RU37636U1 - DEVICE FOR LIGHT THERAPY - Google Patents

Abstract

1. The apparatus for light therapy, containing a group of emitters of monochromatic red and infrared radiation, forming a series-parallel matrix of emitting diodes connected to a power source through a radiation parameter control unit, characterized in that monochromatic blue light emitters are additionally introduced into it, and the control unit is equipped with a switch connecting to the power supply a pair of groups of red and infrared or blue and infrared emitting diodes. 2. The apparatus according to claim 1, characterized in that the diodes of each color are connected in parallel and form separate contracts, which in turn are connected in series and connected to a power source through the control unit. The apparatus according to claim 1, characterized in that the blue emitters are selected LEDs with a wavelength of radiation lying in the range 420 - 450 nm and a radiation power of 500-2000 mcd. The apparatus according to claim 1, characterized in that a device is additionally introduced into the control unit that provides modulation of the brightness of the LED radiation by biologically active frequencies.

Description

The utility model relates to medical equipment, in particular to physiotherapeutic devices operating on the principle of irradiation of pathological foci or biologically active zones (points) with optical radiation of the visible and infrared ranges.

Known laser physiotherapeutic apparatuses in which the radiation sources are gas or semiconductor lasers 1.

The main disadvantages of these devices are their high cost and low operational reliability.

Known more reliable, small-sized and cheap light therapy devices in which therapeutic optical radiation is generated by semiconductor emitting diodes from the visible and near infrared optical spectrum 2.

The closest analogue proposed in this utility model of the apparatus is the Geska-2 3 apparatus, which is mass-produced in Russia, in which irradiation of pathological zones, lesions, biologically active zones and points is performed using red and near infrared LEDs. These LEDs form a homogeneous emitting serial-parallel matrix, which is connected to the corresponding direct current source through the radiation parameter control unit.

Devices of the Geska-2 type affect pathological foci only with warm streams of monochromatic red and infrared light, which is very effective for treating various diseases in remission, but it is contraindicated in the stage of exacerbation of inflammatory diseases. In addition, in these devices there is no block for modulating the brightness of the radiation of LEDs with biologically active frequencies.

The technical result to which the claimed solution is directed is to expand the therapeutic capabilities of the apparatus and increase the effectiveness of its use, including for stopping and treating the acute phase of the inflammatory process.

A positive result is achieved by the fact that in the apparatus for light therapy containing groups of emitters of monochromatic red and infrared radiation, which form an efficient parallel-parallel matrix of emitting diodes connected to a power source through the radiation parameter control unit, monochromatic blue light emitters are additionally introduced, and the unit The control is equipped with a switch connecting to the power supply a pair of red and infrared or blue and infrared emitting diodes. Diodes of each color are connected in parallel and form separate contracts, which, in turn, are connected in series and connected to a power source through

Control block. LED emitters with a wavelength of radiation lying in the range 420 - 450 nm and a light intensity of 500 - 2000 mcd were selected as emitters of blue color. To increase the therapeutic effect, the device uses modulation of the luminous flux of emitters with biologically active frequencies, for which a modulator is additionally introduced into the control unit.

From the wide medical practice, the therapeutic effect of blue lamps is known. The introduction of blue light emitters into the light therapy apparatus makes it possible, by the combined action of blue and infrared light, to stop the acute phase of the inflammatory process and in a short time to transfer the inflammation to the stage of remission. Infrared radiation, you possess; its significantly greater penetrating power than blue helps the process of stopping the acute phase of the inflammatory process to go to greater depth and capture the entire lesion at the same time.

In FIG. 1 shows one of the possible arrangements of the LED groups in the emitting matrix, and in FIG. 2 - electric block diagram of the apparatus.

LEDs of three colors infrared 1, red 2 and blue 3 are located uniformly over the area of the light-output field of the device. This arrangement of diodes allows for uniform illumination of the pathology zone, implementing the developed methods for treating various diseases.

Groups of LEDs of each color 1, 2, 3 are connected to the power supply 5 through the radiation parameter control unit 4.

The LEDs in the fupps, in order to increase the reliability of the apparatus, are connected in one or more parallel circuits, which, in turn, are connected in series and connected to the power source 5 through the radiation parameter control unit 4.

The control unit radiation parameters 4 provides the following basic functions:

- using a special switch 6, the pairs of groups of diodes 1-3 are alternately connected to the power supply 4, so that at any given time two of the three groups of diodes can generate radiation: infrared 1 and red 2 or infrared 1 and blue 3;

-generator 7 performs the synthesis of an alternating voltage (current) that controls the radiation parameters, for example, the synthesis of one or more biologically active frequencies. As a generator, you can use, for example, a classic transistor multivibrator. In a more complex case, you can use a programmable memory chip (ROM), which writes: n a more complex modulation signal containing a set of biologically active frequencies. If necessary, a special generator-frequency synthesizer can synthesize any modulation signal necessary to increase the effectiveness of the treatment of a particular pathology, and one or several biologically active frequencies are necessarily included in the spectrum of such a signal.

- modulation by the synthesized (generator 7) control signal of the direct current of the LED pumping is carried out, which leads to a change in the radiation flux of the LED matrix according to the same law as the modulating voltage.

As a power source 4, you can use both an autonomous unit (3-6 batteries with a voltage of 1.5 V), and a network voltage converter with 220 V AC to 5-9 V DC (network adapter with an output voltage of 5-9 V) .

Physiotherapeutic apparatus for light therapy works as follows. When you turn on the device in the network (or connect it to an autonomous power supply), the device generates optical radiation in one of two possible color combinations (IR - red, IR - blue). Using the switch 5, the necessary operating mode of the apparatus is selected, as described in special medical guidelines, the emitter of the apparatus is located near the area to be processed according to medical guidelines, and the planned procedure is carried out for the time specified in the recommendations.

Studies have shown that the greatest therapeutic effect is achieved using blue LEDs with a radiation wavelength in the range of 420 - 450 nm. Moreover, the therapeutic effect is significantly reduced if the light intensity of the blue LEDs is less than 500 mcd, and if it exceeds 2000 mSd, then there is a danger of thermal burns. The impact of optical radiation on the affected biological object in this case is energy-informational in nature.

The compliance of the proposed physiotherapeutic apparatus for light therapy with the requirements of medical practice in terms of functional and methodological capabilities is confirmed by the test reports of prototypes conducted on the recommendation of the Committee on New Medical Equipment of the Ministry of Health of the Russian Federation.

Sources of information:

1.Illarionov V.E. “Technique and methods of laser therapy procedures. / Reference book /, M, 1994.

2. Patent of the Russian Federation No. 2144396

3. The device LED red and infrared radiation portable "Geska-2, specifications TU 9444-002-07543077-96

Authors: / L B.A. Nalyvayko

/ f f-r-x;

A.A. Ponomarev V.V. Trifonov E.F. Yauk

Claims (4)

1. The apparatus for light therapy, containing a group of emitters of monochromatic red and infrared radiation, forming a series-parallel matrix of emitting diodes connected to a power source through a radiation parameter control unit, characterized in that monochromatic blue light emitters are additionally introduced into it, and the control unit is equipped with a switch connecting to the power supply in pairs a group of red and infrared or blue and infrared emitting diodes. 2. The device according to claim 1, characterized in that the diodes of each color are connected in parallel and form separate contracts, which in turn are connected in series and connected to a power source through the control unit. 3. The apparatus according to claim 1, characterized in that the blue emitters selected LEDs with a wavelength of radiation lying in the range 420 - 450 nm and a radiation power of 500-2000 mcd. 4. The apparatus according to claim 1, characterized in that the control unit additionally introduces a device that modulates the brightness of the radiation of the LEDs with biologically active frequencies.