RU2074697C1 - Device for light reflexotherapy (versions) - Google Patents

Abstract

FIELD: medical technology, particularly, facilities for acting on reflexogenic zones, acupuncture points, and biologically active points with optical irradiation. SUBSTANCE: device has power supply 1, key 2 (push button with normally open contacts) for switching on, as well as for switching over operating mode, and voltage stabilizer, output of which is just connected to counting input of first counter 4, and to reset input of second counter 6 through inverter 5; output of pulse generator 7 is connected to counting input of counter 6 having seven outputs; all these outputs, except for seventh one, are connected to data inputs of multiplexer 8 having control inputs connected to outputs of first counter 4; moreover, counting input of counter 6 is connected to seventh data input of multiplexer 8, and counting input of counter 4 is combined with eighth input of multiplexer 8; seventh output of counter 6 is connected to input of Schmidt trigger 11 through differentiating circuit consisting of series connected condenser 9 and parallel connected resistor 10; Schmidt trigger output is connected to sound converter 13 through controlled pulse generator 12; output of multiplexer 8 is connected to first emitter repeater 14 with light source 15 in form of semiconductor light-emitting diode being incorporated into emitter circuit of repeater; replacement and switching on of light-emitting diode with prescribed value of radiation wavelength are made through plug-and-socket connector; first pilot light-emitting diode 17 allows to indicate operating mode of generator 15; device incorporates indicator for monitoring power supply efficiency; alternate version of device construction is described. EFFECT: provision for working out versatile portable device intended for patient's treatment with light reflexotherapy and using discrete wavelengths of light radiation; simplified procedure of treatment. 12 cl, 2 dwg

Description

 The invention relates to medical equipment and can be used in reflexology when exposed to optical radiation on reflexogenic zones, acupuncture points and biologically active points.

 Light therapy is one of the most common methods of physical therapy for optical radiation. A wide range of wavelengths used from ultraviolet to infrared radiation allows you to get a variety of physiological structure of the impact. This is creating a tan in the erythemic zones of ultraviolet radiation and providing deep heating of tissues, as when using red light. The spectral sensitivity of the response of the human body to radiation in the visible part of the spectrum has also been established. Under the influence of red radiation, the mental reaction proceeds faster, the excitability of the nerves increases, and the blue and violet light, on the contrary, lower it. Orange and green have no noticeable effect. Blue light has a calming effect on mental arousal (V.N. Pasynkov, Physiotherapy, M. Medicine, 1975, p. 88).

 Light reflexotherapy uses essentially the same wavelength range as conventional light therapy, however, along with traditional light sources (incandescent and halogen lamps) (PCT international application WO 91/01709, class A 61 H 39/00. (2)) uses laser light sources of low intensity up to several milliwatts per square meter. see (V.E. Illarionov, Fundamentals of Laser Therapy, M. From RESPECT, 1992, p. 57) (3). In these cases, mainly semiconductor lasers are used. At the same time, as follows from the publications and the authors' own observations, for the achieved useful result of light therapy, the coherence of the used optical radiation is insignificant, which is a distinctive feature of laser radiation.

 Apparently, the active factor is only a narrow spectral range of the used optical radiation. That is why the researchers note that when using luminescent sources in acupuncture therapy (when controlling the degree of exposure according to the method of R. Voll), "green, blue and yellow fluorescent light is slightly more active than white or red." In other words, although white light is the sum of the indicated spectral components, it is less effective than the highlighted discrete colors (F. Kramer, Electropuncture Workshop, Volume 2, M. Techart, 1992, 126 (4); PCT International Application No. WO 92 / 18200, according to class A 61 N 39/00 (5)).

 Known devices for light reflexotherapy traditionally use semiconductor LEDs to generate radiation with a sufficiently high efficiency in a wide range of colors with low power consumption.

 An analogue of the invention is a device for reflexology, comprising at least one LED connected via a modulator to a power source and a control unit. The control unit allows you to adjust the parameters of the square-wave pulses supplied to the LEDs, change the pulse repetition rate [2] However, the device is quite difficult to operate and not suitable for carrying out procedures in community-acquired conditions.

The closest in technical essence and the achieved result is a device for light reflexotherapy, including an optical emitter on the LED connected to a pulse generator, a modulation mode switch, a timer connected to the signal element, and a power source [3]
However, this device has some disadvantages, since it does not provide long-term operation from an autonomous power source at several wavelengths, is not portable, and does not have built-in operation indicators intended for an unprepared user.

 The technical result of the invention is the creation of a universal small-sized device for light reflexotherapy, which provides treatment of patients using light and color effects at discrete wavelengths, for example, according to the Su-Jock technique, simple to operate and controlled with just one button.

 This goal is achieved by the fact that in the first version of the device for light reflection therapy, which includes an optical emitter on the LED connected to a pulse generator, a modulation mode switch, a timer with a signal element and a power source, a voltage stabilizer, an inverter, the first and second counters, and a multiplexer are introduced into the device and a key forming a modulation mode switch, a first emitter follower, a power supply discharge indicator, a modulation frequency indicator, wherein the first, second, third, the fourth, fifth and sixth information inputs of the multiplexer are connected to the outputs of the second counter of the same name, the pulse generator is connected to the counting input of the second counter and to the seventh information input of the multiplexer, the inputs of the stabilizer and the discharge indicator of the power source are connected to the output of the power source through a key, the output of the stabilizer is connected to the counting the input of the first counter and the eighth information input of the multiplexer, and also through the inverter to the reset input of the first counter, the first, second and third the outputs of the first counter are the control inputs of the multiplexer, the output of which through the first emitter follower is connected to the optical emitter on the LED, in parallel with which the modulation frequency indicator is connected, the seventh output of the second counter is the input of the timer signal element.

 The second version of the device for light reflexology includes an optical emitter on the LED connected to a pulse generator, a switch of modulation modes, a timer with a signal element and a power source. A voltage stabilizer, a switch, a first and second counters, a multiplexer and a key forming a modulation mode switch, a first emitter follower, a power supply discharge indicator, a modulation frequency indicator, and the first, second, third, fourth, fifth and sixth information inputs are introduced into the device the multiplexer is connected to the outputs of the second counter with the same name, the pulse generator is connected to the counting input of the second counter and to the seventh information input of the multiplexer, the stabilizer inputs and indicator The discharge source of the power source is connected to the output of the power source through a switch, the output of the stabilizer is connected to the eighth information input of the multiplexer and through the differentiating chain to the reset inputs of both counters, and also through the key to the counting input of the first counter, the first, second and third outputs of the first counter are control the inputs of the multiplexer, the output of which through the first emitter follower is connected to an optical emitter on the LED, parallel to which is connected the mode frequency indicator lyatsii seventh output of the second counter is the input signal timer element.

 Both versions of the device may differ in that the discharge indicator of the power source contains a low-pass filter connected in series, a Schmitt trigger with an inverter, and a second emitter follower with a first indicator LED connected to its output.

 Further, the device may differ in that the modulation frequency indicator is a second indicator LED connected to the output of the first emitter follower through a resistor.

 The mentioned variants of the device may differ in that the signal element of the timer comprises a series differentiating circuit, a Schmitt trigger and a controlled generator connected to the sound transducer.

 Variants of the device may differ in that the first and second indicator LEDs have a common translucent casing, and also in that the LED of the optical emitter for each of the spectral ranges of radiation: blue (470 nm) or green (567 nm) or yellow (590 nm) or red (660 nm) or infrared (870 or 930 nm) is connected using a quick coupler.

 In FIG. 1 shows a schematic diagram of a device; figure 2 option, characterized by differences in the circuit of the power supply.

 The device (see figure 1) contains a power source 1 (battery or battery), a key 2 (normally open button), designed to turn on and simultaneously switch operating modes, voltage stabilizer 3.

 The output of the stabilizer 3 is connected directly to the counting input of the first counter 4 and through the inverter 5 to the discharge input of the second counter 6. The output of the pulse generator 7 is connected to the counting input of the counter 6, which has seven outputs. The outputs of the counter 6, with the exception of the seventh, are connected to the information inputs of the multiplexer 8, the control inputs of which are connected to the outputs of the first counter 4. The counting input of the counter 6 is connected to the seventh information input of the multiplexer 8, and the eighth counting input of the counter 4. The seventh output of the counter 6 through a differentiating chain formed by a series capacitor 9 and a parallel resistor 10 is connected to the input of a Schmitt trigger 11, the output of which through a controlled pulse generator 12, is connected to an audio transformer Atelier 13.

 The output of the multiplexer 8 is connected to the first emitter follower 14, in the emitter circuit of which is included an emitter 15, made in the form of a semiconductor LED. Change and connection of the LED with a given wavelength of radiation is carried out through the electrical connector 16. To indicate the operation of the emitter 15 is the first indicator LED 17 connected through a quenching resistor 18 parallel to the emitter 15.

 The power supply operability indication circuit is formed in series with a voltage stabilizer 3 connected to the input: a voltage divider consisting of resistors 19 and 20, a capacitor 21 connected in parallel with a resistor 20. These elements act as a low-pass filter to eliminate amplitude fluctuations due to a transient process, the so-called . "bounce". The circuit further comprises a Schmitt trigger 22 with an inverter and a second emitter follower 23, in the emitter circuit of which a second indicator LED 24 is included.

 The output of the voltage stabilizer 3 also has two power terminals 25 and 26. The power terminal 25 is connected directly to the output of the stabilizer 3, and the power terminal 26 through a series-parallel circuit formed by the diode 27 and the capacitor 28.

 Terminal 25 is designed to power circuit elements 7, 11, 12, 14, 22, and 23. Terminal 26 provides the operability of circuit elements 4, 5, 6, and 8.

 In the case when the device is equipped with a switch 29 of the power supply 1, which excludes the discharge of the batteries in the after-cycle mode, the circuit has the form shown in FIG. 2.

 A terminal 30 is connected to the output of the stabilizer 3 for powering all the elements of the device, and through the differentiating chain of series-parallel connected capacitor 31 and resistor 32, the output of the stabilizer is connected to the reset inputs of the counters 4 and 6. The counter input of the counter 4 in this case is connected to the output of the stabilizer 3 through key 2. In this embodiment, the elements of the circuit 5, 25, 26, 27 and 28 are absent.

 The device operates as follows.

 In the embodiment depicted in FIG. 1, when you press the key 2, the voltage of the power source 1 is supplied to the stabilizer 3, where it is stabilized and fed to the elements 7, 11, 12, 14, 22 and 23. At the same time, the capacitor 28 is charged, the voltage on which is used to power the elements 4, 5, 6 and 8. The first counter 4 is triggered by a positive edge of the pulse. The output code of the counter 4 controls the operation of the multiplexer 8, which, depending on the value of the code, connects one or another input to the first emitter repeater 14. At each of the inputs of the multiplexer there is a signal with its own frequency (constant voltage at the eighth input), which are generated by the generator 7 and the second counter 6, which performs the functions of a frequency divider.

 The signal from one of the outputs of the second counter 6 through a differentiating chain formed by elements 9 and 10, is fed to a Schmitt trigger 11, which forms a short pulse. For the duration of this pulse, a controlled pulse generator 12 is turned on and a tonal sound signal is generated with a frequency, for example, 1 kHz, emitted by the sound transducer 13.

 After each pressing of the key 2 and its subsequent retention after 16 seconds, a positive voltage drop appears on this output of the counter 6, which is supplied to the Schmitt trigger 11. When you release the key 2 and press it again, the inverter 5 resets the counter code 6. Therefore, after a series of presses of the key 2, carried out to select the desired modulation frequency, the specified allows you to receive the first sound signal 16 seconds after the last key 2.

 When the key 2 is pressed further, the counter 4 changes its output code to “1” and the next frequency signal is supplied to the emitter follower 14. The process of changing the frequency is cyclically repeated. The code on the counter 4 is stored for approximately one minute after the voltage of the power source 1 is disconnected from the stabilizer 3, which allows both turning on the device and changing the frequency of radiation modulation using a single key (non-latching button).

 To indicate the discharge of the power source 1 below a certain level, the elements 19 are used 24. After the button 2 is turned on, the voltage of the power source is supplied through the divider (resistors 19 and 20) to the capacitor 21, which is being charged. If the voltage on the capacitor is greater than the threshold level, then Schmitt trigger 22 with an inverter fires, its level is set to “0” and the second indicator LED 24 does not light. If the voltage of the power supply 1 becomes less than a certain value, then the trigger 22 does not work and the second indicator LED 24 lights up. The stability of the threshold level is provided by the power of the elements 22 and 23 from the stabilizer 3.

 Indicator LED 17 indicates the frequency of the radiation pulses. The LED 17 can be structurally combined with the LED 24 and placed in one housing. In this case, a different "color" of the radiation should be used (for example, green for LED 17 and red for LED 24). The choice of the spectral range of operation of the device is provided by a simple replacement of one emitter 15 with another by means of an electrical connector 16.

 In another embodiment of the device, the circuit of which is shown in Fig. 2, when the circuit breaker 29 is closed, the voltage from the stabilizer 3 is supplied to all elements of the circuit via terminal 30. The counters 4 and 6 are zeroed and a constant voltage is applied to the output of the multiplexer 8. In this case, a continuous radiation mode is provided. After closing the key 2, the counter code 4 increases by one, and a meander with a frequency of 1 Hz is formed at the output of the multiplexer. On subsequent presses of key 2, a meander with an increasing frequency will be present at the output of the multiplexer and the process will be carried out cyclically. The indication of the modulation mode is duplicated by the indicator LED 17.

 In the example of implementation, LEDs with a standard translucent polyester resin housing based on solid solutions of gallium aluminum phosphide-arsenide-aluminum to the wavelength ranges of optical radiation of 567, 590, 660, 870 (930) nm are used as emitters 15, which ensures the creation of green, yellow , red and infrared radiation fluxes, respectively. The average radiated power of the therapeutic effect is from 0.05 to 5 mW.

 The invention allows to provide both continuous and pulsed operation modes by turning on the device and switching modulation modes using a single key (button). In this case, the radiation mode can be set as continuous (when you first press the key), and pulse (meander) with frequencies, for example, 1, 2, 4, 8, 16, 32 and 64 Hz by releasing and then pressing the key. The modulation frequency is conveniently controlled by the flickering of the green indicator LED 17. Extends the user experience by introducing a timer and an indicator of the operability of power supplies, which allows them to be changed or recharged in time. These advantages, along with the convenience of management and use, allow you to use the device both in inpatient medical facilities and clinics, and at home.

 An analysis of the sources of information on the prior art carried out by the applicants showed that the invention is new, industrially applicable, and satisfies the condition of an inventive step, since it does not obviously follow from the information on the prior art that implements new knowledge established by the applicant himself. This knowledge boils down to the development of principles for building a reflexotherapy-controlled device with one key that has the capabilities that are formulated in the technical result.

Claims (12)

 1. A device for light reflection therapy, including an optical emitter on an LED connected to a pulse generator, a modulation mode switch, a timer with a signal element and a power source, characterized in that a voltage stabilizer, an inverter, a first and second counters, a multiplexer and a key are introduced into the device, forming the modulation mode switch, the first emitter repeater, the indicator of the discharge of the power source, the indicator of the modulation frequency, while the first, second, third, fourth, fifth and sixth information The multiplexer inputs are connected to the outputs of the second counter of the same name, the pulse generator is connected to the counter input of the second counter and to the seventh information input of the multiplexer, the inputs of the stabilizer and the discharge indicator of the power source are connected to the output of the power source through a key, the output of the stabilizer is connected to the counting input of the first counter and the eighth information input of the multiplexer, as well as through the inverter to the reset input of the first counter, the first, second and third outputs of the first counter are the control inputs of the multiplexer, the output of which through the first emitter follower is connected to the optical emitter on the LED, in parallel with which the modulation frequency indicator is connected, the seventh output of the second counter is the input of the timer signal element.  2. The device according to claim 1, characterized in that the indicator of the discharge of the power source contains a low-pass filter connected in series, a Schmitt trigger with an inverter, and a second emitter follower with a first indicator LED connected to its output.  3. The device according to claims 1 and 2, characterized in that the modulation frequency indicator is a second indicator LED connected to the output of the first emitter follower through a resistor.  4. The device according to paragraphs. 1 to 3, characterized in that the signal element of the timer contains sequentially differentiating chain, a Schmitt trigger and a controlled generator connected to the sound transducer.  5. The device according to paragraphs. 2 and 3, characterized in that the first and second indicator LEDs have a common translucent housing.  6. The device according to PP.1 to 5, characterized in that the LED of the optical emitter for each of the spectral ranges of blue (470 nm), or green (567 nm), or yellow (590 nm), or red (660 nm), or infrared (870 or 930 nm) radiation is connected using a quick coupler.  7. A device for light reflection therapy, including an optical emitter on an LED connected to a pulse generator, a modulation mode switch, a timer with a signal element and a power source, characterized in that a voltage stabilizer, a switch, a first and second counters, a multiplexer and a key are introduced into the device, forming a switch of modulation modes, a first emitter repeater, a discharge indicator of a power source, an indicator of the frequency of modulation, while the first, second, third, fourth, fifth and sixth info the rotational inputs of the multiplexer are connected to the outputs of the second counter of the same name, the pulse generator is connected to the counting input of the second counter and to the seventh information input of the multiplexer, the inputs of the stabilizer and the discharge indicator of the power source are connected to the output of the power source through a switch, the output of the stabilizer is connected to the eighth information input of the multiplexer and through differentiating chain to the reset inputs of both counters, as well as through the key to the counting input of the first counter, the first, second and three These outputs of the first counter are the control inputs of the multiplexer, the output of which through the first emitter follower is connected to the optical emitter on the LED, in parallel with which the modulation frequency indicator is connected, the seventh output of the second counter is the input of the timer signal element.  8. The device according to claim 7, characterized in that the discharge indicator of the power source contains a low-pass filter connected in series, a Schmitt trigger with an inverter and a second emitter follower with a first indicator LED connected to its output.  9. The device according to paragraphs. 7 and 8, characterized in that the modulation frequency indicator is a second indicator LED connected to the output of the first emitter follower through a resistor.  10. The device according to paragraphs. 7 to 9, characterized in that the signal element of the timer comprises a series differentiating chain, a Schmitt trigger and a controlled generator connected to the sound transducer.  11. The device according to PP.8 and 9, characterized in that the first and second indicator LEDs have a common translucent housing.  12. The device according to paragraphs. 7 to 11, characterized in that the LED of the optical emitter for each of the spectral ranges of blue (470 nm), or green (567 nm), or yellow (590 nm), or red (660 nm), or infrared (870 or 930 nm) radiation connected using a quick coupler.

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