RU2631046C1 - Automated device for human diagnosis by state of biologically active points - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: at the beginning of the diagnostic process proposed device allows to perform the connection of a plurality of electrodes to the BAP and to carry out an automated process of short-term alternating measurement of electrical conductivity (flowing currents) with automatic fixation of the results. In this case, the initial contact of the electrodes with the BAP will not be violated during subsequent short-term measurements. A manual connection of a particular BAP by a doctor for in-depth study of the dynamics of the change in electrical conductivity (flowing current) in this BAP immediately after taking medications, poison entry to the human body or human contacts with cosmetic products is foreseen.

EFFECT: increased reliability of human diagnosis by state of biologically active points.

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Description

The invention relates to medical equipment and can be used for acupuncture diagnostics.

The well-known diagnostic and treatment complex ARM-PERESVET, recommended for use in medical practice by the Committee on New Medical Technology of the Ministry of Health of Russia (protocol No. 4 of October 9, 1998), registration certificate FSR 2009/05421, Russian certificate No. POCC ^RU. IM02.D00563, European Union Certificate ARM-PERESVET Reg. - No. V-06-045.

A device for acupuncture is known (patent SU No. 1771740 A1, class A61H 39/00) containing an active (pin) electrode, a diode, a current regulator, a current recorder and a passive cylindrical electrode.

The closest in technical essence to the claimed solution is a device for diagnostics of the state of biologically active points, selected as a prototype (patent SU No. 1745100 A3, class A61B 5/05, A61H 39/02), containing a test circuit, an output signal meter the test circuit, the control unit of the potency of the test object and the cartridge MRK.

A disadvantage of the known device is the low reliability of human diagnostics.

Electropuncture diagnostics of the state of acupuncture meridians and interconnected organs and systems of the body is carried out by analyzing the electrical conductivity (the magnitude of the flowing electric current) between biologically active points (BAP) and a common measuring point (palm of the hand, foot, etc.) or between biologically active points in accordance with the methods of R. Voll or Nakatani.

The work of known systems and devices provides for the constant (for the period of the diagnostic procedure) connection of one common electrode and the alternate attachment of the second electrode to biologically active points (BAP) with subsequent measurement of the electrical conductivity or the magnitude of the flowing currents through a person at a fixed constant voltage. When revealing a pathology and predicting the severity of diseases, assessing the body’s response to various medications, food products, cosmetics, etc., an assessment is made of the change in electrical conductivity (flowing currents) in time with direct human contact with medicines, food, cosmetics, etc. That is, after the introduction of the drug into the human body, the doctor is interested in the dynamics of the body's reaction over a limited time interval, with fixing the results. Thus, the diagnosis of diseases and the assessment of changes in human organs under the influence of drugs, poisons and cosmetics are carried out. However, a physician physically cannot provide small time intervals for measuring electrical conductivity (flowing currents) in a large number of BAT (12 or more) and with repeated and subsequent measurements of electrical conductivity (flowing currents) the probability that the doctor will get the second electrode (probe) exactly at the same the place, as in the first measurement, is very small. The error of re-entering the same BAP as in the initial measurement inevitably entails an error in measuring the conductivity (flowing currents) in the human meridian. It is also known from the physiological characteristics of the human body that when a voltage is connected to a person (regardless of the connection points), with increasing connection time, the electrical conductivity of a person increases, which affects the decrease in the reliability of this type of diagnosis. The doctor cannot make an accurate short-term connection of the electrode to the selected BAP with fixing the result. The time delay of the electrode on the BAT and the accuracy of repeated and subsequent hits by the doctor in the same BAT is determined only by the qualifications and physiological capabilities of the doctor. Registration of the measurements is carried out, as a rule, manually according to the readings of ammeters, however, automated (digital) oscilloscopes and other recording devices record the voltage, but it is necessary to record the results of the measurement of flowing currents, so it is necessary to switch from the value of the flowing currents to the registration of equivalent voltages for further automation not only measurements, but also analysis of diagnostic data.

Thus, the known devices have low diagnostic confidence.

To eliminate the above drawbacks, it is necessary at the beginning of the diagnostic process to connect multiple electrodes to the BAT and to carry out an automated process of short-term alternate measurement of electrical conductivity (flowing currents) with automatic recording of results. In this case, the initial contact of the electrodes to the BAP will not be violated during subsequent short-term measurements. In this case, you should provide for manual connection by a doctor of one or another BAT for an in-depth study of the dynamics of changes in electrical conductivity (flowing current) in this BAT immediately after taking medications, the ingress of poisons into the human body or human contacts with cosmetics.

The purpose of the invention is to increase the reliability of human diagnostics according to the state of biologically active points.

To achieve this goal, devices for diagnosing the state of biologically active points (patent SU No. 1745100 A3, class A61B 5/05, A61H 39/02) have introduced a meter, two switches, a unit for recording diagnostic results, a control panel for connected BAT, a unit automatic mode, the meter consists of an ammeter, a current to voltage converter, a bipolar power source, a voltmeter, the control panel of the connected BAT consists of 1 ... n LEDs and 1 ... n diodes, and the power source provides a constant voltage and a second output the power source is “enclosed”, and the first output of the power source is connected to the input of the first switch and in parallel to the second pin of the meter, the first output of the first switch is connected to the “common” pin of the second switch, to each output pin from 1.1 ... 1.n of the second switch is connected one search electrode 4.1 ... 4.n, the combination of which is connected to selected biologically active points (BAP) on the human body and 4.1 ... 4.n search electrodes are connected in parallel to 1.1 ... 1.n contacts, respectively control panels of connected BAT and parallel to the second 2.1 ... 2.n contacts of the automatic mode unit, the first input of which is connected to the second output of the first switch, the indifferent electrode is connected to a point on the human body, determined by the doctor and its output is connected to the first contact of the meter, the third and fourth the meter’s contacts are connected to the inputs of the diagnostic results registration unit, the second contact of the connected BAT control panel is “case-based”, the meter consists of an ammeter, a current transducer in voltage, of a bipolar power source, voltmeter, and the ammeter input is connected to the first contact of the meter, the output of the ammeter is connected to the input of the current to voltage converter, two other inputs of which are connected to two outputs of the bipolar power source, the first output of the current to voltage converter is “case”, and the other two outputs are connected in parallel through the third and fourth contacts of the meter to the inputs of the diagnostic results registration unit, the first input of the voltmeter is connected in series through Without the second contact of the meter to the first output of the power source, and the second input of the voltmeter is “case-based”, the automatic mode unit consists of 1 ... n keys, a decoder, a clock generator (GTI), and the first inputs of each of 1 ... n keys are connected to the first the contact of the automatic mode unit to the second inputs of 1 ... n keys the corresponding outputs of the decoder are connected, to the input of which the GTI output is connected, the output of each of 1 ... n LEDs of the control panel of the connected BATs is connected in series to 1 ... n diodes, the outputs of which s connected to terminal 2 of the control panel plug BAT, which is a "furrow.", and the input of each LED is connected respectively to one of the contacts 1.1 ... 1.n control panel plug BAT.

Figure 1 shows the functional electrical diagram of the proposed device, figure 2 shows the functional diagram of the meter, figure 3 shows the functional diagram of the control panel of the connected BAT, figure 4 shows the functional diagram of the automatic mode unit.

An automated device for diagnosing a person according to the state of biologically active points contains a power source 1, switch 2, switch 3, search electrodes 4.1-4.n, an indifferent electrode 5, a meter 6, a diagnostic results recording unit 7, a connected BAT 8 control panel, an automatic block mode 9, meter 6 contains an ammeter 10, a current to voltage converter 11, a bipolar power source 12, a voltmeter 13, a control panel for connected BATs 8 contains LEDs 14.1 ... 14.n, diodes 15.1 ... 15.n, the unit automatically mode 9 contains keys 16.1 ... 16.n, a decoder 17, a clock generator 18, the second output of power supply 1 being “package”, and the first output of power supply 1 connected to the input of switch 2 and in parallel to the second contact of meter 6, the second the output of switch 2 is connected to the first contact of the automatic mode block 9, the first output of switch 2 is connected to the “common” contact of switch 3, each output pin 1.1 ... 1.n of switch 3 is connected to one search electrode 4.1 ... 4.n, the combination of which connected to selected biologically active points (BAP) on the human body, and 4.1 ... 4.n search electrodes are connected in parallel to 1.1 ... 1.n contacts of the control panel of connected BAT 8 and in parallel to 2.1 ... 2.n contacts of automatic mode 9, indifferent electrode 5 is connected to a point on the human body determined by the doctor and its output is connected to the first contact of meter 6, the third and fourth contacts of meter 6 are connected to the inputs of the diagnostic results recording unit 7, the second contact of the control panel of connected BATs 8 is It is “enclosed”, the meter 6 consists of an ammeter 10, a current to voltage converter 11, a bipolar power source 12, a voltmeter 13, and the input of the ammeter 10 is connected to the first contact of the meter 6, the output of the ammeter 10 is connected to the input of the current converter to voltage 11, the other two inputs of which two outputs of the bipolar power source 12 are connected, and the second output of the current-to-voltage converter 11 is “package”, the third and fourth outputs are connected to the third and fourth contacts of the meter 6, the first input Meter 13 is connected in series through the second contact of the meter to the first output of power supply 1, and the second input of voltmeter 13 is “case” in the automatic mode block 9, the first inputs of each of 16.1 ... 16.n keys are connected to the first contact of the automatic mode block 9, and to the second inputs 16.1 ... 16.n of the keys are connected the corresponding 17.1 ... 17.n outputs of the decoder 17, to the input of which the output of the clock generator 18 is connected, and the outputs of the keys 16.1 ... 16.n are connected in parallel to the contacts 2.1 ... 2.n of the automatic mode unit 9, output ka of each of the LEDs 14.1 ... 14.n of the control panel of the connected BATs 8 is connected in series to the diodes 15.1 ... 15.n, the outputs of which are connected to pin 2 of the control panel of the connected BATs 8, which is a "case", and the input of each LED 14.1 ... 14.n connected respectively to one of the contacts 1.1 ... 1.n of the control panel of the connected BAT 8.

The device operates as follows. From the output of the power source 1, a positive DC potential is supplied to the input of switch 2, if the user needs to operate the device in manual mode, then the input and the first output are closed in switch 2, in this case the positive potential from the power source 1 is fed through the first output of switch 2 to the common contact of switch 3, then the positive potential depending on the position of the output contact 1.1 ... 1.n of switch 3 and the selected BAT is fed to one of the search electrodes 4.1 selected by the user 4.n, which are connected to the biologically active points of a person, then the current flowing through a person goes to an indifferent electrode 5, through pin 1 of the meter 6 flows sequentially through an ammeter 10, the current to voltage converter 11 to the "case" output of the current to voltage meter 11 6, moreover, the bipolar supply voltage from the bipolar power supply 12 is supplied to the other two inputs of the current transducer to voltage 11, and the implementation of the current to voltage transformer 11 can be performed and an operational amplifier (see. circuit solution Alekseenko AG Fundamentals of microcircuitry, Elements of the morphology of microelectronic equipment Second Edition Soviet Radio, 1977). the voltmeter 13 shows the magnitude of the supplied voltage to the search electrodes 4.1 ... 4.n for monitoring the voltage by the user, the output voltage equivalent to the current flowing through the person through the outputs 3.4 of the meter 6 is fed to the input of the diagnostic results recording unit 7, which can be implemented in in the form of a digital programmable oscilloscope with the presentation of the measurement results on a computer screen, in parallel with the outputs 1.1 ... 1.n of switch 3, 1.1 ... 1.n contacts of the control panel of the connected BAT 8 are connected, with Accordingly, each of which the LEDs 14.1 ... 14.n and the diodes 15.1 ... 15.n are connected in series, and each of the 14.1 ... 14.n LEDs emits light when the corresponding BAT is connected, depending on the closure of the common contact and one of the contacts 1.1 ... 1. n of switch 3, and diodes 15.1 ... 15.n perform the function of preventing voltage supply to other BATs (except for the one selected by the user) in case of breakdown of the LEDs 14.1 ... 14.n, in parallel, the outputs of the diodes 15.1 ... 15.n are connected to the “case” terminal 2 of the panel control of connected BAT 8, if the user is not it is necessary to switch to automatic mode, it opens the input and the first output of switch 2 and closes the input and the second output of switch 2, then positive voltage is supplied through pin 1 of the automatic mode block 9 to the first inputs of the switches 16.1 ... 16.n, the second inputs of which are alternately supplied control voltage from the output of the decoder 17, opening the keys 16.1 ... 16, and the intervals of alternately connecting the control voltage from the outputs 17.1 ... 17.n of the decoder 17 is determined by the period of the pulses from the output of the clock pulses 18, and the pulse repetition period from the output of the clock generator 18 can be controlled by the user and this period determines the time of measuring the current of the next connected BAT, from the outputs of the switches 16.1 ... 16.n the positive voltage is alternately supplied to the search electrodes 4.1 ... 4.n, then meter 6, then the unit for recording diagnostic results 7 and the control panel of connected BATs 8 operate in the same way as in manual mode.

Claims (1)

An automated device for diagnosing a person according to the state of biologically active points, containing a power source, a search electrode, an indifferent electrode, characterized in that a meter, two switches, a unit for recording diagnostic results, a control panel for connected biologically active points (BAP), an automatic mode unit, the meter consists of an ammeter, a current to voltage converter, a bipolar power source, a voltmeter and has four contacts, a control panel for connected BA consists of n LEDs and n diodes and has 1 ... n input and one output contacts, the automatic mode unit consists of n keys, a decoder and a clock generator and has one input and 1 ... n output contacts, and the second output of the power supply is ”, And the first output of the power source is connected in parallel to the input of the first switch and through the second contact of the meter to the first input of the voltmeter, the second input of the voltmeter is“ housing ”, the first output of the first switch is connected to the“ common ”contact of the WTO of the switch, one 1 ... n search electrode is connected to each output 1 ... n contact of the second switch, the combination of which is connected to selected biologically active points (BAP) on the human body and 1 ... n search electrodes are connected in parallel through 1 ... n input contacts the control panel of the connected BAT to the inputs of n LEDs, with each output of the LED connected to the input of the diode, the outputs of the n diodes connected to the output terminal of the control panel of the connected BAT, which is "case-based", and 1 ... n search electrodes are connected in parallel through 1 ... n output contacts of the automatic mode unit to the outputs of n keys, to the first inputs of which the second output of the first switch is connected in parallel through the input contact of the automatic mode unit, and each corresponding decoder output is connected to the second inputs of each of the n keys, to the input of which the output of the clock pulse generator is connected, the indifferent electrode is connected to the point on the human body, determined by the doctor, and its output is connected through the first contact the amplifier to the input of the ammeter, the output of which is connected to the input of the current to voltage converter, the other two inputs of which are connected to the outputs of the bipolar power source, the two outputs of the current to voltage converter through the third and fourth contacts of the meter are connected to the input of the diagnostic results registration unit, and the third output of the converter current to voltage is "case-based".

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