RU18929U1 - LIGHTING APPARATUS - Google Patents

Abstract

1. The apparatus for light therapy containing a matrix of emitters connected to a power supply, characterized in that it introduced a pairing element and a light guide, which through the pairing element is optically matched with at least one emitter. The apparatus for light therapy according to claim 1, characterized in that the emitters of the matrix are made in the form of single-color or multi-color single LEDs. The apparatus for light therapy according to claim 1, characterized in that the matrix emitters are made in the form of groups of single-color or multi-color LEDs. The light therapy apparatus according to claim 1, characterized in that the matrix emitters are made in the form of matrices of single-color or multi-color emitting crystals. The apparatus for light therapy according to claims 1 to 4, characterized in that the emitter coordinated with the light guide nozzle is located relative to the plane of placement of the emitter matrix, and also relative to the longitudinal axis of the apparatus at an angle of 0 - 90.6. The light therapy apparatus according to claim 5, characterized in that the emitter and the interface element are fixed with the possibility of a smooth change of angle. The apparatus for light therapy according to claims 1 to 5, characterized in that the emitter coordinated with the light guide nozzle is equipped with a separate power circuit breaker.

Description

LIGHTING APPARATUS

The utility model relates to the field of medical instrumentation, in particular, to devices for exposure to light radiation during phototherapy and can be used in various fields of medicine for direct physiotherapy of a pathological focus with both superficial and intracavitary localization.

It is known that radiation penetrates into biological tissues quite deeply (up to several centimeters), and since blood and lymph are exposed to radiation, almost any local radiation can have the character of a systemic effect on the body. Nevertheless, the greatest therapeutic effect is achieved when the radiation is delivered directly to the pathological focus with a sufficient level of radiation power density. Therefore, for the treatment of internal organs through the body’s cavities, various devices have been created containing in their composition means for channeling radiation from a source to predetermined sites.

It is known, for example, a device for the light irradiation of biological objects, in which, using an optical system, the radiation from the source is directed to the end face of a replaceable intracavitary nozzle acting as a light guide 1. However, these known devices allow exposure to light primarily within the body cavities and are not effective for irradiation surfaces of a large area.

On the other hand, devices are known for influencing radiation on superficially located foci of pathology (burns, cuts, bruises, etc.) 2. But these known devices are not suitable for light therapy of intracavitary localization diseases.

The purpose of the utility model is to increase the effectiveness of therapeutic effects by expanding the functional versatility of the apparatus - direct light therapy of pathological foci with both superficial and intracavitary localization. At the same time, the scope of application of the device is expanding - not only in physiotherapy and surgery itself, but also in urology, gynecology, proctology, otorhinolaryngology and dentistry, that is, in areas associated with exposure to parts of the body through the internal cavities of the human body or body2000129436

. iwnniini

M. Cl. A 61 N5 / 06

here it is.

The closest to the proposed utility model in terms of functional name, the beginning and components of the device is the Teska-1 LED therapeutic portable device 2. The prototype is characterized as follows in combination with the features common to the proposed device. It contains a matrix of emitters connected with a lek m-ditapia. Annarat has limited functional possibilities - only superficial - (transdermal) in a biological object.

The proposed utility model is a portable device with increased efficiency due to the versatility of exposure to various pathologies.

Thanks to the implementation of the proposed utility model, the compactness of the device is ensured, the possibility of direct light therapy of diseases with both superficial and intracavitary localization is achieved, due to which the functional capabilities of the apparatus for pathologies are expanded.

The indicated result is achieved in the apparatus for light therapy, which contains a matrix of emitters connected to the power supply due to the fact that an interface element and a light guide nozzle are inserted into it, which, through the interface element, is optically matched to at least one emitter.

In this case, the matrix emitters can be made in the form of single-color or multi-color single crystals or LEDs, as well as in the form of groups of LEDs or in the form of matrices of emitting crystals.

For the convenience of using the device, the emitter coordinated with the fiber nozzle can be located relative to the plane of placement of the matrix of emitters, as well as relative to the longitudinal axis of the device at an angle from O to 90 degrees with the possibility of a smooth change of angle and is equipped with a separate power circuit breaker.

The listed features of the proposed device are interconnected and aimed at expanding the functions of the device. It should be noted that there are no restrictions on the use of emitters of any radiation spectrum and in any combinations in the proposed device.

Further, the proposed device is illustrated in Fig.1 - 3, which schematically shows some possible layout options of the device. Here I is the matrix of the emitters, 2 is the interface between the fiber-optic nozzle 3 and the emitter 4. Figure 2 represents a device in which the board with the matrix can rotate, and Figure 3 is a device with a removable interface element.

The matrix of emitters is electrically connected to the power supply, which can be remote or located in the handle 5 of the device. Note that the device can be powered both from the network and from an autonomous source (battery, battery, etc.). Various elements can be built into the power supply — modulators, timers, and other circuits and controls for the magnitude of the voltage at the emitters, the frequency of the sending pulses, synchronization with an external signal, etc. However, in all cases it is desirable to maintain the compactness of the device, and modern microelectronics allow this .

Depending on the purpose, the device uses nozzles of various diameters and lengths. The nozzle is installed in the interface element and rotated to set an angle convenient for the procedure. After turning on the device, the nozzle is inserted into the cavity (vagina, rectum, mouth, urethra, etc.) and kept there for a period of time in accordance with the doctor’s recommendations.

For light therapy of superficial pathologies, the nozzle is removed (this is not necessary in the devices of FIGS. 1 and 2) or removed together with the interface element (FIG. 3). The apparatus is turned on and the surface pathology matrix is irradiated.

Due to the conjugation element and the light guide nozzle introduced into the apparatus, the functional capabilities of the apparatus are expanded and its therapeutic effectiveness is increased.

Sources of information used in compiling the description

1.G.L.Shingarev, V.K. Martynov, Device for the light irradiation of biological objects. RF patent No. 2000129 Cl. A 61 N 5/06 dated 06/23/92.

2. The device LED red and infrared radiation portable Geska-G, TU 9444-001-07543077-96.

Authors / 7 A.A. VILISOV

/ ii /

A.V. Lavrenkov (.Nalivaiko

A.A.1. Ponomarev E.F. YUUK (

Claims (7)

1. The apparatus for light therapy containing a matrix of emitters connected to a power supply, characterized in that it introduced a pairing element and a light guide, which through the pairing element is optically matched to at least one emitter.  2. The apparatus for light therapy according to claim 1, characterized in that the matrix emitters are made in the form of single-color or multi-color single LEDs.  3. The apparatus for light therapy according to claim 1, characterized in that the matrix emitters are made in the form of groups of single-color or multi-color LEDs.  4. The apparatus for light therapy according to claim 1, characterized in that the emitters of the matrix are made in the form of matrices of single-color or multi-color emitting crystals. 5. The apparatus for light therapy according to claims 1 to 4, characterized in that the emitter coordinated with the light guide nozzle is located relative to the plane of placement of the matrix of emitters, as well as relative to the longitudinal axis of the apparatus at an angle of 0 - 90 ^o .  6. The apparatus for light therapy according to claim 5, characterized in that the emitter and the interface element are fixed with the possibility of a smooth change of angle. 7. The apparatus for light therapy according to claims 1-5, characterized in that the emitter coordinated with the light guide nozzle is equipped with a separate power circuit breaker.