RU87085U1 - PHYSIOTHERAPEUTIC DEVICE FOR LIGHT AND COLOR THERAPY - Google Patents

Abstract

The utility model relates to medicine, more precisely, to the class of medical devices using the interaction of electromagnetic radiation (in particular, the optical wavelength range) with the human and / or animal organism in physiotherapy. The physiotherapeutic apparatus for light and color therapy is intended for the treatment of various skin diseases, diseases of the musculoskeletal system and diseases of internal organs by treating pathological zones and lesions, as well as biologically active zones and points by optical radiation of LEDs at one of the selected wavelengths or on several, including all, at the same time. The purpose of the utility model is to expand the therapeutic capabilities of the apparatus and increase the efficiency of its use in reflexology by forming a thin optical beam of the same color. The emitting matrix of the device is formed by LEDs selected from a number of colors: near infrared, red, orange, yellow, green, blue, blue, violet In the emitting matrix, at least one emitting diode of each of the colors used is located on a circle of a given diameter equal to the distance from each other along the arc of the mentioned circle, the output window of the apparatus is closed by a movable removable opaque disk screen, which is located coaxial with the said circle and is made with the possibility rotation around its own axis, on the periphery of the disk screen at a distance from its center equal to the radius of the mentioned circle, a hole is made, which, when the disk screen rotates, is alternately aligned with the emitting diodes of different colors of radiation installed on the said circle and fixed when combined with each of the emitting diodes. The screen is fixed in a predetermined position using spring-loaded ball clamps located on the same diameter as the hole in the screen. The hole in the disk screen is additionally equipped with a hollow truncated cone located on the outer surface of the disk screen coaxially with the aperture in the disk screen, and with a vertex directed towards the propagation of radiation, the larger inner diameter of the hole in the cone coincides in diameter with the hole in the disk screen, the smaller exit hole made with a diameter of 2 to 5 mm, and the height of the cone lies in the range from 5 to 15 mm. In order to increase the efficiency of collecting radiation from emitting diodes into the output beam, the inner surface of the truncated cone is polished and coated with light-reflecting material. In order to minimize the illumination of the aperture in the screen by the radiation of the second color from the LEDs adjacent to the aperture in the screen, the emitting diodes are selected with the radiation pattern angle ranging from 20 to 30 °. In the apparatus, instead of a spherical clamp, any other type of clamp can be used, which ensures accurate fixation of the outlet of the truncated cone coaxially with the LED of a given glow color.

Description

The utility model relates to medicine, more precisely, to the class of medical devices using the interaction of electromagnetic radiation (in particular, the optical wavelength range) with the human and / or animal organism in physiotherapy.

The physiotherapeutic apparatus for light and color therapy is intended for the treatment of various skin diseases, diseases of the musculoskeletal system and diseases of internal organs by treating pathological zones and lesions, as well as biologically active zones and points by optical radiation of emitting diodes at one of the selected lengths from the spectrum waves or on several, including all, simultaneously.

Known physiotherapeutic apparatuses for light and color therapy, which use optical radiation of laser diodes and LEDs of the near infrared red and other ranges of the visible part of the optical spectrum to influence pathological zones and lesions, as well as biologically active zones and points, are used [1-2].

The main disadvantage of the existing existing devices for light and color therapy is the difficulty of conducting reflexology sessions, since the LEDs or laser diodes are located in the device over a considerable area with several square centimeters and the design of the devices does not provide for the allocation of a separate small (3-5 mm diameter) beam to affect biologically active points, which significantly narrows the therapeutic capabilities of devices.

It is known that the size of biologically active points on the patient’s body, depending on various conditions, can vary from 3 to 9-10 mm. It is also known from the theory of reflexology that the maximum effectiveness of reflexotherapy is provided when the transverse size of the exposure means (optical beam, EHF radiation, electric electrode, etc.) is chosen to be less than or equal to the size of the biologically active point.

The closest analogue of the apparatus proposed in this utility model is the Geska-polycvet apparatus [2], which is mass-produced in Russia, in which pathological zones, lesions, biologically active zones and points are irradiated from emitting diodes of the near infrared range, as well as red LEDs , yellow, orange, green and blue, grouped by color spatially and electrically. These diodes form a multicolor emitting matrix. The emitting matrix through the radiation parameter control unit is connected to the corresponding DC source.

The purpose of the utility model is to expand the therapeutic capabilities of the apparatus and increase the efficiency of its use in reflexology due to the formation of a thin optical beam of the same color.

This goal is achieved by the fact that in the emitting matrix, at least one emitting diode of each of the colors used is located on a circle of a given diameter at an equal distance from each other along the arc of the said circle, the output window of the device is closed by a movable removable opaque disk screen, which located coaxial with the said circle and is made to rotate around its own axis, on the periphery of the disk screen at a distance from its center equal to the radius of the said circle This hole is made, which, when the disk screen rotates, is alternately aligned with the emitting diodes of different colors of radiation mounted on the said circle and fixed when aligned with each of the emitting diodes.

Fixing the disk screen in a predetermined position is performed using spring-loaded ball clamps located on the same diameter as the hole in the disk screen.

The hole in the disk screen is additionally equipped with a hollow truncated cone located on the outer surface of the disk screen coaxially with the aperture in the disk screen, and with a vertex directed towards the propagation of radiation, the larger inner diameter of the hole in the cone coincides in diameter with the hole in the disk screen, the smaller exit made with a diameter of 2 to 5 mm, and the height of the cone lies in the range from 5 to 15 mm. In order to increase the efficiency of collecting radiation from emitting diodes into the output beam, the inner surface of the truncated cone is polished and coated with light-reflecting material.

Emitting diodes are selected with an angle of radiation pattern ranging from 20 to 30 ° from a number of colors: near infrared, red, orange, yellow, green, blue, blue, purple.

The figures below show one of the possible versions of the apparatus.

Figure 1 shows the location of the emitting diodes in the emitting matrix.

Emitting diodes of six colors of red 1, orange 2, yellow 3, green 4, blue 5 and infrared 6 are arranged in groups of three diodes in each in the plane of the output window 7 of the apparatus 8, forming a radiating matrix 9. The emitting nearest to the center of the output window 7 of the apparatus 8 are emitting the diodes are located on a circle 10 with a radius r - at an equal distance from each other along the arc of the mentioned circle with an angular size between them of 60 °. The central field of the radiating matrix can also be filled with radiating diodes, however, they do not participate in the reflexotherapy mode and therefore are not shown in the figures.

Figure 2 presents the design of the radiating head of the apparatus in cross section along line AA of figure 1 - the diameter of the output window 7 of the apparatus 8.

Inside the head housing 11 of the apparatus 8, closed by a transparent output window 12, there is a printed circuit board 13 with emitting diodes of all colors mounted in it. In section AA, for simplicity of the drawing, only two emitting diodes of the extreme groups of red 1 and green 4 on diameter AA are shown. Two emitting diodes, one red 1 and one green 4, are located on the indicated diameter symmetrically with respect to axis 14 of head 11 of apparatus 8 passing through the center of the exit window 7 of the apparatus 8. The emitting diodes of groups 2 and 3 in section AA are not shown, since their location has no relation to explain the proposed technical solution.

The output window 7 of the apparatus 8 is closed by an opaque screen 15 in the form of a disk enclosed in a frame 16 and mounted coaxially with a circle 10. In the disk screen 15, a hole 17 is made at a distance from its center and axis 14 equal to the radius r of circle 10, the diameter of which slightly exceeds the diameter of the emitting diodes used is 1-6. An opaque disk screen 15 in the frame 16 is fixed to the head housing 11 of the apparatus 8 using, for example, a ball retainer 18, a hemisphere 19 of which, located on the frame 16 of the disk screen 15, is included in the hemispherical recess 20 in the head body of the apparatus 11 of the apparatus 8. In the position, shown in figure 2, the hole 17 is located coaxially with one of the emitting diodes, in this case, green 4 color glow. When the disk screen 16 is rotated around the axis 14 by 60 ° clockwise, the hole 17 will be fixed coaxially with the emitting diode of the next color group 5 of the blue color of the radiation located on the circle 10.

For the convenience of imposing the apparatus on a biologically active point on the patient’s body and combining an optical beam with a biologically active point on the outer surface of the disk screen 15, a hollow truncated cone 21 is fixed coaxially with the aperture 21, with its apex directed toward the propagation of optical radiation. The larger inner diameter of the hole in the base of the cone 21 coincides with the hole 17 in the disk screen 15, the smaller outlet 22 at the top of the cone 21 is made with a diameter of 2 to 5 mm. Hole 22 forms the transverse size of the optical beam acting on a biologically active point on the patient’s body. The optimum height of the cone 21 lies in the range from 5 to 15 mm. In order to increase the efficiency of collecting radiation from the emitting diode 4 and other emitting diodes (when fixing the holes 16 coaxially with them) into the output beam, the inner surface 23 of the truncated cone 21 is polished and coated with a material that reflects the radiation used in the apparatus well.

Physiotherapeutic apparatus for light and color therapy works as follows. When you turn on the apparatus 8 in the output window 7 appears optical radiation of one or several colors. To conduct a reflexology session, it is necessary to select the color that will be applied and install a disk screen 15 with a rim 16 on the head 11 of the device so that the axis of the truncated cone 21 coincides with the axis of the emitting diode of the color necessary for the procedure. The procedure of reflexology is performed by applying a hole 22 at the apex of the cone 21 in series to biologically active points on the patient’s body in accordance with medical guidelines, combining the optical beam with the points and holding the beam on them for the time specified in the recommendations.

In the apparatus, instead of a ball retainer, any other type of retainer can be used, which ensures accurate fixation of the outlet of the truncated cone coaxially with the emitting diode of a given glow color.

Information sources:

1. Illarionov V.E. "Technique and methods of laser therapy procedures (Handbook)", M, 1994.

2. Zverev V.A. et al. “Physiotherapeutic apparatus for light and color therapy”, patent of the Russian Federation for utility model No. 33016 with priority dated December 6, 2002

Claims (6)

1. Physiotherapeutic apparatus for light and color therapy, containing a power source, a radiation parameter control unit, emitting diodes with different spectra from the light and infrared radiation ranges, forming an emitting matrix, in which emitting diodes of the same color are spatially combined into groups, characterized in that at least one diode of each of the colors used is located on a circle of a given diameter at an equal distance from each other along the arc of the said circle, the output is ok about the apparatus is closed by a movable removable opaque screen located coaxial with the said circle and made to rotate around its axis, a hole is made on the periphery of the screen at a distance from its center equal to the radius of the said circle, which, when the screen rotates around its axis, is alternately aligned with those installed on the said circles emitting diodes of different colors of radiation. 2. The apparatus according to claim 1, characterized in that the movable screen is made with the possibility of fixing in position when the hole in the disk is installed opposite one of the emitting diodes. 3. The apparatus according to claim 1, characterized in that the disk is fixed in a predetermined position using a spring-loaded ball retainer. 4. The apparatus according to claim 1, characterized in that the hole in the screen is additionally equipped with a hollow truncated cone located on the screen coaxially with the hole in the screen, and a vertex directed towards the propagation of radiation, the larger inner diameter of the hole in the cone coincides in diameter with the hole in the screen, a smaller outlet is made with a diameter of 2 to 5 mm, and the height of the cone lies in the range of 5 to 10 mm. 5. The apparatus according to claim 1, characterized in that the inner surface of the truncated cone is polished and coated with light-reflecting material. 6. The apparatus according to claim 1, characterized in that the emitting diodes in it with the radiation pattern angle ranging from 20 to 30 ° are selected from a number of colors: near infrared, red, orange, yellow, green, blue, blue, violet.