RU122891U1 - PHYSIOTHERAPY DEVICE - Google Patents

Abstract

Apparatus for physiotherapy, including a power source and an impact element containing a cylindrical frame made of a solid dielectric, and a sinusoidal signal source made in the form of an autogenerator containing an oscillatory circuit consisting of a capacitor and an inductor connected in series, the winding of which is placed on the side surface of the frame , characterized in that it additionally contains a base made of a solid dielectric, on which infrared LEDs are installed, connected in series and connected to a power source, while the base is fixed inside the cylindrical frame.

Description

The utility model relates to medicine, namely to physiotherapeutic devices.

The proposed apparatus for physiotherapy can find application in ophthalmology in the treatment of a number of diseases.

Currently, in medical practice, an electromagnetotherapy apparatus is used to affect the patient’s head [1].

A description of the apparatus is given in RF patent No. 2250787 / cm. figure 3 /. The apparatus for electrotherapy includes a power source and an exposure element containing a dielectric frame made in the form of a cylinder. The exposure element contains a sinusoidal signal source, made in the form of a self-oscillator containing an oscillatory circuit, consisting of a capacitor and an inductor connected in series, the winding of which is placed on the side surface of the frame.

In various fields of medicine, low-energy infrared radiation (0.8-1.3 μm) created by LED emitters has increasingly been used. The infrared optical radiation coincides with the frequencies of natural vibrations of the functional systems of the body, has a stimulating effect on the activity of the most important tissue enzymes, macroergs, increases the redox potential, stimulates metabolic processes. [2, 3].

It is possible to obtain a higher therapeutic effect by applying two physical factors simultaneously to a biological object during physiotherapy, namely, a high-frequency electromagnetic field formed by a pulsating sinusoidal signal with a carrier frequency in the range of 100-500 kHz and a pulsation frequency of 100 Hz using an inductive emitter, and low-intensity radiation quasi-monochromatic radiation of the near infrared range with a small spectral width using an optical emitter [2].

A description of such a device is given in RF patent No. 2358772 [4].

However, the known device has limited capabilities. So, for example, in the treatment of various diseases in ophthalmology it is impossible to act simultaneously on both eyes.

The objective of the utility model is to expand the arsenal of technical means for physiotherapy.

The technical result is an increase in therapeutic effectiveness.

The technical result is achieved by the fact that the apparatus for physiotherapy, including a power source and an exposure element containing a cylindrical frame made of a solid dielectric, and a sinusoidal signal source, made in the form of an oscillator containing an oscillating circuit, consisting of a capacitor and an inductor connected in series, a winding which is placed on the side surface of the frame additionally contains a base made of a solid dielectric, on which the LEDs infrared radiation tubes connected in series and connected to a power source, the base being fixed inside the cylindrical frame.

The essence of the proposal is that the apparatus for physiotherapy containing a source of high-frequency electromagnetic field with an inductive emitter is additionally equipped with an optical emitter with LEDs for infrared radiation.

Figure 1 shows the functional diagram of the apparatus for physiotherapy, figure 2 shows the impact element assembly.

The apparatus for physiotherapy contains a power source 1, consisting of a power plug with contacts 2 and 3, to which the first leads of resistors 4 and 5 are connected, in which the second leads are connected to the input contacts 6 and 7 of rectifier 8, made according to the bridge circuit on semiconductor diodes. An output circuit is connected to the output contacts 9 and 10, which contains the infrared radiation LEDs 11 and the resistor 12 connected in series. The apparatus includes a self-oscillator circuit 13 and an oscillating circuit consisting of an inductor 14 and a capacitor 15. The inductor 14 acts as an inductive emitter.

The power circuit of the oscillator 13 is connected to the terminals of the resistor 12, one of which includes a green LED 16. The oscillator 13 generates sinusoidal oscillations in the frequency range 100-500 kHz. The output of the rectifier 8 has a ripple voltage with a ripple frequency of 100 Hz.

Figure 2 shows the impact element containing the dielectric frame 17, made in the form of a cylinder, on the side surface of which is placed the winding of the inductor 14. On the frame 17 is fixed a dielectric housing 18, inside which is fixed a board 19 with circuit elements of the oscillator 13, which by cable 20 is connected to a power source 1. The housing 18 is closed by a cover 21. Inside the frame 16, a base 22 is fixed, made of a solid dielectric such as vinyl plastic and having the shape of a plate with bent ends, on which LEDs become infrared radiation type L 34 F 3 S. LEDs connected in series and through resistor 12 are connected to output terminals 9 and 10 of the rectifier 8.

The device operates as follows.

When connected to an industrial network, a pulsating DC voltage is supplied to the circuit formed by the LEDs and resistor 12. From the terminals of the resistor 12, the voltage is supplied to the oscillator circuit 13, which generates a pulsating high-frequency electromagnetic field with a carrier frequency in the range of 100-500 kHz and a pulsation frequency of 100 Hz . Using the inductor 14, the field is radiated into space. If the frame of the exposure element is worn on the patient’s head, then the field acts on the head. At the same time, an optical emitter located inside the frame emits electromagnetic waves of the infrared range with a wavelength of 880 nm, which affect the biological object - the eyes.

Information sources

1 RF Patent No. 2250787 A61H 2/02, publ. 04/27/2005 Bull. Number 12

2. Solovyova G.R. Magnetotherapy equipment. - M .. Medicine, 1991, p.27.

3. V.E. Illarionov et al., Infrared LED radiation in ophthalmology. Biomedical Technologies and Radio Electronics, 2003, No. 12

4. RF patent No. 2358772 A61H 5/06, 2/02, published on 06/20/2009 Bull. Number 17

Claims (1)

Apparatus for physiotherapy, including a power source and an impact element containing a cylindrical frame made of solid dielectric, and a sinusoidal signal source made in the form of a self-oscillator containing an oscillating circuit, consisting of a capacitor and an inductor connected in series, the winding of which is located on the side surface of the frame characterized in that it further comprises a base made of a solid dielectric on which infrared LEDs are mounted cheniya connected in series and connected to a power source, wherein the base is fixed inside the cylindrical carcass.