KR20090002854U - Meridian points measurer - Google Patents

Abstract

The present invention is a blood finding detector of a remote diagnostic system that measures the electrical resistance signal of a living organism, which measures the electrical resistance signal of one organism, transmits a detector equipped with a probe, and electrical resistance signal data of the measured organism. And a indicating part for indicating a circuit state composed of a detector and an organism. The electrical resistance signal data of the organism measured through the transmitter is transmitted to a computer and used to analyze the meaning of the signal data.

Living organisms, remote diagnosis, blood, detector, resistance, probe

Description

Blood point detector of remote diagnostic system {Meridian points measurer}

The present invention is a blood detector of a remote diagnostic system for measuring the electrical resistance signal of living organisms.

The main function of autonomic nerves is to regulate the activity of the intestines and the secretion of glands, and depolarization of skin cells shows low resistance under the control and influence of autonomic nerves (especially sympathetic nerves). In addition, blood pressure is a sympathetic reaction of the sympathetic nerves in the arrest, so measuring the skin resistance can determine the excitability of the sympathetic nerve.

When the sympathetic nerve is excited, the electrical resistance decreases. On the contrary, when the sympathetic nerve is suppressed, the electrical resistance increases. Autonomic nerves control the function and physiological mechanisms of organs of the organism, so when lesions in the intestines and lungs affect the excitability of the sympathetic nerves, the transferable mesenchymal skin electrical resistance corresponding to each intestine and lungs is measured by transfer measles. Detecting can determine the state of the intestine and lung of the organism. Thus, data can be provided at the time of treatment to give excitement resistance to excitement inhibitors.

On the basis of this principle, the German doctor Croon established the relationship between the blood hypodermic area and blood levels in 1947, and Dr. Yoshio Nakatani, the Japanese doctor in 1950, The relationship between the "transfer point" and blood levels was discovered, and since 1953, the German physician Voll has conducted a systematic study of the electrical phenomena of blood levels, all of which are relevant to the examination and application of this phenomenon.

However, the survey must hold the conductive container, and also using a probe rod of another electrode in contact with the skin of the organism to form a single measurement circuit. The above-described existing equipment and detectors are typically two electrodes separated as in Taiwan Patent Publication No. 555578, Blood Blood Physical Health System of Portable Electronic Products, and Taiwan Patent Publication 376729, Resonance-sensitive Health Diagnostic System Structure. It is very difficult and cumbersome in the process of self-measurement and it is possible to find the location of blood accurately only after a long practice.

An object of the present invention is to provide a blood detector for a remote diagnosis system, and may help surveying others in addition to the measurement of the electrical resistance signal of the organism.

The above object of the present invention includes one detector, at least one indicator component, and one transmitter, wherein the detector includes one gripper; One probe rod positioned at one end of the gripping portion; At least one conductive component positioned on the gripping portion; And at least one button positioned at the gripping part, wherein the at least one indicator part is located at the detector, and the one transmitter is based on a blood detector of a remote diagnosis system located at the detector.

The detection body of the blood detector of the remote diagnostic system of the present invention includes one conductive portion connected to the conductive component; It characterized in that it further comprises a conductive rod connected to the conductive portion by one conductive wire.

The detection body of the blood detector of the remote diagnostic system of the present invention is a hollow tubular body, one detection circuit unit is installed therein, the detection circuit unit has one frequency generator, one signal voltage It includes a management unit (Power Management), one indicator (Indicator), one digitizing unit (Analog to Digital Converter) and one transmission interface, the one frequency generator (Function Generator) produces a frequency of work, The one signal voltage management unit (Power Management) provides power, isolates analog and digital power, simultaneously allows the probe to conduct to the first signal probe and connects the second signal probe to the conductive component. Or an indicator connected to a conductive part of the conductive part, wherein the one indicator unit constitutes a circuit of a first signal detecting end and a second signal detecting end The DC to DC converter provides voltage conversion, isolation, and current required for operation, and the one analog to digital converter detects conversion through the DC converter. The signal is digitized, and the one transmission interface transmits the digitized detection signal data to a data analysis device.

The transmission interface of the blood finding detector of the remote diagnostic system of the present invention is characterized in that the USB transmission interface or Bluetooth transmission interface.

The indicator part of the blood detector in the remote diagnosis system of the present invention is characterized in that it is a light emitting part or a vocal part.

The present invention uses a probe and a conductive part operated at the same time with one hand in the detector to find the blood of a remote diagnosis system. It can help to measure other people's electrical resistance signal.

In addition to the structure and function described above, the blood finding detector of the remote diagnosis system of the present invention indicates whether the location of the blood flow is found through the indicating unit, so that the location of the blood flow can be accurately detected without taking a long time.

Referring to the drawings below describes a specific embodiment of the present invention.

Referring to Figure 1 is a three-dimensional view of the diagnostic embodiment of the present invention (organism).

It includes one detector 10, one transmitter 20, one indicator component 60, the detector 10 is one grip 11, one end of the detector 10 It consists of one probe rod 12 located at, a conductive part 13 positioned at the gripping portion 11, and one button 14.

When holding the conductive part 13 with one hand and contacting the probe rod 12 with its body blood pressure again, the body and the detector 10 constitute one circuit, and the detector 10 Indicates that the indicating component 60 located in Fig. 2 has found the blood level.

The detector 10 measures the falling or rising of the resistance value with a back signal in comparison with the electric resistance signal data of its body before and after the resistance value, and if the resistance value continuously maintains the same output, the indicating component 60 measures blood flow. Notify that you found In addition, when the button 14 is pressed, it is transmitted to the computer through the transmission unit 20.

Referring to FIG. 2, this is an embodiment in which the present invention is provided for diagnosis of another person (organism).

It includes one detector 10, one transmission unit 20, one conductive portion 40, one conductive rod 50, one indicator component 60, the detector 10 It consists of one grip part 11, the probe rod 12 located in the one end of the detection body 10, the conductive component 13 located in the grip part 11, and the button 14.

The conductive portion 40 connected to the conductive component 13 and located on the detector 10 is connected to the conductive rod 50 by a single conductor 51, and the conductive rod 50 is provided to be grasped by others. When the probe 12 is in contact with another person's blood level, the other person and the detector 10 form a circuit, and at this time, the indicator component 60 located in the detector 10 has found the blood level. In addition, the detector 10 measures the falling or rising of the resistance value by comparing the electric resistance signal data of another person with the before and after resistance value, and if the resistance value is continuously maintained at the same output, the indicator 60 finds blood levels. Inform. In addition, when the button 14 is pressed, it is transmitted to the computer through the transmission unit 20. The indicator part 60 is a light emitting part or a vocal part.

Referring to FIG. 3, this is a circuit block diagram of an embodiment of the present invention.

One detection circuit unit 100 is installed inside the detection body 10. The detection circuit unit 100 includes one frequency generator 104 and one signal voltage management unit. 103, one DC to DC converter 105, one analog to digital converter 106, one transmission interface 107, one indicator unit 108 ),

The frequency generator 104 produces a frequency of operation, the signal voltage management unit 103 provides power, isolates analog and digital power, and at the same time the probe 12 at the first signal probe 101. The second signal detecting end 102 is connected to the conductive part 13 and connected to the conductive part 40 of the conductive part 13 to transmit the blood signal of the organism 130. When the first signal detecting end 101 and the second signal detecting end 102 constitute one circuit, the signal of the measured organism 130 prevents voltage switching and isolation of the DC converter 105. It provides the necessary current through, and then through the digitization of the digitization unit 106 (Digitization) this digitized data is connected to the transmission interface 107 of the transmission unit 20 is sent to the data analysis device 110 This data is then analyzed and processed. The transmission interface 107 is a USB transmission interface or a Bluetooth transmission interface.

The data analysis device 110 reads the reaction time and the settling time of the voltage change between the first signal detecting end 101 and the second signal detecting end 102, if the time meets the requirements of blood flow Then, the data analysis device 110 sends an indication signal to the transmission interface 107 to reach the indication unit 108 and sends an indication signal to the indication component 60 to indicate that the blood levels of the organism 130 have been found.

The above is a detailed description of the embodiments of the present invention, which in no way restricts the scope of the present invention, and any changes or modifications by the scope of the present invention belong to the scope of the present invention.

1 is a three-dimensional view of its own diagnostic embodiment of the present invention.

Figure 2 is a three-dimensional view of the diagnostic embodiment of others provided by the present invention.

3 is a circuit block diagram of an embodiment of the present invention.

** Explanation of symbols for main parts of drawings **

10: Detection body 11: Gripping part

12: detection rod 13: conductive parts

14 button 20 transmission unit

40: conductive part 50: conductive rod

51: conductor 60: indication component

100: detection circuit unit 101: first signal detection end

102: second signal detection stage 103: signal voltage management unit

104: frequency production machine 105: direct current converter

106: digitizing unit 107: transmission interface

108: instruction unit 110: data analysis device

130: Creature

Claims (5)

Including one detector 10, at least one indicator component 60, and one transmitter 20, The one detector (10) is one holding portion (11); One probe rod 12 positioned at one end of the gripping portion; At least one conductive component (13) positioned in the gripping portion (11); And at least one button 14 positioned on the gripping portion 11, The at least one indicator component 60 is located on the detector 10, The one transmitter 20 is located in the detector (10), the blood detector of the remote diagnostic system, characterized in that the. According to claim 1, wherein the detection body (10) and one conductive portion (40) connected to the conductive component (13); Blood detection detector for a remote diagnostic system, characterized in that it further comprises a conductive rod (50) connected to the conductive portion (40) by one conductor (51). The method according to claim 1 or 2, wherein the detection body 10 is a hollow tubular body, one detection circuit unit 100 is installed therein, The detection circuit unit 100 includes one frequency generator 104, one signal voltage management unit 103, one indicator unit 108, and one digitization unit. Analog to Digital Converter) 106 and one transmission interface 107, The one frequency generator (Function Generator) 104 produces a frequency of work, The one signal voltage management unit (103) provides power, isolates analog and digital power, and simultaneously allows the probe 12 to conduct to the first signal probe 101, The signal detecting end 102 is connected to the conductive component 13 or parallel to the conductive portion 40 of the conductive component 13, The one indicator unit 108 indicates a state in which the first signal detecting end 101 and the second signal detecting end 102 constitute a circuit. The one DC to DC converter 105 provides a voltage conversion and isolation, and the current required for work, The one digitizing unit (Analog to Digital Converter) 106 digitizes the detection signal converted through the DC converter 105, The one transmission interface (107) is a blood detection detector for a remote diagnostic system, characterized in that for transmitting the digitized detection signal data to the data analysis device (110). 4. The blood detector according to claim 3, wherein the transmission interface (107) is a USB transmission interface or a Bluetooth transmission interface. The blood detector according to claim 1, wherein the indicator component (60) is a light emitting component or a vocal component.

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