CN108096712B - Portable phototherapy clothes - Google Patents

Abstract

The invention relates to a portable phototherapy garment, which comprises a garment body, an optical fiber light-guiding and emitting unit and an optical fiber device; the optical fiber light-guiding and emitting unit is arranged on the clothes body; the optical fiber light guide and emitting unit comprises a reflecting film, a light guide plate, a diffusion film, an optical fiber interface and a shell; the surface area of the diffusion film is larger than the surface areas of the reflecting film and the light guide plate; the thickness of the reflecting film is 0.2-0.4mm, the thickness of the light guide plate is 2-4mm, and the thickness of the diffusion film is 20-40 mu m; the diffusion device is detachably arranged at the light emergent position of the diffusion film; the optical fiber device is electrically connected with the optical fiber light guide and emitting unit; the invention adopts a split structure, has simple structure, convenient carrying, low cost and simple operation, and increases the irradiation area through the diffusion device, so that the user can treat the disease anytime and anywhere, and the market prospect is considerable.

Description

Portable phototherapy clothes

Technical Field

The invention relates to the technical field of phototherapy clothes, in particular to portable phototherapy clothes.

Background

Phototherapy is a physical treatment means, which is characterized in that fluorescent lamps are placed in a phototherapy box to generate light rays with different colors and different wavelengths, so as to stimulate a autonomic nervous system and a brainstem reticular structure, regulate blood circulation and endocrine functions, regulate physiological cycle and improve symptoms; at the same time, the light stimulates the retina through visual signals to regulate the function of the pineal body, promotes the release of melatonin by the pineal body, and treats various diseases through the interaction between eyes and the central nervous system and the regulation of the immune system through the lower visual colliculus path.

The existing phototherapy devices on the market at present are generally large and heavy, are inconvenient to carry and complex to operate, can carry out light therapy under the operation of doctors, and are expensive in treatment cost when patients go to hospitals for a long time. Because the treatment can not be carried out anytime and anywhere, the treatment of the patient is intermittent, the effect of the light ray is poor, and the requirement of the patient for carrying out the light therapy at will can not be met.

Disclosure of Invention

The invention aims at overcoming the defects in the prior art and provides a portable phototherapy garment.

To achieve the purpose, the invention adopts the following technical scheme:

a portable phototherapy garment comprises a garment body, an optical fiber light-guiding and emitting unit and an optical fiber device; the optical fiber light-guiding and emitting unit is arranged on the clothes body;

the optical fiber light guide and emitting unit comprises a reflecting film, a light guide plate, a diffusion film, an optical fiber interface and a shell; the light guide plate comprises a light guide plate, a light reflecting film, a diffusion film, a shell, an optical fiber interface and a light source, wherein the light reflecting film is arranged on one side of the light guide plate, the diffusion film is arranged on the other side of the light guide plate, the shell is wrapped and arranged around the light reflecting film and the light guide plate, and the optical fiber interface is arranged at one end of the light guide plate and is positioned on the shell;

the surface area of the diffusion film is larger than the surface areas of the reflecting film and the light guide plate;

the thickness of the reflecting film is 0.2-0.4mm, the thickness of the light guide plate is 2-4mm, and the thickness of the diffusion film is 20-40 mu m;

the diffusion device is detachably arranged at the light emergent position of the diffusion film; the optical fiber device is electrically connected with the optical fiber light guide and emitting unit.

Furthermore, the optical fiber device comprises an optical fiber, an optical fiber plug, an optical fiber machine, a display screen and a key, wherein one end of the optical fiber is connected with the optical fiber machine through the optical fiber plug, the other end of the optical fiber is connected with the optical fiber light-guiding and light-emitting unit, and the display screen and the key are distributed on the surface of the optical fiber machine up and down.

Still further, the diffusion device comprises a light diffusion lens and a lens housing, wherein the light diffusion lens is arranged in the lens housing, and the front surface of the light diffusion lens is provided with a plurality of zigzag ribs which refract parallel light projected on the light diffusion lens at different angles and directions.

Further, the clothes body is also provided with light-emitting unit mounting holes, and the number of the light-emitting unit mounting holes is one or more;

the light-emitting unit mounting hole is circular, elliptical or square.

Still further, still be provided with the unit connection district on the clothes body, the unit connection district distributes and arranges in around the luminous unit mounting hole, optic fibre leaded light luminous unit is connected with the clothes body through the unit connection district.

Further, the light guide plate is provided with a net point group, the net point close to the optical fiber interface is small, and the net point far away from the optical fiber interface is large;

the interval between adjacent net points close to the optical fiber interface is large; the spacing of adjacent dots away from the fiber interface is small.

Still further, the diffusion film comprises a substrate layer and an atomization layer, wherein the atomization layer is composed of bumps made of plastic materials, and the bumps are closely distributed at positions close to the light entering position of the diffusion film.

Still further, still be provided with the accommodation bag on the clothes body, the accommodation bag set up in the nearly bottom of clothes body.

Further, the light guide plate is wrapped with an epoxy resin layer.

The invention has the beneficial effects that: 1. according to the garment disclosed by the invention, the optical fiber light-guiding and emitting unit is arranged on the garment body, and is connected with the optical fiber device, the optical fiber device is internally provided with the light source and is transmitted and introduced through the optical fiber, the optical fiber device controls the color change of various lights on the optical fiber light-guiding and emitting unit, and a user can achieve the purpose of light radiation treatment by using the garment body; 2. according to different organ areas of a human body, the irradiation area can be increased by arranging the diffusion device, so that a treatment range of a larger range is realized; 3. the optical fiber light guide and emitting unit and the optical fiber device adopt split type structures, the structure is simple, the volume of the optical fiber light guide and emitting unit can be made very small, the optical fiber light guide and emitting unit is very thin, the optical fiber light guide and emitting unit is convenient to carry, the cost is low, the operation is simple, and the optical fiber light guide and emitting unit can enable a user to perform light rehabilitation diseases anytime and anywhere, so that the optical fiber light guide and emitting unit has a considerable market prospect.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the overall structure of a portable phototherapy garment of an embodiment of the invention;

FIG. 2 is a cross-sectional view of the overall structure of a fiber optic light guide lighting unit according to one embodiment of the present invention;

FIG. 3 is a top view showing the overall structure of a light guide plate according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view of the overall structure of a diffusion membrane according to one embodiment of the present invention.

Wherein: the garment body 1, the optical fiber light guiding and emitting unit 2, the reflective film 21, the light guiding plate 22, the diffusion film 23, the base material layer 231, the atomization layer 232, the bump 233, the optical fiber interface 24, the housing 25, the optical fiber 31, the optical fiber plug 32, the optical fiber machine 33, the display screen 34, the key 35, the accommodating bag 4, the unit connection area 5, the light diffusion lens 61, the zigzag rib 611 and the lens housing 62.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

A portable phototherapy garment, as shown in fig. 1-4, comprises a garment body 1, an optical fiber light guiding and emitting unit 2 and an optical fiber device; the optical fiber light-guiding and light-emitting unit 2 is arranged on the clothes body 1;

the optical fiber light guide and emitting unit 2 comprises a reflecting film 21, a light guide plate 22, a diffusion film 23, an optical fiber interface 24 and a shell 25; the light guide plate 22 is provided with the reflective film 21 on one side and the diffusion film 23 on the other side, the housing 25 is wrapped around the reflective film 21 and the light guide plate 22, and the optical fiber interface 24 is arranged at one end of the light guide plate 22 and is positioned on the housing 25;

the surface area of the diffusion film 23 is larger than the surface areas of the light reflecting film 21 and the light guiding plate 22;

the thickness of the reflecting film 21 is 0.2-0.4mm, the thickness of the light guide plate 22 is 2-4mm, and the thickness of the diffusion film 23 is 20-40 μm;

a diffusion device is also arranged at the light emergent position of the diffusion film 23 in a detachable way; the optical fiber device is electrically connected with the optical fiber light guiding and emitting unit 2.

According to the invention, the optical fiber light-guiding and light-emitting unit 2 is arranged on the clothes body 1, the optical fiber light-guiding and light-emitting unit 2 is connected with the optical fiber device, the optical fiber device is internally provided with a light source, the light is transmitted and led in through the optical fiber, the optical fiber device controls the color change of various lights on the optical fiber light-guiding and light-emitting unit 2, and a user can achieve the purpose of light radiation treatment by using the clothes body 1.

The optical fiber light guiding and emitting unit 2 is provided with the light guiding plate 22, and the light guiding plate 22 can guide the light of the optical fiber interface 24 on the side surface to the surface of the whole light guiding plate 22 to play a role in light guiding; by providing the diffusion film 23 and the reflection film 21, the reflection film 21 reflects the light on the surface of the light guide plate 22 so as to enter the diffusion film 23, and the diffusion film 23 diffuses the light reflected by the reflection film 21.

By providing the housing 25, the housing 25 stably connects the reflective film 21, the light guide plate 22, the diffusion film 23 and the optical fiber interface 24 together, so that the optical fiber light guide and light emitting unit 2 as a whole is mounted on the garment body 1, and the function of protecting the optical fiber light guide and light emitting unit 2 is achieved.

The optical fiber light guiding and emitting unit 2 can guide the light of the optical fiber interface 24 (such as ultraviolet LED, infrared LED, visible LED, etc.) on the side surface out of the whole surface of the light guiding plate 22, and the light enters the diffusion film 23 through the emission of the reflective film 21, and then passes through the light diffusion effect of the diffusion film 23, so that the light can be uniformly distributed on the light emitting surface of the diffusion film 23, and the light is radiated on the corresponding organ or part of the human body, thereby playing the role of light rehabilitation.

The thickness of the reflecting film 21, the light guide plate 22 and the diffusion film 23 is thinner, the weight is light, the carrying is facilitated, and the human body cannot feel burden when wearing clothes; the material of the diffusion film is PCV diffusion film, and the diffusion film has the property of folding and curling, namely can be reduced in the transportation process, and can enlarge the area when being installed on clothes to start working, and meanwhile, the diffuser is arranged on the light-emitting surface of the diffusion film, so that the irradiation of a larger range is realized.

The optical fiber light guide and emitting unit 2 and the optical fiber device adopt split type structures, so that the problems that phototherapy equipment in the prior art is huge, difficult to carry and complex to operate are solved, and the like, and a user can perform light rehabilitation anytime and anywhere, so that a large irradiation treatment area is realized.

Further, the optical fiber device comprises an optical fiber 31, an optical fiber plug 32, an optical fiber machine 33, a display screen 34 and a key 35, one end of the optical fiber 31 is connected with the optical fiber machine 33 through the optical fiber plug 32, the other end of the optical fiber 31 is connected with the optical fiber light-guiding and light-emitting unit 2, and the display screen 34 and the key 35 are distributed on the surface of the optical fiber machine 33.

The optical fiber device is provided with the optical fiber machine 33, and the light emitted by the optical fiber machine 33 is led into the light source through the optical fiber interface 24, so that the optical fiber light guiding and emitting unit 2 is controlled to emit different lights to treat diseases of a user.

By arranging the optical fiber 31 for connecting the optical fiber light guiding and emitting unit 2 and the optical fiber machine 33, a split structure is formed, so that the optical fiber device is convenient to carry and place;

by arranging the optical fiber plug 32, the optical fiber plug 32 can be plugged and unplugged at will, and the optical fiber light-guiding and emitting unit 2 is connected with the optical fiber machine 33, so that a user can conveniently treat at any time and any place;

by providing the display screen 34, electro-optic parameters and time periods may be monitored to facilitate rational radiation therapy by the user;

by setting the keys 35, the keys 35 are used for controlling various functions and switching systems, and the aim of the required treatment can be achieved by using the keys 35 according to the treatment requirements of the user by observing the display screen 34.

Further, the diffusing device includes a light diffusing lens 61 and a lens housing 62, the light diffusing lens 61 is disposed in the lens housing 62, and the front surface of the light diffusing lens 61 is provided with a plurality of saw-tooth ribs 611 that refract parallel light rays projected on the light diffusing lens 61 at different angles and directions.

The light diffusion lens 61 is a washboard-shaped lens, and the washboard-shaped lens is rectangular, circular, elliptical or regular polygon; the plurality of zigzag ribs 611 arranged on the washboard-shaped lens are bilaterally symmetrical by taking the geometric center line of the washboard-shaped lens as a symmetrical center line, and the zigzag ribs 611 are linear ribs; the diffusion device is convenient to install and arrange and good in using effect, and can effectively solve the practical problem that the irradiation area of the optical fiber light guide and emitting unit 2 is small.

Further, the garment body 1 is further provided with a light-emitting unit mounting hole, and the number of the light-emitting unit mounting holes is one or more; the light-emitting unit mounting hole is circular, elliptical or square.

The light-emitting unit mounting holes are formed in the clothes body 1 and are used for mounting or dismounting the optical fiber light-guiding light-emitting units 2, so that the clothes is convenient and quick, a human body can immediately realize light recuperation by wearing the clothes body 1, and a plurality of light-emitting unit mounting holes are formed according to a certain organ and part of the human body, and therefore the treatment requirement of a user in a plurality of positions is met; meanwhile, the corresponding organs of the treated part and the radiation area covered by the light are different in shape and have different sizes, so that the light-emitting unit mounting hole is designed to be circular, elliptical or square, and the like, so that the light of the optical fiber light-guiding light-emitting unit 2 can be completely radiated or covered on the organs or positions of the human body to be treated, and the shape requirement of the treated part of a user is met.

Still further, the garment body 1 is further provided with a unit connection area 5, the unit connection area 5 is distributed around the light-emitting unit mounting hole, and the optical fiber light-guiding light-emitting unit 2 is connected with the garment body 1 through the unit connection area 5.

The optical fiber light guide and emitting unit 2 is arranged on the clothes body 1, and the optical fiber light guide and emitting unit 2 can be stably arranged and fixed on the clothes body 1 by arranging the unit connection area 5, so that the carrying is facilitated; the unit connection area 5 can be used for sewing or installing accessories such as buttons, snap fasteners, magic tapes, magnets, iron sheets and the like, the snap fasteners can be four-way fasteners, lifting fasteners, hidden fasteners, snap buttons and the like, the magic tapes can be sticking buckles, and the clothes body 1 and the optical fiber light-guiding and light-emitting unit 2 can be connected through the accessories, so that the unit connection area 5 can be convenient for the optical fiber light-guiding and light-emitting unit 2 and the clothes body 1 to be rapidly detached and assembled, and the unit connection area is safe and reliable.

Further, the light guide plate 22 is provided with a network point group, wherein the network point close to the optical fiber interface 24 is small, and the network point far away from the optical fiber interface 24 is large; the spacing of adjacent dots near the fiber optic interface 24 is large; the spacing of adjacent dots away from the fiber optic interface 24 is small.

In the light guide plate 22, the mesh points close to the optical fiber interface 24 are small and sparse, and the mesh points far away from the optical fiber interface 24 are large and dense; preferably, the density of dots near the fiber interface 24 is about 150000 to 200000 dots per square meter; the density of dots far from the fiber interface 24 is about 200000 to 250000 dots per square meter, and the larger and denser dots have higher brightness, while the smaller and sparser dots have lower brightness, so that the shorter side Shan Ceru light can be adopted, and the number of the fiber interface 24 is reduced, thereby reducing the cost.

Further, the diffusion film 23 includes a substrate layer 231 and an atomization layer 232, the atomization layer 232 is composed of plastic bumps 233, and the bumps 233 are closely distributed near the light entrance of the diffusion film 23. The diffusion film 23 is provided with the protruding block 233, and the protruding block 233 may be a bead, a cone or a frustum, which has an atomization effect; the diffusion film 23 has excellent optical performance, good transmittance and high glossiness, and has the effect of light diffusion, and by increasing the distribution density of the protruding blocks 233 at the light entrance near the diffusion film 23, the light emitted by the optical fiber interface 24 becomes uniform, thereby improving the firefly phenomenon of alternating brightness and darkness.

Still further, the clothes body 1 is further provided with a containing bag 4, and the containing bag 4 is disposed at the near bottom end of the clothes body 1. Through be provided with on the clothes body 1 hold bag 4, hold the bag 4 and be used for holding optical fiber machine 33, because optical fiber machine 33 with the phototherapy device that optical fiber leaded light luminescence unit 2 constitutes adopts split type structure, in the use phototherapy device in-process, the user can be through the operation in clothes body 1 peripheral hardware optical fiber machine 33 control optical fiber leaded light luminescence unit 2 shines, and when not using, can place optical fiber machine 33 on hold bag 4, play and place the storage optical fiber machine 33, avoid optical fiber machine 33 does not have the problem of placing, and convenient to carry can satisfy and carry out light recuperation wanting at any time.

Further, the light guide plate 22 is provided with an epoxy layer. The epoxy resin layer is obtained by performing a glue sealing process on the light guide plate 22, and the main steps comprise glue coating, baking, epoxy resin packaging and the like, so that the manufacturing process is simple and easy, and the light guide plate 22 subjected to glue sealing treatment can effectively improve the leakage rate and the luminous brightness of the light guide plate 22, thereby effectively prolonging the service life of the light guide plate 22, realizing an effective phototherapy effect, and being low in production cost and suitable for mass production.

According to the portable phototherapy garment disclosed by the invention, the optical fiber light-guiding and emitting unit 2 and the optical fiber device are arranged on the garment body 1, after a user uses the portable phototherapy garment, the optical fiber light-guiding and emitting unit 2 can be controlled to emit light through the optical fiber device, the optical fiber light-guiding and emitting unit 2 can guide the light of the optical fiber interface 24 on the side surface out of the whole surface of the light-guiding plate 22, the light enters the diffusion film 23 through the emission of the reflecting film 21 and then the light diffusion effect of the diffusion film 23, so that the light can be uniformly distributed on the light-emitting surface of the diffusion film 23, and the light is radiated on the corresponding organ or part of a human body to play a role in light rehabilitation. According to different organ areas of the human body, the diffuser is arranged, so that the irradiation area can be increased, and a larger treatment range can be realized. The optical fiber light guide and emitting unit 2 and the optical fiber device adopt split structures, the structure is simple, the volume of the optical fiber light guide and emitting unit 2 can be made small, thin and convenient to carry; the cost is low, the method is suitable for large-scale market popularization, and the method is not as expensive as medical equipment in hospitals; the operation is simple, the doctor does not need to see, the operation can be carried out, the problems that phototherapy equipment in the prior art is huge and difficult to carry, electric shock is generated, the operation is complex and the like are solved, the user can conduct the light rehabilitation disease anytime and anywhere, and the market prospect is considerable.

The foregoing is merely exemplary of the present invention, and those skilled in the art should not be considered as limiting the invention, since modifications may be made in the specific embodiments and application scope of the invention in light of the teachings of the present invention.

Claims (7)

1. A portable phototherapy garment, characterized in that: comprises a garment body, an optical fiber light-guiding and emitting unit and an optical fiber device; the optical fiber light-guiding and emitting unit is arranged on the clothes body;

the optical fiber light guide and emitting unit comprises a reflecting film, a light guide plate, a diffusion film, an optical fiber interface and a shell; the light guide plate comprises a light guide plate, a light reflecting film, a diffusion film, a shell, an optical fiber interface and a light source, wherein the light reflecting film is arranged on one side of the light guide plate, the diffusion film is arranged on the other side of the light guide plate, the shell is wrapped and arranged around the light reflecting film and the light guide plate, and the optical fiber interface is arranged at one end of the light guide plate and is positioned on the shell;

the surface area of the diffusion film is larger than the surface areas of the reflecting film and the light guide plate;

the thickness of the reflecting film is 0.2-0.4mm, the thickness of the light guide plate is 2-4mm, and the thickness of the diffusion film is 20-40 mu m;

the diffusion device is detachably arranged at the light emergent position of the diffusion film; the optical fiber device is electrically connected with the optical fiber light guide and emitting unit;

the diffusion device comprises a light diffusion lens and a lens shell, wherein the light diffusion lens is arranged in the lens shell, and the front surface of the light diffusion lens is provided with a plurality of zigzag ribs which are used for refracting parallel light rays projected on the light diffusion lens at different angles and directions;

and the light guide plate is wrapped with an epoxy resin layer.

2. The portable phototherapy garment of claim 1, characterized in that: the optical fiber device comprises an optical fiber, an optical fiber plug, an optical fiber machine, a display screen and a key, wherein one end of the optical fiber is connected with the optical fiber machine through the optical fiber plug, the other end of the optical fiber is connected with the optical fiber light-guiding and light-emitting unit, and the display screen and the key are distributed on the surface of the optical fiber machine up and down.

3. The portable phototherapy garment of claim 1, characterized in that: the garment body is also provided with light-emitting unit mounting holes, and the number of the light-emitting unit mounting holes is one or more;

the light-emitting unit mounting hole is circular, elliptical or square.

4. A portable phototherapy garment according to claim 3, characterized in that: the garment body is further provided with a unit connection area, the unit connection area is arranged around the light-emitting unit mounting hole, and the optical fiber light-guiding light-emitting unit is connected with the garment body through the unit connection area.

5. The portable phototherapy garment of claim 1, characterized in that: the light guide plate is provided with a net point group, the net point close to the optical fiber interface is small, and the net point far away from the optical fiber interface is large;

the interval between adjacent net points close to the optical fiber interface is large; the spacing of adjacent dots away from the fiber interface is small.

6. The portable phototherapy garment of claim 1, characterized in that: the diffusion film comprises a substrate layer and an atomization layer, wherein the atomization layer is formed by bumps made of plastic materials, and the bumps are closely distributed at positions close to the light entering position of the diffusion film.

7. The portable phototherapy garment of claim 1, characterized in that: the clothes body is also provided with a containing bag, and the containing bag is arranged at the near bottom end of the clothes body.