RU179372U1 - Phototherapy device - Google Patents

Abstract

The device is an emitter consisting of an LED matrix with green, red and blue LEDs or a set of red, green and blue LEDs with a total power of 9 W or more, located in the original design. At the output, the light beam passes through a polarizing filter that converts natural light into polarized. The device has interchangeable radiation characteristics and allows phototherapy in the visible region of the optical spectrum. The presence of red, green, and blue LEDs allows their radiation to be combined, resulting in output of polarized radiation in a narrow spectral range corresponding to red, orange, yellow, green, cyan, blue, violet, or in a wide range for obtaining white light. Thus, it provides effective phototherapy according to most of the known methods requiring the use of polarized radiation in a given range of the visible region of the spectrum.

Description

The utility model relates to medical equipment, in particular to devices designed for physiotherapy using optical radiation.

Existing phototherapy (phototherapy) devices are used for various therapeutic purposes. For example, a phototherapy device is known under the name "Davita Lichtdusche Physiolight LD 220", or is also described in a similar form in the publication DE 202005010124 U1. On the other hand, for example, fluorescent lamps are used to irradiate patients to compensate for light deficiency in winter and reduce winter depressions.

A known device for phototherapy (patent for invention No. 2092200), containing an LED radiation source in the range from long-wave ultraviolet to far infrared radiation, placed at one end of a flexible electrically insulated cable that supplies power to them, the other end of which is connected to the output of the generator through a connector . The device, thus, provides effective phototherapy according to most of the known methods.

Known biolamp (patent for utility model No. 54792) consisting of a matrix of LEDs capable of emitting light of three ranges: red, blue, green. The use of three-color light-emitting diodes significantly expands the boundaries of the therapeutic effect of the device: it is possible to use both monochromatic radiation and a combination of wavelengths, as well as their alternation.

As the closest analogue, another well-known device manufactured under the Bioptron trademark is described, described in publication EP 0311125 A1, which allows to obtain polarized light from a halogen incandescent lamp. The device consists of a housing, a halogen lamp, a Brewster polarizer, a glass holder, a toroidal transformer, a reflector and a fan. The outlet contains a filter that is permeable to light components with a wavelength of more than 400-450 nm. In its modified version, the Bioptron Pro device has glass filters for light therapy, made in the form of nozzles on the outlet.

The disadvantages of this prototype device are: the use of an expensive Brewster polarizer; the need for a light filter that cuts off the ultraviolet component in the radiation of a halogen lamp; lack of the ability to quickly change filters. In addition, the incandescent lamp used in the device consumes a relatively large current (2A), which leads to heating of the case and requires a cooling fan and a powerful power supply.

The problem to which the claimed utility model is directed is to create a phototherapy device containing a radiation source with a tunable wavelength range and a polarizing light filter at the output of the device.

This problem is solved due to the fact that the claimed device for phototherapy, contains a power supply, a control unit, a widely accessible polarizing filter and an LED emitter of green, red and blue glows, characterized in that this design allows to receive plane-polarized radiation in a narrow spectral output a range corresponding to red, orange, yellow, green, cyan, blue, violet, or a wide range for white light.

The technical result of the proposed utility model is to obtain a polarized light source with a variable wavelength.

An example of the inventive device is shown in Figure 1. The appearance of the device is shown in Figures 2 and 3.

In the housing 1 there is a built-in power supply unit from an alternating current main 2 and a control unit 3 that generates the necessary values of the electrical power parameters of the LEDs in accordance with the selected operating mode. Changing the operating mode is carried out from the button control panel 4, containing 10 buttons: “on”, “off”, “red”, “orange”, “yellow”, “green”, “blue”, “blue”, “purple”, "white". When choosing the appropriate color, the control unit provides power to those LEDs, the combination of which will lead to radiation in the desired wavelength range. At the output of the device there is a polarizing light filter 5 and a nozzle 6, which limits the exit of light rays to nearby areas. The nozzle 6 has an anatomical shape corresponding to the irradiated zone and is selected from a set of nozzles for various irradiation zones (nose, throat, etc.). The emitter 7 is located on an aluminum plate 8, which acts as a radiator that removes heat from the LEDs, and has grooves on the back side that ensure efficient dissipation of the heat received. The emitter consists of 9 or more LEDs with a total power of 9 or more watts or an LED matrix of the same power. At the same time, for each color component, there must be 3 or more LEDs. The device is also equipped with a timer 9, which emits an audio signal every 60 seconds for the convenience of monitoring the exposure time. To organize air exchange inside the device, the housing contains grooves 10 that allow air to circulate in the direction indicated by the arrows in Figure 2.

The device operates as follows. The power supply is supplied with voltage. The power button from the control panel energizes the LED radiation source. Using the control panel, the corresponding button sets the required operating mode. At the same time, radiation corresponding to white or one of the 7 primary radiation colors appears at the output of the device. The duration of light therapy is set by the doctor and is monitored by sound signals emitted every 60 seconds. With long procedures, the device can be mounted on a stationary stand (tripod).

The subject of this utility model is a phototherapy apparatus used in medicine for the prevention and treatment of diseases of the body, mainly ENT organs, as well as in cosmetology for phototherapy of skin defects.

Claims (5)

1. A device for phototherapy, comprising a power supply, a control unit, a timer, a polarizing filter and a radiation source with a tunable output wavelength range, characterized in that the radiation source is an LED matrix with three groups of LEDs, respectively, blue, red and green colors total power of 9 watts or more. 2. The device for phototherapy according to claim 1, characterized in that it contains a button control panel for turning the device on and off and setting the required spectral range. 3. The device for phototherapy according to claim 1, characterized in that the timer provides an audible signal every 60 seconds of operation of the device to control the exposure time. 4. The device for phototherapy according to claim 1, characterized in that it contains nozzles at the outlet, allowing them to be snug against the irradiated area.

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