WO2020024328A1 - Light guide apparatus, laser clothing material, and therapeutic clothing - Google Patents

Abstract

A light guide apparatus, a laser clothing material, and a therapeutic clothing. The light guide apparatus comprises a light guide structure and laser light sources. At least two of the laser light sources are provided, comprising a first laser light source (11) and a second laser light source (12). The light guide structure comprises at least one first light guide element (21). One end of the light guide element (21) is connected to the first laser light source (11). The other end of the first light guide element (21) is connected to the second laser light source (12). The light guide structure is made using a light guide material. The therapeutic clothing, utilizing a laser therapeutic structure dominated by the light guide apparatus, provides great therapeutic effects with respect to various diseases, comprising diabetes and senile dementia.

Description

Light guide device, laser clothing material and therapeutic clothing Technical field

The invention belongs to the technical field of laser treatment, and particularly relates to a light guide device, laser clothing material and therapeutic clothing.

Background technique

Alzheimer's disease, diabetes, etc. have always been one of the few common human diseases that have not yet been overcome worldwide. At present, there are no drugs that can effectively treat Alzheimer's disease, diabetes, etc. Under the current technology, the global attack and treatment plan are mainly early Diagnose and control the condition.

The market is full of many therapeutic equipment such as diabetes therapy instruments, which can achieve auxiliary treatment of diabetes. The main principle is to use magnetic therapy, music, laser or low-frequency pulses. However, the implementation principles of these devices are directly transmitted to the human body through the device, and the treatment signals received by the human body are limited, resulting in a poor treatment effect.

The Chinese invention patent CN201510750376.9 discloses a portable weak laser physiotherapy clothing. The light-in port of the conductive fiber is connected to the clothing, and the light-out port is connected to the laser. Laser treatment. However, in this patent, the light guide structure formed by conductive fiber and fiber fabric is used to conduct light, and fiber fabric is used for astigmatism. Because fiber fabric only relies on the conductive fiber to enter the light, the light at the position connected to the incident end of the conductive fiber will be relatively strong. At the other end, the light is very weak or not even, so there will be a serious problem of uneven astigmatism, which will eventually lead to a very poor treatment effect.

Summary of the invention

A first object of the present invention is to provide a light guide device for solving the problems in the prior art. The light guide device uses different laser light sources to guide light to the same light guide. The light is directionally transmitted, and the light is dispersed more uniformly. The light effect is better, avoiding the problem of insufficient light transmission caused by the large turn of the light guide;

A second object of the present invention is to provide a laser clothing material in response to the problems in the prior art. A light guiding device is provided in the clothing material, which has a good light guiding effect, a larger contact area with the human body, and uniform light dispersion. , The treatment effect is better, which avoids the problem caused by too much light concentration in the prior art: the problem that the human body cannot bear the light concentration position, and the light transmission is not in place to achieve the treatment effect;

A third object of the present invention is to provide a treatment garment made of laser clothing material in response to the problems in the prior art, which has a good light guiding effect, and can realize a full range of laser treatments on the entire body and contact with the human body. The area is larger, which effectively improves the treatment effect.

In order to achieve the first object, the technical solution adopted by the present invention is:

A light guide device including a light guide structure and a laser light source;

Wherein, at least two laser light sources are provided, including a first laser light source and a second laser light source;

The light guide structure includes at least one first light guide, one end of the first light guide is connected to the first laser light source, and the other end of the first light guide is connected to the first light guide. A second laser light source connection;

The light guiding structure is made of a light guiding material.

Further, the light guide structure further includes at least one second light guide, one end of the second light guide is connected to the first light guide, and the first light guide The tangent direction of the light transmission direction is a first preset direction, and the tangent direction of the light transmission direction of the incident end of the second light guide is a second preset direction, and the first preset direction and the first The included angle of the two preset directions is less than 90 °.

Furthermore, two ends of the second light guide are connected to different first light guides.

Furthermore, the distance between the connection points of two adjacent second light guides on the first light guide is 0.1-20 cm.

Further, the second light guide is a linear structure or an arc structure.

Further, the light guide structure further includes a third light guide, and two ends of the third light guide are connected to the same first light guide, and a middle of the third light guide A closed loop connection structure is formed after partially surrounding the other first light guides.

Further, in the light guide structure, the corners of each connection point position are rounded.

Further, one side of the light guiding structure is provided with a first light blocking layer for blocking light from exiting, so that light can be emitted from the other side more concentratedly.

Furthermore, the first light-blocking layer is at least one of a reflective coating, a total reflection light-sparse layer, or a light-blocking baffle.

Furthermore, a side on which the light from the light guide structure exits is a convex curved structure.

Furthermore, in the thickness direction, the thickness of the middle portion of the light guide structure to the thicknesses on both sides gradually decreases.

Furthermore, the first light-blocking layer and one side of the light-guiding structure where the first light-blocking layer is located are at least one of linear, V-shaped, trapezoidal, curved or U-shaped. .

Further, the material of the light guide structure is at least one of silica gel, silicone resin, polystyrene, PMP, polyurethane, polycarbonate, or polymethyl methacrylate.

Further, the Shore A hardness of the material of the light guide structure is between 0 and 60.

Further, the width of the light guiding structure is 0.3-5 cm, and the thickness is 0.1-1 cm.

Further, the aspect ratio of the light guide structure is between 2: 1 and 6: 1.

Further, each of the laser light sources has a plurality of lasers, and each of the lasers is connected with one of the first light guides, and a plurality of the first light guides are connected between two adjacent ones of the first light guides. The second light guide member forms a mesh structure.

Further, at least one laser in each laser light source, each laser has a laser output end or two laser output ends in opposite directions, and each laser output end is connected to the first light guide.

Further, the laser light source includes at least one laser, the first light guide is connected to the laser, and a second light blocking layer is provided at the connection end.

Further, an end portion of the first light guide member connected to the laser is a planar structure perpendicular to an axis line of the first light guide member.

Further, the laser light source can emit red light and near-infrared light, and can switch to each other within a set time interval.

Further, the laser light source can be cyclically switched between the working state and the off state, and the duration of the working state and the duration of the off state are independently set.

Further, the power density released by the laser light source during each operation is between 1 mW / cm2 and 200 mW / cm2.

In order to achieve the second objective, the technical solution adopted by the present invention is:

A laser clothing material includes clothing material and the light guiding device, and the light guiding device is fixed on one side of the clothing material;

The clothing material is made of a material capable of blocking light emitted from the light guiding structure.

In order to achieve the second object, the present invention also provides another technical solution:

A laser clothing material includes a clothing inner layer material, a clothing surface layer material, and the light guide device, and the light guide device is fixed between the clothing inner layer material and the clothing surface layer material;

The clothing surface material is made of a material capable of blocking light emitted from the light guiding structure;

The material of the inner layer of the garment is made of a material capable of emitting light through the light guiding structure.

Further, the material of the clothing surface layer is made of a material having a light transmittance of less than 20%.

Further, the material of the inner layer of the clothing is made of a transparent or translucent material with a light transmittance greater than 50%.

Further, the laser light source is arranged between the inner material of the garment and the outer material of the garment.

Further, the light source control system of the laser light source is connected with a remote control or a mobile phone APP, and is connected through a wireless communication module. The remote control and the mobile phone APP both store a variety of disease treatment schemes and can remind Use on time by the patient.

In order to achieve the third objective, the technical solution adopted by the present invention is:

A treatment garment made of the laser clothing material, the treatment garment is clothes or pants, the laser light source is arranged at a sewing position of the treatment garment, and the laser light source is provided with a A laser that emits laser light in two opposite directions, a plurality of the first light guides are connected to both sides of the laser light source, and a single of the first light guides is arranged in the same laser clothing material.

Further, in the same laser clothing material, two adjacent first light guide members are connected through a plurality of the second light guide members.

In order to achieve the third object, the present invention also provides another technical solution:

A therapeutic dress made of the laser clothing material is a knee pad, a neck pad, a shoulder pad or a waist pad.

Since the above technical solution is adopted, the beneficial effects of the present invention are:

Compared with the case where one end of a light guide is connected to a laser light source, the light guide device provided by the present invention conducts light from one end to the end, and when it reaches the end, the light is weaker when it is finally transmitted to the end due to a middle turn or the like. Severely weaken the treatment effect; compared to the case where two ends of a light guide are connected to a laser light source at the same time, the light starts from the same laser light source at both ends. Since the two ends of the light guide are at the same starting point, there must be a turn in the middle Structure (When the turning angle is large, there will be a large 360 ° turn, the light at the turn will be greatly lost, and the light from the two laser light sources will hardly have a superimposing effect on each other), so it will also affect the light source at the turn. Conduction is weakened, greatly reducing the effect of treatment. In the light guide device of the present invention, the conductive light path formed by the first light guide member is connected to the laser light source at both ends, and both ends of the light enter at the same time, which has a good superposition and enhancement effect, so that the light fills the whole more uniformly. In the light guide, the treatment effect of the light guide device on laser treatment is effectively improved.

The laser clothing material provided by the present invention uses the clothing material as a carrier and is equipped with a light guide device, which can use the light blocking effect of the clothing material to block the light of the light guide structure on the one hand and cover the laser light source on the other hand. Prevent the light emitting end of the laser light source from leaking light and causing harm to the human body. Furthermore, the double-layered clothing material on the inner and outer layers is used. The material on the inner layer of the clothing can penetrate the light of the light guide device to cool the human body. Can block part of the light, avoiding the light energy being too strong and causing loss to the human body;

The treatment clothing provided by the present invention uses a laser treatment structure with a light guide device as the main body, and can have a good treatment effect on a variety of diseases, including diseases such as diabetes and dementia.

BRIEF DESCRIPTION OF THE DRAWINGS

1 is a front view of a first embodiment of a light guide device according to the present invention;

2 is a front view of a second embodiment of a light guide device according to the present invention;

3 is a front view of a third embodiment of the light guide device of the present invention;

4 is a front view of a fourth embodiment of the light guide device of the present invention;

5 is a front view of a fifth embodiment of the light guide device of the present invention;

6 is a cross-sectional view of a first light guide of the present invention, wherein (a), (b), (c), (d), and (f) are cross sections of the first light guide in five different states;

7 is a cross-sectional view of a first embodiment of a laser apparel material of the present invention;

8 is a cross-sectional view of a second embodiment of the laser apparel material of the present invention;

FIG. 9 is a front view of a first embodiment of a therapeutic dress of the present invention as clothing; FIG.

FIG. 10 is a rear view of the first embodiment of the therapeutic clothing of the present invention as clothing; FIG.

FIG. 11 is a front view of a second embodiment of a therapeutic dress of the present invention as clothing; FIG.

FIG. 12 is a rear view of a second embodiment of the therapeutic apparel of the present invention as clothing; FIG.

FIG. 13 is a front view of the first embodiment of the therapeutic apparel of the present invention as pants;

FIG. 14 is a rear view of the therapeutic garment of the present invention as pants;

15 is a front view of a second embodiment of the therapeutic apparel of the present invention as pants;

FIG. 16 is a rear view of the therapeutic apparel of the present invention as pants;

FIG. 17 is a schematic diagram of the distribution of the light guide device in the therapeutic apparel of the present invention; FIG.

FIG. 18 is a front view of a sixth embodiment of the light guide device according to the present invention.

Reference signs: 10-laser, 11-first laser light source, 12-second laser light source, 20-first light blocking layer, 21-first light guide, 22-second light guide, 23-third Light guide, 301-apparel material, 311-apparel inner material, 312-apparel surface material.

detailed description

In order to make the objectives, technical solutions, and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments It is a part of the embodiments of the present invention, but not all the embodiments. The components of embodiments of the invention, generally described and illustrated in the figures herein, can be arranged and designed in a variety of different configurations.

Therefore, the following detailed description of the embodiments of the present invention provided in the drawings is not intended to limit the scope of the claimed invention, but merely represents selected embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

It should be noted that similar reference numerals and letters indicate similar items in the following drawings, so once an item is defined in one drawing, it need not be further defined and explained in subsequent drawings.

The terms "first", "second", "third" and the like are only used to distinguish descriptions and cannot be understood to indicate or imply relative importance.

In addition, the terms "parallel", "vertical", etc. do not imply that the components are absolutely parallel or vertical, but may be slightly inclined. For example, "parallel" simply means that its direction is more parallel than "vertical", which does not mean that the structure must be completely parallel, but it can be slightly inclined.

In the description of the present invention, it should also be noted that the terms "setup", "installation", "connected", and "connected" should be understood in a broad sense, for example, fixed connections, unless otherwise specified and limited. It can also be detachable or integrally connected; it can be directly connected, or it can be indirectly connected through an intermediate medium, and it can be the internal communication of two elements. For those of ordinary skill in the art, the specific meanings of the above terms in the present invention can be understood on a case-by-case basis.

Referring to Figs. 1-6, a light guide device of the present invention is configured in clothes, pants, hats, knee pads, neck pads, shoulder pads, or waist pads, and can be used for the treatment of diabetes and the elderly in humans by means of laser irradiation. Laser treatment for diseases such as dementia.

Specifically, the light guide device includes a light guide structure and a laser light source. The light guide structure is made of a light guide material, such as silica gel, silicone resin, polystyrene, PMP, polyurethane, polycarbonate, or polymethyl methacrylate. However, it is not limited to this, and other light guide materials capable of transmitting laser light may also be used.

1, at least two laser light sources are provided, including a first laser light source 11 and a second laser light source 12. The light guide structure includes at least one first light guide 21, one end of the first light guide 21 is connected to the first laser light source 11, and the other end of the first light guide 21 is connected to the second laser light source 12, so that the first light guide The two ends of the light piece 21 are connected to different laser light sources. The first light guide piece 21 can be arranged along a straight track or a curved track, without the need for a large-turn trajectory arrangement, such as a 360 ° big turn , To reduce the loss of light during transmission as much as possible, and at the same time do not need to set too complicated reflective structure to achieve the turning of light. By adopting the method of connecting the first laser light source 11 and the second laser light source 12 at the two ends of the first light guide 21 respectively, the light sources at the two ends of the light guide project into the first light guide 21 at the same time. , So that the light is more evenly filled into the entire light guide, and eventually diffuses out to form an effective treatment for the human body.

Referring to FIGS. 2-4, the light guide structure further includes at least one second light guide 22. One end of the second light guide 22 is connected to the first light guide 21 and is formed by the first light guide 21. The main light path, the second light guide 22 connected to the first light guide 21 as a light splitting path, effectively expands the area that the light can reach, greatly improves the effective range of light, and improves the light energy. Uniformity, avoiding the situation where the light is too concentrated and the body cannot accept it. The second light guide 22 may be connected to the first light guide 21 at one end, or may be connected to the first light guide 21 at different positions at both ends, and may be arranged and connected according to position requirements. Of course, the second light guide 22 and the second light guide 22 may also be cross-connected with each other to be dispersed as uniformly as possible.

The arrangement trajectory of the second light guide 22 may be a straight trajectory or a curved (or arc) trajectory. Of course, other trajectories may also be used for arrangement. The tangent direction of the light transmission direction of the first light guide 21 is the first preset direction, and the tangent direction of the light transmission direction of the incident end of the second light guide 22 is the second preset direction. The included angle α of the two preset directions is less than 90 °. As shown in the figure, such an angle connection can ensure that the light enters the second light guide 22 from the first light guide 21 as much as possible, and is more uniformly dispersed.

When multiple first light guides 21 are provided, since the first light guide 21 itself cannot perform sharp turns, etc., resulting in uneven light sources, the places where the first light guide 21 cannot radiate can be The second light guide 22 is a good solution, which effectively expands the area that the light can reach, and greatly improves the effective range of the light.

Referring to FIG. 5, the light guide structure further includes a third light guide 23, and both ends of the third light guide 23 are connected to the same first light guide 21 and third light guide 23. The middle portion surrounds and connects the other first light guides 21 to form a closed-loop connection structure. As shown in FIG. N, for the case where a plurality of first light guides 21 with a scattering distribution are connected by a certain laser light source, a closed-loop connection can be formed by connecting the third light guide 23, which effectively extends the reach of the light. The area range greatly improves the effective range of light.

In the present invention, for the light guide structure, the first light guide 21 and the second light guide 22 are combined with each other, the first light guide 21 and the third light guide 23 are combined with each other, or the first light guide 21 and the first The second light guide 22 and the third light guide 23 are combined with each other. After the second light guide 22 or the third light guide 23 is added, the entire light guide structure forms a mesh structure, which greatly improves the light guide structure. Uniformity of light exposure.

Whether the first light guide 21 is connected to the second light guide 22 or the third light guide 23, the corners of each connection point are rounded. On the one hand, the loss of light at the corners is minimized to ensure that Transparency of light source turning and transmission; on the other hand, the light reflecting structure at the corner position should be simplified as much as possible, thereby reducing the production cost of the entire light guide device.

The distance between the first light guide 21 and the first light guide 21 is set at 0.1-20 cm; the second light guide 22 or the third light guide 23 connected to the first light guide 21 is adjacent to each other. The distance between the connection points of the two light guides on the first light guide 21 is 0.1-20 cm. By setting a certain distance, the light guides of different types or the same type can be more evenly distributed, and the light distribution can be avoided from being concentrated.

In this embodiment, whether the first light guide 21, the second light guide 22, or the third light guide 23 is in the light guide structure, a first light blocking layer for blocking light from exiting the light guide structure is also provided on the outside of the light guide structure. 20, so that light can be more concentratedly emitted from the other side of the light guide structure. With this design, the light-emitting device can achieve directional light emission while avoiding the loss of light emitted from the other side.

The first light blocking layer 20 may be at least one of a reflective coating, a total reflection light sparse layer, or a light blocking baffle. Specifically, in this embodiment, the light blocking layer is a reflective coating.

Referring to FIG. 6, it should be noted that the outer side wall surface (ie, the side provided with the reflective coating) of each light guide member of the light guide structure is at least one of linear, V-shaped, trapezoidal, curved or U-shaped. The listed structures all have a common feature, that is, the thickness of the light guide structure in the thickness direction and the thickness of both sides gradually decrease along the thickness direction. With this design, not only the effect of light from the inside can be significantly improved, but also effectively avoided. Light leaks from the edges of the light guide structure.

At the same time, the inner side of each light guide in the light guide structure (that is, the side where the light is emitted) adopts a curved surface structure, which can make the area where the light is emitted in the width direction of the light guide wider, and ultimately make the light distribution More even.

In this embodiment, the laser light source is composed of a first laser light source 11 and a second laser light source 12. Of course, three laser light sources or more laser light sources can also be configured according to actual needs, as long as the two ends of the first light guide 21 are connected. It can be a different laser light source. Each laser light source may be provided with one laser 10 or multiple lasers 10, and each laser 10 may be directly connected to the first light guide 21 or may be connected through other light guide materials.

In a preferred technical solution, each laser 10 may be connected with a first light guide 21 in one direction, that is, emit in one direction; or each laser 10 may be connected with a first light guide in two opposite directions, respectively. 21, that is, shot in both directions. A single light-emitting end is connected to a single light guide, so that the light source can be emitted in a straight direction, the light energy loss is minimized, and the energy distribution is more even. As shown in FIG. 3, each of the first laser light source 11 and the second laser light source 12 is provided with two lasers 10, and the two lasers 10 are respectively arranged side by side, so that the two first light guides 21 are distributed and connected.

In this embodiment, the laser 10 and the first light guide 21 are directly connected. Further improvement, a second light blocking layer is provided at the connection end of the laser 10 and the first light guide 21, and the second light blocking layer is made of a light shielding material, which can connect the connection end of the laser 10 and the first light guide 21 The formation of the shielding can effectively solve the light leakage caused by the unstable connection between the laser 10 and the first light guide 21, and ensure that the light energy does not radiate and lose capacity in the initial stage. At the same time, this embodiment also performs a certain treatment on the end of the first light guide 21 connected to the laser 10, and the end of the first light guide 21 connected to the laser 10 is perpendicular to the axis of the first light guide 21 The plane structure of the wire ensures that the end of the first light guide 21 is flat and seamlessly connected to the laser 10. Because the end face has a certain inclination, gaps and light leakage are likely to occur during connection; at the same time, the first light guide The angle of incidence of the end of the element 21 will also change, so using this design can reduce the loss of light energy due to scattering and reflection of light energy due to the non-vertical angle of incidence.

The laser light source of the present invention is built between the surface layer material and the inner layer material and is fixed inside the surface layer, which can be achieved by means of sewing or pasting.

The laser light source can emit red light and near-infrared light, and can switch between each other within a set time interval.

In the photochemical reaction, red light is used for low-energy laser treatment (the principle of LLLT); near-infrared light is not visible to the human eye. From an electromagnetic perspective, it is also an electromagnetic wave. Due to the good permeability of near-infrared light, it It can break through the hair and skull, reach the cerebral cortical cell tissue, and perform deep LLLT treatment and frequency treatment. Therefore, the use of red light and infrared light can achieve laser treatment of the human body.

Because red light and near-infrared light have different penetrability, by alternately switching, the irradiation treatment of different cortical layers of the human body can be achieved, and the treatment effect is better than that of single light source irradiation treatment.

Further improvement, the laser light source can be cyclically switched between the working state and the off state, and the working state duration and the off state duration are independently set. During the treatment process, it will automatically turn off for a period of rest to prevent short-term overexposure and damage to the body. The laser light source emits a power density between 1mW / cm2 and 100mW / cm2 during each operation.

The material of the light-guiding structure has a Shore A hardness of 0 to 60; the width of the light-guiding structure is 0.3-5 cm and the thickness is 0.1-1 cm. The material of the light guide structure in this embodiment has a low hardness, and can be more easily arranged in the clothing material 301.

The light guide structure has a width-to-thickness ratio of 2: 1 to 6: 1. The light guide structure is designed to be a flat structure, which can prevent light from leaking out from both sides, and is used in therapeutic clothing such as clothing. At this time, the flat structure does not conform to the body when sleeping, and has a higher degree of comfort.

Referring to FIG. 7, a laser clothing material of the present invention includes clothing material 301 and the aforementioned light guide device, and the clothing material 301 can be used to make clothes, pants, hats, knee pads, neck pads, shoulder pads, and waist pads. Such as wearable clothing, the treatment of various parts of the human body can be laser treatment. The light guide device may be disposed on one side of the clothing material 301, that is, the side close to the human body. The clothing material 301 may be made of a material capable of blocking light emitted from the light guiding structure, that is, opaque or transparent Poor material. The light guide device emits laser light energy that can treat human diseases such as diabetes and dementia, and treats the human body. At the same time, the light blocking effect of the clothing material 301 blocks the light and prevents the light from being emitted from the reverse direction. Damage to organs such as eyes.

In this embodiment, in the light-guiding device, each light-guiding structure has a first-level light-blocking defense line formed by the first light-blocking layer 20 and the second light-blocking layer, which can effectively prevent light from diffusing from the other side. Combined with the secondary light-blocking line formed by the clothing material 301 to form a double-layer light-blocking effect; in addition to being able to block the light from the light guide, it can also block the light emitted from the laser 10's exit end, and has a comprehensive light-blocking effect.

The clothing material 301 can be a material with a higher density, a thicker thickness, or a darker color, and a light transmittance of less than 20% (light can be absorbed by the material or can be reflected back).

Referring to FIG. 8, a laser clothing material of the present invention also provides another embodiment. In addition to the light guide device described above, it also includes a clothing inner layer material 311 and a clothing surface layer material 312. The light guide device is arranged on the clothing. In the interlayer between the inner layer material 311 and the garment surface layer material 312, the garment surface layer material 312 and the garment material 301 in the embodiment described above have the same functional effects. On the one hand, the inner layer material 311 of the clothing can transmit the light emitted by the light guide device and scatter it on the human body, and then irradiate the human body to form a treatment; on the other hand, the inner layer material 311 of the clothing is not completely transparent. The function of light is to block the light and weaken the light energy, to prevent the light from directly irradiating the human body and causing damage to the human body.

The clothing surface material 312 may be a material with a higher density, a thicker thickness, or a darker color, and a light transmittance of less than 20% (light can be absorbed by the material or can be reflected back).

The inner material 311 of the clothing is made of a transparent or translucent material with a light transmittance greater than 50%.

Referring to Figs. 9-10, a therapeutic garment of the present invention uses a light guide device, a laser garment material made of a garment inner layer material 311 and a garment surface layer material 312 to make a therapeutic garment. This embodiment is directed to one of the specific treatments. Clothing --- clothing, elaborate.

The garment includes a front part and a back part, which are respectively stitched and connected by two pieces of cloth, that is, the two sides of the garment are made of the laser clothing material including the light guide device described above. Each side is a separate light guide structure, which is easier when stitching. The first laser light source 11 is arranged at a position where the front and back portions of the left shoulder are sewn, and the second laser light source 12 is arranged at a position where the front and back portions of the right shoulder are sewn. A first light guide 21 is connected to the front side of the first laser light source 11 and another first light guide 21 is connected to the back side. The first light guide 21 in the front is distributed along the front. After that, it finally returns to the second laser light source 12 on the right shoulder, and after the first light guide 21 in the back portion is distributed along the back portion, it finally returns to the second laser light source 12 on the right shoulder. In this embodiment, the first light guide 21 on the front portion and the back portion do not cross each other, so that it is more convenient to make clothes when sewing.

In the front part or the back part, one or more first light guides 21 may be arranged. In the same cloth, a plurality of second light guides 22 may be formed between the first light guides 21 to form a mesh structure. , The light is easier to disperse, and the uniformity after dispersing is also higher.

In the treatment clothing of the present invention, the light source control system of the laser light source is connected with a remote controller or a mobile phone APP, and is connected through a wireless communication module. The remote controller and the mobile phone APP both store a variety of disease treatment schemes and can remind Use on time by the patient. According to the system settings, the light energy can be switched on and off periodically, and the wavelength change can be managed. The remote control is a screen with a display screen, which has different light treatment plans and courses for different diseases and conditions. In addition, the remote control can also personally enter and formulate the treatment plan, light dose, duration of each treatment, interval, DUTY CYCLE and other data under the guidance of a doctor.

The housing of the laser light source is made of plastic or other non-flammable, thermally and electrically conductive container shells.

A therapeutic garment of the present invention uses a light guide device, a laser garment material made of a garment inner layer material 311 and a garment surface layer material 312 to make a therapeutic garment. This embodiment is directed to one of the specific therapeutic garments, pants, Explain in detail.

The pants include a front portion and a back portion, which are respectively stitched and connected by two pieces of fabric. The first laser light source 11 is arranged at a position where the front and back portions of the left trousers are sewn, and the second laser light source 12 is arranged at a position where the front portion and the back of the right trousers are sewn. A first light guide 21 is connected to the front side of the first laser light source 11 and another first light guide 21 is connected to the rear side. The first light guide 21 in the front is distributed along the front. Finally, the second laser light source 12 is returned to the right trouser leg, and the first light guide 21 in the rear portion is distributed along the rear portion. Finally, the second laser light source 12 is returned to the right trouser leg. In this embodiment, the first light guide 21 in the front portion and the rear portion do not cross each other, so that it is more convenient to make pants when sewing.

In the front part or the rear part, one or more first light guides 21 may be arranged. In the same cloth, a plurality of second light guides 22 may be formed between the first light guides 21 to form a mesh structure. , The light is easier to disperse, and the uniformity after dispersing is also higher.

13-14, a therapeutic garment of the present invention is made of a light-guiding device, a laser garment material made of a garment inner layer material 311 and a garment surface layer material 312 to make a therapeutic garment. This embodiment is directed to one of the specific treatments. Clothing --- pants, elaborate.

The pants include a front portion and a back portion, which are respectively stitched and connected by two pieces of fabric. Two first laser light sources 11 are provided, each of the first laser light sources 11 is provided with three lasers 10, two second laser light sources 12 are provided, and each laser light source is provided with three lasers 10. One of the first laser light sources 11 is arranged at the position where the front and back portions of the left trousers are sewn, and the other first laser light source 11 is arranged at the positions where the front portion and the back of the right trousers are sewn. The second laser light source 12 is arranged at the front and back portions where the left waist is sewed, and the second laser light source 12 is arranged at the positions where the front portion and the rear are sewn.

A first light guide 21 is connected to the front side of the first laser light source 11 in the left trouser leg, another first light guide 21 is connected to the back side, and the first light guide 21 is connected to the front After distributing along the front part, finally return to the second laser light source 12 on the left trouser leg (of course, you can also return to the second laser light source 12 on the right trouser leg), while the first light guide 21 in the rear part is distributed along the rear part. Then, finally return to the second laser light source 12 of the left trouser leg (of course, return to the second laser light source 12 of the right trouser leg). The light guide in the right trouser leg is arranged in the same way.

In this embodiment, the first light guide 21 in the front portion and the rear portion do not cross each other, so that it is more convenient to make pants when sewing.

In the front part or the rear part, one or more first light guides 21 may be arranged. In the same cloth, a plurality of second light guides 22 may be formed between the first light guides 21 to form a mesh structure. , The light is easier to disperse, and the uniformity after dispersing is also higher.

15-16, a therapeutic garment of the present invention is made of a light-guiding device, a laser garment material made of a garment inner layer material 311 and a garment surface layer material 312 to make a therapeutic garment. This embodiment is directed to one of the specific treatments. Clothing --- pants, elaborate.

The pants include a front portion and a back portion, which are respectively stitched and connected by two pieces of fabric. The first laser light source 11 is provided with one, the first laser light source 11 is provided with two lasers 10, the second laser light source 12 is provided with one, and each laser light source is provided with two lasers 10. The first laser light source 11 is arranged at the position where the front and back portions outside the left trousers are sewn, and the second laser light source 12 is arranged at the position where the front and back portions are sew outside the right leg. Each laser 10 of the first laser light source 11 is connected to the first light guide 21 on the front side. The first light guide 21 is wound around the front of the pants and connected to the second laser light source 12; Each laser 10 is connected to the first light guide 21 on the back side. The first light guide 21 is wound around the back of the pants and connected to the second laser light source 12.

As shown in FIG. 17, the laser 10 in the first laser light source 11 and the second laser light source 12 can emit laser light in both forward and reverse directions.

In this embodiment, the first light guide 21 in the front portion and the rear portion do not cross each other, so that it is more convenient to make pants when sewing.

A plurality of second light guides 22 are arranged between the two first light guides 21 in the front part or the rear part to form a network structure, and the light is more easily dispersed, and the uniformity after the dispersion is higher.

11-12, a therapeutic garment of the present invention is made of a light-guiding device, a laser garment material made of a garment inner layer material 311 and a garment surface layer material 312 to make a therapeutic garment. This embodiment is directed to one of the specific treatments. Clothing --- clothing, elaborate.

The garment includes a front portion and a back portion, which are respectively stitched and connected by two pieces of cloth. The first laser light source 11 is disposed at a position where the front and back portions of the left armpit are sewn, and the second laser light source 12 is disposed at a position where the front portion and the back portion of the right armpit are sewn. The first laser light source 11 is provided with four lasers 10, and the second laser light source 12 is also provided with four lasers 10. The front side of the first laser light source 11 is connected with four first light guides 21, Four other first light guides 21 are connected to the side. After the first light guide 21 in the front part is distributed along the front part, it finally returns to the second laser light source 12 under the right armpit, while the first After the light guide 21 is distributed along the back portion, it finally returns to the second laser light source 12 under the right armpit. In this embodiment, the first light guide 21 on the front portion and the back portion do not cross each other, so that it is more convenient to make clothes when sewing.

In the same cloth, a plurality of second light guides 22 can be formed between the first light guides 21 to form a network structure, so that the light is more easily dispersed, and the uniformity after dispersion is higher.

In addition, in the treatment apparel, because the clothes or pants are three-dimensional structure, not a flat structure, the unidirectional light source in the patent CN201510750376A enters from the side of the clothes, regardless of whether the light source is accessed from the back side or the front chest It is difficult to cover the entire garment, which makes the solution practically limited, and the therapeutic garment of the present invention can effectively solve the problem.

The following combination of specific experiments continues to explain;

Experiment 1 (laser clothing material hypoglycemic)

A friend's parents used clothes with a 200mW laser light source. Two laser light sources are provided, which are respectively located on the left shoulder and the right shoulder. Each laser light source is provided with four lasers 10, and the light guide device is arranged in the manner described above. The wavelength of the laser is alternately used between 630nm red light and 810nm near-infrared light. It is used once a day for about one hour per treatment. The light guide emitted by the light source covers all parts of the front and rear of the clothes, and the actual coverage area is about 1 square meter.

The patient wears laser clothing once a day (with white underwear). The duration of each treatment is about 55 minutes. The specific treatment process is as follows:

Step 1: The laser light source emits 630 nm red light in the first 10 minutes, the power of each laser 10 light source is 200 mW, and the total power of the 8 lasers 10 is 1.6 W (0-10 minutes);

Step 2: Turn off the laser for 5 minutes (11-15 minutes);

Step 3: In the next 10 minutes, the laser light source emits near-infrared light at 810 nm, and the power of each laser 10 is also 200mW (16-25 minutes);

Step 4: Turn off the laser for 5 minutes (26-30 minutes);

Next return to 630 nm red light for 10 minutes, the same as step 1 (31-40 minutes);

Turn off the laser and rest for 5 minutes, as in step 2 (41-45 minutes);

Next, return to the 810 nm near-infrared light for 10 minutes, the same as step 3, and then end the treatment (46-55 minutes)

The whole experiment lasted for 60 days. During this period, the fasting blood glucose of the patient gradually decreased, and the patient's blood glucose decreased from 8.2 before the experiment to 6.7, and remained stable.

Experiment two (laser clothes and pants reduce blood pressure)

The clothing part is the same as Experiment 1. The pants part is composed of two laser light sources on the soles of the feet, one on the left foot and one on the right foot. There are two lasers in each light source box, which go from different parts of the front and back of the pants to the waist Walking, combined with the distributed second light guide structure, to form a light guide layout covering the entire pants.

The trousers are used in the same way as the clothes.

The patient wears clothes and pants once a day for 55 minutes each time.

By the end of the sixth week of the experiment, the patient's systolic blood pressure decreased from 128 to 111 and the diastolic blood pressure decreased from 93 to 77.

Experiments 1 and 2 prove that the therapeutic clothing of the present invention has a better therapeutic effect in treating diseases such as dementia and diabetes.

Claims (32)

1. A light guide device, comprising a light guide structure and a laser light source;

   Wherein, at least two laser light sources are provided, including a first laser light source and a second laser light source;

   The light guide structure includes at least one first light guide, one end of the first light guide is connected to the first laser light source, and the other end of the first light guide is connected to the first light guide. A second laser light source connection;

   The light guiding structure is made of a light guiding material.
2. The light guide device according to claim 1, wherein the light guide structure further comprises at least one second light guide, and one end of the second light guide is connected to the first light guide. The tangent direction of the light transmission direction of the first light guide is the first preset direction, and the tangent direction of the light transmission direction of the incident end of the second light guide is the second preset direction. An included angle between the first preset direction and the second preset direction is less than 90 °.
3. The light guide device according to claim 2, wherein two ends of the second light guide member are connected to the first light guide member differently.
4. The light guide device according to claim 2, wherein a distance between connection points of two adjacent second light guide members on the first light guide member is 0.1-20 cm.
5. The light guide device according to claim 2, wherein the second light guide is a linear structure or an arc structure.
6. The light guide device according to any one of claims 1 to 5, wherein the light guide structure further comprises a third light guide, and both ends of the third light guide are connected to the same light guide. The middle part of the third light guide member surrounds the other first light guide members to form a closed-loop connection structure.
7. The light guide device according to any one of claims 1-5, wherein in the light guide structure, corners at the positions of each connection point are rounded.
8. The light guide device according to any one of claims 1-5, wherein a first light blocking layer for blocking light from being emitted is provided on one side of the light guide structure, so that the light can be more concentrated from Shot on the other side.
9. The light guide device according to claim 8, wherein the first light blocking layer is at least one of a light reflecting coating, a total reflection light sparse layer, or a light blocking baffle.
10. The light guide device according to claim 8, wherein a side on which the light of the light guide structure exits is a convex curved structure.
11. The light guide device according to claim 8, characterized in that the thickness of the middle portion of the light guide structure to the thickness of both side ends gradually decreases in the thickness direction.
12. The light guide device according to claim 11, wherein the first light blocking layer and one side of the light guiding structure where the first light blocking layer is located are linear, V-shaped, trapezoidal At least one of a curved shape, a curved shape, or a U shape.
13. The light guide device according to any one of claims 1 to 5, wherein the material of the light guide structure is silica gel, silicone resin, polystyrene, PMP, polyurethane, polycarbonate, or polymethyl At least one of methyl acrylate.
14. The light guide device according to any one of claims 1 to 5, wherein the material of the light guide structure has a Shore A hardness of 0 to 60.
15. The light guide device according to any one of claims 1 to 5, wherein the width of the light guide structure is 0.3-5 cm and the thickness is 0.1-1 cm.
16. The light guide device according to any one of claims 1-5, wherein the aspect ratio of the light guide structure is between 2: 1 and 6: 1.
17. The light guide device according to any one of claims 1-5, wherein each laser light source has a plurality of lasers, and each laser is connected with one of the first light guides, two adjacent A plurality of the second light guides are connected between each of the first light guides and form a mesh structure.
18. The light guide device according to any one of claims 1-5, wherein at least one laser in each laser light source, each laser has one laser output end or two laser output ends in opposite directions, Each laser output end is connected with one of the first light guides.
19. The light guide device according to claim 1, wherein the laser light source comprises at least one laser, the first light guide is connected to the laser, and a second light block is provided at the connection end. Floor.
20. The light guide device according to claim 1, wherein an end portion of the first light guide member connected to the laser is a plane perpendicular to an axis line of the first light guide member structure.
21. The light guide device according to claim 1, wherein the laser light source can emit red light and near-infrared light, and can be switched to each other within a set time interval.
22. The light guide device according to claim 1, wherein the laser light source can be switched cyclically between the working state and the off state, and the working state duration and the off state duration are independently set.
23. The light guide device according to claim 1, wherein a power density released by the laser light source in each operation is between 1 mW / cm ² and 200 mW / cm ² .
24. A laser clothing material, comprising a clothing material and the light guide device according to any one of claims 1-5, 9-12, and 19-22, wherein the light guide device is fixed to the One side of clothing materials;

    The clothing material is made of a material capable of blocking light emitted from the light guiding structure.
25. A laser clothing material, characterized in that it comprises a clothing inner layer material, a clothing surface layer material and the light guiding device according to any one of claims 1-5, 9-12, 19-22, and the light guiding device. The device is fixed between the inner material of the garment and the outer material of the garment;

    The clothing surface material is made of a material capable of blocking light emitted from the light guiding structure;

    The material of the inner layer of the garment is made of a material capable of emitting light through the light guiding structure.
26. The laser apparel material according to claim 25, wherein the apparel surface material is made of a material having a light transmittance of less than 20%.
27. The laser clothing material according to claim 25, wherein the material of the inner layer of the clothing is made of a transparent or translucent material with a light transmittance of greater than 50%.
28. The laser apparel material according to claim 25, wherein the laser light source is arranged between the inner material of the garment and the outer material of the garment.
29. The laser clothing material according to claim 25, wherein a remote control or a mobile phone APP is connected to the light source control system of the laser light source, and is connected through a wireless communication module, and the remote control and the mobile phone APP All kinds of disease treatment schemes are stored and can remind patients to use on time.
30. A therapeutic garment made of the laser garment material according to claim 25, wherein the therapeutic garment is clothes or pants, and the laser light source is arranged at a stitching position of the therapeutic garment, so The said laser light source is provided with a laser capable of emitting laser light in two opposite directions, a plurality of said first light guides are connected to both sides of said laser light source, and a single said first light guide is arranged In the same laser clothing material.
31. The therapeutic apparel according to claim 30, wherein in the same laser apparel material, two adjacent first light guide members are connected by a plurality of the second light guide members.
32. A therapeutic garment made of the laser garment material according to claim 25, wherein the therapeutic garment is a knee pad, a neck pad, a shoulder pad or a waist pad.

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