CN220360542U - Thermo-photoelectric generator applied to massage physiotherapy equipment - Google Patents

Abstract

The utility model discloses a thermo-optic generator applied to massage physiotherapy equipment, which comprises a light guide cover, a base, a bottom cover and electrode plates, wherein the base is provided with a plurality of light guide holes; the light guide cover is arranged above the base, the light guide cover and the base are connected in a sealing way, and the bottom cover is arranged below the base; the outer surface of the electrode plate is provided with a waterproof layer and is integrally formed at the top of the light guide cover; the base is internally provided with a thermoelectric module which is connected with the electrode plate. Therefore, the sealing connection between the light guide cover and the base plays a role in sealing and waterproofing the thermo-optic module arranged in the inner cavity of the base; the surface of electrode slice is provided with the waterproof layer to the electrode slice sets up at the top of light guide cover with integrated into one piece, thereby makes thermal photoelectric generator's whole water-proof effects better.

Description

Thermo-photoelectric generator applied to massage physiotherapy equipment

Technical Field

The application relates to the technical field of massage physiotherapy equipment, in particular to a thermo-optic generator applied to the massage physiotherapy equipment.

Background

At present, various massage physiotherapy equipment such as physiotherapy equipment and massage equipment are circulated in the market, and a main machine and accessories are usually matched in the process of using the physiotherapy equipment, wherein the main machine is equivalent to a control center, and the accessories such as a massage waistband, massage gloves, a massage cushion and the like are connected with the main machine.

Therefore, in order to achieve the purpose of massage physiotherapy for human body, the electrode plates and the thermo-photoelectric generator are required to be arranged on the accessories such as the massage waistband, the massage glove, the massage cushion and the like. Of course, in order to better and more conveniently install the electrode plate and the thermo-optic module, the fitting is provided with an installation seat suitable for installing the electrode plate and the thermo-optic module, and the seat, the cover and the cover forming the installation seat are fixedly connected with each other by adopting screws.

However, in the process of implementing the prior art scheme, the applicant finds that at least the following technical problems exist in the above technology: the waterproof effect of the mounting seat on the accessories such as the prior massage waistband, the massage glove, the massage cushion and the like is poor, water is easy to enter and wet in the use process, the normal work of the electrode plate and the thermo-optical module is affected, and then the massage physiotherapy equipment is damaged.

Disclosure of Invention

In view of the above, in order to overcome the defects of the prior art, embodiments of the present application provide a thermo-optical generator applied to massage physiotherapy equipment, including a light guide cover, a base, a bottom cover, and an electrode sheet;

the light guide cover is arranged above the base, the light guide cover and the base are connected in a sealing manner, and the bottom cover is arranged below the base;

the outer surface of the electrode plate is provided with a waterproof layer and is integrally formed at the top of the light guide cover;

and a thermoelectric module is arranged in the base and is connected with the electrode plate.

Further, the top of base is equipped with acupuncture point pressing part to acupuncture point pressing part has a plurality of equidistance to be arranged along the top periphery of base.

Further, the electrode plate is made of elastic metal conductive materials.

Further, the thermal photoelectric module comprises a circuit board, a conductive spring and a luminous piece, wherein the conductive spring and the luminous piece are arranged on the circuit board, the circuit board is arranged in the first assembly cavity of the base, the conductive spring is further connected with the electrode plate, and the luminous piece is electrically connected with the circuit board.

Further, the thermo-optic module further comprises a heating element, wherein the heating element is arranged on the electrode plate and is electrically connected with the circuit board.

Further, the thermo-optic module further comprises a permanent magnet, wherein the permanent magnet is arranged on the circuit board and is electrically connected with the circuit board.

Further, the light emitting parts are light emitting diodes, a plurality of light emitting parts are arranged around the conductive spring and on the circuit board at equal intervals, and the wavelength of light emitted by the light emitting diodes is 600-800nm.

Further, the bottom cover is hollow in order to form a second assembly cavity by arranging the inner cavity, a plurality of second supporting parts are arranged on the inner wall of the second assembly cavity, and the bottom of the base is installed in the second assembly cavity and is pressed down on the second supporting parts.

Further, an annular mounting groove is formed in the top of the light guide cover, and the periphery of the electrode plate is embedded in the annular mounting groove.

Further, a boss is arranged at the bottom of the light guide cover, and is provided with an inner hollow connecting column extending vertically downwards;

the base is internally provided with a first assembly cavity in the top direction, a concave part is recessed at the joint of the first assembly cavity and the top of the base, and a positioning rod is arranged in the first assembly cavity;

the light guide cover is arranged in the first assembly cavity, the boss is pressed down in the concave part, and the connecting column is sleeved on the positioning rod.

The embodiment of the application provides a be applied to massage physiotherapy equipment's thermophotovoltaic generator, has following technical effect or advantage at least:

1. compared with the traditional thermo-photoelectric generator of the physiotherapy instrument, the thermo-photoelectric generator is provided with the seat, the cover and the cover on the mounting seat, and the implementation means of mutually fixing and connecting the seat, the cover and the cover by adopting screws are adopted. In the embodiment of the application, the light guide cover of the thermo-optic generator is arranged at the top of the base, the light guide cover and the base are mutually fixed in a sealing connection mode, the bottom cover is arranged at the bottom of the base, and the sealing connection between the light guide cover and the base plays a role in sealing and waterproofing a thermo-optic module arranged in an inner cavity of the base; the surface of electrode slice is provided with the waterproof layer to the electrode slice sets up at the top of light guide cover with integrated into one piece, thereby makes thermal photoelectric generator's whole water-proof effects better.

2. Through set up a plurality of acupuncture point pressing parts all around at the top of base, when electrode slice contact human treatment position, the acupuncture point pressing part all around of the top of base also can support and press at human skin, plays physical massage physiotherapy effect to the human body, improves user's use and experiences and feel.

Drawings

FIG. 1 is an exploded view of a structure in an embodiment of the present application;

FIG. 2 is an exploded view of another structure in an embodiment of the present application;

FIG. 3 is an overall perspective view of an embodiment of the present application;

FIG. 4 is a front view of an embodiment of the present application;

fig. 5 is a sectional view taken along the direction A-A in fig. 4.

In the figure:

10. a light guide cover; 101. an annular mounting groove; 102. a boss; 103. a connecting column;

20. a base; 201. an acupoint pressing part; 202. a first assembly chamber; 203. a concave portion; 204. a positioning rod; 205. a first support portion;

30. a bottom cover; 301. a second assembly chamber; 302. a second supporting part;

40. an electrode sheet;

50. a thermo-optic module; 501. a circuit board; 5011. a connection hole; 502. a conductive spring; 503. a light emitting member.

Detailed Description

For better understanding of the present technical solution, the following detailed description will be given with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 2, there is provided a thermo-optic generator applied to a massage physiotherapy apparatus, which can be installed at one or more of different positions on a massage belt, a massage glove, a massage cushion. The thermo-optical generator mainly comprises a light guide cover 10, a base 20, a bottom cover 30 and an electrode plate 40. The light guide cover 10 is made of transparent material, and the base 20 can also be made of transparent material, such as transparent plastic and transparent rubber. In the assembly process of the thermal photoelectric generator, the light guide cover 10 is arranged at the top of the base 20, and a part of the bottom of the light guide cover 10 is embedded at the top of the base 20, so that the light guide cover 10 and the base 20 are stably installed and positioned; and the light guide cover 10 and the base 20 are also in sealing connection with each other in an ultrasonic welding mode, so that external moisture can be prevented from entering the inner cavity of the base 20. The bottom cover 30 is arranged at the bottom of the base 20, and a part of the bottom of the base 20 is embedded at the top of the bottom cover 30, so that the base 20 and the bottom cover 30 are stably arranged and positioned more accurately.

In this embodiment of the present application, a waterproof layer is injection molded on the outer surface of the electrode plate 40 by using an ultrasonic technology, the waterproof layer may be transparent plastic or transparent rubber, and then the injection molded electrode plate 40 is injection molded on a preset assembly portion at the top of the light guide cover 10 by using an ultrasonic technology, so that the electrode plate 40 and the light guide cover 10 are connected in an integrated forming manner, and external moisture is further prevented from entering the inner cavity of the base 20.

A thermo-optical module 50 is installed in the base, before the light guide cover 10 and the base 20 are assembled with each other, the thermo-optical module 50 is installed in the inner cavity of the base 20, the thermo-optical module 50 is connected with the electrode plate 40, and the thermo-optical module 50 can generate heat energy, light energy and electric energy; the heat energy generated by the thermo-optic module 50 is transmitted to the electrode sheet 40 through heat conduction, and the electrode sheet 40 contacts the human body for thermal therapy; the thermo-optic module 50 irradiates the human body when generating light energy; when the thermo-optical energy module generates electric energy, low-frequency pulse electromagnetic waves are formed and transmitted to the electrode sheet 40, and the electrode sheet 40 contacts a human body to perform electromagnetic therapy, so that various therapies of heat, light and electricity are realized.

The embodiment of the application provides a be applied to massage physiotherapy equipment's thermophotovoltaic generator, has following technical effect or advantage at least:

compared with the traditional thermo-photoelectric generator of the physiotherapy instrument, the thermo-photoelectric generator is provided with the seat, the cover and the cover on the mounting seat, and the implementation means of mutually fixing and connecting the seat, the cover and the cover by adopting screws are adopted. In the embodiment of the application, the light guide cover 10 of the thermo-optic generator is arranged at the top of the base 20, the light guide cover 10 and the base 20 are mutually fixed in a sealing connection mode, the bottom cover 30 is arranged at the bottom of the base 20, and the sealing connection between the light guide cover 10 and the base 20 plays a role in sealing and waterproofing the thermo-optic module 50 arranged in the inner cavity of the base 20; the outer surface of the electrode sheet 40 is provided with a waterproof layer, and the electrode sheet 40 is integrally formed at the top of the light guide cover 10, thereby making the overall waterproof effect of the thermo-optic generator better.

As shown in fig. 3 and 4, an acupoint pressing portion 201 is provided at the top of the base 20, the acupoint pressing portion 201 protrudes outward from the top of the base 20, and the acupoint pressing portion 201 has a substantially semi-elliptical or hemispherical shape. And a plurality of the acupoints pressing parts 201 are equidistantly arranged along the periphery of the top of the base 20, and at least six acupoints pressing parts 201 are provided in the embodiment of the present application. The concave-convex parts are arranged around the top of the base 20, the top of the base 20 is a circular arrangement track which is arranged around the top of the base 20, and the acupoint pressing parts 201 are arranged on the convex parts around the top of the base 20, so that the design requirements of human mechanics are met.

Thus, by arranging the plurality of acupoint pressing portions 201 around the top of the base 20, when the electrode plate 40 contacts the treatment part of the human body, the acupoint pressing portions 201 around the top of the base 20 also can be pressed against the skin of the human body, thereby playing a physical massage physiotherapy effect on the human body, relieving fatigue for the user and improving the user experience.

The electrode plate 40 is made of elastic metal conductive materials, and the metal conductive materials at least comprise stainless steel electrode plates, copper electrode plates and the like, so that the electrode plate has strong corrosion resistance and strong conductivity.

As shown in fig. 1, an annular mounting groove 101 is formed in the top of the light guide cover 10, the annular mounting groove 101 is formed by recessing the top of the light guide cover 10 inwards, and the electrode plate 40 in the embodiment of the application is approximately circular and has a convex edge around, so that the peripheral convex edge of the electrode plate 40 can be embedded in the annular mounting groove 101, so that the electrode plate 40 can be more firmly mounted on the top of the light guide cover 10, and ultrasonic injection molding sealing is more convenient.

As shown in fig. 1 to 2 and 5, the bottom of the light guide cover 10 is provided with a cylindrical boss 102 protruding outwards, the boss 102 is of an inner hollow structure, the end surface of the boss 102 is provided with at least three inner hollow connecting columns 103 extending vertically downwards, and the three connecting columns 103 are arranged in a tripod-like manner along the inner hollow edge of the boss 102.

The base 20 is provided with a first assembly cavity 202 recessed from the top direction, the top of the base 20 is provided with a top hole by the first assembly cavity 202, and the bottom of the base 20 is provided with a bottom hole by the first assembly cavity 202, so that the base 20 is provided with a bottomless inner hollow by the arrangement of the first assembly cavity 202. An annular concave part 203 is recessed at the junction of the top hole of the first assembly cavity 202 and the top of the base 20, positioning rods 204 are arranged on the bottom surface in the first assembly cavity 202, and the number and arrangement of the positioning rods 204 are corresponding to those of the connecting columns 103 on the boss 102; therefore, when the light guide cover 10 is mounted in the first assembly cavity 202, the boss 102 is pressed down on the recess 203 around the first assembly cavity 202, and the connecting post 103 on the boss 102 has an inner hole, so that it can be correspondingly sleeved on the positioning rod 204, so that the positioning between the light guide cover 10 and the base 20 is more accurate and the assembly is stable.

In the embodiment of the present application, the thermo-optic module 50 includes a circuit board 501, and a conductive spring 502 and a light emitting element 503 mounted on the circuit board 501. When the thermophotovoltaic module 50 is assembled, since the inner wall of the first assembly cavity 202 of the base 20 is provided with a plurality of first supporting portions 205, the circuit board 501 can be mounted in the first assembly cavity 202 and supported on the first supporting portions 205, and a plurality of through connection holes 5011 are formed in the circuit board 501, so that the connection posts 103 on the boss 102 can be sleeved with the positioning rods 204 in the first assembly cavity 202 through the connection holes 5011 of the circuit board 501.

The conductive spring 502 is vertically installed at the middle of the circuit board 501 such that one end of the conductive spring 502 is connected with the circuit board 501 and the other end of the conductive spring 502 is connected with the electrode sheet 40, and the conductive spring 502 is used as a connection medium to connect the circuit board 501 with the electrode sheet 40. And the circuit board 501 is also connected to a power supply and a control system on the host computer by wires.

The light emitting elements 503 are light emitting diodes, the light emitting elements 503 are arranged in plurality, the light emitting elements 503 are equidistantly arranged on the circuit board 501 around the conductive spring 502, the light emitting elements 503 are electrically connected with the circuit board 501, and the circuit board 501 controls the light emitting elements 503 to generate light energy after being electrified. The wavelength of the light emitted by the light emitting diode is 600-800nm, and the specific wavelength of the light can be 622nm, 700nm, 760nm and the like, so that the light emitting diode is a red light emitting diode, and the light emitting part 503 is used for carrying out red light irradiation physiotherapy on the treatment part of the human body.

The thermo-optical module 50 further comprises a heating piece, the heating piece can adopt a heating piece capable of heating after being electrified, the heating piece is installed on the electrode piece 40, the heating piece is electrically connected with the circuit board 501, electric energy is transmitted to the heating piece after the circuit board 501 is electrified, the heating piece converts the electric energy into heat energy, the electrode piece 40 is subjected to heat conduction, and the electrode piece 40 is in contact with a human body, so that hot compress physiotherapy is carried out on the human body.

The thermo-optic module 50 further includes a permanent magnet that generates a magnetic field when energized, mounts the permanent magnet on the circuit board 501, and is electrically connected to the circuit board 501. After the circuit board 501 is electrified, electric energy is transmitted to the coil of the permanent magnet, the permanent magnet obtains low-frequency pulse electromagnetic waves, the low-frequency pulse electromagnetic waves are transmitted to the electrode plate 40 through the conductive spring 502, and the electrode plate 40 contacts the human body, so that electromagnetic physiotherapy is carried out on the human body.

In practical application, after the thermo-optic module 50 is powered on, under the control of the control system, the user can independently select the physiotherapy function, and can independently select the light irradiation physiotherapy of the light emitting part 503 or the hot compress physiotherapy of the heating part 504 or the magnetotherapy of the low-frequency pulse of the electrode slice 40, or can select two or three of the above mentioned physiotherapy modes to meet the diversified physiotherapy selection requirements of the user.

The bottom cover 30 is hollow by being provided to form a second fitting chamber 301, and thus the second fitting chamber 301 penetrates the middle of the bottom cover 30. A plurality of second supporting portions 302 are provided on the inner wall of the second fitting chamber 301 and near the bottom of the bottom cover 30, and when the bottom of the base 20 is mounted in the second fitting chamber 301, the bottom of the base 20 can be pressed down on the second supporting portions 302, thereby supporting the mounting of the base 20. Screw holes are correspondingly formed in the bottom of the base 20 and the second support 302, and the base 20 and the bottom cover 30 are fixedly connected by screws.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. The thermo-optic generator for massage physiotherapy equipment is characterized by comprising a light guide cover, a base, a bottom cover and an electrode slice;

the light guide cover is arranged above the base, the light guide cover and the base are connected in a sealing manner, and the bottom cover is arranged below the base;

the outer surface of the electrode plate is provided with a waterproof layer and is integrally formed at the top of the light guide cover;

and a thermoelectric module is arranged in the base and is connected with the electrode plate.

2. The thermo-optical generator for massaging physiotherapy apparatus according to claim 1, wherein the top of the base is provided with acupoint pressing portions, and the acupoint pressing portions are equidistantly arranged along the circumference of the top of the base.

3. The thermo-optic generator for massaging physiotherapy apparatus according to claim 1, wherein the electrode sheet is an electrode sheet made of elastic metal conductive material.

4. The thermo-optic generator for a massage physiotherapy apparatus according to claim 1, wherein the thermo-optic module comprises a circuit board, a conductive spring and a light emitting member mounted on the circuit board, the circuit board is mounted in the first assembly cavity of the base, the conductive spring is further connected with the electrode sheet, and the light emitting member is electrically connected with the circuit board.

5. The thermo-optic generator for a massage physiotherapy apparatus according to claim 4, wherein the thermo-optic module further comprises a heat generating member disposed on the electrode sheet, and the heat generating member is electrically connected to the circuit board.

6. The thermo-optic generator for a massage physiotherapy apparatus according to claim 4, wherein the thermo-optic module further comprises a permanent magnet disposed on the circuit board and electrically connected to the circuit board.

7. The thermo-optic generator for massaging physiotherapy apparatus according to claim 4, wherein the light emitting elements are light emitting diodes, the light emitting elements are arranged around the conductive spring and on the circuit board in equal distance, and the wavelength of the light emitted by the light emitting diodes is 600-800nm.

8. The thermo-optic generator for a massage physiotherapy apparatus according to claim 1, wherein the bottom cover is hollow by providing an inner portion to form a second fitting chamber, the second fitting chamber inner wall is provided with a plurality of second supporting portions, and the bottom of the base is mounted in the second fitting chamber and is pressed down on the second supporting portions.

9. The thermoelectric generator for massage physiotherapy apparatus according to claim 1, wherein the top of the light guide cover is provided with an annular mounting groove, and the peripheral edges of the electrode pieces are embedded in the annular mounting groove.

10. The thermo-optic generator for massaging physiotherapy apparatus according to claim 1, wherein the bottom of the light guide cover has a boss provided with a vertically downwardly extending hollow connecting post;

the base is internally provided with a first assembly cavity in the top direction, a concave part is recessed at the joint of the first assembly cavity and the top of the base, and a positioning rod is arranged in the first assembly cavity;

the light guide cover is arranged in the first assembly cavity, the boss is pressed down in the concave part, and the connecting column is sleeved on the positioning rod.