RU2330693C2 - Colour-therapeutic light-emitting diode device - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: device contains head-worn case with light source specifically of light-emitting diodes, electric power package and control unit. Light-emitting diodes are divided into groups of red, dark blue, green radiation spectrum and white light. Control unit contains microprocessor system with LED group switchboard, LED intensity control, general LED intensity control, and PC coupler with program of colour combination composition, pulse duration and intensity. According to the first design version, device case is provided as peak placed over patient's face. Light-emitting diodes are located in lower part by peak base fixed on belt. According to the second design version, case has shaped as glasses with lenses of transparent plastic and frame. Frame consists of two side pieces, and plastic is arch-provided between side pieces. Light-emitting diodes are placed within side pieces from two sides in end edges of plastic so that light stream is directed inside and to plastic centre. To create movable colour light spots surface is made of transparent material and arch-curved. Light sources are placed between material layers in end faces from two sides inside of surface. Light fluxes are directed towards each other, and light flux amount and colour of each light source are regulated by various principles.

EFFECT: invention enables to exposure patient in any position and to widen range of application due to potential wide regulation of radiation spectrum.

13 cl, 14 dwg

Description

The invention relates to personal hygiene and sanitation, and can be used for the prevention and treatment of affective disorders associated with heliophysical factors, in particular, seasonally dependent depressive states of the cyclothymic level. The proposed device provides color irradiation with light rays of the face and eyes and can also be used to reduce or eliminate pain during migraines, its use can help improve mood and faster cure of some eye and catarrhal diseases, and relieve insomnia. In addition, the device is able to provide a cosmetic effect, in particular to relieve acne, improve complexion, and normalize oily skin.

A known color therapeutic LED device containing a head-mounted housing in the form of a visor located above the face, with a light source, in the form of LEDs, a power supply and a control unit (see, for example, US patent No. 4553534, A61M 21/00 ″ apparatus for facilitating physiological stresses (Apparatus for reliveing psychological stress ", publ. 11/19/1985).

A disadvantage of the known technical solution is that the apparatus has a complex structure consisting of many electronic components. Large overall dimensions do not allow using it at home, moreover, this use is possible only with the participation of an experienced specialist.

Closer in technical essence, and adopted as a prototype, is the color therapy apparatus described in RF patent No. 2108123, "Ophthalmic glasses for video training and phototherapy" Tsvetarium "", IPC A61N 5/06, published on 04/10/1998, BI No. 10.

The known apparatus, with which the patient’s eye retina is irradiated, consists of a light source made on LEDs, placed in the housing of the power supply and the control unit.

This color therapy device allows you to influence the light flux on the neurocenters of the retina and provide photosensitization anionic effects with positive psychological stimulation of the patient. The device can be used by the patient alone or under the supervision of a doctor.

The disadvantages of the known color therapy apparatus are as follows.

1. For preventive color therapy requires a special room.

2. The procedure takes a lot of time and is inconvenient for the patient, because use of the device is possible only in conditions of isolation from external conditions.

For these reasons, the known device cannot be widely used.

It is known that a large part of the population of many countries lacks light, especially in the autumn and winter. Because of this, some people suffer from affective disorders associated with heliophysical factors. Statistics show that more than 20% of the adults in central, northern, and eastern Europe are susceptible to seasonal emotional disturbances (SEDs) caused by poor lighting conditions. The only way to relieve patients suffering from these disorders or to significantly improve their condition is to create a color therapy apparatus for individual use, which will be available to everyone who wants to carry out light and color therapy at home, without resorting to special treatment rooms. Moreover, an easy-to-use and light color therapy apparatus can be of great help in case of migraines, some eye diseases, to relieve fatigue, improve mood and improve the psychosomatic state of an individual.

The objective of the invention is to create an easy-to-use portable color therapy LED device for individual use, accessible to everyone who wants to carry out color therapy at home, at work, on the street or in any room and even during movement.

An additional objective is to reduce the complexity of manufacturing and the weight of the apparatus.

The specified problem is solved as follows.

In a color therapeutic LED device comprising a head-mounted housing in the form of a visor located above the face, with a light source in the form of LEDs, a power supply and a control unit, according to the invention, the LEDs are located in the lower part at the base of the visor and are divided into groups with red, blue and green emission spectra and white light, the visor is mounted on the belt belt, the power supply is made in the form of a power supply, and the control unit contains a microprocessor system with a switch gr Nos LEDs controls the brightness of the LEDs, the overall brightness of LEDs controller unit for interfacing with a personal computer with a program forming color combinations, pulse duration and brightness.

In a technical solution, the central axis of the light fluxes of the LEDs are directed downward, the visor is made with the possibility of changing its inclination, on both sides of the visor between the plane of the visor and the girdle there are lattice tilt clamps, the girdle has an adjustable buckle and an insert of elastic material.

In a variant of the technical solution, the LEDs are installed in the light tube.

In the technical solution, the front edge of the visor is equipped with a flat shield articulated with the visor by a transverse hinge, the LEDs are located on the board installed below the visor, at its base, parallel to the forehead surface, the central axis of the LED light fluxes are directed perpendicular to the surface of the board towards the shield so that the flow from the LEDs, reflected from the flap, is directed towards the front surface of the patient, and the flap contains a latch that regulates and fixes its inclination relative to the surface of the goats yryk.

In a variant of the technical solution, the shield is made of transparent material.

In a variant of the technical solution, the surface of the flap facing the LEDs is covered with a diffusely reflecting layer.

In an embodiment of the technical solution, the LEDs located on the board parallel to the forehead surface are installed in the light tube.

In a variant of the technical solution, the LEDs are mounted on the surface of the shield facing the face.

In an embodiment of the technical solution, a color therapeutic LED apparatus comprising a head-mounted housing with a light source in the form of LEDs, made in the form of glasses, with lenses made of transparent plastic, the LEDs being placed so that the light flux from them is directed into the plastic, and the frame, and the power supply unit, according to the invention, the frame consists of two sidewalls and the plastic is located in an arc between the sidewalls, the LEDs are placed on the sidewalls, on both sides in the end parts of the plastic so that the light sweat to them it is directed to the center of the plastic, the LEDs are divided into groups with red, blue, green emission spectra and white light, and the control unit contains a microprocessor system with a switch for LED groups, LED brightness controls and a general brightness control, a PC interface with program for the formation of color combinations, pulse duration and brightness.

In an embodiment of the technical solution, the transparent plastic is made of solid material, and the luminous surfaces of the LEDs are inserted into the plastic.

In an embodiment of the technical solution, transparent plastic consists of two layers separated by an air gap, and LEDs are located between the plastic layers.

In the embodiment of the technical solution, a threaded screed is installed in the middle part in the middle of the nose bridge between two layers of transparent plastic.

In a variant of the technical solution, the surface is made of two layers of transparent material, it is bent in an arc, light sources are placed between the layers of material at the ends on two sides inside a surface curved in an arc, their light fluxes are directed towards each other and the amount and color of the light flux of each light source governed by various laws.

The use of LEDs with red, blue, green emission spectra and LEDs with a white glow color will allow the user of the product to form almost any color of radiation, in accordance with his individual needs or doctor's recommendations and thereby increase the scope of the device.

The combination of infrared and ultraviolet LEDs with LEDs emitting visible light, the spectral composition of which is indicated above, will allow to obtain new color therapeutic effects. In particular, get a cosmetic effect, for example, get rid of blackheads, improve complexion, normalize oily skin.

The installation of brightness controllers for groups of LEDs together with the power supply unit in the device case makes it possible to obtain a portable user-friendly color therapy device for a wide range of applications. In addition, the simplicity of the product design, low weight and ease of use will reduce costs and facilitate the organization of mass production.

The presence of a unit for interfacing with a personal computer with a special program for generating color combinations, pulse duration and brightness will allow you to create an unlimited number of different color and light combinations and expand the range of possible therapeutic effects. So, for example, you can create color images that smoothly flow over the surface of the board in the form of spots, stripes, which will help relieve nervous stress and cause drowsiness, if necessary. These effects are obtained both with the use of devices in the form of a visor, and with a design in the form of glasses.

The ability to change the direction of the light flux in relation to the eyes with the help of clamps installed on the visor or on the flap with an adjustable tilt, allows the user to use the proposed color therapy device at any time and anywhere, without changing the usual way of life.

The implementation of the shield of a transparent material allows the user to see the environment, produce local lighting and at the same time receive a color therapeutic effect.

The diffuse reflective layer on the surface of the shield forms a diffused, non-glare light stream.

The location of the LEDs in the light tube will simplify the process of mounting the LEDs on the visor, as well as give the device design some flexibility, which will increase its utilitarian properties.

Various embodiments of the device, either in the form of a visor or in the form of glasses, expand the choice for the consumer.

The presence of a threaded screed in the middle part in the nose bridge between two transparent plastics allows, within certain limits, to redistribute the light flux before the eyes.

The formation of moving color light spots on the surface due to the fact that this surface is made of a transparent material, it is bent in an arc, light sources are placed at the ends from two sides inside a surface curved in an arc, their light fluxes are directed towards each other and the amount and color of light the flux of each light source is regulated according to various laws, it allows to simplify the control system and to obtain new properties in color therapy devices.

A similar effect is achieved when the surface is made of two layers of transparent material, and the light sources are placed between the layers of material, while it is easier to mount the light sources.

The invention is illustrated by drawings.

Figure 1 shows the color therapy LED head unit, made in the form of a visor (side view).

In Fig.2 there is a view of a second projection of the device of Fig.1, a top view.

Figure 3 shows the location of the visor on the patient.

Figure 4 presents a tube with various options for the location of the LEDs in it.

Figure 5 shows the location of the LED tube on the visor.

Figure 6 shows the head unit, made in the form of a visor with an additional shield (side view).

Figure 7 is a front view of the LEDs on the board for the visor with a shield.

Fig. 8 represents the location of the light tube for a visor with a visor.

Figure 9 is a drawing of a visor with a shield, with LEDs on the shield.

Figure 10 shows a color therapy apparatus made in the form of glasses, the lenses of which are made of solid transparent plastic (top view).

Figure 11 shows the location of the LEDs for the color therapy apparatus, made in accordance with figure 9, a front view.

In Fig.12, a color therapy apparatus is drawn in the form of glasses, lenses, which are made of two-layer transparent plastic (top view).

On Fig presents a view of glasses with double plastic worn on the patient (side view).

On Fig drawn electrical diagram of the inclusion of LEDs.

The common elements in the figures are denoted identically.

Color therapy LED head unit is as follows. The body worn on the head consists of a visor 1 (Figs. 1, 2) made of plastic. As a light source, LEDs 2 with emission spectra were used, including red, blue, green, infrared, ultraviolet, as well as LEDs with a white glow. The LEDs are stopped at the bottom of the visor at its base and along its width in several rows (three rows are shown in Fig.) On the printed circuit board 3. The central axes of the light fluxes of the LEDs are directed downward towards the eyes and face. The LEDs 2 are closed by a transparent plastic cover 4. The visor is mounted on the belt belt 5 with the possibility of changing its inclination with respect to the surface of the belt in the forehead area 6. On both sides of the visor there are locks 7 on the points of its joint with the belt belt, whose task is to change and fix the inclination visor. To give the inner contour of the forehead device the shape of the head, soft gaskets are used on both sides of the forefoot and temples to fit the forehead and temples 8. The visor is put on the head 9 (figure 3) above the eyes 10 (figure 3) and attached to the head using the girdle 5. The girdle is adjustable in size of the head with the help of a buckle 11 and contains an insert 11 'of elastic material. In the occipital part of the girdle is a power supply unit 12, made on batteries and a control unit. The control unit contains a common switch (not shown), a microprocessor, brightness controls and knobs 13, 14 of the brightness controls of a particular group of LEDs that differ in the color of the glow. Knobs of regulators can be made in the form of button or keyboard devices. Other similar knobs of dimmers (not shown) are located on the opposite side of block 12.

The visor can be equipped with an external control panel, in which a set of knobs-regulators and switches is installed, as well as a unit for interfacing with a personal computer to form a specific set of draft color therapeutic influences.

In an embodiment of the technical solution, the LEDs 2 are mounted in the light tubes 15 (FIG. 4) and fixed therein by heat shrinkage of the tube material by heating the tube at the locations 16 of the LEDs. Figure 4 shows several options ″ a ″, ″ b ″, ″ c ″ of the location of the LEDs 2 in the tube 15. More details on the location of the LEDs in the tube can be found in the description of patent No. 2185567, IPC F21S 4/00, “Light tube ", Publ. 07/20/2002, BI No. 20. This arrangement depends on the brightness of the LEDs used, the scattering angle of their light fluxes and the reflective features of the visor surface. To increase the luminous flux in the direction of the eyes, the tubes 15 can be provided on one side with a reflective coating (not shown). The tubes 15 are attached using brackets 17 (Fig. 5) from below the visor 1, at its base and across it in several rows. FIG. 5 shows three rows of tubes.

In a variant of the technical solution, the head unit is made in the form of a visor 1 with an additional shield 18 (Fig.6). The shield 18 has a flat surface made of plastic and is a continuation of the visor in the longitudinal direction. The shield is articulated with a visor by a transverse hinge (not indicated), with the ability to change its inclination with respect to the surface of the visor, and this inclination is fixed using clamps 7 located on both sides at the bend between the visor and the visor. The position of the visor may be unchanged. The LEDs 2 are located on the printed circuit board 19, which is installed in the forehead 6 at its center and parallel to its surface. The entire board on the side of the LEDs is closed by a transparent plastic cover 4. On the back, the board 19 is covered by an insulating gasket (not shown). The central axis of the light flux of the LEDs is directed perpendicular to the surface of the board 19 towards the shield 18.

In a variant of the technical solution, the shield is made of transparent material.

In a variant of the technical solution, the surface of the flap facing the LEDs is covered with a diffusely reflecting light flux layer (not shown).

The location of the LEDs 2 on the circuit board 19 is shown in Fig.7, where they are installed in several rows (Fig.7 shows three rows of LEDs). The number of rows, the number of LEDs in a row depends on their size and power. The rest of the body with a visor and a shield is made similarly to figure 3, i.e. has a belt 5 with buckle 11, an insert 11 'of elastic material. In the occipital part of the girdle is located the power supply unit 12, made on batteries and a microprocessor control unit with dimmers of one or another group of LEDs. It is possible to use a remote control panel similar to that described above.

In a technical solution, the LEDs 2 are installed in the light tubes 15. The tubes 15 are placed along the board 19 (Fig. 8) and are attached to the board using brackets 17. The side of the tubes 17 facing the board can be coated with a reflective layer (not shown).

In an embodiment of the technical solution, the board 19 with LEDs 2 is mounted on the surface of the shield 18 (Fig.9), facing the face. The central axis of the light fluxes of the LEDs are directed perpendicular to the surface of the board 19 towards the face and eyes of the patient. The rest of the device has the same elements, similar to those described above.

In a variant of the technical solution, put on the head, the head unit comprises a body, which is made in the form of glasses 20 (FIGS. 10, 11) with arches 21. The lenses of the glasses are made of one solid thick lightweight transparent plastic 22 curved in an arc. On two sides between the arms 21 and the plastic 22 there is a frame consisting of two sidewalls 23. The LEDs 2 are located on the sidewalls of the frame 23 points in the places where the sidewalls are connected to the plastic 22. The central axes of the light fluxes of the LEDs 2 are directed inside the plastic 22, towards each other. The luminous surfaces of the LEDs 2 are inserted into the body of the plastic 22. In this case, the surface of the plastic from the outside can be covered with a layer (not shown), which partially reflects the light flux inside the plastic. The knobs of the brightness controls 12, 13, 24, 25 of one or another group of LEDs together with the control unit, brightness controls, power supply unit and general switch (not shown) are installed in the sidewalls. The sides of the frame 23 are attached to the plastic 22 using the pads 26. The light source and the microprocessor control unit with brightness handles, together with the power supply unit, are mounted on the sides of the frame of the device from the left or right side in relation to the face and are selected in weight so that the total weight of the sides of the frame left and right was the same.

In an embodiment of the technical solution, the lenses of the glasses are made of two transparent plastics, an external 27 and an internal 28 (Fig. 12) located with a certain gap 29. The plastics are curved in an arc in the region of the eyes 9 and are fixed between the arches 21 and the sidewalls 25. The LEDs 2 are located on boards 19 between the plastics 27 and 28 from its two end sides. The Central axis of the light flux of the LEDs 2 are directed between the plastics and towards each other. The fastening of plastics to the frames is carried out similarly to figure 10. A microprocessor control unit with handles 12, 13, 24, 25 dimmers of one or another group of LEDs together with a power supply unit and a common switch (not shown) are installed in the sides of the frame.

The head unit, made in the form of glasses, can be equipped with an external control panel, in which a microprocessor control unit, a set of knobs-regulators and switches, as well as a unit for interfacing with a personal computer for forming a certain set of different color therapeutic effects are installed.

In the embodiment of the technical solution, a threaded screed 30 is installed in the middle part in the middle of the nose between the transparent plastics 27 and 28.

Glasses with a rim 23, temples 21 are put on before the eyes of the user 10 on the ears 31 (Fig.13). As mentioned earlier, the light source with a microprocessor control unit, brightness controls and knobs 13-16 together with the power supply unit are mounted in the sides of the device’s rim on the left or right side in relation to the face and are weighted so that the total weight of the left and right sidewalls is the same. The electrical connection between the elements of the power supply, control and regulators is carried out using wires (not shown), which are located at the bottom of the lens - plastic 24 or plastics 27 and 28. The general switch is located on the side of the frame, located on the other side.

The circuit diagram consists of LEDs 2. In each circuit, groups of LEDs are installed. In each group there are circuits of series-connected LEDs, respectively, with red 2 _k , green 2 _s , blue 2 _s , infrared 2 _and , ultraviolet 2 _{in the} emission spectra (Fig. 14). One group consists of a 2 _b LED circuit with a white glow. The number of LEDs in the circuit depends on the type of device, its power, brightness and size. The spectral composition of the LEDs is selected so that with their help it would be possible to obtain almost any desired total hue of the glow. All circuit with LEDs receive power from the microprocessor system 32 to control the switch through the LEDs groups dimmers respectively _to 33, 33 _s, 33 _{s, and} 33, 33 and 33 _{used in} light-emitting diodes and a common controller 34 brightness.

The control unit allows you to smoothly adjust the brightness of a particular group of LEDs and obtain the resulting spectral composition of the radiation, determined by the mixture of three colors and white light. The groups with brightness controls are connected in parallel and connected to the power supply unit 12 through a general switch 35. The power supply unit can be connected to the industrial AC network via the power adapter 36, which allows charging the battery. In this case, the power supply voltage of the circuit lies within 6-12V and depends on the number and type of LEDs used. The apparatus also includes a unit 37 for interfacing with a personal computer 38. Computer 38 has a special program for generating color combinations, pulse duration, and brightness of the LEDs. To connect the adapter and the interface unit with a personal computer, the corresponding connectors (not shown) are provided in the head unit. The color therapy LED head unit can be equipped with an external control panel 39, in which a microprocessor control unit 32, a set of regulators 33, a general brightness regulator 34, knobs of regulators and a switch 32, and also a pairing unit 37 with a personal computer are installed to form a certain set of different color therapeutic effects . Handles can be made either in the form of keys, devices with translational movement of levers or with rotating heads. To connect the remote control in the head unit, the corresponding connector (not shown) must be installed.

If a remote control is used, then the computer is connected through it.

Color therapy LED head unit operates as follows.

In all versions, the LEDs are turned on using a common switch 35 (Fig.13). The power supply from block 12 is supplied to the regulators of the LED groups through the dimmers, respectively 33 _k , 33 _s , 33 _s , 33 _and , 33 _u and 33 _b . With the help of handles mounted on the device’s body, an influence on one or another brightness regulator occurs, which leads to a change in current in the corresponding circuits with LEDs. The brightness of the LEDs is almost directly proportional to the current passing through them. As a result, one or another color component changes. As a result, the total luminous flux is formed, the color of which is determined by the total mixture of colors. As you know, most shades of color can be obtained by mixing red, green and blue. By adjusting the current in the circuit of white LEDs, fine adjustment of the shades of the total color of the radiation is provided. By changing the position of the visor (Fig.1-3) or the shield (Fig.6-8), you can provide comfortable lighting conditions for the face or eyes.

Influence of infrared and soft ultraviolet radiation in combination with the visible spectrum from LEDs with red, green, blue and white glow light favorably affects the hygienic condition of the skin of the face, contributes to physico-chemical changes, such as the excited state of molecules, coagulation of protein structures, and a change in state biological tissues. The selection of the corresponding spectral components of the proportions of light can, ultimately, provide a directed course of physiological processes leading to the improvement of the skin. This cosmetic effect is expressed in the fact that acne disappears, complexion improves, and skin oily normalizes.

In the color therapeutic device in the form of glasses (Figs. 9-12), the light flux from the LEDs passes inside the plastic 24 and, repeatedly reflected from its internal and external surfaces, forms a light shroud in front of the eyes. The coloring of this shroud is carried out by handles mounted on the sidewalls, affecting one or another controller and general brightness control 34.

Glasses with double plastic allow, within certain limits, to change the direction of the light flux between the plastics 27 and 28 (Figs. 11, 12) by adjusting the gap 29 using a threaded tie 30.

The proposed device provides the ability to change color and light components using a personal computer 38 through the interface unit 37. The computer must contain an appropriate program for changing the radiation spectrum, brightness, duration of light pulses and dark pauses. In this case, the user of the color therapeutic LED headgear gets the opportunity of almost unlimited color and light regulation. The program should be formed taking into account the opinion of a medical specialist and be aimed at various types of diseases.

The considered versions of the proposed color therapy apparatus will allow users to choose the design option that is most acceptable from the point of view of ease of use and lifestyle. It should also be noted that devices with a shield (Fig.6-8) can be used as a headlamp, which increases its utilitarian properties.

If in the headgear put on in the head, made in the form of glasses 20 (Fig. 10, 11), in a solid transparent plastic 22, curved in an arc, shine from two sides, then the light flux will penetrate the entire inner space of the plastic 22, illuminating it from the inside by direct or reflected from surfaces light. If the LEDs on only one side glow, then that part of the surface that is closer to them in the places of plastic bending will be more brightly illuminated. By directing two light fluxes from different sides towards each other and changing their color and brightness, you can get the total light flux, which will move along a curved surface, changing its color. So you can get slow or fast glare, changing in color, and act on the patient, contributing either to the appearance of drowsiness, or setting him up for action, soothe or arouse, treat or improve vision.

The theory of application of such devices is based on the fact that when a light stream enters the eyes with a certain emission spectrum, the spectrum of the radiant energy of visible light transforms into biological pulses in the brain. Light, as it were, starts the “biological clock” embedded in the thalamus, hypothalamus, pineal gland. The brain, in turn, converts the incoming information and energy into rhythmic impulses and directs them to organs and systems, thereby regulating their functional activities. Thanks to this, human eyes can serve as a universal tool for the correction of the regulatory activity of dysintsephal brain structures. Thus, the influence of the radiation spectrum and its brightness can affect the life and psyche of the patient. By choosing a specific spectral composition of the forehead device, it is possible to eliminate the depressive states caused by a lack of light during periods of insufficient light (light starvation). The device will also help to eliminate the symptoms of SED, improve the emotional state, eliminate psychological discomfort, i.e. to neutralize the lack of lighting, especially in the autumn and winter. Encouraging results with color therapy were obtained with sleep disorders, insatiable hunger syndrome, alcohol syndrome, as well as reactive shift syndrome that occurs when moving through several time zones.

Glasses with a lens made of two layers of transparent material are convenient because it is easier to mount LEDs in them.

Devices made in all the proposed options have a low weight, high strength, reliability and moisture resistance. They can be used in any weather, regardless of the ambient temperature. Low voltage supply guarantees the consumer from electric shock. These properties of the device are determined by the use of LEDs in them. The electromagnetic effect on the user of the proposed device is practically reduced to zero, since it has a low voltage, no power consumption and also works on direct current.

The device can be used relatively inexpensive LEDs of low power, which will ensure serial production of such devices at a relatively low cost.

The technical and economic advantages of the proposed color therapeutic LED forehead apparatus are as follows.

1. New properties have been obtained, consisting in the ability to influence the patient by changing the color of the radiation and its brightness, and this effect can be produced when the patient is in any position, in any place and even when moving.

2. Reduced the complexity of manufacturing and weight of the product.

3. The cost of the product is reduced by reducing the complexity.

4. It is possible to widely adjust the brightness and radiation spectrum of the light source.

5. The strength, moisture resistance and durability of the device are increased and full safety of use is ensured due to the low supply voltage and the use of LEDs.

6. The range of possible applications of the product has been expanded.

7. A simple method for the formation of moving color light spots in front of the patient’s eyes was obtained.

8. Electromagnetic effects are minimized.

Claims (13)

1. A color therapeutic LED device containing a head-mounted housing in the form of a visor located above the face, with a light source in the form of LEDs, an electrical power supply and a control unit, characterized in that the LEDs are located in the lower part at the base of the visor and are divided into groups with a red with blue and green emission spectra and white light, the visor is mounted on the belt belt, the power supply is made in the form of a power supply, and the control unit contains a microprocessor system with a group switch n LEDs, LED brightness controls, general LED brightness control, PC interface with a program for generating color combinations, pulse duration and brightness. 2. The color therapeutic LED apparatus according to claim 1, characterized in that the central axes of the light fluxes of the LEDs are directed downward, the visor is configured to tilt it, on both sides of the visor between the plane of the visor and the girdle there are latch for tilting the visor, the girdle has an adjustable buckle and insert from elastic material. 3. Color therapy LED device according to any one of claims 1 and 2, characterized in that the LEDs are installed in the light tube. 4. The color therapeutic LED apparatus according to claim 1, characterized in that the front edge of the visor is provided with a flat shield articulated with the visor by a transverse hinge, the LEDs are located on a board installed below the visor, at its base, parallel to the forehead surface, the central axes of the light fluxes of the LEDs are directed perpendicular to the surface of the board towards the shield so that the flow from the LEDs, reflected from the shield, is directed towards the front surface of the patient, and the shield contains a latch that regulates and fixes of inclination relative to the surface of the visor, an adjustable belt buckle and an insert of elastic material. 5. The color therapeutic LED device according to any one of claims 1 and 4, characterized in that the LEDs located on the board parallel to the forehead surface are installed in the light tube. 6. The color therapy LED apparatus according to claim 1, characterized in that the front edge of the visor is provided with a flat shield articulated with a visor with a transverse hinge, the LEDs are mounted on the board, on the surface of the shield facing the face, the central axes of the light fluxes of the LEDs are directed perpendicular to the surface of the board so that the flow from the LEDs is directed towards the front surface of the patient, and the shield contains a latch that regulates and fixes its inclination relative to the surface of the visor, the belt has an adjustable th buckle and insertion of an elastic material. 7. Color therapy LED apparatus according to any one of claims 1 and 6, characterized in that the shield is made of a transparent material. 8. The color therapeutic LED device according to any one of claims 1 and 6, characterized in that the surface of the shield facing the LEDs is coated with a diffusely reflecting layer. 9. A color therapeutic LED apparatus comprising a head-mounted housing with a light source in the form of LEDs, made in the form of glasses, with lenses made of transparent plastic, the LEDs being placed so that the light flux from them is directed into the plastic, and the frame, and the power supply, characterized in that the frame consists of two sidewalls and the plastic is located in an arc between the sidewalls, the LEDs are placed on the sidewalls, on both sides in the end parts of the plastic so that the light flux from them is directed to the center of the plastic, the LEDs The iodines are divided into groups with red, blue, green emission spectra and white light, and the control unit contains a microprocessor system with a switch for LED groups, LED brightness controls and a general brightness control, a PC interface with a program for generating color combinations, pulse durations and brightness. 10. The color therapeutic LED apparatus according to claim 9, characterized in that the transparent plastic is made of solid material, and the luminous surfaces of the LEDs are inserted into the plastic. 11. Color therapeutic LED apparatus according to claim 9, characterized in that the transparent plastic consists of two layers separated by an air gap, and the LEDs are located between the plastic layers. 12. Color therapy LED device according to any one of paragraphs.9 and 11, characterized in that in the middle part in the nose bridge between two layers of transparent plastic, a threaded screed is installed. 13. The method of forming movable color light spots on the surface, characterized in that the surface is made of two layers of transparent material, bent in an arc, light sources are placed between the layers of material at the ends on two sides inside the surface curved in an arc, direct their light flux towards to each other and the magnitude and color of the luminous flux of each light source is regulated according to various laws.

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