone in the nerve regulation and control equipment, the technical scheme of the embodiment of the utility model solves the problems that the in-ear earphone is easy to fall off and has poor sound transmission effect, and certain damage is caused to ears when the in-ear earphone is used for listening to the audio for a long time.

The above embodiments do not limit the scope of the present utility model. It will be apparent to those skilled in the art that various modifications, combinations, sub-combinations and alternatives are possible, depending on design requirements and other factors. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included in the scope of the present utility model.

Claims (13)

1. A neuromodulation device having osteoconductive function, comprising:

a head-mounted device comprising a clip for contacting the head of a user and applying a clip force to the head of the user to maintain the position of the head-mounted device relative to the head of the user in a use state;

a vibration generating member provided on the clip, the vibration generating member being for transmitting vibration to a bone corresponding to skin of a head region of a user to reach an auditory nerve in a use state;

an electro-stimulation component for outputting an electrical current to the skin of the head area of the user in a use state;

the control unit is respectively in communication connection with the vibration generating component and the electric stimulation component; the control unit controls the vibration generation of the vibration generating part; the control unit controls the current output of the electrical stimulation assembly.

2. The neuromodulation device as in claim 1, wherein the clip applies a force to the skin of the at least one lateral condyle map such that at least one of the vibration generating components can transmit vibrations through the condyle to reach the auditory nerve.

3. The nerve modulation device having a bone conduction function according to claim 1, wherein the vibration generating section includes: a control assembly, a transduction assembly and a vibration assembly;

the control component is respectively in communication connection with the control unit and the transduction component, and is used for outputting control electric signals to the transduction component according to control signals of the control unit; the transduction assembly is used for converting the control electric signal into a mechanical vibration signal; the vibration component is in communication connection with the transduction component and is used for receiving the mechanical vibration signal and transmitting vibration according to the mechanical vibration signal.

4. The neuromodulation device as in claim 1, wherein the electrical stimulation assembly includes a first electrical transmission element therein, the first electrical transmission element being capable of simultaneously acting on at least a portion of the skin of the mastoid region on both sides of the head when in use.

5. The neuromodulation device as in claim 4, wherein the electrical stimulation assembly includes a second electrical transmission element, the second electrical transmission element being capable of simultaneously acting on at least a portion of the skin of the forehead region when in use;

the nerve regulation and control equipment comprises a channel selection circuit, wherein the channel selection circuit is connected with the electric stimulation component;

wherein, in the use state, the control unit controls the channel selection circuit to pair the first electric transmission element and the second electric transmission element so as to realize that the first electric transmission element or/and the second electric transmission element outputs current to the head of a user.

6. The neuromodulation device as in claim 1, wherein the head wearer comprises a head holder;

the head holder is U-shaped in use, and the clamping pieces are respectively positioned on two lateral wings of the head holder.

7. The neuromodulation device as in claim 6, wherein the electrical stimulation assembly includes a first electrical transmission element therein, the first electrical transmission element being provided in two and each being located in a first relative position of the head-mounted device, the first electrical transmission element being capable of simultaneously acting on at least a portion of the skin of the mastoid region on both sides of the head when in use.

8. The neuromodulation device as in any of claims 4 or 7, wherein the head-mounted device comprises a mounting region in which the first electrical transmission element is disposed.

9. The neuromodulation device as in claim 8, wherein the mounting region is disposed in the clip.

10. The neuromodulation device as in claim 7, wherein the electrical stimulation assembly includes a second electrical transmission element therein, the second electrical transmission element being provided in two and each being located at a second relative position of the head wearer, the second electrical transmission element being capable of simultaneously acting on at least a portion of the skin of the forehead region in use;

the nerve regulation and control equipment comprises a channel selection circuit, wherein the channel selection circuit is connected with the electric stimulation component;

wherein, in a use state, the control unit controls the channel selection circuit to pair the first electric transmission element and the second electric transmission element so as to control the first electric transmission element or/and the second electric transmission element to output current to the head of a user.

11. The neuromodulation device as in claim 10, wherein the head holder has a chamber, and the control unit and the channel selection circuit are disposed within the chamber.

12. The nerve modulation device having bone conduction function according to claim 11, wherein the head holder includes:

the shell is positioned in front of the forehead of a user when in a use state, and the cavity is formed in the shell;

the shell is provided with an inner side wall facing the forehead of a user in a use state, and the second electric transmission element is arranged on the inner side wall.

13. A neuromodulation system having osteoconductive function, comprising the neuromodulation device of any of claims 1-12, further comprising:

the signal interaction module is arranged in the nerve regulation and control equipment;

a terminal;

the signal interaction module is respectively in communication connection with the control unit and the terminal.