RU2082315C1 - Device for setting diagnosis based on biologically active points state - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has transducer with active electrode, passive electrode, processing unit, indication unit, power supply source unit, computer. The transducer has frequency and amplitude adjustment unit, master oscillator unit, probing signal generator connected in series. The probing signal generator output is the transducer output and is connected to the active electrode. The processing unit has matching and amplifying unit connected in series, its input being the first input of the processing unit connected to the passive electrode, the first commutator unit, information signal former with its first output being connected to the first commutator unit control input through the commutator control unit, and galvanic decoupling unit which second input is connected to the passive electrode through the second commutator, its output being the first output of the processing unit and is connected to the computer. The indicator unit is designed as matching unit having indicator unit, the indication control unit and seven-segment indicator unit connected in series. The indication control unit has the second input connected to indicator unit reading threshold adjustment unit. The first input of the indicator unit is connected to the second input of the processing unit and to ± 9 V power supply bus. Its second input is connected to unit for matching the indicator unit and to the second input of the processing unit. The power supply source unit has transformer and two voltage stabilizers in 6/20 V and + 9 V. EFFECT: enhanced accuracy of diagnosis. 1 dwg

Description

 The invention relates to medicine, namely to measuring electronic equipment for diagnostics and can be used to find biologically active points (BAP), assess the full (integral) impedance of electric skin resistance (EX), and also to determine the presence and degree of pathology activity in the body, including hidden forms of pathology.

 The closest in technical essence is the "Device for the detection of acupuncture points" (ed. St. N 198504, class A 61 B 5/05, published 08.11.1973), containing a sensor with two electrodes, a neutral electrode, a control unit, search electrode display unit, matching unit, measurement unit, registration unit and power supply.

 A disadvantage of the known device is that it has limited technological capabilities for measuring the BAP and can only search for a point in the semi-automatic display mode, fix it on the body of the subject and register the point conductivity relative to the neutral electrode. This device cannot be used to assess the full (integral) impedance of an EX, determine the degree of pathology in the body, including hidden forms of pathology.

 The technical result achieved in the invention is to reduce the time to search for biologically active points, to accurately assess the total (integral) impedance of electric skin resistance (EX), as well as to determine the degree of pathology activity in the body, including hidden forms of pathology .

 The drawing shows a block diagram of a device for diagnosing the status of biologically active points.

 The device for diagnosing the state of biologically active points contains a sensor 1, which includes a serially connected master oscillator 2, the input of which is interconnected with the output of the frequency and amplitude adjustment unit 3, the output of which is connected to the input of the sensing signal generator 4, the output of which is the output of sensor 1 and connected to the active electrode 5. The power supply unit includes a power transformer 6 220/30 V, one output of which is interconnected with the input of the stabilizer 7 voltage ± 9 V power circuits, output to which is interconnected with the input of the voltage stabilizer 8 6/20 V. The passive electrode 9 is interconnected with the input of the processing unit 10, consisting of a block 11 amplification and matching, the output of which is interconnected with the input of the first switch 12, the output of this switch 12 is connected to the input of the driver 13 information signal one output of which is connected to the input of the control unit 14 of the switch 12, and the output of the control unit 14 is interconnected with the input of the first switch 12, and the second output of the information signal generator 13 for the computer is interconnected through the galvanic isolation unit 15 of the device with an electronic computer 16 (computer), and the second input of the galvanic isolation unit 15 is interconnected with the output of the switch 17, the input of which is interconnected with the second output of the passive electrode 9.

 The second output of the amplification and matching unit 11 is interconnected with the input of the display unit 18, consisting of series-connected matching unit 19 with an indicator, the output of which is connected to the first input of the indicator control unit 20, the second input of which is connected to the output of the indicator threshold adjustment unit 21, and the output of the indicator control unit 20 is interconnected with the input of the seven-segment indicator 22, which is used for visual observation of the state of biologically active points (BAP).

 A device for diagnosing the state of biologically active points works as follows.

 When connected to a 220 V network, a 220/30 V power transformer 6 is turned on, from which current is supplied to a voltage regulator 7 of ± 9 V for operation of the active electrode 5 and to the stabilizer 8. The amplitude of the output signals for the active electrode 5 does not exceed 1 V, and the amplitude line output does not exceed 3 V. Power consumption does not exceed 0.7 watts.

 Before the examination, the test surface of the skin is degreased and the active electrode 5, with a certain pressure, is firmly pressed to the patient’s skin, and the passive electrode 9 is placed in the hand of the subject.

 When searching for biologically active points (BAP), the master oscillator 2 generates a sinusoidal voltage with a frequency and amplitude set in the frequency and amplitude adjustment unit 3. This voltage through the shaper 4 of the sensing signals is supplied to the active electrode 5.

 The voltage set by the active electrode 5 is supplied through a portion of the body (biologically active point (BAP)) of the patient to a passive electrode 9 connected via an insulated cable to the amplification and matching unit 11.

The amplified voltage is supplied through separate channels:
to the first switch 12, the driver 13 of the information signal for the electronic computer 16, the block 15 galvanic isolation of the device and the electronic computer 16, and then through the communication unit to the electronic computer 16;
to an indication unit 18, consisting of an indicator matching unit 19, an indicator control unit 20 and a seven-segment indicator 22, as well as an indication threshold adjustment unit 21 on the indicator.

 The voltage from the passive electrode 9 is supplied to the matching and amplification unit 11, the first switch 12, the signal shaper 13 for the electronic computer 16 and then, being transformed into a measuring window, is formed into a pulse in a predetermined duration, through the galvanic isolation unit 15 of the device goes to the electronic computing machine 16.

 The control unit 14 of the first switch 12 serves to disconnect the passive electrode 9 from the remaining nodes of the circuit for the duration of the measurement window to eliminate the measurement error.

 The second switch 17 performs the work of switching the passive electrode 9 with the channel of the electronic computer 16.

 Then, the signal from the passive electrode 9 is fed through the channels of the display unit 18 to the indicator matching unit 19, the indicator control unit 20, in which the thresholds of the indication readings are set by the indicator threshold adjustment unit 21 and the seven-segment indicator 22 is used for visual signals observations of the state of biologically active points.

 Thus, acting on biologically active points (BAP) with a minimum current strength (1.5 μA), using a pulsed current with a frequency exceeding the physiological ability of the cell membrane to change its polarity, measure the total impedance of the electrical skin resistance of biologically active points (BAP). Moreover, with repeated measurements, to remove complete information from biologically active points (BAP), the possibility of distortion of measurement results is excluded.

 Using this device, a method of electropunctural assessment of the patient’s health status through the assessment of electrodermal resistance (EX) of biologically active points and its anatomical and topographic relationships, in the form of a system providing this type of diagnosis, is implemented.

Based on the information received, an expert scale for the state of biologically active points (BAP) has been created:
norm 700 130 kOhm
uncertainty 129 30 kOhm
prepathology 29 10 kOhm
pathology less than 10 kOhm
The use of this device for diagnostics of the state of biologically active points can significantly expand its technological capabilities, by quickly finding biologically active points (BAP) to accurately assess the full (integral) impedance of electric skin resistance (EX), as well as to determine the presence and degree of activity pathology in the body, including hidden forms of pathology, and the measurement of the total impedance with a simple measurement of electric skin resistance (EX) increases the accuracy of the measurements.

Claims (1)

 A device for diagnosing the state of biologically active points, which contains a sensor with an active electrode, a passive electrode, a processing unit, an indication unit, and a power supply unit, characterized in that an electronic computer is inserted into it, and the sensor includes series-connected frequency and amplitude control units that specify the probe generator and driver, the output of which is the sensor output and connected to the active electrode, the processing unit includes a serialization block and amplification, the input of which is the first input of the processing unit and connected to the passive electrode, the first switch, the driver of the information signal, the first output of which is connected through the control unit of the switch to the control input of the first switch, and the galvanic isolation unit, the second input of which through the second switch is connected to passive electrode, and its output is the first output of the processing unit and is connected to an electronic computer, while the display unit is made in the form of sequentially connected of a matching unit with an indicator, an indicator control unit, the second input of which is connected to the indicator threshold adjustment unit on the indicator, and a seven-segment indicator, while the first input of the display unit is connected to the second input of the processing unit and to the ± 9 V power supply bus, the second input to the input the matching unit with the indicator and the second output of the processing unit, which is the second output of the matching and amplification unit, while the power supply includes a transformer connected to a voltage regulator 6/20 V connected to Exit to the sensor, and with a voltage regulator ± 9 connected to the power supply output to the bus B. ± 9