CN114668975A - Acousto-optic physiotherapy instrument and physiotherapy system - Google Patents

Abstract

The invention belongs to the technical field of physiotherapy health-care devices, and relates to an acousto-optic physiotherapy instrument and an acousto-optic physiotherapy system, which comprise a physiotherapy box, a sounding component and a light-emitting component, wherein an installation cavity is formed inside the physiotherapy box; the sounding component is arranged in the mounting cavity and can generate sound wave energy; the light-emitting component is arranged on the sound-producing component in the mounting cavity and can reciprocate along the axial direction of light under the action of the sound-producing component so as to form dynamic light wave energy, the sound wave energy and the dynamic light wave energy jointly form target energy, and the target energy can be transmitted to a target object in a concentrated manner through the physiotherapy box and can have a resonance effect with biological field energy of the target object after reaching the target object; the invention can transmit various energies such as sound waves, dynamic light waves and the like from the physiotherapy box to the target part of the target object in a centralized manner so as to enhance the resonance intensity of the biological field energy of the human body.

Description

Acousto-optic physiotherapy instrument and physiotherapy system

Technical Field

The invention relates to the technical field of physical therapy health-care devices, in particular to an acousto-optic physical therapy instrument and a physical therapy system.

Background

The human body is an organic whole, has both qi and blood circulation and nerve conduction, and generally has various attributes such as a bioelectric field, a magnetic field, biological weak light and the like, and various delicate attributes which are not known in science at present, and various attributes of the human body are not collectively referred to as the biological field of the human body. In the medical and health care fields, it is a common medical consensus to apply various light rays such as infrared rays, ultraviolet rays, laser rays and the like to biological fields of human bodies to treat the human bodies. Similarly, it is also known in medicine to apply sound waves such as music to the biological field of the human body to relax the mind and body of people so as to achieve the healing effect.

With the pace of daily work, study and life becoming faster and faster, the pressure born by people becomes increasingly prominent, and it appears that most people are in sub-health state, and even some people have more obvious focuses of pain, inflammation, dizziness, cerebral distention and the like. In order to prevent and improve such conditions, people usually select music relaxation, go to places which can be used for physical therapy such as hospitals, social health, beauty and body care and carry out acupuncture, moxibustion, cupping or infrared irradiation and other health care modes, but the simple sound wave therapy or light wave therapy has a single function, and the healing effect is often poor; good acupuncture and moxibustion workers can not meet the needs, smoke generated by moxibustion can irritate the nose and people, and the risk of burning also exists.

In order to improve the healing effect, some physiotherapy instruments integrate a sound wave generator and a light wave generator on the same equipment to promote the human body to relax and recover quickly through the simultaneous action of sound and light, but in practical application, the healing effect presented by the equipment is not greatly improved, the occupied volume is large, the price is high, people need to go to a physiotherapy room of a specific physiotherapy place such as a hospital, a society, beauty and body care for treatment, the treatment cost is high, and the physiotherapy instruments are not beneficial to wide popularization and application and are used by the common public.

Therefore, there is a need for a physiotherapy instrument with good healing effect, small occupied space, convenient use, wide application range, and high popularity and cost performance.

Disclosure of Invention

The embodiment of the invention aims to solve the technical problems of poor actual effect, large occupied space, high price, limited use scene and inconvenience for common people of the conventional physiotherapy equipment with sound and light.

In order to solve the technical problem, the embodiment of the invention provides an acousto-optic physiotherapy instrument, which adopts the following technical scheme:

the reputation physiotherapy equipment includes:

the physiotherapy box is internally provided with an installation cavity;

The sounding component is arranged in the mounting cavity and can generate sound wave energy;

a light emitting assembly for emitting light; the light-emitting component is arranged on the sound-producing component in the mounting cavity and can reciprocate along the axial direction of light under the action of the sound-producing component to form dynamic light wave energy;

the sound wave energy and the dynamic light wave energy jointly form target energy, and the target energy can be transmitted to a target object through the physiotherapy box and can interact with a biological field of the target object after reaching the target object.

Further, in some preferred schemes of embodiments, the physiotherapy box is provided with a light-transmitting area for light to pass through, and is provided with a sound outlet hole communicated with the installation cavity for sound wave to pass through;

the sound producing assembly comprises a speaker and a voice coil motor, wherein the speaker is used for producing the sound wave energy; the voice coil motor is provided with the light emitting assembly, and the light emitting assembly is driven to reciprocate along the axis direction of light so as to be close to or far away from the light transmitting area.

Further, in a preferable scheme of some embodiments, the physiotherapy box comprises a box cover and a box body, and the box cover and the box body are detachably covered and jointly enclose the installation cavity; the box cover is provided with the light-transmitting area; the peripheral wall of the box body is provided with the sound outlet hole; the light emitting component can face the light transmitting area to emit light along the driving direction of the voice coil motor.

Further, in a preferred aspect of some embodiments, the light emitting assembly includes a circuit board and a light emitting source disposed on the circuit board, and the circuit board is disposed on the voice coil motor;

the reputation physiotherapy equipment still includes the grading subassembly, the grading subassembly includes the concave surface speculum that is used for assembling light, the relative both ends of concave surface speculum set up respectively in the circuit board with on the case lid, and in on the position that light transmission zone corresponds, the concave surface speculum cover is established the periphery of circuit board.

Further, in a preferred scheme of some embodiments, the light distribution assembly further includes a light guide member having a light incident surface and a light exiting surface, and the light guide member is disposed on the case cover to form the light transmission region of the case cover; after being converged by the concave reflector, the light rays emitted by the light emitting source can sequentially pass through the light inlet surface and the light outlet surface of the light guide member so as to be emitted out of the physiotherapy box towards a target object.

Further, in some preferred embodiments, a positioning structure is formed between the box cover and the box body at a covering position between the box cover and the box body.

Alternatively, in a preferred version of other embodiments, the sounding assembly comprises a stator assembly and a movement assembly, and the stator assembly is arranged in the physiotherapy box; the moving component is arranged on the stator component, is provided with the light-emitting component and can reciprocate relative to the stator component so as to generate the sound wave energy and drive the light-emitting component to reciprocate;

Wherein the acoustic wave energy and the optical wave energy are resonated along an axial direction of the light to collectively form the target energy.

Further, in a preferred version of some embodiments, the stator assembly has a constant magnetic field; the moving assembly comprises a coil assembly and an elastic wave, and the coil assembly is provided with the light-emitting assembly; the coil assembly can generate an alternating magnetic field, and under the action of the constant magnetic field, the coil assembly with the alternating magnetic field can reciprocate relative to the stator assembly along the axial direction of the coil assembly;

the inner end of the elastic wave is arranged on the coil assembly, and the outer end of the elastic wave is arranged on the stator assembly.

Further, in a preferable scheme of some embodiments, the coil assembly includes a mounting bracket and a voice coil, the top of the mounting bracket is provided with the light emitting assembly, and an outer side wall of the mounting bracket is connected with an inner end of the elastic wave; the stator component comprises a basin frame and a magnetic circuit component, the basin frame is arranged on the physiotherapy box, and the inner side wall of the basin frame is enclosed to form an accommodating space; the magnetic circuit assembly is positioned at the bottom of the mounting bracket, forms the constant magnetic field and is provided with a magnetic gap;

The moving assembly further comprises a cone, the cone is arranged in the accommodating space, the inner end of the cone is arranged on the mounting support, the outer end of the cone and the outer end of the elastic wave are arranged on the basin frame, and the elastic wave is located at the bottom of the cone;

the voice coil can generate an alternating magnetic field after being electrified, the top end of the voice coil is connected to the mounting support, and the bottom end of the voice coil is inserted into the magnetic gap and can reciprocate along the axial direction of the voice coil.

In order to solve the above technical problem, an embodiment of the present invention further provides a physiotherapy system, which adopts the following technical scheme: the physiotherapy system comprises a base body and at least one acousto-optic physiotherapy instrument, and the acousto-optic physiotherapy instruments are arranged on the base body.

Compared with the prior art, the acousto-optic physiotherapy instrument and the physiotherapy system provided by the embodiment of the invention have the following main beneficial effects:

this reputation physiotherapy equipment is through all setting up sound production subassembly and light-emitting component in the installation cavity of physiotherapy case, and with light-emitting component setting on sound production subassembly, with under sound production subassembly's effect, make light-emitting component can follow the axis direction reciprocating motion of its light, like this, the static light wave energy that light-emitting component produced can become dynamic light wave energy, can concentrate from the physiotherapy incasement to this sound wave and dynamic light wave and spread, with the formation energy bigger and more concentrated target energy, like this, the target energy that forms is concentrated to multiple energy can focus on target site and human biological field energy and take place to resonate, do benefit to reinforcing and the resonance intensity of human biological field energy from this, and then do benefit to and obtain better cure effect in essence.

On the other hand because of light-emitting component and sound production subassembly concentrate install in the physiotherapy case that the volume is less, and only need with sound wave energy and dynamic light wave energy concentrate get up refocusing send can, so, can realize through modes such as multiple structure, make this sound wave physiotherapy equipment's overall structure simpler, and occupation space is little, basically unrestricted to service environment, do benefit to anytime and anywhere and get into the state of treatment better faster, can be used to hospital, the community's health center, beauty parlor, still can be used to the family, private office etc., convenient to use, not only be applicable to the professional and use, so, application range is extensive, the possibility of popularization is high, do benefit to reduction manufacturing cost and user's consumption cost, the sexual valence relative altitude.

Drawings

In order to illustrate the solution of the invention more clearly, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are some embodiments of the invention, and that other drawings may be derived from these drawings by a person skilled in the art without inventive effort. Wherein:

FIG. 1 is a schematic perspective view of an acousto-optic physiotherapy apparatus according to an embodiment of the present invention;

figure 2 is a perspective exploded view of the acousto-optic physiotherapy apparatus of figure 1; wherein, the light guide in the figure is a planar lens;

figure 3 is another exploded perspective view of the acousto-optic physiotherapy apparatus of figure 1; wherein, the light guide part in the figure is a convex lens;

FIG. 4 is a schematic plan view of the acousto-optic physiotherapy apparatus shown in FIG. 1;

FIG. 5 is a schematic diagram of the stereo structure of the acousto-optic physiotherapy apparatus according to the second embodiment of the present invention;

FIG. 6 is a cutaway view showing the combination of the sound generating component and the light emitting component of the acousto-optic physiotherapy instrument in accordance with the second embodiment of the present invention;

figure 7 is a perspective exploded view of the sound and light emitting assembly of the acousto-optic physiotherapy instrument of figure 6.

The reference numbers in the drawings are as follows:

100. an acousto-optic physiotherapy instrument; 200. the axial direction of the light;

1. a physiotherapy box; 11. a box cover; 12. a box body; 13. installing a cavity; 14. a sound outlet hole;

2. a sound producing assembly; 21. a speaker; 22. a voice coil motor; 221. a coil; 222. a permanent magnet member;

23. a stator assembly; 231. a basin stand; 2311. an accommodating space; 232. a magnetic gap; 233. a first magnetizer; 2331. an installation part; 2332. a plug-in part; 234. a permanent magnet; 2341. a first through hole; 235. a second magnetizer; 2351. a second through hole;

24. A motion assembly; 241. a coil assembly; 2411. mounting a bracket; 2412. a voice coil; 242. elastic wave; 243. a paper basin;

3. a light emitting assembly; 31. a circuit board; 32. a light emitting source;

4. a light distribution assembly; 41. a concave reflector; 42. a light guide;

5. a controller; 51. a control button;

6. a base.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs; the terminology used in the description presented herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention, e.g., the terms "length," "width," "upper," "lower," "left," "right," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc., refer to an orientation or position based on that shown in the drawings, are for convenience of description only and are not to be construed as limiting of the present disclosure.

The terms "including" and "having," and any variations thereof, in the description and claims of this invention and the description of the above figures are intended to cover non-exclusive inclusions; the terms "first," "second," and the like in the description and in the claims, or in the drawings, are used for distinguishing between different objects and not necessarily for describing a particular sequential order. The meaning of "plurality" is two or more unless specifically limited otherwise.

In the description and claims of the present invention and in the description of the above figures, when an element is referred to as being "fixed" or "mounted" or "disposed" or "connected" to another element, it can be directly or indirectly located on the other element. For example, when an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element.

Furthermore, reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein may be combined with other embodiments.

The embodiment of the invention provides an acousto-optic physiotherapy instrument 100, wherein the acousto-optic physiotherapy instrument 100 is mainly used for generating target energy, and after the target energy reaches a target object, the target energy can act with a biological field of the target object at a local part of the target object so as to perform concentrated targeted therapy on the local part or even a larger range of the target object. It will be appreciated that in this embodiment, the target energy is created by the acousto-optic physiotherapy instrument 100 prior to acting on the target.

It should be noted that the target object described herein generally refers to a human body (for convenience of description, the target object is specifically referred to as a human body in the following description), and may also refer to other objects with vital signs. The term "healing" as used herein generally refers to the treatment or alleviation of abnormal conditions such as pain in at least one location of a target object, and may also refer to the alleviation or prevention of the abnormal conditions of the target object, or in short, may include different experiences and effects of the target object after the acousto-optic physiotherapy apparatus 100 is applied thereto.

As shown in fig. 1 to 4, the acousto-optic physiotherapy apparatus 100 includes a physiotherapy box 1, a sound generating component 2 and a light emitting component 3, wherein an installation cavity 13 is formed inside the physiotherapy box 1, the sound generating component 2 can generate sound wave energy, and the light emitting component 3 is mainly used for emitting light so as to generate original static light wave (specifically, flashing light wave, or non-flashing light wave) energy.

In this embodiment, sound generating component 2 is set up on physiotherapy case 1 in installation cavity 13, and light emitting component 3 is set up on sound generating component 2 in installation cavity 13, and light emitting component 3 can be along the axis direction 200 reciprocating motion of light under sound generating component 2's effect, and like this, when light emitting component 3 sent static light wave, along with light emitting component 3's reciprocating motion, the static light wave energy of its formation can become dynamic light wave energy. The target energy is formed by the sound wave energy generated by the sound generating component 2 and the dynamic light wave energy formed by the reciprocating motion of the light emitting component 3, and the target energy can be transmitted to a target object through the physiotherapy box 1 and can act with a biological field of the target object after reaching the target object.

It should be noted that the dynamic light wave energy described herein may specifically refer to light wave energy moving along the axial direction 200 of the light ray, in other words, may generally refer to light wave energy acting in front of the human body and having a changing relative distance from the human body.

It should be noted that the sound wave generated by the sound generating component 2 and the light wave generated by the light emitting component 3 can be transmitted out of the physiotherapy box 1 from the same direction, and also can be transmitted out of the physiotherapy box 1 from different directions, and here, it is only necessary to ensure that the sound wave and the light wave can be transmitted out of the physiotherapy box 1 to the corresponding target part of the target object, that is, it is only necessary to concentrate various energies such as the sound wave and the light wave and the like to be transmitted out of the physiotherapy box 1.

Specifically, in this embodiment, as shown in fig. 1 to 3, the acousto-optic physiotherapy instrument 100 further includes a controller 5, wherein a main body of the controller 5 is further provided with a control button 51, the control button 51 protrudes out of the physiotherapy box 1 to expose the physiotherapy box 1, so that a user can conveniently control the acousto-optic physiotherapy instrument 100 according to different requirements. In addition, in order to ensure the coordination between the light emitting component 3 and the sound emitting component 2 and the normal operation according to different curing requirements, the controller 5 is electrically connected to the sound emitting component 2 and the light emitting component 3. Specifically, the sound generating assembly 2 can control the condition that the controller 5 drives the light emitting assembly 3 to move, and the size, frequency and other conditions of the generated sound wave energy; the light emitting component 3 can control the color, energy level, frequency, etc. of the light wave generated by itself through the controller 5.

In summary, compared with the prior art, the acousto-optic physiotherapy instrument 100 at least has the following beneficial effects: the acousto-optic physiotherapy instrument 100 is characterized in that the sounding component 2 and the light-emitting component 3 are both arranged in the installation cavity 13 of the physiotherapy box 1, the light-emitting component 3 is arranged on the sounding component 2, so that the light emitting component 3 can reciprocate along the axial direction 200 of the light under the action of the sound producing component 2, thus the static light wave energy generated by the light emitting component 3 can be changed into dynamic light wave energy, therefore, the sound waves and the dynamic light waves can be transmitted out from the physiotherapy box 1 in a concentrated manner to form target energy with larger energy and more concentrated, and finally after the target energy acts on the human body, can greatly stimulate muscles, nerves, body fluid, blood and the like of the human body, more powerfully mobilize the potential energy of the human body, so as to effectively relieve pain, resist inflammation and detumescence, regulate nerves, eliminate fatigue, strengthen resisting diseases, beautify and the like, and achieve various healing effects of health care, rehabilitation, treatment and the like.

More significantly, compared with the existing simple energy superposition scheme that sound waves and light waves emitted from different angles in a large area range act on a human body and are made to resonate independently and simultaneously with a biological field of the human body in the human body, the acousto-optic physiotherapy instrument 100 collects the sound wave energy and the dynamic light wave energy into the physiotherapy box 1, so that on one hand, target energy formed by concentrating various energies can be emitted from the physiotherapy box 1 and focused on a target part of a target object to resonate with the biological field energy of the human body in the corresponding target part, thereby being beneficial to enhancing the resonance intensity with the biological field energy of the human body and further being beneficial to substantially obtaining better healing effect.

On the other hand because of light emitting component 3 and sound production subassembly 2 concentrate to install in less physiotherapy case 1, and only need with sound wave energy and dynamic light wave energy concentrate get up focus send again can, so, can realize through modes such as multiple structure, make this sound wave physiotherapy equipment's overall structure simple, and occupation space is little, basically unrestricted to service environment, do benefit to anytime and anywhere and get into more fast and treat the recovery state, can be used to the hospital, the sociable center, the beauty parlor, still can be used to the family, private office etc., convenient to use, not only be applicable to the professional and use, still can be applicable to non-professional and use, so, application range is extensive, the possibility of popularization is high, do benefit to reducing manufacturing cost and user's consumption cost, the sexual valence relative altitude.

It should be noted that the acousto-optic physiotherapy instrument 100 can dredge the channels and collaterals, balance qi and blood of the human body, enable the healthy people to feel refreshing and improve the immunity of the organism; for patients, the medicine can obviously improve and dredge focus, for example, the medicine can effectively improve diseases caused by mental, psychological and nerves, such as insomnia, migraine, depression, Alzheimer disease, Parkinson, facial nerve tremor, and the like; it also has effects in strengthening myocardial contraction, improving blood sugar control of diabetes, improving exercise ability after apoplexy, vasculitis, lower limb swelling and pain, muscle stiffness, scapulohumeral periarthritis, cervical spondylosis, etc., and removing skin melanin.

The embodiment of the acousto-optic physiotherapy instrument 100 of the present invention is implemented by propagating light waves and sound waves from different directions

In order to make those skilled in the art better understand the solution of the present invention, the technical solution in the first embodiment of the present invention will be clearly and completely described below with reference to fig. 1 to 4.

Further, as a specific implementation manner in the first embodiment of the present invention, in order to ensure that the light emitted from the light emitting component 3 can be transmitted out of the physiotherapy box 1, the physiotherapy box 1 is provided with a light-transmitting region (not shown) for light to pass through. Similarly, as shown in fig. 1 to 4, in order to ensure that the sound wave generated by the sound generating component 2 can be transmitted out of the physiotherapy box 1, the physiotherapy box 1 is provided with a sound outlet 14, wherein the sound outlet 14 is communicated with the installation cavity 13.

It should be noted that, in the present embodiment, the light-transmitting area and the sound-emitting hole 14 are located at different positions of the physiotherapy cabinet 1, i.e. the light waves and the sound waves are emitted from different directions of the physiotherapy cabinet 1. However, since both of them are emitted from the small-sized object such as the physiotherapy box 1, even if they are emitted from different directions, it is still ensured that the sound waves and the light waves emitted from the physiotherapy box 1 are focused within a small area where the target position of the target object is located, at least, the target energy is more concentrated and larger than the case where the sound waves and the light waves are individually transmitted to the target object from a larger area, compared to the case where the target object exists at a certain distance from the physiotherapy box 1.

In this embodiment, as shown in fig. 2 and fig. 3, the sound generating assembly 2 includes a speaker 21 and a voice coil motor 22, wherein the speaker 21 is mainly used for generating sound wave energy, and the speaker 21 is disposed in the physiotherapy box 1 at a position corresponding to the sound outlet 14, so that the audio played by the acousto-optic physiotherapy instrument 100 can be transmitted to the outside of the physiotherapy box 1 sequentially through the speaker 21 and the sound outlet 14, and thus the user can enjoy sound wave physiotherapy while receiving dynamic light wave physiotherapy, so as to further relax the mind and body.

As further shown in fig. 2 and 3, the voice coil motor 22 is provided with a light emitting element 3 for driving the light emitting element 3 to reciprocate along the axial direction 200 of the light to approach or depart from the light transmitting region. Particularly in the present embodiment, it is preferable that the light emitted from the light emitting component 3 is opposite to the transparent region, and the center of the transparent region is located on the axis of the light, in order to ensure that the energy of the target energy is larger to improve the healing effect.

It should be noted that the specific structure of the speaker 21 may be an existing speaker structure, or may be a newly created structure, so that it may be implemented by various structures as long as it can emit sound waves alone.

It can be understood that in the present embodiment, the speaker 21 and the voice coil motor 22 in the sound generating module 2 act independently, one is used for generating sound waves, and the other is used for driving the light emitting module 3 to reciprocate, so that the sound generating module 2 can generate sound waves and also drive the light emitting module 3 to form dynamic light waves. In addition, the speaker 21, the voice coil motor 22 and the light emitting assembly 3 are all electrically connected to the controller 5, so that the controller 5 can control the operation and stop of the speaker 21, the voice coil motor 22 and the light emitting assembly 3 through the control buttons 51.

Specifically, in the present embodiment, in order to drive the light emitting assembly 3 to reciprocate, the voice coil motor 22 includes a coil 221 and a permanent magnet 222, wherein in an alternative embodiment, as shown in fig. 2 to 4, the permanent magnet 222 is fixedly disposed on the physiotherapy box 1, the coil 221 is inserted into the permanent magnet 222, and the coil 221 can reciprocate along the axial direction of the permanent magnet 222 (specifically, the axial direction of the coil 221) after being energized, so as to drive the light emitting assembly 3 disposed on the coil 221 to reciprocate synchronously.

In another alternative embodiment, the coil 221 is fixedly disposed on the physiotherapy box 1, and the permanent magnet 222 is inserted into the coil 221 and can reciprocate along the axial direction of the coil 221 relative to the energized coil 221, so as to drive the light emitting assembly 3 disposed on the permanent magnet 222 to reciprocate synchronously.

Generally, no matter what kind of structure of voice coil motor 22 is adopted, because of voice coil motor 22 has characteristics such as simple structure, small, high-speed, response are fast, so, do benefit to and make this reputation physiotherapy equipment 100's overall structure simpler, it is littleer to occupy the volume, and the price/performance ratio is higher.

Preferably, in this embodiment, the voice coil motor 22 is disposed opposite to the light-transmitting area, and the central axis of the coil 221 can pass through the center of the light source 32 of the light-emitting component 3 and the center of the light-transmitting area, so as to ensure that the generated dynamic light wave energy is higher, and the acousto-optic physiotherapy instrument 100 has a more compact overall structure and a smaller occupied volume.

Further, as a specific implementation manner in the first embodiment of the present invention, as shown in fig. 1 to 4, in order to facilitate the installation and manufacture of the acousto-optic physiotherapy apparatus 100, the physiotherapy box 1 includes a box cover 11 and a box body 12, wherein the box cover 11 and the box body 12 are detachably covered and jointly enclose an installation cavity 13. Specifically, in the present embodiment, the cover 11 is provided with the light-transmitting area, the circumferential wall of the case 12 is provided with the sound-emitting hole 14, and the light-emitting component 3 can emit light toward the light-transmitting area along the driving direction of the voice coil motor 22 (specifically, the axial direction of the coil 221, that is, the axial direction 200 of the light). It can be understood that the light emitting component 3 is disposed opposite to the case cover 11 and emits light toward the light transmitting area of the case cover 11, so that light waves can pass through the light transmitting area and go out of the physiotherapy case 1, thereby having a therapeutic effect on the human body. And in order to improve the healing effect, the light-transmitting area of the case cover 11 is usually towards the corresponding target position of the human body.

It should be noted that, in order to realize the detachable covering arrangement between the box cover 11 and the box 12, in an alternative embodiment, the box cover 11 and the box 12 can be detachably connected by a screw connector (not shown) such as a screw, a bolt, etc., so that the box cover 11 can be removed from the box 12 by loosening the screw connector when the panel needs to be replaced or detached.

In another alternative embodiment, the cover 11 and the case 12 may be detachably connected by a magnetic attraction manner, and specifically, a first magnetic member (not shown) is disposed on the cover 11, and a second magnetic member (not shown) attracted to the first magnetic member is disposed on the case 12, so that the cover 11 and the case 12 can be detachably connected by a magnetic attraction force between the first magnetic member and the second magnetic member.

Of course, in other embodiments, the implementation may be implemented by other suitable structures, which are not listed here.

Further, as a specific implementation manner in the first embodiment of the present invention, as shown in fig. 2 to fig. 4, the light emitting assembly 3 includes a circuit board 31 and a light emitting source 32 disposed on the circuit board 31, wherein the circuit board 31 is disposed on the voice coil motor 22 and is directly opposite to the case cover 11. Specifically, in the present embodiment, the light emitting source 32 is disposed on the top surface of the circuit board 31, and the coil 221 or the permanent magnet 222 capable of moving in the voice coil motor 22 is disposed on the back surface of the circuit board 31.

It should be noted that the axis of the light ray described herein refers to the central axis of the central light ray emitted from the light emitting assembly 3, and the center of the light emitting source 32 and the center of the light transmitting area are located on the axis of the coil 221. In addition, the light source 32 and the speaker 21 may be connected in parallel or in series, which may be determined according to actual needs.

It should be noted that, in the present embodiment, the light source 32 may be electrically connected in parallel or in series with the coil 221 of the voice coil motor 22, so that the brightness of the light source 32 may fluctuate synchronously according to the magnitude of the current of the coil 221, so that the light wave energy acting on the human body may not only form dynamic light waves according to the magnitude of the driving force of the voice coil motor 22, but also generate different brightness changes synchronously according to the magnitude of the current of the coil 221, which is convenient for enhancing the dynamic light wave energy and is beneficial to improving the healing effect. Of course, in some embodiments, the light source 32 may be separately connected to a regulated power supply in order to maintain the brightness of the light source 32 constant. In short, the arrangement of the light source 32 and the voice coil motor 22 in series-parallel connection, etc., can be determined according to specific situations, and will not be described herein.

It should be noted that, under the control of the controller 5, the light source 32 can adjust the flashing frequency and intensity according to the requirements of different users, so as to enhance the healing effect of the corresponding pathology. In addition, the light source 32 may be a multi-color lamp capable of emitting light of different colors to meet different healing needs. The multicolor lamp can emit light waves with different colors according to different frequencies. For example, the light wave may be red, green, violet, blue, or the like. For example, red light can play a role in warming, promoting blood circulation of a human body and the like; the green light can play the roles of diminishing inflammation, relieving swelling, balancing body frequency and the like; purple light has the effects of complementing yin and yang, replenishing vital essence and filling marrow.

Specifically, in the present embodiment, for example, when the multicolor lamp emits red light (specifically, red light with a wavelength of 635nm, etc.), the frequency of the sound wave energy is 100Hz to 500Hz, so as to form a treatment mode corresponding to pain relief; when the multicolor lamp emits green light (specifically, green light with the wavelength of 540nm and the like), the frequency of the sound wave energy is 500Hz to 2200Hz, so that a treatment mode corresponding to depression relieving is formed. Of course, in other embodiments, color lights with different wavelengths, corresponding frequencies of corresponding acoustic wave energy, and the like may also be selected to form different parameter combinations of acoustic waves and light waves to treat corresponding symptoms, which is not described in detail herein.

In the present embodiment, as shown in fig. 2 and fig. 3, in order to increase the light emitting rate of the light generated by the light source 32 after passing through the transparent region, so as to increase the intensity of the emitted light wave energy, and further increase the intensity of the target energy, and ensure the overall physiotherapy effect, the acousto-optic physiotherapy instrument 100 further includes a light distribution assembly 4, the light distribution assembly 4 includes a concave reflector 41 for converging the light, wherein two opposite ends (specifically, a top end and a bottom end) of the concave reflector 41 are respectively disposed on the circuit board 31 and the box cover 11, and at the position corresponding to the transparent region, the concave reflector 41 is covered on the periphery of the circuit board 31, specifically, the bottom end of the concave reflector 41 is disposed on the circuit board 31, and the top end abuts against the bottom of the box cover 11 and corresponds to the transparent region, so as to form a light wave energy converging channel communicated with the transparent region between the circuit board 31 and the box cover 11, so as to converge the light emitted by the light source 32 to the surrounding area into the region limited by the concave reflector 41, and is reflected by the concave reflector 41 to be concentrated and emitted through the light-transmitting region, thereby greatly improving the light-emitting rate of the light-emitting source 32, reducing the light loss and ensuring the energy of the emitted dynamic light wave.

Specifically, in the present embodiment, the concave reflector 41 is trumpet-shaped, that is, the bottom end is a small end, and the top end is a large end. Wherein, the size and shape of the opening of the large end of the concave reflector 41 are preferably matched with the size and shape of the light-transmitting area respectively.

Further, as a specific implementation manner in the first embodiment of the present invention, as shown in fig. 2 to 4, in order to further increase the magnitude of the light wave energy, the light distribution assembly 4 further includes a light guide member 42 having a light incident surface and a light emitting surface, wherein the light guide member 42 is disposed on the case cover 11 to form a light transmission region of the case cover 11. And the light emitted from the light source 32 is converged by the concave reflector 41, and then sequentially passes through the light incident surface and the light emitting surface of the light guide member 42 to be emitted out of the physiotherapy box 1 toward the target. It can be understood that the light emitted from the light source 32 is reflected by the concave reflector 41, passes through the light incident surface of the light guide member 42, and then is converged or diverged by the light emergent surface, and directly exits the physiotherapy box 1.

Specifically, in the present embodiment, in order to simplify the overall structure, a mounting hole (not shown) may be directly formed in the case cover 11, and the light guide 42 is disposed in the mounting hole, so that the light transmission region is formed by the light guide 42.

Here, the light exit surface is a surface away from the mounting cavity 13 (generally, a surface facing the object), and correspondingly, the light entrance surface is a surface facing the mounting cavity 13.

It should be noted that, in an alternative embodiment, the light emitting surface of the light guide 42 may be a plane parallel to the case cover 11, and the light emitted by the light emitting source 32 can be converged through the light emitting plane, so as to enhance the dynamic light wave energy acting on the human body. In another alternative embodiment, the light guide 42 is a convex lens, so that the light-emitting surface of the light guide 42 is an arc surface protruding away from the case cover 11. Thus, the light emitted from the light source 32 can be diffused through the light emitting arc surface, so that the dynamic light wave energy applied to the human body can be uniformly applied to the human body.

In practical application, because the cover 11 and the box 12 are detachably covered, the acousto-optic physiotherapy apparatus 100 can be provided with the cover 11 with different light guide members 42, so that different covers 11 can be replaced in time according to different requirements of users to adjust and realize different healing effects.

Further, as a specific implementation manner in the first embodiment of the present invention, a positioning structure (not shown) is formed between the cover 11 and the case 12 at the covering position between the cover 11 and the case 12. Specifically, in this embodiment, one of the box covers 11 and the box body 12 may be provided with a positioning protrusion, and the other one may be provided with a positioning recess, wherein the positioning protrusion and the positioning recess are in concave-convex fit, so that the box cover 11 can be accurately covered on the box body 12, and adverse phenomena such as cover deviation cannot occur.

It should be noted that the acousto-optic physiotherapy apparatus 100 can be installed in various external products, such as sofas, beds, relaxation chairs, and other common leisure products. In the present embodiment, as shown in fig. 1 to 4, in order to improve the convenience of installing and using the acousto-optic physiotherapy instrument 100, the acousto-optic physiotherapy instrument 100 further comprises a base 6, wherein the base 6 is rotatably connected to the housing 12 (specifically, the base may be on the bottom of the housing 12 or on the peripheral wall of the housing 12). In actual installation, the base 6 and external products such as sofas and beds can be fixedly installed, and in actual use, a user can adjust the supporting angle between the base 6 and the box body 12 according to different use requirements, so that the acting directions of sound waves and dynamic light waves are adjusted.

Further, particularly in the present embodiment, it is preferable that the base 6 is rotatably connected to the casing 12 in a damping manner, so that the casing 12 can be fixed where it rotates relative to the base 6, thereby avoiding the uncertainty of the fixing position of the casing 12 and the difficulty in ensuring the healing effect. It should be noted that the damping rotation connection structure between the base 6 and the box 12 may be an existing damping rotation connection structure or a newly-created structure, and will not be described herein again.

The embodiment of the acousto-optic physiotherapy instrument 100 of the present invention has two light waves and sound waves propagating from the same direction

The main technical features of this embodiment are substantially the same as those of the first embodiment, and the main difference between this embodiment and the first embodiment is that in the second embodiment, the light wave and the sound wave can propagate to the target object from the same direction. Correspondingly, the specific structure of the sound generating assembly 2 is different, and the structural relationship between the sound generating assembly 2 and other parts is also different.

Referring to fig. 5 and 6, in the present embodiment, in order to further improve the healing effect, the sounding assembly 2 includes a stator assembly 23 and a moving assembly 24, and the stator assembly 23 is disposed in the physiotherapy box 1. The moving component 24 is disposed on the stator component 23 and is provided with the light emitting component 3, and the moving component 24 can reciprocate relative to the stator component 23 to generate sound wave energy and drive the light emitting component 3 to reciprocate in the moving process. Wherein, in the present embodiment, the acoustic wave energy and the optical wave energy can resonate along the axial direction 200 of the light to collectively form the target energy.

In the present embodiment, the resonance frequency range when the acoustic wave energy and the optical wave energy resonate is 16Hz to 8 kHz. Of course, in other embodiments, the resonant frequency of the two may be 4Hz to 20 kHz. The specific frequency to be used as the resonant frequency can be determined according to actual needs under the control of the controller 5.

It is understood that, in the present embodiment, during the relative movement with the stator assembly 23, the moving assembly 24 generates the sound wave, and at the same time, the sound wave can continuously resonate with the static light wave generated by the light emitting assembly 3 in the same direction, so as to excite the static light wave to form dynamic light wave energy, and in the course of emitting sound wave produced by motion component 24, can assist in pushing dynamic light wave energy, and similarly, dynamic light wave energy can also assist in pushing acoustic wave energy in the propagation path, therefore, the acoustic wave energy and the dynamic light wave energy are concentrated in a limited range and are mutually acted in the same direction to excite and push, the acoustic wave energy and the light wave energy can be greatly and doubly superposed and amplified before reaching the human body, in other words, the finally obtained target energy is far larger than the sum of the acoustic wave energy and the light wave energy, and also larger than the target energy formed by the acoustic wave energy and the dynamic light wave energy coming out of the treatment chamber 1 in different directions.

In summary, in this embodiment, the acousto-optic physiotherapy instrument 100 uses the acoustic wave energy and the optical wave energy to interact with the target portion of the target object in the same direction, so as to achieve the biological field energy of the human body through purification, and the finally obtained target energy is also directionally acted on the human body from the same direction of the same physiotherapy box 1, so as to excite the biological field of the human body to a greater extent, and make the biological field of the human body and the target energy acted on the human body generate resonance synchronously.

It should be noted that the dynamic light wave energy described herein may specifically refer to the light wave energy moving along the moving direction of the moving component 24, in other words, may specifically refer to the energy that changes in the relative distance from the human body before acting on the human body, which is equivalent to the energy wave of the light wave energy being pushed by a wave to reach the human body during the interaction process with the sound wave energy.

It should be noted that, in the present embodiment, in order to ensure a simple overall structure and achieve resonance of sound waves and light waves, the stator assembly 23 is usually fixedly disposed, and the moving assembly 24 usually moves relative to the stator assembly 23. Similarly, since the light emitting device 3 can be realized by only providing the motion device 24 for generating sound waves, the realizable structure is also diversified. And the light emitting component 3 and the motion component 24 can be installed together in a centralized way, which is beneficial to reducing the manufacturing cost and the consumption cost of users, and can greatly reduce the whole occupied space.

Further, as a specific implementation manner in the second embodiment of the present invention, in order to enable the moving component 24 to generate sound wave energy during the movement relative to the stator component 23, and in order to simplify the overall structure of the acousto-optic physiotherapy apparatus 100, the stator component 23 has a constant magnetic field.

As shown in fig. 6 and 7, the moving assembly 24 includes a coil assembly 241 and an elastic wave 242, wherein the coil assembly 241 is provided with a light emitting assembly 3, and the direction of the light wave emitted by the light emitting assembly 3 is the same as the moving direction of the coil assembly 241, so as to meet the requirement of the acoustic wave and the light wave being capable of resonating in the same direction. In the present embodiment, the light emitting element 3 is disposed on the top of the coil element 241. Of course, in other embodiments, the light emitting assembly 3 may be disposed on other suitable portions of the coil assembly 241 or on other parts of the moving assembly 24, as long as the axial direction 200 of the light emitted by the light emitting assembly 3 is ensured to be the same as the moving direction of the moving assembly 24.

As shown in fig. 6, the inner end (specifically, the end close to the light emitting element 3) of the elastic wave 242 is disposed on the coil element 241, and the outer end (specifically, the end far from the light emitting element 3) is disposed on the stator assembly 23. The coil assembly 241 can generate an alternating magnetic field after being energized, and under the action of the constant magnetic field of the stator assembly 23, the coil assembly 241 with the alternating magnetic field can reciprocate relative to the stator assembly 23 along the axial direction of the coil assembly 241, so as to drive the elastic wave 242 to squeeze the surrounding air, thereby generating sound waves.

It should be noted that, according to different requirements, the moving component 24 can generate sound waves with different frequencies, wavelengths, etc. under the control of the controller 5, so as to meet different treatment requirements. In addition, it can be understood that, in the present embodiment, the movement component 24 basically adopts the sound generating structure of the speaker in the speaker field, so that the whole structure of the acousto-optic physiotherapy apparatus 100 can be further simplified, the cost performance can be improved, and the consumption cost of the user can be reduced by optimizing and utilizing the structure across the fields.

Further, as a specific implementation manner in the second embodiment of the present invention, as shown in fig. 6 and fig. 7, the coil assembly 241 includes a mounting bracket 2411 and a voice coil 2412, wherein the light emitting assembly 3 is disposed on the top of the mounting bracket 2411, and the inner end of the damper 242 is connected to the outer side wall of the mounting bracket 2411 for disposing the damper 242 on the coil assembly 241.

As further shown in fig. 6 and 7, the stator assembly 23 includes a frame 231, and the moving assembly 24 further includes a cone 243, wherein the frame 231 is disposed on the physiotherapy box 1, and in this embodiment, an opening (not shown) may be directly formed on the physiotherapy box 1, and the frame 231 is embedded in the opening and closes the opening, so as to form a sound box structure similar to a loudspeaker.

In addition, as shown in fig. 6, in order to facilitate the installation of the cone 243, the voice coil 2412, the damper 242, the light emitting element 3, and the like, an accommodating space 2311 is defined by the inner side wall of the cone frame 231. In order to make the moving component 24 and the stator component 23 form a horn structure together, so as to further improve the physiotherapy effect of the acousto-optic physiotherapy apparatus 100 and simplify the overall structure, in the accommodating space 2311, the inner end (specifically, the end close to the light emitting component 3) of the cone 243 is disposed on the mounting bracket 2411, the outer end (specifically, the end far away from the light emitting component 3) of the cone 243 and the outer end (specifically, the end far away from the light emitting component 3) of the elastic wave 242 are both disposed on the inner side wall of the basin frame 231, and the elastic wave 242 is located at the bottom of the cone 243.

In this embodiment, in order to achieve the effect that the stator assembly 23 has a constant magnetic field, as shown in fig. 6, the stator assembly 23 further includes a magnetic circuit assembly, wherein the magnetic circuit assembly is located at the bottom of the mounting bracket 2411 of the coil assembly 241, and the magnetic circuit assembly is formed with a constant magnetic field and has a magnetic gap 232. Correspondingly, the voice coil 2412 can generate an alternating magnetic field after being electrified. As shown in fig. 6, the voice coil 2412 has a top end connected to the mounting bracket 2411 and a bottom end inserted into the magnetic gap 232. The voice coil 2412 can reciprocate along the magnetic gap 232 along the axial direction, so that the moving assembly 24 can generate sound waves during the reciprocating motion relative to the stator assembly 23.

Specifically, in the present embodiment, in order to achieve the effect of the magnetic circuit assembly having a constant magnetic field and forming the magnetic gap 232, as shown in fig. 6 and 7, the magnetic circuit assembly includes a first magnetic conductor 233, a permanent magnet 234 and a second magnetic conductor 235, wherein the first magnetic conductor 233 includes a mounting portion 2331 and a plug portion 2332, and one end of the plug portion 2332 of the first magnetic conductor 233 (specifically, the bottom end of the plug portion 2332) is connected to the middle portion of the top of the mounting portion 2331. At the top of the mounting portion 2331 of the first magnetizer 233, the permanent magnet 234 is sleeved on the inserting portion 2332 of the first magnetizer 233; on top of the permanent magnet 234, the second magnetic conductor 235 is sleeved on the plug-in part 2332 of the first magnetic conductor 233. The magnetic gap 232 is formed between the inner wall of the second magnetic conductor 235, the inner wall of the permanent magnet 234, the top of the mounting portion 2331 and the inner wall of the plug portion 2332. In order to realize the connection between the voice coil 2412 and the magnetic circuit assembly, the other end of the voice coil 2412 is sleeved in the connection part 2332 of the first magnetic conductor 233 in the magnetic gap 232.

As shown in fig. 6 and 7, in order to fixedly mount the basin frame 231 of the stator assembly 23, the bottom of the basin frame 231 is disposed on the top of the second magnetizer 235 and corresponds to the magnetic gap 232, and a relief hole (not shown) is formed in the basin frame 231 for the voice coil 2412 to reciprocate and to drive the light emitting assembly 3 disposed on the mounting bracket 2411 to move in the receiving space 2311 formed on the basin frame 231.

Specifically, in this embodiment, as shown in fig. 6 and 7, in order to form the magnetic gap 232 of the magnetic circuit assembly, the permanent magnet 234 is provided with a first through hole 2341 along the axial direction thereof, and correspondingly, the second magnetizer 235 is provided with a second through hole 2351 along the axial direction thereof, so that the plug portion 2332 of the first magnetizer 233 can sequentially pass through the first through hole 2341 and the second through hole 2351, and the outer diameter of the plug portion 2332 of the first magnetizer 233 is smaller than the diameter of the first through hole 2341 and smaller than the diameter of the second through hole 2351. Similarly, to ensure that the voice coil 2412 moves smoothly in the magnetic gap 232, the outer diameter of the voice coil 2412 is smaller than the diameters of the first through hole 2341 and the second through hole 2351.

Preferably, the first magnetic conductor 233 may be a T-shaped magnet. The permanent magnet 234 may be magnetic steel.

Generally, the speaker 21 structure formed by the motion assembly 24 and the stator assembly 23, namely, the speaker 21 is modified and converted into a health care physiotherapy instrument, so that the real resonance of sound waves and light waves before reaching the human body is realized, the healing effect can be greatly improved, the overall structure of the acousto-optic physiotherapy instrument 100 is simpler and more reliable, the cost performance is high, the occupied space is small, the circuit is simple, the operation and the use are convenient, and the application range of physiotherapy products is greatly widened.

Based on the above-mentioned acousto-optic physiotherapy apparatus 100, the embodiment of the present invention further provides a physiotherapy system (not shown), wherein the physiotherapy system comprises a base body and at least one of the above-mentioned acousto-optic physiotherapy apparatuses 100, and each acousto-optic physiotherapy apparatus 100 is disposed on the base body. It can be understood that, in practical applications, a plurality of acousto-optic physiotherapy apparatuses 100 can be disposed on the same base body according to different requirements, so as to enhance the physiotherapy effect.

In this embodiment, the substrate may include, but is not limited to, a bed, a mattress, a sofa, a sleeping cabin, a massage chair, a relaxing chair, an office chair, a pillow, and may further include, but is not limited to, clothes, trousers, shoes, and a steam room.

Thus, the acousto-optic physiotherapy instrument 100 arranged on the substrate can transmit sound wave energy and dynamic light wave energy from the same physiotherapy box 1 in a centralized manner, so that on one hand, a larger and more centralized target energy formed by concentrating various energies can be focused on a target part to resonate with the biological field energy of a human body, the resonance strength with the biological field energy of the human body can be enhanced, and the healing purpose of substantially obtaining better immunity regulation and the like can be achieved; on the other hand, the acousto-optic physiotherapy instrument 100 has a simple overall structure, occupies a small space, is wide in application range and high in cost performance, so that more products can be conveniently brought into the physiotherapy system, the physiotherapy system is convenient to use, the cost performance is high, and the popularization is facilitated.

It should be noted that the physiotherapy system can be applied to leisure, sleep-aiding or physiotherapy series products which are contacted by the user in daily use.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. An acousto-optic physiotherapy apparatus, characterized in that, the acousto-optic physiotherapy apparatus includes:

the physiotherapy box is internally provided with an installation cavity;

the sounding component is arranged in the installation cavity and can generate sound wave energy;

a light emitting assembly for emitting light; the light-emitting component is arranged on the sound-producing component in the mounting cavity and can reciprocate along the axial direction of light under the action of the sound-producing component to form dynamic light wave energy;

the sound wave energy and the dynamic light wave energy jointly form target energy, and the target energy can be transmitted to a target object through the physiotherapy box and can interact with a biological field of the target object after reaching the target object.

2. The acousto-optic physiotherapy instrument according to claim 1, wherein said physiotherapy cabinet is provided with a light-transmitting region through which light passes, and is provided with a sound-emitting hole which is communicated with said mounting cavity and through which said sound wave passes;

the sound producing assembly comprises a speaker and a voice coil motor, wherein the speaker is used for producing the sound wave energy; the voice coil motor is provided with the light emitting assembly for driving the light emitting assembly to reciprocate along the axis direction of light so as to be close to or far away from the light transmitting area.

3. The acousto-optic physiotherapy instrument according to claim 2, wherein the physiotherapy box comprises a box cover and a box body, and the box cover and the box body are detachably covered and together enclose the installation cavity; the box cover is provided with the light-transmitting area; the peripheral wall of the box body is provided with the sound outlet hole; the light emitting component can face the light transmitting area to emit light along the driving direction of the voice coil motor.

4. The acousto-optic physiotherapy instrument of claim 3, wherein the light emitting assembly comprises a circuit board and a light emitting source disposed on the circuit board, the circuit board being disposed on the voice coil motor;

the acousto-optic physiotherapy instrument further comprises a light distribution assembly, the light distribution assembly comprises a concave reflector for converging light, two opposite ends of the concave reflector are respectively arranged on the circuit board and the box cover and are arranged on the position corresponding to the light transmission area, and the concave reflector is covered on the periphery of the circuit board.

5. The acousto-optic physiotherapy instrument according to claim 4, wherein the light distribution assembly further comprises a light guide member having a light incident surface and a light exiting surface, the light guide member being disposed on the box cover to form the light transmitting region of the box cover; after being converged by the concave reflector, the light rays emitted by the light emitting source can sequentially pass through the light incident surface and the light emergent surface of the light guide member so as to be emitted out of the physiotherapy box towards a target object.

6. The acousto-optic physiotherapy instrument of claim 3, wherein a positioning structure is formed between the cover and the box at the covering position between the cover and the box.

7. The acousto-optic physiotherapy instrument of claim 1, wherein the sound producing assembly comprises a stator assembly and a movement assembly, the stator assembly being disposed within the physiotherapy enclosure; the moving assembly is arranged on the stator assembly, is provided with the light-emitting assembly and can reciprocate relative to the stator assembly so as to generate the sound wave energy and drive the light-emitting assembly to reciprocate;

wherein the acoustic wave energy and the optical wave energy are resonated along an axial direction of the light to collectively form the target energy.

8. The acousto-optic physiotherapy instrument of claim 7, wherein the stator assembly has a constant magnetic field; the moving assembly comprises a coil assembly and an elastic wave, and the coil assembly is provided with the light-emitting assembly; the coil assembly can generate an alternating magnetic field, and under the action of the constant magnetic field, the coil assembly with the alternating magnetic field can reciprocate relative to the stator assembly along the axial direction of the coil assembly;

the inner end of the elastic wave is arranged on the coil assembly, and the outer end of the elastic wave is arranged on the stator assembly.

9. The acousto-optic physiotherapy instrument of claim 8, wherein the coil assembly comprises a mounting bracket and a voice coil, the light emitting assembly is disposed on the top of the mounting bracket, and the inner end of the elastic wave is connected to the outer side wall; the stator component comprises a basin frame and a magnetic circuit component, the basin frame is arranged on the physiotherapy box, and the inner side wall of the basin frame is enclosed to form an accommodating space; the magnetic circuit assembly is positioned at the bottom of the mounting bracket, forms the constant magnetic field and is provided with a magnetic gap;

the moving assembly further comprises a paper basin, the inner end of the paper basin is arranged on the mounting bracket, the outer end of the paper basin and the outer end of the elastic wave are arranged on the basin frame, and the elastic wave is located at the bottom of the paper basin;

The voice coil can generate an alternating magnetic field after being electrified, the top end of the voice coil is connected to the mounting support, and the bottom end of the voice coil is inserted into the magnetic gap and can reciprocate along the axial direction of the voice coil.

10. A physiotherapy system comprising a base body and at least one acousto-optic physiotherapy apparatus according to any one of claims 1 to 9, each of said acousto-optic physiotherapy apparatus being provided on said base body.

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