RU2696441C2 - Device for therapeutic exposure on patient's head - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment. Device for therapeutic exposure on a patient's head comprises a power supply and an exposure element, comprising an emitter, which is an integral part of the oscillatory LC circuit included in the circuit of the self-contained generator, modulator, the output of which is connected to the circuit of the self-contained generator, a low-frequency signal source, in which the output is connected to the input of the modulator and which is in form of an audio player. Device contains an optical radiator made in form of 6 pieces of LED strip of type SMD 5050 – 60 LED RGB. Each light-emitting diode assembly comprises a housing in which light-emitting diodes of three colours are installed – red with wave length 640 nm, green wavelength 530 nm and blue wave length 450 nm, each of 5 sections is fixed on the base inside the cylindrical frame, wherein power supply circuits of light-emitting diodes of each colour by means of controller are connected to output terminals of power supply source, and comprises 24 LEDs of infrared radiation with wavelength of 880 nm.

EFFECT: device for therapeutic exposure of patient's head is proposed.

1 cl, 2 dwg

Description

The invention relates to medicine, namely to physiotherapeutic devices for influencing the patient's head.

The proposed device for physiotherapy can be used in neurology and psychotherapy in the treatment of a number of diseases.

A known method of transcranial electromagnetic brain stimulation for the treatment of major depressive disorder in adults who have not been helped by traditional therapy. The method does not require the introduction of electrodes under the skin or through the skull. The energy of electromagnetic pulses is radiated from an inductive emitter, dressed on the patient’s head [1].

A device for therapeutic treatment of the patient’s head is known, comprising a power source and an exposure element including an emitter, which is an integral part of the LC oscillatory circuit included in the oscillator circuit, a modulator whose output is connected to the oscillator circuit, and a low-frequency signal source made in the form of an audio player , in whose memory selected musical compositions are recorded, each of which is an electric signal with a constantly changing frequency and amplitude, and power amplifier, in which the input is connected to the output of the audio player, and the modulator input and the electro-acoustic transducer made in the form of headphones are connected to the outputs of the power amplifier.

The known device for physiotherapy affects the patient’s head with high-frequency electromagnetic waves, which are modulated by low-frequency waves of a selected piece of music and at the same time act on the auditory analyzer (ear) by the acoustic waves of this piece of music. Thus, in the known device for influencing the patient’s head, high-frequency electromagnetotherapy and music therapy are used [2].

This device can be taken as a prototype.

To increase the effectiveness of treatment, measures to improve existing and create new effective means, rehabilitation and prevention methods that increase the reserve capabilities of the human body are particularly relevant. Of particular interest is the use of color therapy.

Color light therapy (color therapy) is a method of healing the body, in which elementary particles of light photons affect the processes occurring in the body: transmit information from the environment, as well as inside the body between cells, tissues and organs, increasing energy, improve the state of the immune system, regulate the functions of many organs, some of which are light-dependent, set and maintain the rhythm of daily fluctuations in the work of systems and organs, activate the synthesis of vitamin D3 in the skin, necessary necessary for the deposition of calcium in bone tissue [3, 4].

Color therapy stimulates photobioactivation in a biological object at the molecular, cellular, organ and systemic levels.

The healing properties of color are due to the influence of electromagnetic waves in the light range. The photon energy of the visible spectrum corresponds to the energies of the physiological transformation of molecules, which, when exposed, creates the conditions for the excitation of certain specific changes in biological structures. Visible radiation is widely used in medicine to stimulate metabolic processes. The electromagnetic radiation of the light range stimulates tissue metabolism and improves microcirculation. Color energy has a positive effect on the functioning of cells in the human body.

The objective of the invention is the expansion of the arsenal of technical means for physiotherapy in the field of neurology.

The technical result is an increase in therapeutic opportunities

The technical result is achieved in that a device for therapeutic treatment of the patient’s head, containing a power source and an exposure element including an emitter, which is an integral part of the oscillating LC circuit included in the oscillator circuit, a modulator, the output of which is connected to the oscillator circuit, a low-frequency signal source made in the form of an audio player, in the memory of which selected musical works are recorded, each of which is an electric signal from me constantly the frequency and amplitude of the power amplifier, in which the input is connected to the output of the audio player, and the modulator input and the electro-acoustic transducer made in the form of headphones are connected to the outputs of the power amplifier, according to the invention additionally contains an optical emitter containing 6 segments of LED strip type SMD 5050 - 60 LED RGB, of which one segment has a length of 650 mm and contains 39 LED assemblies, the segment is fixed on the inner surface of the cylindrical frame, each of the other 5 segments has a length 150 mm and contains 9 LED assemblies, each LED assembly contains a housing in which LEDs of three colors are installed - red with a wavelength of 640 nm, green with a wavelength of 530 nm and blue with a wavelength of 450 nm, each of 5 segments is fixed to the base, which is fixed inside the cylindrical frame, while the power supply circuits of the LEDs of each color are connected via the controller to the output terminals of the power supply, it contains 24 infrared LEDs with a wavelength of 880 nm, the LEDs are installed in the matrix, lennye based, infrared LEDs supply circuit connected to the output terminals of the rectifier bridge

The essence of the invention lies in the fact that a device for therapeutic treatment of the patient’s head, containing a power source and an exposure element including an emitter, which is an integral part of the oscillating LC circuit included in the oscillator circuit, a modulator, the output of which is connected to the oscillator circuit, a low-frequency source signal, made in the form of an audio player, in the memory of which selected musical works are recorded, each of which is an electric signal with constantly changing the frequency and amplitude of the power amplifier, the input of which is connected to the output of the audio player, the modulator input and the electro-acoustic transducer made in the form of headphones are connected to the outputs of the power amplifier and additionally contains an optical emitter containing 6 segments of LED strip type SMD 5050 - 60 LED RGB of which one segment has a length of 650 mm and contains LED 39 assemblies, the segment is fixed on the inner surface of the cylindrical frame, each of the remaining 5 segments has a length of 150 mm and contains 9 light of iodine assemblies, each LED assembly contains a housing in which LEDs of three colors are installed - red with a wavelength of 640 nm, green with a wavelength of 530 nm and blue with a wavelength of 450 nm, each of 5 segments is fixed to the base, which is fixed inside the cylindrical frame in this case, the power supply circuits of the LEDs of each color are connected via the controller to the output terminals of the power supply, it contains 24 LEDs of infrared radiation with a wavelength of 880 nm, the LEDs are installed in matrices fixed to the base Pi power infrared LEDs are connected to the output terminals of the rectifier bridge.

In FIG. 1 is a functional diagram of an apparatus for physiotherapy; FIG. 2 illustrates an exposure element.

The device (see Fig. 1) contains a power source containing a step-down transformer 1 and a bridge rectifier 2, in which the first output of the resistor 3 is connected to the output <+>, and the common bus is connected to the output <->. The second terminal of the resistor 3 is connected to the first terminal of the capacitor 4 and the input of the timer 5. The second terminal of the capacitor 4 and the negative terminal of the timer 5 are connected to a common bus. The device contains an optical emitter 6, including an infrared emitter 7, and a red, green and blue light emitter 8, as well as a controller 9, in which the input is connected to the output of the timer 5. The emitter 8 contains a red light system 10 with a wavelength of 640 nm, containing P LEDs, in which the contact <+> is connected to the common wire 11, and the contact <-> is connected to the input 12 of the controller 9. The green light system 13 with a wavelength of 530 nm, containing P LEDs, in which the contact <+> is connected to the common wire 11, and the contact <-> is connected to the input 14 of the controller erya 9. A blue light system 15 with a wavelength of 450 nm, containing P LEDs, in which the contact <+> is connected to the common wire 11 and the contact <-> is connected to the input 16 of the controller 9. The common wire 11 is connected to the input 17 of the controller 9 The infrared radiation system 7 contains K LEDs with a wavelength of 880 nm, in which the contact is connected to the common bus, and the contact <+> is connected to the contact <+> of the diode bridge 2. To control the multi-color LED backlight, the controller is equipped with an infrared sensor for receiving control signals 18. The kit also includes a dist The remote control 19. Using the remote control 19, you can select several modes of smooth and dynamic color change. A timer oscillator 20 is connected to the output of timer 5, which contains an oscillating circuit consisting of an inductor 21 and a capacitor 22. An oscillator 23 output is connected to the oscillator circuit 20, whose input is connected to the output of the low-frequency signal source 24, the role of which is played by an audio player with a power amplifier 24 In the memory of the audio player, selected pieces of music are recorded. Headphones 25 are connected to the output of the low-frequency signal source 24. An inductor 21 acts as an inductive emitter for acting on the patient's head with electromagnetic waves that are amplitude-modulated by a low-frequency signal, the source of which is a specially selected piece of music.

In FIG. 2 shows an exposure element containing a dielectric frame 26 having a cylinder shape with a diameter of 210 mm, on the side surface of which a winding of the inductor 21 is placed. A dielectric plate 27 is fixed inside the frame, on which 5 segments of the LED strip 28 are fixed on one side, each which has a length of 150 mm, matrices with infrared LEDs 29 and columns 30, and on the opposite side a housing 31 is fixed, inside which a hybrid circuit is installed, containing elements of the oscillator 20 circuits and a mode Yator 23 and controller circuit 9. On the inner surface of the chassis 26 is fixed segment LED sheets 32 650 mm in length. The hybrid circuit is connected with a cable to a separate functional unit, which contains a power supply, a timer and a low-frequency signal source. The optical emitter is made in the form of 6 segments 29 LED strip type SMD 5050 - 60 LED RGB. Each segment is fixed to the base with glue and contains 3 modules. The length of the segment is 150 mm. Each module has a length of 50 mm and contains 3 LED assemblies and 3 resistors. Each LED assembly contains a housing in which a red LED with a wavelength of 640 nm, a green LED with a wavelength of 530 nm, and a blue LED with a wavelength of 450 nm are installed. All LEDs have separate leads. Each module has LEDs of the same color and one resistor connected in series and form a power circuit of the same color. The power circuits of all modules are connected in parallel. LEDs of the same color of all modules form a system of the corresponding color. The output <-> for each system is connected to a separate wire. The output <+> for each system is connected to a common wire. With the number of segments N = 5 (see Fig. 2), the number of modules 15, the number of LED assemblies 45. Each system contains 45 LEDs and 15 resistors. The device uses a brand controller RGB-controller ZC - 1000 RC. The controller input is connected to the timer output, the common <+> circuit and <-> circuits of the corresponding systems are connected to the output terminals. The controller is designed to control multi-color systems. The controller is controlled using an infrared remote control. Using the remote control, you can select 7 primary colors, 3 modes for changing the brightness of the glow, several modes for smooth and dynamic color changes. The operating mode of the emitter is pulse - periodic. The power supply circuit of the infrared LEDs is connected to the <+> <-> contacts of the rectifier bridge, where there is a DC voltage with a ripple of 100 Hz.

Thus, infrared radiation is modulated at a frequency of 100 Hz.

The power source is made in the form of a network adapter. Output voltage 12 V.

The device operates as follows. Pre-selected piece of music. The mode of operation of the controller and timer is selected. The exposure element is placed on the patient's head. The procedure time is set on the timer. Controller mode is selected.

The power is turned on, the voltage from the source is supplied to the emitter. After the time has expired, the timer turns off the power.

The duration of the procedure is determined by the medical technique in each individual case.

EFFECT: increased therapeutic capabilities. Compared with the prototype, a higher therapeutic effect was obtained due to an increase in the number of factors affecting biological tissues, namely, simultaneously with electromagnetotherapy and music therapy, color therapy additionally affects.

Information sources

1. Transcranial electrical stimulation, ed. Dvoretsky, St. Petersburg, RAS Institute of Physiology named after I.P. Pavlova, 1998, pp. 482 - 487

2. RF patent No. 101363, IPC A61N 2/04 Publ. 01/20/2011 Bull. No. 02

3. Zverev V.A. // Sat Visual color stimulation in reflexology, neurology, therapy and ophthalmology, ed. B.C. Goidenko, - RMA. - M. - 1998. - p. 86

4. V.P. Zharov et al. Photomatrix devices for the treatment of spatially extended pathologies. Biomedical Electronics, 1999, No. 5, p. 46-48.

5. L.S. Brusilovsky, Music Therapy: A Guide to Psychotherapy. - M .: Medicine, 1979

6. S.V. Shusharuzhan. Music therapy and reserves of the human body. M .: 1998

Claims (1)

A device for therapeutic treatment of the patient’s head, containing a power source and an exposure element including an emitter, which is an integral part of the LC oscillatory circuit included in the oscillator circuit, a modulator, the output of which is connected to the oscillator circuit, a low-frequency signal source, made in the form of an audio player, in the memory of which selected musical works are recorded, each of which is an electric signal with a constantly changing frequency and amplitude, and an amplifier a power source, in which the input is connected to the output of the audio player, and the modulator input and an electro-acoustic transducer made in the form of headphones are connected to the outputs of the power amplifier, characterized in that it additionally contains an optical emitter containing 6 segments of LED strip type SMD 5050 - 60 LED RGB, of of which one segment has a length of 650 mm and contains 39 LED assemblies, the segment is fixed on the inner surface of the cylindrical frame, each of the 5 segments has a length of 150 mm and contains 9 LED assemblies, each LED the bottom assembly contains a housing in which LEDs of three colors are installed - red with a wavelength of 640 nm, green with a wavelength of 530 nm and blue with a wavelength of 450 nm, each of 5 segments is fixed to the base, which is fixed inside the cylindrical frame, with the circuit the power of the LEDs of each color through the controller are connected to the output terminals of the power source, contains 24 infrared LEDs with a wavelength of 880 nm, the LEDs are installed in the matrix, mounted on the base, the power supply circuit of infrared LEDs iodine connected to the output terminals of the rectifier bridge.

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