CN116764091A

CN116764091A - Photoelectric moxibustion physiotherapy device

Info

Publication number: CN116764091A
Application number: CN202311080047.9A
Authority: CN
Inventors: 孙艳萍; 吴琼; 马晓明
Original assignee: Shenzhen Yuxuandao Technology Co ltd
Current assignee: Shenzhen Yuxuandao Technology Co ltd
Priority date: 2023-08-25
Filing date: 2023-08-25
Publication date: 2023-09-19
Anticipated expiration: 2043-08-25
Also published as: CN116764091B

Abstract

The invention discloses a photoelectric moxibustion physiotherapy device, in particular to the field of photoelectric moxibustion, which comprises a cover cap, wherein an electrode plate is arranged at the edge of the bottom of the cover cap and is used for being attached to skin, and when the electric power is applied, the skin is subjected to electrotherapy through the electrode plate; the middle part of the upper end of the cover cap is provided with an irradiation lamp which is used for irradiating the skin so as to carry out phototherapy on the skin; the middle part of the cover cap is provided with a cavity with an opening at the bottom, and the inside of the cavity is used for containing photon cryogel; a plurality of elastic telescopic pieces which can be telescopic up and down are arranged in the cavity. According to the invention, the elastic rubber cylinder is contacted with the skin and extruded when the elastic rubber cylinder stretches, so that photon cold gel in the region can be extruded away, and air is contacted with the skin at the region for a period of time, so that the skin is prevented from being directly contacted with photon cold gel at a lower temperature for a long time, and is subjected to long-time cold stimulation, and after the skin is contacted with the air, the cold stimulation to a user is reduced, the tingling sensation to the user is avoided, and the physiotherapy experience of the user is improved.

Description

Photoelectric moxibustion physiotherapy device

Technical Field

The invention relates to the technical field of photoelectric moxibustion, in particular to a photoelectric moxibustion physiotherapy device.

Background

The photoelectric moxibustion physiotherapy is an effective method for treating acne, and electrotherapy acts on human body to cause physical and chemical reactions in the body, and achieves the purposes of eliminating etiology, improving metabolism and promoting repair and regeneration of lesion tissues through the action of nerve-body fluid. Phototherapy is that light is directly irradiated on the surface of skin, and can penetrate to the deep layer of the skin, photons selectively act on target tissues by utilizing the principle of selective photothermal action, and the target tissues are heated after absorbing enough light, so that melanin in the target tissues is solidified by heat and then decomposed by organisms.

The "selective photothermal effect" of phototherapy heats skin tissue, while electrotherapy also produces a thermal effect on tissue, and thus, cooling of the skin is required during the photoelectric moxibustion therapy. Photon cryogels are currently used to coat the surface of the skin and then to perform phototherapy.

During photoelectric moxibustion physiotherapy, photon cryogel can play the cold compress effect in order to protect the epidermis layer of the coating region, especially as cold compress medium protection effect at 4 ℃, but photon cryogel at 4 ℃ is coated on the skin for a long time, can cause uncomfortable feeling, for example about 20-30min, and the skin of a user receives long-time cold stimulation of photon cryogel, can lead to the vasoconstriction of the coating region, reduces the skin blood flow of the region, thereby leading the user to generate numbness feeling, and affecting the physiotherapy experience of the user.

Disclosure of Invention

The invention provides a photoelectric moxibustion physiotherapy device, which aims to solve the problems that: when the photon cryogel is used for cooling the skin, the photon cryogel is coated on the surface of the skin for a long time due to lower temperature, so that the skin and muscle are stiff, the blood flow is not smooth, the nerve is ischemic, and the skin is numb and paralyzed after physiotherapy.

In order to achieve the above purpose, the invention provides a photoelectric moxibustion physiotherapy device, which comprises a main machine, wherein a cover connected by a wire is arranged on the main machine, the cover is of a flat truncated cone-shaped structure with one end open, the bottom of the cover is provided with an electrode plate, the electrode plate is used for being attached to skin, and when the electric power is applied, the skin is subjected to electrotherapy by the electrode plate; the cover cap is provided with an irradiation lamp which is used for irradiating light to the skin area surrounded by the cover cap so as to carry out phototherapy on the skin, and the light irradiated by the irradiation lamp to the skin area is one of ultraviolet light, infrared light and pulse laser; the cover has a cavity with an opening at the bottom, the cavity is used for containing photon cryogel, the photon cryogel is maintained at the temperature, and the photon cryogel is coated on the surface of the skin area surrounded by the cover; the inside of the cavity is provided with a plurality of elastic telescopic parts which can be stretched up and down, and the elastic telescopic parts are used for extruding the photon cryogel when stretching up and down so that the photon cryogel moves in the cavity and coated on the surface of the skin area surrounded by the cover.

In a preferred embodiment, the outer side of the upper end of the cover cap is rotationally connected with a rotary cover, a driving component is further installed on the cover cap and used for driving the rotary cover to rotate, the rotary cover is provided with an inlet and an outlet, a vent cavity is further formed in the rotary cover, the outlet is communicated with the vent cavity, one end of the inlet is communicated with the inside of the elastic telescopic member, the other end of the inlet is connected with a fluid medium supply component, and the fluid medium supply component is used for injecting fluid medium into the elastic telescopic member through the inlet.

In a preferred embodiment, the upper end of the elastic telescopic member is opened and fixedly arranged at the top of the chamber, the upper end of the cover is provided with through holes which are in one-to-one correspondence and are communicated with the elastic telescopic members, when the driving assembly drives the rotary cover to intermittently rotate, the inlet is sequentially communicated with each through hole, the fluid medium supply assembly supplies fluid medium into one elastic telescopic member communicated with the inlet to extend the elastic telescopic member, and the fluid medium in the other elastic telescopic members is discharged from the outlet after being extruded by the elastic telescopic member to the exhaust cavity.

In a preferred embodiment, the fluid medium supply assembly comprises a tank, one end of the tank is connected with a refrigerator, the end of the refrigerator, which is far away from the tank, is connected with a delivery pump, the output end of the delivery pump is connected with an inlet, the outlet is communicated with the interior of the tank, and the fluid medium in the tank is delivered to the inlet through the delivery pump.

In a preferred embodiment, the drive assembly includes a first motor fixedly mounted to the cover, a first gear mounted to an output shaft of the first motor, and coupling teeth circumferentially disposed on an outer edge of the rotatable cover.

In a preferred embodiment, an elastic head is disposed in each through hole, one end of the elastic head, which is close to the elastic telescopic member, is in a conical shape with elasticity, and in a natural state, the aperture of the end of the elastic head, which is close to the elastic telescopic member, is smaller than the aperture of the end of the elastic head, which is far away from the elastic telescopic member.

In a preferred embodiment, a clamping assembly is provided in the main machine, the clamping assembly comprising two intermeshing gear segments, the upper ends of both gear segments being fitted with clamping plates.

In a preferred embodiment, the clamping assembly further comprises a second motor and a second gear mounted at the output end of the second motor, the second gear being meshed with one of the sector gears.

In a preferred embodiment, the circumferential direction of the bottom edge of the cover is provided with an adsorption cavity, the adsorption cavity is connected with a negative pressure suction pump through a conduit, and the negative pressure suction pump is used for sucking negative pressure in the adsorption cavity so that the cover is adsorbed on the skin surface of a human body.

In a preferred embodiment, the upper end of the main body has a placement groove for placing the tank, and the upper end of the main body is hinged with an end cover.

The invention has the technical effects and advantages that:

1. according to the invention, the elastic rubber cylinder is contacted with the skin and extruded when the elastic rubber cylinder stretches, so that photon cold gel in the region can be extruded away, and air is contacted with the skin at the region for a period of time, so that the skin is prevented from being directly contacted with photon cold gel at a lower temperature for a long time, and is subjected to long-time cold stimulation, and after the skin is contacted with the air, the cold stimulation to a user is reduced, the tingling sensation to the user is avoided, and the physiotherapy experience of the user is improved.

2. The invention can also play a role of massage by the expansion and contraction of the elastic rubber cylinder, further promote blood flow and enable users to feel comfortable.

3. According to the invention, in the continuous intermittent rotation process of the rotary cover driven by the driving component, fluid medium is sequentially supplied into each elastic telescopic piece, the elastic telescopic pieces are controlled to extend, the elastic telescopic pieces which are not supplied with the fluid medium are shortened, and the plurality of elastic telescopic pieces can be controlled to extend and retract only by one driving component and one fluid medium supply component, so that the structure is simplified.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic diagram of a partial structure of the present invention.

Fig. 3 is a schematic diagram of a partial structure of the present invention.

Fig. 4 is a cross-sectional view one of fig. 3 in accordance with the present invention.

Fig. 5 is a second cross-sectional view of fig. 3 in accordance with the present invention.

Fig. 6 is an enlarged view of a portion of fig. 4 a in accordance with the present invention.

Fig. 7 is a schematic diagram of a partial structure of the present invention.

FIG. 8 is a schematic view of a fluid medium supply assembly and clamping assembly of the present invention.

Fig. 9 is a cross-sectional view of the use of the present invention.

The reference numerals are: 1. a host; 11. a placement groove; 12. an end cap; 2. a cover cap; 21. a chamber; 22. a through port; 221. an elastic head; 23. an adsorption chamber; 3. an electrode sheet; 4. a radiation lamp; 5. an elastic expansion piece; 6. a rotary cover; 61. an inlet; 62. an outlet; 63. an exhaust chamber; 64. a coupling tooth; 7. a drive assembly; 71. a first motor; 72. a first gear; 8. a fluid medium supply assembly; 81. a storage tank; 82. a refrigerator; 83. a transfer pump; 9. a clamping assembly; 91. a sector gear; 92. a clamping plate; 93. a second gear; 94. and a second motor.

Detailed Description

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

Referring to fig. 1-9 of the specification, a photoelectric moxibustion physiotherapy device comprises a main machine 1, wherein a cover 2 connected through a wire is arranged on the main machine 1, the cover 2 is of a flat truncated cone-shaped structure with one end open, an electrode plate 3 is arranged at the bottom of the cover 2, the electrode plate 3 is used for being attached to skin, and when the electric power is applied, the skin is subjected to electrotherapy through the electrode plate 3; the cover 2 is provided with an irradiation lamp 4, the irradiation lamp 4 is used for irradiating light to the skin area surrounded by the cover 2 so as to carry out phototherapy on the skin, and the light irradiated by the irradiation lamp 4 to the skin area is one of ultraviolet light, infrared light and pulse laser; the cover 2 has a bottom open chamber 21, the interior of the chamber 21 is used for containing photon cryogel, the photon cryogel is maintained at 4 ℃, and the photon cryogel is coated on the surface of the skin area surrounded by the cover 2; the inside of the cavity 21 is provided with a plurality of elastic telescopic members 5 which can be telescopic up and down, and the elastic telescopic members 5 are used for extruding the photon cryogel when being telescopic up and down so as to enable the photon cryogel to move in the cavity 21 and spread on the surface of the skin area surrounded by the cover 2.

In the process of photoelectric moxibustion therapy, the cover 2 is not moved when being closely attached to the skin, so that the electrode plate 3 can perform electrotherapy and the irradiation lamp 4 can perform phototherapy, and the cover 2 and the skin can be adhered together by arranging a pressure sensitive adhesive at the bottom of the cover 2, wherein the skin area surrounded by the cover 2 is the skin area surrounded by the cavity 21, namely the skin area of photoelectric moxibustion therapy.

It should be noted that, the electrode sheet 3 may be a PET self-adhesive electrode sheet, a silica gel self-adhesive electrode sheet or a conductive hydrogel electrode sheet, and these electrode sheets are made of conductive soft materials, have strong adhesion to skin, and are easy to be applied to the skin of a human body. A power supply is arranged in the host 1, and the electrode plate 3 is connected with the power supply, so that the skin can be electrically treated. The electrotherapy can use low-frequency electrotherapy, namely low-frequency pulse current below 1000Hz is applied, so that the removal of pain-causing substances and harmful pathological products can be accelerated, the local nutrition metabolism is improved, and the stimulus factors of pain are eliminated or weakened, thereby achieving the purpose of relieving pain.

It should be further noted that, the light source of phototherapy adopts the xenon lamp, the light that the xenon lamp sent should be able to permeate photon cold gel, need prevent again to contact with photon cold gel, so, need set up a light-transmitting plate in the bottom of xenon lamp, light-transmitting plate and shroud 2 fixed connection, the installation of xenon lamp and shroud 2 can adopt the screw thread installation form, the upper end of shroud 2 is convex tube-shape promptly, the internal thread has been seted up, set up the external screw thread on the xenon lamp, thereby make xenon lamp and shroud 2 looks threaded connection. The photon cryogel has good light transmittance, and photons can be preferentially absorbed by pigment clusters in tissues due to the principle of selective photothermal action, so that the pigment clusters and pigment cells are destroyed and decomposed, and the treatment effects of removing spots, removing wrinkles and the like are achieved.

It should be further noted that, the elastic expansion piece 5 may be a bellows-shaped elastic rubber cylinder, the upper end of which is fixed at the top of the chamber 21, and expansion of the elastic rubber cylinder may be controlled by inflating and deflating the elastic rubber cylinder, that is, each elastic rubber cylinder is connected with a suction pump, and the expansion function of the elastic rubber cylinder may be achieved by inflating and deflating the elastic rubber cylinder through the suction pump. The elastic rubber barrels can be provided with three, four, five and six, photon cryogels can be extruded in the continuous expansion process of the elastic rubber barrels, the photon cryogels can relatively flow with the skin in the cavity 21, meanwhile, the elastic rubber barrels can be contacted and extruded with the skin in expansion and contraction processes, the photon cryogels in the area can be extruded away, air can be contacted with the skin in the area for a period of time, so that the skin is prevented from being directly contacted with the photon cryogels with lower temperature such as 4 ℃ for about 20-30min, the skin is subjected to long-time cold stimulation, the cold stimulation suffered by a user can be reduced after the skin is contacted with the air, the user is prevented from producing tingling, the physiotherapy experience of the user is improved, the expansion and contraction of the elastic rubber barrels can also play a role in massaging, the blood flow is further promoted, and the user can have comfort.

Further, by controlling the amount of inflation, the amount of elongation of the elastic rubber tube can be controlled, so that the elastic rubber tube can be contacted with the skin at the longest time, and the elastic rubber tube can be pressed down on the skin to enhance the massage effect, so that the skin is sunk down by about 2mm, and the skin is different from person to person and from body part to body part.

It should be noted that, in the use process, the photon cryogel may be coated on the skin first, then the cover 2 is attached to the skin at the position of the skin, or the photon cryogel may be coated in the cover 2 first, then the cover 2 is attached to the skin at the region, in the first mode, the photon cryogel may be coated uniformly in advance, but care should be taken that the photon cryogel cannot be coated at the position where the cover 2 contacts the skin to prevent the stability of the cover 2 from being affected, in the second mode, the photon cryogel and the skin are not uniform, at this time, the photon cryogel may be extruded uniformly by the expansion and contraction of the elastic rubber cylinder, and in the use, the volume of the photon cryogel may be half of the volume of the cavity 21.

Referring to fig. 1-9 of the specification, a rotary cover 6 is rotatably connected to the outer side of the upper end of the cover 2, a driving component 7 is further mounted on the cover 2, the driving component 7 is used for driving the rotary cover 6 to rotate, the rotary cover 6 is provided with an inlet 61 and an outlet 62, a vent cavity 63 is further formed in the rotary cover 6, the outlet 62 is communicated with the vent cavity 63, one end of the inlet 61 is communicated with the interior of the elastic expansion piece 5, the other end of the inlet 61 is connected with a fluid medium supply component 8, and the fluid medium supply component 8 is used for injecting fluid medium into the elastic expansion piece 5 through the inlet 61.

Further, the upper end of the elastic expansion member 5 is opened and fixedly installed at the top of the chamber 21, the upper end of the cover 2 is provided with the through holes 22 corresponding to the elastic expansion members 5 one by one and communicated with each other, when the driving assembly 7 drives the rotary cover 6 to intermittently rotate, the inlet 61 is sequentially communicated with each through hole 22, the fluid medium supply assembly 8 supplies fluid medium into one elastic expansion member 5 communicated with the inlet 61 to extend the elastic expansion member 5, and the fluid medium in the other elastic expansion members 5 is discharged from the outlet 62 after being extruded by the elastic expansion member 5 to the exhaust cavity 63.

The upper end of the through hole 22 is horizontally oriented, and the bottom end of the inlet 61 is also horizontally oriented, so that the inlet 61 can be connected with the through hole 22 in a butt joint manner in the process of rotating the rotary cover 6.

It should be noted that, in the above description, the rotary cover 6 is sleeved on the outer side of the upper end of the cover 2 and can rotate under the driving of the driving component 7, during the rotation process, each inlet 61 is only communicated with one of the through openings 22, that is, each inlet 61 is only communicated with the interior of one of the elastic telescopic members 5, and all the through openings 22 are also communicated with the exhaust cavity 63, that is, all the elastic telescopic members 5 are also communicated with the exhaust cavity 63, and the fluid medium supply component 8 is disposed in the host 1 and is used for supplying the fluid medium into the elastic telescopic members 5. Since the inlet 61 is in communication with only one elastic expansion element 5 at a time, the fluid medium supply assembly 8 can only supply fluid medium to one of the elastic expansion elements 5 at a time, and the elastic expansion element 5 will be elongated due to the filling of the fluid medium, and the other elastic expansion elements 5 will be shortened because the through openings 22 are in communication with the exhaust chamber 63, and the fluid medium will be discharged outwards. The driving component 7 drives the rotary cover 6 to rotate, so that the inlet 61 can be communicated with the through hole 22 in sequence, and fluid medium is supplied into the elastic telescopic members 5 through the fluid medium supply component 8, and in the continuous intermittent rotation process of the rotary cover 6, the fluid medium is sequentially supplied into each elastic telescopic member 5, the extension of the elastic telescopic members is controlled, the elastic telescopic members 5 which are not supplied with the fluid medium can be shortened, and the expansion and contraction of the elastic telescopic members 5 can be controlled through only one driving component 7 and one fluid medium supply component 8, so that the structure is simplified.

Further, the fluid medium supply assembly 8 includes a tank 81, one end of the tank 81 is connected with a refrigerator 82, an end of the refrigerator 82, which is far away from the tank 81, is connected with a delivery pump 83, an output end of the delivery pump 83 is connected with the inlet 61, the outlet 62 is communicated with the interior of the tank 81, and the fluid medium in the tank 81 is delivered to the inlet 61 through the delivery pump 83.

The refrigerator 82 is used for refrigerating the fluid medium, the delivery pump 83 delivers the refrigerated fluid medium into the elastic expansion member 5, and the fluid medium discharged from the other elastic expansion members 5 can be re-introduced into the storage tank 81 from the outlet 62, thereby realizing recycling.

Further, the driving unit 7 includes a motor 71 fixedly mounted to the cover 2, a gear 72 mounted to an output shaft of the motor 71, and engaging teeth 64 provided at an outer periphery of the rotary cover 6.

The first gear 72 is meshed with the coupling tooth 64, and the first motor 71 drives the rotary cover 6 to rotate through the first gear 72 and the coupling tooth 64. The first motor 71 adopts a gear motor, a power supply can be arranged in the host 1 and connected with the first motor 71, a miniature lithium battery can be also arranged for the first motor 71 to supply power, the first motor 71 drives the rotary cover 6 to continuously and intermittently rotate in the photoelectric moxibustion physiotherapy process, however, the outlet 62 and the inlet 61 are directly or indirectly connected with the storage tank 81 through a hose, the irradiation lamp 4 is also connected with the power supply through a wire, in order to avoid winding of the hose and the wire, after the driving assembly 7 drives the rotary cover 6 to positively rotate for one circle, the rotary cover 6 can be rapidly reversely rotated for one circle through the driving assembly 7, the rotary cover 6 is returned to the initial position, and then the rotary cover 6 is driven to intermittently positively rotate. That is, all the elastic expansion pieces 5 are sequentially fed with the primary fluid medium and then rapidly reversely rotated for one turn, and then the first elastic expansion piece 5 starts to rotate forward, and the problem of winding the hose and the wire can be avoided by repeating the rotating mode.

Further, each through hole 22 is internally provided with an elastic head 221, one end of the elastic head 221 close to the elastic telescopic member 5 is in a cone shape with elasticity, and in a natural state, the aperture of the end of the elastic head 221 close to the elastic telescopic member 5 is smaller than the aperture of the end of the elastic head 221 away from the elastic telescopic member 5.

It should be noted that, the elastic head 221 may be made of elastic rubber, and by setting the elastic head 221 and setting the aperture size at two ends of the elastic head 221, when the fluid medium is supplied into the elastic expansion member 5, one end of the elastic head 221 near the elastic expansion member 5 may be expanded outwards, so that the aperture is enlarged, the fluid medium may rapidly enter the elastic expansion member 5, and when the fluid medium is to be discharged from the elastic expansion member 5, the aperture of the elastic head 221 near one end of the elastic expansion member 5 may not be enlarged, that is, compared with the case where the elastic head 221 is not provided, the outflow speed of the fluid medium may be reduced, so that the time for shortening the elastic expansion member 5 may be prolonged, the time for contacting the bottom end of the elastic expansion member 5 with the skin may be prolonged, so as to shorten the time for the skin to receive cold stimulus, and improve the user experience.

Further, the fluid medium is cooling water.

It should be noted that, the fluid medium may be air, water or oil, but preferably cooling water, after the cooling water is introduced into the elastic telescopic member 5, the temperature of the photon cold gel on the skin may be reduced, the temperature of the photon cold gel is raised due to heat conduction of the skin, the purpose of the reduction is to make the photon cold gel have a continuous cooling effect, the elastic telescopic member 5 is made of elastic rubber, and the heat conduction efficiency is low, so the temperature of the cooling water should be controlled to ensure the cooling effect, for example, when the temperature of the photon cold gel is 4 ℃, the temperature of the cooling water may be controlled to be 2 ℃.

Referring to fig. 1 and 8 of the drawings, a clamping assembly 9 is provided in a main machine 1, the clamping assembly 9 includes two sector gears 91 engaged with each other, and a clamping plate 92 is mounted on the upper ends of the two sector gears 91.

Further, the clamping assembly 9 further comprises a second motor 94 and a second gear 93 mounted on the output end of the second motor 94, wherein the second gear 93 is meshed with one of the sector gears 91.

It should be noted that, the clamping assembly 9 is used for clamping the storage tank 81, the second motor 94 drives one of the sector gears 91 to rotate through the second gear 93, the other sector gear 91 is driven to rotate by the second sector gear 91, the two sector gears 91 are engaged with each other, and the rotation directions are opposite, so that the two clamping plates 92 are driven to approach or separate from each other, and the clamping plates 92 are controlled to clamp the storage tank 81 or release the storage tank 81 through forward and reverse rotation of the second motor 94.

Further, the upper end of the main body 1 has a placement groove 11 opened for placing the reservoir 81, and the upper end of the main body 1 is hinged with an end cap 12.

It should be noted that, the rear end of the end cover 12 is hinged with the host 1 through a hinge, the placing groove 11 is set to be V-shaped, two sides of the placing groove 11 are used for supporting two ends of the storage tank 81, after the storage tank 81 is placed in the placing groove 11, the storage tank 81 is covered by the end cover 12, the front end of the end cover 12 can be further provided with a buckle structure to be installed with the host 1, so that the storage tank 81 cannot shake during carrying, and when the storage tank 81 needs to be removed, the clamping assembly 9 can quickly remove the storage tank 81 after loosening the storage tank 81, thereby facilitating cleaning and replacement.

Referring to fig. 4 and 9 of the specification, an adsorption cavity 23 is formed in the circumferential direction of the bottom edge of the cover 2, the adsorption cavity 23 is connected with a negative pressure suction pump through a conduit, and the negative pressure suction pump is used for sucking negative pressure in the adsorption cavity 23, so that the cover 2 is adsorbed on the skin surface of a human body.

It should be noted that, the negative pressure suction pump is disposed inside the host 1, and is connected with the inside of the adsorption cavity 23 through the connecting pipe, so as to press the cover 2 on the skin of the human body, and the negative pressure suction pump is used for vacuumizing the adsorption cavity 23, so that the negative pressure is formed in the adsorption cavity 23, and the cover 2 is adsorbed on the skin.

Finally: the foregoing is only illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the invention, but rather as various modifications, equivalent arrangements, improvements, etc., within the spirit and principles of the present invention.

Claims

1. The photoelectric moxibustion physiotherapy device comprises a host (1), and is characterized in that: a cover cap (2) connected through a wire is arranged on the host machine (1), the cover cap (2) is of a flat truncated cone-shaped structure with one end open, an electrode plate (3) is arranged at the bottom of the cover cap (2), the electrode plate (3) is used for being attached to the skin, and when the power is on, the skin is subjected to electrotherapy through the electrode plate (3); the cover (2) is provided with an irradiation lamp (4), the irradiation lamp (4) is used for irradiating light to the skin area surrounded by the cover (2) so as to carry out phototherapy on the skin, and the light irradiated by the irradiation lamp (4) to the skin area is one of ultraviolet light, infrared light and pulse laser;

the cover (2) has a cavity (21) with an opening at the bottom, the cavity (21) is internally used for containing photon cryogel, the photon cryogel is maintained at 4 ℃, and the photon cryogel is coated on the surface of the skin area surrounded by the cover (2);

the inside of the cavity (21) is provided with a plurality of elastic telescopic pieces (5) which can be stretched up and down, and the elastic telescopic pieces (5) are used for extruding photon cryogel when stretched up and down so as to enable the photon cryogel to move in the cavity (21) and spread on the surface of the skin area surrounded by the cover cap (2).

2. The electro-optical moxibustion physiotherapy device according to claim 1 characterized in that: the outside of shroud (2) upper end rotates and is connected with rotatory lid (6), still install drive assembly (7) on shroud (2), drive assembly (7) are used for driving rotatory lid (6) rotation, rotatory lid (6) have an import (61) and an export (62), and still seted up exhaust chamber (63) in rotatory lid (6), export (62) and exhaust chamber (63) intercommunication, the one end of import (61) and the inside intercommunication of elastic expansion piece (5), the other end of import (61) is connected with fluid medium supply assembly (8), and fluid medium supply assembly (8) are used for injecting fluid medium in to elastic expansion piece (5) through import (61).

3. A photoelectric moxibustion physiotherapy apparatus according to claim 2 characterised in that: the upper end of the elastic expansion piece (5) is opened and fixedly arranged at the top of the cavity (21), through holes (22) which are in one-to-one correspondence with the elastic expansion pieces (5) and are communicated with each other are formed in the upper end of the cover (2), when the driving assembly (7) drives the rotary cover (6) to intermittently rotate, the inlet (61) is sequentially communicated with each through hole (22), the fluid medium supply assembly (8) supplies fluid medium into one elastic expansion piece (5) communicated with the inlet (61) to enable the elastic expansion piece (5) to stretch, and the fluid medium in other elastic expansion pieces (5) is discharged from the outlet (62) after being extruded by the elastic expansion pieces (5) to the exhaust cavity (63).

4. A photoelectric moxibustion physiotherapy apparatus according to claim 3 characterised in that: the fluid medium supply assembly (8) comprises a storage tank (81), one end of the storage tank (81) is connected with a refrigerator (82), the end portion, far away from the storage tank (81), of the refrigerator (82) is connected with a conveying pump (83), the output end of the conveying pump (83) is connected with an inlet (61), an outlet (62) is communicated with the inside of the storage tank (81), and fluid medium in the storage tank (81) is conveyed to the inlet (61) through the conveying pump (83).

5. The electro-optical moxibustion physiotherapy device according to claim 4 characterized in that: the driving assembly (7) comprises a motor I (71) fixedly installed with the cover cap (2), a gear I (72) installed on an output shaft of the motor I (71), and combining teeth (64) circumferentially arranged on the outer edge of the rotary cover (6).

6. The electro-optical moxibustion physiotherapy device according to claim 5 characterized in that: elastic heads (221) are arranged in each through hole (22), one ends of the elastic heads (221) close to the elastic telescopic pieces (5) are elastic conical, and in a natural state, the aperture of the ends of the elastic heads (221) close to the elastic telescopic pieces (5) is smaller than that of the ends of the elastic heads (221) away from the elastic telescopic pieces (5).

7. The electro-optical moxibustion physiotherapy device according to claim 6 characterized in that: the clamping assembly (9) is arranged in the main machine (1), the clamping assembly (9) comprises two sector gears (91) which are meshed with each other, and clamping plates (92) are arranged at the upper ends of the two sector gears (91).

8. The electro-optical moxibustion physiotherapy apparatus according to claim 7 characterized in that: the clamping assembly (9) further comprises a second motor (94) and a second gear (93) arranged at the output end of the second motor (94), and the second gear (93) is meshed with one of the sector gears (91).

9. The electro-optical moxibustion physiotherapy device according to claim 1 or 8 characterized in that: the suction cavity (23) is formed in the circumferential direction of the bottom edge of the cover cap (2), the suction cavity (23) is connected with the negative pressure suction pump through the guide pipe, and the negative pressure suction pump is used for sucking negative pressure in the suction cavity (23) so that the cover cap (2) is adsorbed on the surface of human skin.

10. The electro-optical moxibustion physiotherapy device according to claim 9 characterized in that: the upper end of the host machine (1) is provided with a placing groove (11) for placing the storage tank (81), and the upper end of the host machine (1) is hinged with an end cover (12).