CN219558486U - Throat physiotherapy equipment - Google Patents

Abstract

The utility model relates to the field of throat physiotherapy equipment, and provides a throat physiotherapy instrument which comprises a shell, a wearing part, an electric control unit, a battery, a first electrode and a second electrode, wherein the first electrode and the second electrode are used for being attached to a throat part of a human body, two ends of the shell along a first direction are respectively connected with the wearing part, the wearing part and the shell are combined into a ring shape and are used for surrounding the periphery of the neck of the human body, the first electrode and the second electrode are both arranged on the outer surface of the shell and are positioned at the inner side of the ring of the shell, the first electrode and the second electrode are distributed at intervals along the first direction, the electric control unit and the battery are both arranged in an inner cavity of the shell, and the first electrode and the second electrode are electrically connected with the electric control unit, and the battery is used for supplying power for the electric control unit. The utility model can continuously carry out physical therapy on the throat part of the user under the condition of not affecting the normal work and life of the user, and is beneficial to continuously relieving uncomfortable symptoms such as itching, pain and the like of the throat part of the user during the period of throat inflammation and cough of the user.

Description

Throat physiotherapy equipment

Technical Field

The utility model relates to the field of throat physiotherapy equipment, in particular to a throat physiotherapy instrument.

Background

The throat part of the human body often has uncomfortable symptoms such as itching and pain during inflammation, cough and the like, once the throat is inflamed, the throat lasts for a long time, and once the cough and the like start, the cough and the like frequently occur in a period of time, so that the throat often has uncomfortable symptoms such as itching and pain in a period of time, and the normal work and life are easily affected by the long-time itching, pain and the like.

In this regard, some prior art uses electrical stimulation to relieve itching and pain in the throat area and to some extent achieve the effect of treating inflammation and reducing cough.

In addition, the prior art considers the use requirement under the hospital scene, the electrode generating the electric stimulation is independently adhered to the throat part of the human body and is connected to the external large-size control host computer through the lead, however, the special time is required to be arranged to a special place by the user to carry out the throat physiotherapy, so that great inconvenience is caused to the user, and uncomfortable symptoms such as itching, pain and the like are unavoidable at the throat part during the period of not carrying out the physiotherapy, so that the throat discomfort is relieved continuously/the throat lesions are treated continuously for the user.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a throat physiotherapy instrument which is convenient to wear continuously at any time and any place.

The utility model provides a throat physiotherapy instrument which comprises a shell, a wearing part, an electric control unit, a battery, a first electrode and a second electrode, wherein the first electrode and the second electrode are used for being attached to the throat part of a human body, two ends of the shell along a first direction are respectively connected with the wearing part, the wearing part and the shell are combined into a ring shape and are used for surrounding the periphery of the neck of the human body, the first electrode and the second electrode are both arranged on the outer surface of the shell and are positioned at the inner side of the ring of the shell, the first electrode and the second electrode are distributed at intervals along the first direction, the electric control unit and the battery are both arranged in an inner cavity of the shell, the first electrode and the second electrode are both electrically connected with the electric control unit, and the battery is used for supplying power to the electric control unit.

Therefore, the utility model adopts the ring body which is formed by combining the wearing and the shell and is used for surrounding the periphery of the neck of a human body, and the electric control unit, the battery, the first electrode and the second electrode are all arranged on the shell, so that the wearing of the throat physiotherapy instrument has small influence on normal work and life, a user can wear the throat physiotherapy instrument to carry out throat physiotherapy at any time and any place, and does not need to arrange special time to carry out throat physiotherapy at special places, so that the user can continuously carry out throat physiotherapy in the period of throat inflammation and cough without influencing normal work and life, and the utility model is beneficial to continuously relieving uncomfortable symptoms such as itching, pain and the like of the throat part of the user.

In addition, the first electrode and the second electrode are both positioned at the inner side of the ring of the shell, so that when the throat physiotherapy instrument is worn on the periphery of the neck of a human body, the first electrode and the second electrode can be shielded by the shell, and the throat physiotherapy instrument is beneficial to simplifying the external structure.

In a preferred embodiment, the wearing comprises a first elastic band and a second elastic band, wherein the first elastic band and the second elastic band are respectively connected to two ends of the shell along the first direction and are respectively used for surrounding two sides of the neck of the human body, and the first elastic band and the second elastic band are bent towards each other under the action of respective elastic forces at one ends far away from the shell.

Therefore, the throat physiotherapy instrument provided by the utility model can surround the periphery of the human neck through the self elastic action of the first elastic band and the second elastic band and keep extruding the periphery of the human neck, so that the wearing comfort of the throat physiotherapy instrument is improved, the throat physiotherapy instrument is prevented from loosening and shaking relative to the human body in the wearing process, the wearing process does not need to carry out tying operation, and the wearing operation difficulty of the throat physiotherapy instrument is reduced.

The first elastic band is a snap ring, can be naturally kept in a straightened state, and can automatically return to a curled state under the action of self elastic force after being broken by external force.

The second elastic band is a snap ring, can be naturally kept in a straightened state, and can automatically return to a curled state under the action of self elastic force after being broken by external force.

From the above, the method is further beneficial to the convenience and simplicity in operation of wearing the throat physiotherapy instrument by a user.

In a further aspect, when the first elastic band and the second elastic band are in the straightened state, a distance between the first elastic band and the second elastic band at an end far from the housing is greater than a distance between the first elastic band and the second elastic band at an end near to the housing.

Further, the first elastic band and the second elastic band comprise elastic memory metal bands and soft encapsulation covering the surfaces of the corresponding elastic memory metal bands.

Another preferable proposal is that the wearing is a flexible belt, and the wearing is connected with a length adjusting buckle.

In a further preferred embodiment, the surface of the first electrode has a first conductive gel and the surface of the second electrode has a second conductive gel.

Further, the first electrode is provided with a first hard substrate, and the first conductive gel covers the surface of the first hard substrate; the second electrode is provided with a second hard substrate, and the second conductive gel covers the surface of the second hard substrate.

Still another preferred embodiment is that the first electrode and the second electrode are spaced apart by 1 cm to 3 cm.

In a further preferred embodiment, the first electrode is rotatable relative to the housing and the second electrode is rotatable relative to the housing.

Therefore, the utility model is beneficial to adapting to the conditions of different degrees of the protrusion of different people at the throat part, and ensures that the first electrode and the second electrode can be well attached to the throat part of the human body when the throat physiotherapy instrument is worn on different human bodies.

The further scheme is that the portable electronic device further comprises first conductive connecting seats and second conductive connecting seats which are distributed at intervals along the first direction, the first conductive connecting seats and the second conductive connecting seats are respectively and rotatably connected with the shell, the first conductive connecting seats are detachably connected with the first electrodes through buckles, the second conductive connecting seats are detachably connected with the second electrodes through buckles, the first electrodes are electrically connected with the electronic control unit through the first conductive connecting seats, and the second electrodes are electrically connected with the electronic control unit through the second conductive connecting seats.

The electronic control unit comprises a shell, a first electrode, a first conductive connecting seat, a first electrode, a first conductive convex part, a second electrode, a first conductive concave part, a second conductive convex part, a first conductive concave part and a second conductive concave part, wherein the inner side wall of the shell is fixedly provided with the first conductive connecting seat which is electrically connected with the electronic control unit, one of the first electrode and the first conductive connecting seat is provided with a columnar or spherical first conductive convex part, the other one of the first electrode and the first conductive connecting seat is provided with the first conductive concave part which is matched with the first conductive convex part, the first conductive convex part is detachably connected with the first conductive concave part in a buckling mode, and the first conductive convex part is rotatable relative to the first conductive concave part.

The electronic control unit is characterized in that a second conductive connecting seat electrically connected with the electronic control unit is fixedly arranged on the inner side wall of the ring of the shell, one of the second electrode and the second conductive connecting seat is provided with a columnar or spherical second conductive convex part, the other is provided with a second conductive concave part matched with the second conductive convex part, the second conductive convex part is detachably buckled with the second conductive concave part, and the second conductive convex part can rotate relative to the second conductive concave part.

The shell is provided with a ring-shaped groove which is arranged between the first electrode and the second electrode and is recessed towards the outer side of the ring, the groove penetrates through the shell along a third direction, the first electrode can rotate into the groove, the second electrode can rotate into the groove, and the first direction, the second direction and the third direction are mutually perpendicular.

Therefore, the orientation of the first electrode/the second electrode can better adapt to the forward protruding characteristic of the human throat part, the first electrode/the second electrode can be matched with the human throat part, the first electrode/the second electrode can be well attached to the human throat part, and the wearing comfort of the throat physiotherapy instrument can be improved.

The electric control unit comprises an MCU single chip microcomputer, an energy storage boosting circuit, an H-bridge discharging circuit and a wireless transceiver connected with the MCU single chip microcomputer, wherein the MCU single chip microcomputer is respectively and electrically connected with the energy storage boosting circuit and the H-bridge discharging circuit, the battery, the energy storage boosting circuit and the H-bridge discharging circuit are sequentially and electrically connected, and the H-bridge discharging circuit is respectively and electrically connected with the first electrode and the second electrode.

Drawings

Fig. 1 is a perspective view of an embodiment of the throat physiotherapy apparatus of the present utility model when worn around the periphery of a human neck.

Fig. 2 is a perspective view of the throat physiotherapy apparatus according to the embodiment of the present utility model, which is worn on the outer circumference of the human neck and conceals the human neck.

Fig. 3 is a perspective view of an embodiment of the throat physiotherapy apparatus of the present utility model when the first elastic band and the second elastic band are in a straightened configuration.

Fig. 4 is a partially exploded view of a throat physiotherapy instrument embodiment of the present utility model.

Fig. 5 is an electrical schematic diagram of an embodiment of the throat physiotherapy apparatus of the present utility model.

Fig. 6 is a perspective view of another embodiment of the throat physiotherapy apparatus according to the present utility model, which is worn around the neck of a person and conceals the neck of the person.

Detailed Description

Fig. 1 to 4 of the present embodiment use a unified space rectangular coordinate system (right-hand system) to identify the relative azimuth relationship between the parts, wherein the X-axis direction is the first direction, the Y-axis direction is the second direction, and the Z-axis direction is the third direction.

Referring to fig. 1 to 6, the throat physiotherapy apparatus of the present embodiment includes a housing 1, an electric control unit 2, a battery 3, a first elastic band 4, a second elastic band 5 (the combination of the first elastic band 4 and the second elastic band 5 forms an example of wearing), a first conductive connecting seat 6, a second conductive connecting seat 7, and a first electrode 8 and a second electrode 9 for fitting with the throat of a human body, wherein the electric control unit 2 and the battery 3 are both installed in an inner cavity of the housing 1, the first electrode 8 is installed on the housing 1 through the first conductive connecting seat 6, the second electrode 9 is installed on the housing 1 through the second conductive connecting seat 7, the first electrode 8 and the second electrode 9 are both located on the positive Y-axis side of the housing 1, the negative Y-axis end of the first elastic band 4 is fixedly connected to the negative Y-axis end of the housing 1, the positive Y-axis end of the second elastic band 5 is fixedly connected to the positive Y-axis end of the housing 1, the positive Y-axis end of the first elastic band 4 and the positive Y-axis end of the second elastic band 5 are bent towards each other under the respective elastic forces and the positive Y-axis ends of the second elastic band 5 to overlap each other, and the first elastic band 4 and the second elastic band 5 form a ring-shaped neck structure around the outer periphery of the housing 1; when the throat physiotherapy instrument of the embodiment is worn on a human body, the Y-axis positive side of the shell 1 is opposite to the throat part of the human body, the second elastic band 5 extends from the X-axis positive end of the shell 1 to the X-axis positive side of the human neck and is bent towards the X-axis negative direction under the action of self elastic force, the Y-axis positive end of the second elastic band 5 is lapped on the Y-axis positive side (the rear side of the neck) of the human neck, the first elastic band 4 extends from the X-axis negative end of the shell 1 to the X-axis negative side of the human neck and is bent towards the X-axis positive direction under the action of self elastic force, and the Y-axis positive end of the first elastic band 4 is lapped on the Y-axis positive end of the second elastic band 5, so that the throat physiotherapy instrument of the embodiment surrounds the human neck, the throat physiotherapy instrument of the embodiment is worn by a user, and the first electrode 8 and the second electrode 9 are extruded on the throat part of the human body under the elastic force of the first elastic band 4 and the second elastic band 5. The throat physiotherapy instrument of the embodiment can be integrally surrounded outside the neck of a human body Zhou Peidai, so that a user can not influence normal work and life in a state of wearing the throat physiotherapy instrument, and can continuously carry out throat physiotherapy along with the user in daily work and life without arranging special time to a special place, thereby being beneficial to continuously relieving discomfort of the throat for the user, continuously treating throat lesions, and the first electrode 8 and the second electrode 9 of the embodiment are both positioned on the Y-axis forward side (the inner side) of the shell 1, so that when the throat physiotherapy instrument of the embodiment is worn on the periphery of the neck of the human body, the first electrode 8 and the second electrode 9 can be shielded by the shell 1, and the external structure of the embodiment is beneficial to be concise; in addition, the throat physiotherapy instrument of this embodiment surrounds in human neck periphery and keeps the extrusion to human neck periphery under the self elasticity effect of first elastic band 4 and second elastic band 5, is favorable to promoting the wearing travelling comfort of throat physiotherapy instrument of this embodiment, avoids this embodiment to loosen and rock at wearing the in-process relative human body, owing to need not to carry out the operation of tying in addition, consequently is favorable to reducing the wearing degree of difficulty of throat physiotherapy instrument of this embodiment.

Specifically, the first elastic band 4 and the second elastic band 5 each include an elastic memory steel band (an example of an elastic memory metal band) and soft silica gel covering the outer surface of the corresponding elastic memory steel band, and the first elastic band 4 and the second elastic band 5 are each maintained in a curled shape toward each other in a natural state; when a user wears the throat physiotherapy instrument of the embodiment, the throat physiotherapy instrument is moved to the front side of the throat part of the human body, the Y-axis positive side of the shell 1 is adjusted to be opposite to the throat part of the human body, the Y-axis positive end of the first elastic band 4 and the Y-axis positive end of the second elastic band 5 are kept in a state of being mutually opened, then the throat physiotherapy instrument is moved in the Y-axis positive direction, the neck part of the human body passes through an opening formed between the first elastic band 4 and the second elastic band 5 at the Y-axis positive end, the first elastic band 4 and the second elastic band 5 extend to the left side and the right side of the neck of the human body respectively until the first electrode 8 and the second electrode 9 are attached to the throat part of the human body, and finally the first elastic band 4 and the second elastic band 5 are loosened, so that the first elastic band 4 and the second elastic band 5 can surround the neck of the human body under the respective elastic forces; alternatively, in other embodiments of the present utility model, the Y-axis positive end of the first elastic band 4 and the Y-axis positive end of the second elastic band 5 may be staggered in the Z-axis direction, so that the Y-axis positive end of the first elastic band 4 and the Y-axis positive end of the second elastic band 5 are distributed along the Z-axis direction and overlap the back side of the neck of the human body, respectively.

Preferably, the first elastic band 4 and the second elastic band 5 have a curled shape, and can naturally maintain a straightened shape, and in the straightened shape, the first elastic band 4 and the second elastic band 5 can automatically return to the curled shape under the action of elasticity of the first elastic band 4 and the second elastic band 5 after being broken by external force, and in the straightened shape, the first elastic band 4 and the second elastic band 5 are opened to each other at the positive end of the Y axis, specifically, the first elastic band 4 and the second elastic band 5 are all snap rings; when a user executes wearing operation of the throat physiotherapy instrument, the first elastic band 4 and the second elastic band 5 are adjusted to be in a straightened state, then the first elastic band 4 and the second elastic band 5 are respectively moved to the left side and the right side of the human neck along the Y axis in a positive direction, the first electrode 8 and the second electrode 9 are attached to the throat part of the human body, finally the balance of the first elastic band 4 and the second elastic band 5 in the straightened state is destroyed by external force disturbance, and the first elastic band 4 and the second elastic band 5 are deformed to be in a curled state under the action of respective elastic forces until the first elastic band 4 and the second elastic band 5 are wound on the neck of the human body; because the first elastic band 4 and the second elastic band 5 can be naturally kept in the stretched state, the Y-axis positive end of the first elastic band 4 and the Y-axis positive end of the second elastic band 5 can be naturally kept in the stretched state without continuous external force (if the first elastic band 4 and the second elastic band 5 cannot be naturally kept in the stretched state, continuous external force needs to be applied to force the first elastic band 4 and the second elastic band 5 to be kept in the stretched state, which results in the increase of wearing difficulty of the throat physiotherapy instrument), and the operation of wearing the throat physiotherapy instrument of the embodiment by a user is further facilitated.

More preferably, the distance between the first elastic band 4 and the second elastic band 5 at the negative end of the Y axis is smaller than the distance at the positive end of the Y axis; thus, the neck part of the human body can be ensured to smoothly pass through the opening between the first elastic band 4 and the second elastic band 5, and the wearing operation of the throat physiotherapy instrument can be ensured to be smooth.

Preferably, the surface of the first electrode 8 is provided with a first conductive gel and the surface of the second electrode 9 is provided with a second conductive gel, which is advantageous in ensuring that the first electrode 8/second electrode 9 is well conductive to the throat area.

The battery 3 supplies power to the electric control unit 2, the electric control unit 2 is electrically connected with the first electrode 8 through the first conductive connecting seat 6 and is electrically connected with the second electrode 9 through the second conductive connecting seat 7, please refer to fig. 4, the first electrode 8 is detachably electrically connected to the Y-axis forward end of the first conductive connecting seat 6 through the first conductive buckle, and the second electrode 9 is detachably electrically connected to the Y-axis forward end of the second conductive connecting seat 7 through the second conductive buckle. This facilitates removal and repair/replacement of the first electrode 8 and the second electrode 9, especially when the surfaces of the first electrode 8 and the second electrode 9 are provided with conductive gel.

Specifically, the first conductive buckle includes a first male connector 801 located at a negative Y-axis end of the first electrode 8, and a first female connector 601 located at a positive Y-axis end of the first conductive connecting seat 6, the first male connector 801 and the first female connector 601 are both made of metal, and the first male connector 801 is adapted to the first female connector 601; the second conductive buckle includes a second male connector 901 located at the negative end of the Y axis of the second electrode 9 and a second female connector located at the positive end of the Y axis of the second conductive connecting seat 7, where the cooperation between the second male connector 901 and the second female connector can be set with reference to the cooperation between the first male connector 801 and the first female connector 601, which is not described herein.

Specifically, referring to fig. 4, two through holes 102 are formed in the wall of the positive Y-axis side of the housing 1 and are distributed at intervals along the X-axis direction, and the first conductive connecting seat 6 and the second conductive connecting seat 7 are both installed in the inner cavity of the housing 1 and extend from the two through holes to the positive Y-axis side of the housing 1 respectively; preferably, a first rotating shaft 602 is fixedly arranged at the negative Y-axis end of the first conductive connecting seat 6, a second rotating shaft 702 is fixedly arranged at the negative Y-axis end of the second conductive connecting seat 7, a first supporting portion 103 and a second supporting portion 104 are fixedly arranged on the shell 1 respectively, the first rotating shaft 602 and the first supporting portion 103 are in rotatable fit connection, the second rotating shaft 702 and the second supporting portion 104 are in rotatable fit connection, the axes of the first rotating shaft 602 and the second rotating shaft 702 are all along the Z-axis direction, the first conductive connecting seat 6 and the second conductive connecting seat 7 are distributed at intervals along the X-axis direction, the first electrode 8 and the second electrode 9 are distributed at intervals along the X-axis direction, and the interval between the first electrode 8 and the second electrode 9 is 1 cm. This facilitates the rotation of the first electrode 8 and the second electrode 9 to adapt to the shape of the throat part of the human body by the rotation of the first conductive connecting seat 6/the second conductive connecting seat 7; alternatively, in other embodiments of the present utility model, the first conductive connection base 6 and the housing 1 may be provided with a spherical hinge connection, and similarly, the second conductive connection base 7 and the housing 1 may be provided with a spherical hinge connection, and the space between the first electrode 8 and the second electrode 9 may be provided with 2 cm or 3 cm, or the like.

More preferably, the housing 1 is formed with a relief groove 101 recessed toward the negative Y-axis side between the first electrode 8 and the second electrode 9, the relief groove 101 penetrates the housing 1 in the Z-axis direction, the first electrode 8 is rotatable into the relief groove 101, and the second electrode 9 is rotatable into the relief groove 101. Thus, the electrode is more favorable for adapting to the characteristic that the forward direction (the negative direction of the Y axis) of the human throat part protrudes, the first electrode 8/the second electrode 9 is more favorable for ensuring the adaptation of the first electrode/the second electrode to the human throat part, and the wearing comfort of the throat physiotherapy instrument of the embodiment is favorable for improving.

Alternatively, in other embodiments of the present utility model, the first conductive connecting seat 6 and the second conductive connecting seat 7 may be fixedly connected to the housing 1, respectively, and the first electrode 8 and the first conductive connecting seat 6 may be rotatably connected, and the second electrode 9 and the second conductive connecting seat 7 may be rotatably connected, specifically, for example, one of the first electrode 8 and the first conductive connecting seat 6 is provided with a columnar or spherical first conductive convex portion, and the other is provided with a first conductive concave portion matched with the first conductive convex portion, and the first conductive convex portion and the first conductive concave portion are detachably connected in a snap manner, and the first conductive convex portion is rotatable relative to the first conductive concave portion; and one of the second electrode 9 and the second conductive connecting seat 7 is provided with a columnar or spherical second conductive convex part, the other is provided with a second conductive concave part matched with the second conductive convex part, the second conductive convex part is detachably buckled with the second conductive concave part, and the second conductive convex part can rotate relative to the second conductive concave part. This also achieves the object of rotatably mounting the first electrode 8 and the second electrode 9 to the housing 1.

Alternatively, in other embodiments of the present utility model, the first electrode 8 may be fixed to the housing 1 through the first conductive connecting seat 6, the second electrode 9 may be fixed to the housing 1 through the second conductive 7 connecting seat, and the first electrode 8 and the second electrode 9 may be soft electrodes, so that the first electrode 8 and the second electrode 9 deform to adapt to the throat part of the human body. Of course, the present embodiment is also preferably adopted to set the first electrode 8 and the second electrode 9 to be rotatable relative to the housing 1, which is beneficial to not only ensuring that the first electrode 8 and the second electrode 9 are both adapted to the throat part of the human body, but also avoiding that the first electrode 8 and the second electrode 9 form local pulling or local loosening to the throat part of the human body due to distortion, avoiding discomfort of the throat part of the human body and avoiding that the first electrode 8 and the second electrode 9 are separated from the throat part of the human body.

More preferably, the first electrode 8 has a first hard substrate, the first conductive gel covers the surface of the first hard substrate, the second electrode 9 has a second hard substrate, and the second conductive gel covers the surface of the second hard substrate; the shape of the human throat part is adapted through the rotation of the first hard substrate and the second hard substrate, and the first electrode 8 and the second electrode 9 are well connected with the human throat part in a conductive way through the first conductive gel and the second conductive gel, so that the first electrode 8 and the second electrode 9 are uniformly stressed on the human throat part, and the wearing comfort is improved.

Alternatively, referring to fig. 6, in other embodiments of the present utility model, a flexible belt 12 '(another wearing example) may be used instead of the first elastic belt 4 and the second elastic belt 5 of the present embodiment, and the combination of the flexible belt 12' and the housing 1 'is endless, preferably, the flexible belt 12' is connected with a length adjusting buckle 13 'so as to adjust the length of the flexible belt 12' according to the use requirement.

Specifically, an operation key 11 and an indicator lamp 10 are arranged on the shell 1, the operation key 11 and the indicator lamp 10 are electrically connected with the electric control unit 2, a user inputs instructions to the electric control unit 2 through the operation key 11, and then the electric control unit 2 controls the first electrode 8 and the second electrode 9 to perform electric stimulation physiotherapy on the throat part of the human body; the indicator light is used for indicating the working state of the throat physiotherapy instrument.

Referring to fig. 5, the electronic control unit 2 includes an MCU singlechip 201, an energy storage boost circuit 202, an H-bridge discharge circuit 203, and a wireless transceiver 204, wherein the MCU singlechip 201 is electrically connected with the energy storage boost circuit 202, the H-bridge discharge circuit 203, the operation key 11, the indicator lamp 10, and the wireless transceiver 204, the battery 3, the energy storage boost circuit 202, and the H-bridge discharge circuit 203 are electrically connected in sequence, the first electrode 8 is electrically connected with the H-bridge discharge circuit 203 through the first conductive connection base 6, and the second electrode 9 is electrically connected with the H-bridge discharge circuit 203 through the second conductive connection base 7.

In this embodiment, the electric control unit 2 periodically generates a current pulse, specifically, firstly, the MCU singlechip 201 generates a PWM signal, and the PWM signal is input into the energy storage boost circuit 202, and the battery 3 is controlled by the PWM signal to charge an energy storage capacitor in the energy storage boost circuit 202, where the duty cycle and the signal duration of the PWM signal are proportional to the voltage of the energy storage capacitor charged with electric energy, and parameters such as the duty cycle and the signal duration of the PWM signal may be preset by the intensity gear of the MCU singlechip 201. After the charging process is finished, the MCU singlechip 202 opens a left bridge arm or a right bridge arm of the H-bridge discharging circuit 203 according to a preset time sequence, converts direct-current voltage in the energy storage capacitor into orderly positive and negative current pulses, and transmits the orderly positive and negative current pulses to the first electrode 8 through the first conductive connecting seat 6, and transmits the orderly positive and negative current pulses to the second electrode 9 through the second conductive connecting seat 7, and performs physical therapy on the throat part of a human body through the current pulses; of course, the principle of generating the current pulse by the electric control unit 2 may also be set with reference to the prior art, for example, the cervical vertebra massage patch, the lumbar vertebra massage patch, etc. in the prior art, which will not be described herein.

Specifically, the energy storage boost circuit 202 is a boost circuit, and the wireless transceiver 204 is a bluetooth module, so that communication with intelligent terminals such as a mobile phone is facilitated through the bluetooth module, and a user can conveniently adjust functions of the throat physiotherapy instrument of the embodiment through the intelligent terminals such as the mobile phone.

Finally, it should be emphasized that the foregoing description is merely illustrative of the preferred embodiments of the utility model, and that various changes and modifications can be made by those skilled in the art without departing from the spirit and principles of the utility model, and any such modifications, equivalents, improvements, etc. are intended to be included within the scope of the utility model.

Claims (12)

1. Throat physiotherapy equipment, its characterized in that:

the electric control device comprises a shell, a wear part, an electric control unit, a battery and a first electrode and a second electrode, wherein the first electrode and the second electrode are used for being attached to the throat part of a human body, two ends of the shell along a first direction are respectively connected with the wear part, the wear part and the shell are combined to be annular and are used for surrounding the periphery of the neck of the human body, the first electrode and the second electrode are both installed on the outer surface of the shell and are located on the inner side of the ring of the shell, the first electrode and the second electrode are distributed at intervals along the first direction, the electric control unit and the battery are both arranged in an inner cavity of the shell, the first electrode and the second electrode are both electrically connected with the electric control unit, and the battery is used for supplying power to the electric control unit.

2. The throat physiotherapy instrument according to claim 1, wherein:

the wearing comprises a first elastic band and a second elastic band, wherein the first elastic band and the second elastic band are respectively connected to two ends of the shell along the first direction and are respectively used for surrounding two sides of a human neck, and the first elastic band and the second elastic band are bent towards each other under the action of respective elastic forces at one ends far away from the shell.

3. The throat physiotherapy instrument according to claim 2, wherein:

the first elastic band is a snap ring, can be naturally kept in a straightened state, and can automatically return to a curled state under the action of self elastic force after being broken by external force;

the second elastic band is a snap ring, can be naturally kept in a straightened state, and can automatically return to a curled state under the action of self elastic force after being broken by external force.

4. A throat physiotherapy instrument according to claim 3, in which:

when the first elastic band and the second elastic band are in a stretched state, the distance between the first elastic band and the second elastic band at one end far away from the shell is larger than the distance between the first elastic band and the second elastic band at one end close to the shell.

5. The throat physiotherapy instrument according to claim 2, wherein:

the first elastic band and the second elastic band comprise elastic memory metal bands and soft rubber coatings covering the surfaces of the elastic memory metal bands.

6. The throat physiotherapy instrument according to claim 1, wherein:

the wear is a flexible belt, and a length adjusting buckle is connected to the wear.

7. The throat physiotherapy instrument according to claim 1, wherein:

the surface of the first electrode is provided with first conductive gel, and the surface of the second electrode is provided with second conductive gel;

the first electrode is provided with a first hard substrate, and the first conductive gel covers the surface of the first hard substrate;

the second electrode is provided with a second hard substrate, and the second conductive gel covers the surface of the second hard substrate;

the first electrode and the second electrode are spaced apart from each other by 1 cm to 3 cm.

8. The throat physiotherapy instrument according to any one of claims 1 to 7, wherein:

the first electrode is rotatable relative to the housing, and the second electrode is rotatable relative to the housing.

9. The throat physiotherapy instrument according to claim 8, wherein:

the electric control unit comprises a shell, and is characterized by further comprising first conductive connecting seats and second conductive connecting seats which are distributed along the first direction at intervals, wherein the first conductive connecting seats and the second conductive connecting seats are respectively and rotatably connected with the shell, the first conductive connecting seats are detachably connected with the first electrodes through buckles, the second conductive connecting seats are detachably connected with the second electrodes through buckles, the first electrodes are electrically connected with the electric control unit through the first conductive connecting seats, and the second electrodes are electrically connected with the electric control unit through the second conductive connecting seats.

10. The throat physiotherapy instrument according to claim 8, wherein:

a first conductive connecting seat which is electrically connected with the electric control unit is fixedly arranged on the inner side wall of the shell, one of the first electrode and the first conductive connecting seat is provided with a columnar or spherical first conductive convex part, the other one of the first electrode and the first conductive connecting seat is provided with a first conductive concave part matched with the first conductive convex part, the first conductive convex part is detachably buckled with the first conductive concave part, and the first conductive convex part can rotate relative to the first conductive concave part;

the inner side wall of the ring of the shell is fixedly provided with a second conductive connecting seat which is electrically connected with the electric control unit, one of the second electrode and the second conductive connecting seat is provided with a columnar or spherical second conductive convex part, the other is provided with a second conductive concave part matched with the second conductive convex part, the second conductive convex part is detachably buckled with the second conductive concave part, and the second conductive convex part is rotatable relative to the second conductive concave part.

11. The throat physiotherapy instrument according to claim 8, wherein:

the shell is provided with a ring-shaped groove, wherein the ring-shaped groove is arranged between the first electrode and the second electrode and is recessed towards the outer side of the ring, the ring-shaped groove penetrates through the shell along a third direction, the first electrode can rotate into the ring-shaped groove, the second electrode can rotate into the ring-shaped groove, and the first direction, the second direction and the third direction are mutually perpendicular.

12. The throat physiotherapy instrument according to any one of claims 1 to 7, wherein:

the electric control unit comprises an MCU singlechip, an energy storage boosting circuit and an H-bridge discharging circuit, wherein the MCU singlechip is respectively and electrically connected with the energy storage boosting circuit and the H-bridge discharging circuit, the battery, the energy storage boosting circuit and the H-bridge discharging circuit are sequentially and electrically connected, and the H-bridge discharging circuit is respectively and electrically connected with the first electrode and the second electrode;

the electric control unit also comprises a wireless transceiver connected with the MCU singlechip.