JP3137563U - Long-distance diagnostic system acupuncture point detector - Google Patents

Abstract

An acupuncture point measuring instrument for a long-distance diagnostic system capable of self-surveying an electrical resistance signal of a living body and capable of being measured by another person.
An acupuncture point measuring instrument for a long-distance diagnostic system for measuring an electrical resistance signal of a living organism according to the present invention measures an electrical resistance signal of a living organism and is provided with a measuring body provided at both probe ends, The transmission unit used for transmitting the biological electrical resistance signal data, and the indicator unit indicating that the test body and the biological body constitute a loop state. The measured biological electrical resistance signal data is transmitted to the computer via the transmission unit, and the significance of the data is analyzed.
[Selection] Figure 1

Description

  The present invention relates to an acupuncture point measuring instrument for a long-distance system that measures an electrical resistance signal of a living organism.

The main function of the autonomic nerve is to regulate visceral activity and glandular secretion, so the organism is controlled and influenced by the autonomic nerve (sympathetic nerve), and the phenomenon of low resistance to depolarization of skin cells Present. The acupoint is a reaction phenomenon in which the sympathetic nerves are active on the body surface, and the excitement level of the sympathetic nerves can be determined by measuring the skin resistance. When the sympathetic nerve is excited, the electrical resistance value decreases. Correspondingly, the electrical resistance increases when the exchange nerve is suppressed. Since the autonomic nerve regulates the organ function and physiological mechanism of the organism, it affects the excitement of the sympathetic nerve when lesions occur in the viscera. Therefore, the skin resistance value of the good lead corresponding to each viscera is measured by the measuring method of the good lead, and the state of the living organism's viscera is judged. Provide information at the time of treatment, suppress excitement, and excite when it is reduced.

Based on this principle, a German doctor clone (Cron) in 1947 discovered that "skin resistance area" and acupoints are involved. In 1950, a Japanese doctor, Dr. Yoshio Nakatani, discovered the relationship between “good lead” and “good lead” on the skin and acupoints. The study of the electrical phenomenon progression system for the acupuncture points of the German doctor Vol since 1953 is the exploration and application of this phenomenon. However, a surveying circuit can be configured only by grasping a conductive tube during surveying and using another electrode probe to contact the skin of a living organism. The existing facilities and detectors are typically Public Notice No. 555578 “Health System for Acupuncture Positions of Handtop Electronic Products”, Public Notice No. 376739 “Resonance Sensitive Health Examiner Structure”, etc. Both have two separate electrodes, which are very difficult and troublesome at the time of self-surveying, and it is possible to find an accurate acupuncture point position only after long practice.
JP 2002-78772 A

  An object of the present invention is to provide an acupuncture point measuring instrument for a long-distance diagnosis system that can self-measure an electrical resistance signal of a living organism and can also measure others.

  In order to achieve the above object, the acupuncture point detector of the long-distance diagnosis system of the present invention can simultaneously operate the probe and the conductive unit with one hand to achieve self-surveying of the electrical resistance signal of the organism. The survey rod and the conductive unit are used in combination, and the measurement of the electrical resistance signal of the other person's organism is achieved from the conductive rod held by the other person.

  In addition to the above configuration and effects, the acupuncture point measuring instrument of the long-distance diagnosis system of the present invention displays whether or not the position of the acupuncture point has been detected via an indicator, and does not require long hours of practice and is accurate. Acupuncture point position can be detected.

  FIG. 1 is a three-dimensional view of a self-diagnosis embodiment of the present invention. Among them: including the inspection object 10, the transmission unit 20, and the indicator unit 60.

  Among them, the test body 10 is composed of a handle 11, a probe rod 12 positioned at one end of the test body 10, a conductive unit 13 positioned on the handle 11, and a push button 14. When the organism grips the conductive unit 13 with one hand, and then the probe 12 is brought into contact with the acupuncture point of the organism, the organism and the test body 10 form a loop. The indicator unit 60 on the measuring object 10 displays that the acupuncture point has been detected. When the measured biological electrical resistance signal data is compared with the previous and subsequent resistance values, the test object 10 displays a ramp signal indicating an increase or decrease in the resistance value, and when the resistance value continues to output, the indicator unit Reference numeral 60 indicates that an acupuncture point has already been detected, and when the push button 14 is pressed, outputs to the computer via the transmission unit 20.

  FIG. 2 is a three-dimensional view of an example of another person diagnosis provided by the present invention. Among them: the inspection object 10, the transmission unit 20, the conductive unit 40, the conductive bar 50, and the indicator unit 60.

  Among them, the test body 10 is composed of a handle 11, a probe rod 12 positioned at one end of the test body 10, a conductive unit 13 positioned on the handle 11, and a push button 14. The conductive portion 40 that is parallel to the conductive unit 13 and located on the test object 10 is connected to the conductive bar 50 by a conductive wire 51, and the conductive bar 50 is held by other living organisms. When coming into contact with the acupuncture point of the other organism, the other organism and the test object 10 form a loop, and at this time, the indicator unit 60 on the test object 10 displays that the acupuncture point has been detected. . When the measured biological electrical resistance signal data is compared with the previous and subsequent resistance values, the test object 10 displays a ramp signal indicating an increase or decrease in the resistance value, and when the resistance value continues to output, the indicator unit Reference numeral 60 indicates that an acupuncture point has already been detected, and when the push button 14 is pressed, outputs to the computer via the transmission unit 20.

  FIG. 4 is a circuit block diagram of an embodiment of the present invention. Among them, a probe circuit unit 110 is provided inside the test body 10, and the probe circuit unit 100 includes: a function generator 104, a signal voltage management unit 103, a DC converter (DC) to DC Converter) 105, a digitizing unit (Analog to Digital Converter) 106, a transmission interface 107, and an indicator 108.

  Among them, the function generator 104 generates an operating frequency. The signal voltage management unit 103 provides power, isolates analog and digital power, makes the first signal probe end 101 conductive to the probe rod 12, and makes the second signal probe end 102 conductive to the conductive unit 13. Alternatively, the conductive parts 40 of the conductive unit 13 are arranged in parallel, and the acupuncture point signal of the living organism 130 is measured. When the first signal probing end 101 and the second signal probing end 102 form a loop, the measured signal of the organism 130 is converted and isolated via the voltage of the DC converter 105, and a necessary current is obtained. Is then digitized through the digitizing unit 106, and the digitized data is transmitted from the transmission interface 107 connected to the transmission unit 20 to the data analyzer 110, and the data Is analyzed and processed. The data analyzer 110 can read the response time and the stabilization time of the voltage change between the first signal probe end 101 and the second signal probe end 102. When it is determined that the time meets the acupuncture requirements, the data analyzer 110 sends a signal to the indicator 108 via the transmission interface 107, transmits an indicator signal to the indicator unit 60, and the organism 130 The display which detected the acupuncture point of

In the present invention, preferred embodiments have been disclosed as described above, but these are not intended to limit the present invention in any way, and anyone who is familiar with the technology has an equivalent scope that does not depart from the spirit and scope of the present invention. Of course, various fluctuations and hydration colors can be added.

It is a three-dimensional view of an embodiment of self-diagnosis of the present invention. FIG. 3 is a three-dimensional view of an embodiment for providing diagnosis to others of the present invention. It is a circuit block diagram of the Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Test object 11 Handle 12 Probe rod 13 Conductive unit 14 Push button 20 Transmission part 40 Conductive part 50 Conductive bar 51 Conductor 60 Indicator unit 100 Probe circuit unit 101 First signal probe unit 102 Second signal probe unit 103 Signal pressure management unit 104 Function generator 105 DC converter 106 Digitization unit 107 Transmission interface 108 Indicator 110 Data analysis device 130 Organism

Claims (5)

a) a specimen 10; b) at least one indicator unit 60; and c) a transmission unit 20.
The test body 10 includes a handle 11, a probe rod located at one end of the test body 10, at least one conductive unit 13 located on the handle 11, and at least one push located on the handle 11. Button 14 and
The indicator unit 60 is located on the inspection object 10;
The transmission unit 20 is an acupuncture point detector of a long-distance diagnosis system located on the inspection object 10. The test body 10 further includes a) a conductive portion 40 and b) a conductive rod 50.
The conductive portion 40 is located on the test body 10 and is parallel to the conductive unit 13;
The acupuncture point measuring instrument for a long-distance diagnosis system according to claim 1, wherein the conductive rod (50) is connected to the conductive portion (40) by a conductive wire (51). The test body 10 is a hollow tubular body, and a probe circuit unit 100 is provided inside the test body 10, and the probe circuit unit 100 includes:
a) a function generator 104; b) a signal voltage management unit 104; c) an indicator 108; d) a DC converter 105; e) a digitizing unit 106; and f) a transmission interface 107.
The function generator is used to generate an operating frequency,
The signal voltage management unit 103 provides power, isolates analog and digital power, connects the first signal probe end 101 to the probe rod 12, and connects the second signal probe end 102 to the conductive unit 13. Or in parallel with the conductive portion 40 of the conductive unit 13,
The indicator 108 is used for displaying a state in which the first signal probe end 101 and the second signal probe end 102 constitute a loop,
The DC converter 105 is used for voltage conversion and isolation, and for providing current necessary for operation,
The digitizing unit 106 digitizes the probe signal converted through the DC converter 105,
The acupuncture point detector of the long-distance diagnosis system according to claim 1, wherein the transmission interface 107 connected to the transmission unit 20 can transmit the digitized probe signal data to the data analysis device 110. The acupuncture point measuring instrument for a long-distance diagnosis system according to claim 3, wherein the transmission interface 107 is a USB interface or a Bluetooth transmission interface. The acupuncture point detector of the long-distance diagnosis system according to claim 1, wherein the indicator unit 60 is a light emitting unit or a sound generation unit.

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