RU90679U1 - PHOTOTHERAPY DEVICE - MODERNIZED MININA LAMP WITH POLARIZING EFFECT - Google Patents

Abstract

1. Device for phototherapy - an upgraded Minin lamp with a polarizing effect, consisting of a housing in which there is a blue light source with a reflector, characterized in that the matrix of light-emitting diodes is used as a light source, combined with a light-polarizing plate, and the power supply is autonomous . ! 2. The device according to claim 1, characterized in that the housing of the device has a socket for a plug of a battery charger.

Description

The utility model relates to medical equipment, namely to equipment for phototherapy.

For half a century in the 20th century, the so-called “blue lamp” created by the Russian military doctor A.V. was the most popular medical device. Minin. Minin's lamp is a simple device in which a radiation source - a tungsten filament is located in the focus of a parabolic specular reflector. This reflector converts the lamp radiation into an almost parallel beam of light. Minin's lamp bulb is made of cobalt glass. The “cobalt” glass of the flask acts as a light filter and transmits only blue rays.

The effectiveness of exposure to blue light has been proven by fundamental biomedical research (1, 2, 3, etc.). Probably, this prompted a number of companies to resume production of “blue lamps”, unfortunately, in worse performance than the original.

Despite the simplicity and perfection of the design that ensured its longevity, the Minin lamp has a number of drawbacks that have appeared in the process of technological progress and at present it does not meet the modern level of medical technology. The main ones are the presence of thermal radiation from an incandescent lamp and a wide spectrum of light transmission by a blue light filter. The appearance of gas discharge lamps made it possible to use a gas discharge lamp with a narrow-band phosphor emitting blue light deposited on its inner surface. A narrow-band phosphor based on rare-earth compounds makes it possible to obtain almost monochromatic blue light emission with a radiation peak of 440 ± 10 nm, in addition, this lamp does not have infrared radiation, which causes a thermal effect.

Both Minin lamp versions are described in sources 3 and 4. These devices operate from an electric current network with a voltage of 127 and / or 220 V. A phototherapy session lasts 30-40 minutes.

Both analogues, according to modern ideas, are technically and morally obsolete. They are quite bulky, tube light sources are short-lived and work only from the mains.

The objective of the proposed utility model is to create a modern device that preserves the idea of an analogue, but more compact, with low power consumption, allowing the use of autonomous power in the form of a battery built into the device’s case, with the possibility of recharging it, and, most importantly, emitting cold blue light with higher biological effect of exposure.

The technical solution is achieved by using a matrix of superbright light-emitting diodes (LEDs) and a polarizing plate through which light passes from the radiation source.

Modern superluminescent LEDs are the product of the latest nanotechnology, they are miniature, have a high level of power of monochromatic optical radiation, are cheap, durable (service life from 30,000 to 50,000 hours), consume an insignificant amount of electricity and are highly resistant to mechanical vibrations.

Polarizer plates, which replaced complex polarizing devices, for example, such as in the Zeptor Bioptron device, make it possible to obtain polarized light after passing through the polarizer plate.

Polarized light penetrates much deeper into the body tissues and has a more pronounced biological effect.

The proposed device is presented in figure 1. It consists of a housing 1, with a removable cover, the upper part of which is represented by a transparent polarizing plate 2. In the housing, directly adjacent to the polarizing plate 2, there is a light-emitting matrix 3 of LEDs. A replaceable battery 4 is also located in the device’s case, which is charged through the socket 5 for the charger plug. The device turns on and off with the button 6 located on the device case. The power source is connected to the matrix 3 by wires 7, also located in the housing 1.

The device operates as follows.

The radiating surface of the device is positioned to the place of photo exposure. Moreover, both remote and contact phototherapy sessions are possible. Using button 6, the device turns on and at the end of the phototherapy time, it also turns off with button 6.

A useful model - a device for phototherapy "Modernized Minin lamp with a polarizing effect" has the following advantages over existing analogues:

1) compact, weight about 300 gr., Convenient for transportation

2) has an autonomous power supply, which allows it to be used in various conditions, including in transport.

3) the presence of an LED matrix as a light source - allows you to get a cold glow of blue light, thereby making it possible to carry out medical procedures in a contact way, and also reduces the time of the medical procedure.

4) the use of a plate-polarizer of light increases the effectiveness of the therapeutic effect.

5) the use of LEDs as a source of optical radiation significantly lengthens the life of the device (30000-50000 hours), and also makes it more resistant to mechanical stress.

6) The use of LEDs eliminates the use of an expensive mirror reflector, because LED surface has its reflective surface, which significantly reduces the cost of the device and makes it compact.

Literature

1. Senger H. Blue Light Responses: Phenomena and Occurrence in Plants and Microorganisms. CRC Press, Boca Raton. Florida, 1987, V.1-2.

2. Karandashov V. I., Petukhov B. B. .. Korneev A. A. et al. Responses to blue light in humans // Bull exp biology and medicine. 2000. - No. 2 - p. 217-221.

3. Karandashov V. I., Petukhov B. B., Zrodnikov B. C. Phototherapy. - M .: Medicine 2001

4. Karandashov VI, Paleev NR, Petukhov BB, Giulini G. Treatment with blue light. Ed. House "Youth Technology". M. 2009.

Claims (2)

1. Device for phototherapy - an upgraded Minin lamp with a polarizing effect, consisting of a housing in which there is a blue light source with a reflector, characterized in that the matrix of light-emitting diodes is used as a light source, combined with a light-polarizing plate, and the power supply is autonomous . 2. The device according to claim 1, characterized in that the housing of the device has a socket for a plug of a battery charger.