JPH0347102B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention provides a method for applying a voltage value to a living body, in which the current value flowing through the acupuncture points of the living body is larger than that in areas other than the acupuncture points, that is, the electric resistance value This invention relates to an acupuncture point detector that detects acupressure points in a living body by utilizing the fact that the acupuncture point is small.

Configuration of the Conventional Example and Its Problems The principle of the conventional pressure point detector is that, as shown in FIG. 1, a constant voltage is applied to the living body 5 from a current 1 via a meter 2. As shown in the figure, the number of electrodes 4 is two, and the configuration is such that the position of the acupuncture point is searched based on the amount of current flowing between the electrodes.However, the reference value for determining the amount of current is used for sensitivity adjustment. Volume 3 must be adjusted sequentially for each measurement site. Furthermore, it was not possible to know the electrical resistance value of the pot or the relationship between that value and the resistance values of other parts.

Purpose of the Invention The present invention takes into consideration the above-mentioned conventional drawbacks, and detects the exact position of acupuncture points in any part of the living body without adjusting the sensitivity, and also determines the electrical resistance value of the acupuncture point and its comparison value with surrounding parts. This provides an acupuncture point searcher that can

Structure of the Invention In order to achieve the above object, the present invention includes a common electrode connected to a constant voltage circuit, a sensor section consisting of two electrodes, and a sensor section that converts the current detected by each of the two electrodes of the sensor section into a voltage. Two amplifier circuit sections for amplification, two resistance value conversion circuit sections for converting resistance values by comparing and dividing the output of each amplifier circuit section with a reference voltage, and two resistance value display circuits for displaying the values. , a resistance ratio calculation circuit unit that compares and divides the output voltage values of the two amplifier circuits, a resistance ratio display circuit unit that displays the value, and an output of the resistance ratio calculation circuit unit that is set by a detection level switching circuit. It is composed of a detection/judgment circuit that compares and makes judgments with voltage, and can find the exact position of acupuncture points in any part of the living body without adjusting the sensitivity.
It is possible to know the electrical resistance value of the pot and the comparative value of the surrounding parts.

DESCRIPTION OF EMBODIMENTS An example of the pot search device according to the present invention will be described below with reference to FIGS. 2 to 5.

FIG. 2 shows a block diagram of a pot search device according to the present invention, which will be explained below along with its operation. AC100V
is rectified by a rectifier circuit 6, and the voltage is further kept constant by a constant voltage circuit 7. The negative voltage kept constant by the constant voltage circuit 7 is applied to the shaft electrode c of the sensor 21.
is applied to If the measuring person is a third party, the changeover switch SW provided in the negative voltage circuit is activated, and the negative voltage is applied to the common electrode 20.

The measurer holds the shaft electrode c of the sensor 21 with his/her hand and simultaneously applies the pot side electrode a and the comparison side electrode b to the measurement site. The current values I ₁ and I ₂ detected by the sensor 21 are amplified by the pot side amplification circuit 8 and the comparison side amplification circuit 9 and converted into voltage values V ₁ and V ₂ .
The comparison side resistance value calculation circuit 10 converts the value of K ₁ ·V ₀ /V ₁ into an electrical resistance value by associating the voltage value V ₂ with the reference voltage value V ₀ for resistance value conversion and the reference resistance value. It is configured so that The output value K ₁ ·V ₀ /V ₂ from the comparison side resistance value calculation circuit 10 is input to the comparison side resistance value display circuit 11 and displayed as a digital value or an analog value. Similarly, the voltage value V ₁ and the reference voltage value V ₀ for resistance value conversion are input to the pot side resistance value calculation circuit 12, and the value K ₂ ·V ₀ /V ₁ converted to the electrical resistance value is outputted. The value is input to the pot side resistance value display circuit 13 and displayed as a digital value or an analog value. In the resistance ratio calculation circuit 14, voltage values V ₁ and V ₂ are input,
A value obtained by multiplying the ratio V ₁ /V ₂ of V ₁ and V ₂ by K ₃ is output.
Since the voltage values V ₁ and V ₂ are inversely proportional to the skin resistances R _a and R _b of the living body that the pressure point side electrode a and comparison side electrode b are in contact with, K ₃ · V ₁ /V ₂ is converted to R _b /R _a The configured value is output. The output value of the resistance ratio calculation circuit 14 is input to the resistance ratio display circuit 15, and the value is displayed as a digital value or an analog value. Further, the output value of the resistance ratio calculation circuit 14 is compared with an arbitrary reference voltage value V _K set by the detection level switching circuit 16 in the comparison circuit 17, and K ₃ .
A signal is output only when V ₁ /V ₂ >V _K , and the buzzer drive circuit 18 causes the buzzer to sound. In addition, if any one of the pressure point side electrode a, the comparison side electrode b, and the shaft electrode c of the sensor 21 is not in normal contact with the living body, the sensor open detection circuit 19 detects either the voltage value V ₁ or V ₂ or Both are
Open detection reference voltage value V _M (O<V _M ≪V ₀ ,
Set V _M so that it is smaller than V _K ), and V ₁ <
In the case of either V _M or V ₂ <V _M , or V ₁ <V _M and V ₂ <V _M , a signal is sent to the pot side resistance value display circuit 11, comparison side resistance value display circuit 13, and resistance ratio display circuit 15. is output, the display circuit does not operate, and at the same time it is configured to display that the pot side electrode a, comparison side electrode b, and shaft electrode c of the sensor 21 are not in normal contact with the living body.

Next, a method of operating the pot search device according to the present invention and the functions of each device will be explained. FIG. 3 is a perspective view of a pot search device according to an embodiment of the present invention, FIG.
The figure shows a cross-sectional view of the sensor and common electrode. 4 and 5, the measurer inserts the power plug 23 of the main body 22 into an indoor 100V outlet, turns the power switch 24 to the ON side, and selects the detection level changeover switch 32 arbitrarily. Next, the plug 37 of the sensor 21 is inserted into the sensor jack 34 of the main body 22. Next, hold the shaft electrode c with your hand, and in that state apply the pot-side electrode a and the comparison-side electrode b to the measurement site at the same time. When a third party performs the measurement, further insert the plug 39 of the common electrode 20 into the common electrode jack 33 of the main body 22,
The person to be measured holds the common electrode 20 with his/her hand. At the same time as above, the measurer places the pressure point side electrode a on the measurement site of the person being measured.
and comparison side electrode b are applied at the same time.

As the measurer moves the acupuncture point electrode a and the comparison electrode b onto the skin, the measurer measures the skin resistance value Ra of the skin in contact with the acupuncture point electrode a using the digital meter 25.
Similarly, the analog meter 26 measures the skin resistance value Rb of the skin in contact with the comparative electrode b using the digital meter 2.
7. Can be read sequentially with analog meter 28. Further, at the same time, the value of the ratio Rb/Ra of the skin resistance values Ra and Rb can be read using the digital meter 29 and the analog meter 30. The vase side electrode a and the comparison side electrode b are arranged so that the values of the digital meter 29 and the analog meter 30 become large.
By shifting the electrode a, it is possible to bring the electrode closer to the pressure point position (so-called research function), and the pressure point can be confirmed at the position of the pressure point side electrode a when the meter indicates the peak. When the value indicated by the meter exceeds the value set by the detection level changeover switch 32, a detection buzzer sounds. In addition, if the measuring person does not grasp the shaft electrode c of the sensor 21 or does not apply the pot side electrode a and the comparison side electrode b at the same time, the sensor open indicator lamp 35
lights up to notify the person taking the measurement.

Effects of the Invention As is clear from the above explanation, the acupuncture point locating device according to the present invention not only can find the exact position of the acupuncture point in any body part without successive adjustments, but also can detect the acupuncture point and its surrounding area at the same time. It is possible to know the resistance value of a part and the ratio of both resistance values, and it can be applied to the management of living skin, the use of low frequency therapy as a treatment point, the measurement of the effect of treatments such as acupuncture, and the diagnosis of diseases. big.

[Brief explanation of drawings]

Fig. 1 is a principle diagram of a conventional acupoint detector, Fig. 2 is a block diagram of an acupoint detector according to the present invention, Fig. 3 is a perspective view of the same device, Fig. 4 is a sectional view of a sensor electrode, and Fig. 5 is a cross-sectional view of the common electrode. 5... Biological body, 6... Rectifier circuit, 7... Constant voltage circuit, 8... Pot side amplifier circuit, 9... Comparison side amplifier circuit, 10... Comparison side resistance value calculation circuit, 11... Comparison side resistance Value display circuit, 12... pot side calculation circuit,
13... Pot side resistance value display circuit, 14... Resistance ratio calculation circuit, 15... Resistance ratio display circuit, 16... Detection level switching circuit, 17... Comparison circuit, 18...
Detection buzzer drive circuit, 19...Sensor open detection circuit, V ₀ ...Reference voltage for resistance value conversion, V _M
...Reference voltage for sensor open detection, SW...
Changeover switch, a... pot side electrode, b... comparison side electrode, shaft electrode.

Claims (1)

[Claims] 1 A common electrode connected to a constant voltage circuit, a sensor section consisting of two electrodes, and two of the sensor sections
two amplifier circuit sections that convert and amplify the current detected by each of the two electrodes into voltage, and two resistance value conversion circuit sections that convert the resistance value by comparing and dividing the output of each amplifier circuit section with a reference voltage. two resistance value display circuits that display the values, a resistance ratio calculation circuit unit that compares and divides the output voltage values of the two amplifier circuits, a resistance ratio display circuit unit that displays the values, and the resistance ratio calculation circuit unit that displays the values. An acupuncture point searcher comprising a detection judgment circuit section that compares the output of the circuit section with a voltage set by a detection level switching circuit and makes a decision.