RU178421U1 - Portable light therapy device - Google Patents

Abstract

The invention relates to the field of medical technology, in particular to devices for the phototherapy of IR and red radiation, and can be used for physiotherapy of inflammatory diseases of the nose and paranasal sinuses. A portable device for phototherapy, containing 2 multivibrators, generating rectangular rectangular electric pulses of transistors, a signal amplification unit based on CMOS logic, transmitting it to the infrared and red emitter unit. This technical solution allows you to expand the conditions of use and increase the safety of the device for phototherapy due to independence from the electric network and small overall dimensions. 3 ill.

Description

The utility model relates to the field of medical technology, in particular to devices for phototherapy of the IR and red radiation ranges, and can be used for physiotherapy of inflammatory diseases of the nose and paranasal sinuses.

The relevance of the development of this utility model is confirmed by the absence on the market of devices for phototherapy, independent of the electrical network, while having small overall dimensions.

A device for magnetic light therapy, which includes semiconductor emitters of visible and near-infrared waves connected to an electric power and control circuit, and a permanent magnet that forms a magnetic field in the irradiation zone of the emitters. The disadvantages of this device are the large overall dimensions and dependence on the electric network [RF patent No. 2122445, IPC A61N2 / 06, 1997].

Known physiotherapeutic apparatus for phototherapy, which uses an LED matrix of infrared and red radiation, which allows to achieve the best therapeutic effect on body tissues. The disadvantage of this device is its dependence on the electric network [RF patent No. 2090224, IPC A61N5 / 06, 1996].

This device is taken as a prototype.

The objective and technical result of the proposed utility model is the possibility of conducting individual physiotherapeutic procedures for light therapy of the IR and red radiation ranges in conditions of remoteness from the electric network, as well as ensuring the termination of the device for light therapy in case of failure of at least one LED to exclude the device from operating at full capacity.

Comparison of the proposed device with others known in the field of medical technology, showed its compliance with the criteria of a utility model.

The utility model is illustrated by graphic material. In FIG. 1 shows a block diagram of a device structure; in FIG. 2 shows a block diagram of a device, where 1 is a power supply; 2 - block generating optical pulses; 3 - signal amplification unit; 4 - block emitter; 5 - block forming pulses; 6 - reflector; 7 - a plastic case; 8 - control button; 9 - compartment for batteries.

In the case of the device under development, a compartment 9 is provided for power supply 1, 3 AA batteries were selected as batteries, the output voltage of this unit was 4.5 V.

The pulse generating unit 5 includes: an optical pulse generating unit 2, a signal amplification unit 3. An optical pulse generating unit 2 is a 2 multivibrator generating rectangular electric pulses to transistors.

The signal amplification, in the corresponding block 3, is carried out due to the fact that the microcircuit used contains 6 buffer (amplified) inverters of the standard CMOS (complementary metal-oxide-semiconductor structure) logic.

The emitter unit 4 is represented by 3 IR and 3 red LEDs, while each IR LED is connected in the same circuit with the red LED and in case of a malfunction, the red LED will also not function, which excludes insufficient operation (not at full power) of the device for malfunctions of one or more LEDs.

The device is used as follows. To get started, you must turn on the portable device for phototherapy by shifting the movable part of the control button 8 in working condition. The treatment of the device is effected by the contact method as shown in FIG. 3. The reflector 6 of the utility model is applied alternately to the following points: 10 — frontal sinuses, 11 — maxillary sinuses, 12 — nose bridge, 13 — side projections of the nose and nose wings, which are irradiated for a given time.

This technical solution allows you to expand the conditions of use and increase the safety of the device for phototherapy due to independence from the electric network and small overall dimensions.

The proposed device can and should be used in areas geographically remote from health care facilities, as well as at home as directed by a doctor.

Claims (1)

A portable phototherapy device containing a power supply unit represented by three AA batteries, an optical pulse generating unit represented by two multivibrators, a signal amplification unit based on CMOS logic, an emitter unit represented by three IR and three red LEDs, each IR LED being connected in one circuit with a red LED.

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