KR20060012843A - Detector for electric resistance of the body - Google Patents

Abstract

The present invention relates to an apparatus for detecting a body resistance, and in particular, the present invention to detect the electrical resistance value of the human body part only when the measurement probe for detecting the electrical resistance value is pressed over the reference pressure on the body part to be measured. Therefore, the measurement error of the electric resistance value measured at the human body part is minimized.

To this end, the present invention is a measurement probe provided to be in contact with the human body to deliver a predetermined voltage applied from the outside to the human body to measure, and an electrical resistance for detecting the electrical resistance of the human body using the output signal of the measuring probe A detection unit, a pressure detection unit for detecting a pressure applied to the measuring probe when the human body is in contact with the human body, and a microprocessor for performing overall control. The microprocessor detects the electrical resistance of the human body through the electrical resistance detector when the pressure detected by the pressure detector is greater than or equal to the preset value, and does not detect the electrical resistance of the human body when the pressure is less than the preset value. Warn the user about this.

Description

Body resistance detection device {Detector for electric resistance of the body}

1 is a control block diagram of a human body resistance detection apparatus according to an embodiment of the present invention.

FIG. 2 is an internal circuit diagram of the pressure detector of FIG. 1.

3 is a configuration diagram of the measurement probe of FIG. 1.

4 is a view for explaining the change in the pressure and skin resistance value that the user applies to the measurement probe to measure the electrical resistance of the human body.

5 is a control flowchart illustrating a method of controlling a body resistance detecting device according to an exemplary embodiment of the present invention.

* Description of the symbols for the main functions of the drawings *

10: control device 11: power supply

12: A / D conversion unit 13: electrical resistance detection unit

14 pressure detection unit 15 memory unit

16: output 17: microprocessor

18: communication port 20: measuring device

21: grip probe 22: measuring probe

The present invention relates to a body resistance detection device, and more particularly, to a body resistance detection device that can detect the electrical resistance value of a specific part of the human body.

In general, the human body resistance detection device measures the flow of bioenergy and energy in the human body parts, such as acupuncture points of 12 meridians of the human limbs, and the strength of the electrical resistance of each individual. It is a device for diagnosing abnormalities and diseases inside the human body.

Such a body resistance detecting device holds a device called a grip probe in one hand, and measures the electrical resistance value of the human body while touching a device called a measurement probe with a human body to be measured, and a microcurrent value according to the measured electrical resistance value. Is converted into digital data and transmitted to the computer through an interface module such as a communication port of the computer, and a microcurrent measurement system for analyzing and processing the data transmitted by the analysis program stored in the computer to diagnose a disease of the human body.

Since the measurement probe of the conventional human body resistance detecting device only serves as a handle to measure the skin with the electrode, the pressure to be pressed may not be constant depending on the user when measuring the electrical resistance. Therefore, even if the same human body part is measured, different electrical resistance values are measured due to pressure deviations, and thus, accurate electrical resistance values of the human body part cannot be obtained.

The present invention is to solve the above-mentioned problems, an object of the present invention is to measure the electrical resistance value of the human body only when the measurement probe is applied above the reference pressure to the human body according to the pressure deviation to press the measurement probe An object of the present invention is to provide a human body resistance detecting device capable of minimizing an error in electrical resistance of a part.

In order to achieve the above object, a human body resistance detecting device according to the present invention uses a measurement probe provided to be in contact with the human body part to transmit a predetermined voltage applied from the outside to a human body part to be measured, using an output signal of the measuring probe. An electrical resistance detector for detecting electrical resistance of the human body part, a pressure detector for detecting pressure applied to the measurement probe when contacting the human body part, and when the pressure detected through the pressure detector is greater than a preset value, By including a microprocessor for detecting the electrical resistance value of the human body part through the electrical resistance detection unit it is possible to minimize the measurement error of the electrical resistance value according to the pressure deviation pressing the measurement probe.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 is a control block diagram of a human body resistance measuring apparatus according to an embodiment of the present invention, the body resistance measuring apparatus according to an embodiment of the present invention is a control device 10 for performing the overall control, the grip probe 21 and It consists of a measuring device 20 having a measuring probe 22.

The control device 10 includes a power supply unit 11, an A / D conversion unit 12, an electrical resistance detection unit 13, a pressure detection unit 14, a memory unit 15, an output unit 16, and a microprocessor 17. Communication port 18.

The power supply unit 11 converts AC power supplied from the outside into a DC voltage of 12V through an adapter, and then converts the A / D converter 12, the electric resistance detector 13, the pressure detector 14, and the memory 15. ), The output unit 16, the microprocessor 17, the grip probe 21, the measurement probe 22, etc., are converted to the appropriate voltage level and supplied again.

The A / D converter 12 converts analog signals such as the output signal of the electrical resistance detector 13 and the output signal of the pressure detector 14 into digital signals.

The electrical resistance detection unit 13 detects the electrical resistance of the human body part by using the output signal of the measurement probe 22 when the measurement probe 22 contacts the human body part to be measured.

The pressure detecting unit 14 may have a length as shown in FIG. 2 so that when the user contacts the measuring probe 22 with the human body, the contact pressure applied to the measuring probe 22 can be detected to the extent that the measuring probe 22 is bent. It is configured by adding an arbitrary resistance (R3, R4) to the two strain gauges (R1, R2) (30, 31) that the resistance value is changed by deformation, and when the resistance values of the strain gauges (30, 31) change The Wheatstone bridge circuit 32 which outputs a different output value every time, and the amplifier 33 which amplifies the output value of this Wheatstone bridge circuit 32 are comprised. For reference, two strain gauges do not necessarily need to be used, and even one strain gauge may satisfy the same purpose. In this case, three random resistors are added to form a Wheatstone bridge circuit.

The memory unit 15 stores in advance a value corresponding to the reference pressure value.

The output unit 16 outputs the electric resistance value of the human body detected by the electric resistance detector 13 according to an external control signal so that a user can know. In addition, the output unit 16 serves to warn the electric resistance value when the pressure value detected through the pressure detector 14 is not more than the reference value, as will be described later.

The measuring device 20 has a grip probe 21 and a measuring probe 22. The grip probe 21 is connected to the ground side of the power supply unit 11 to serve as a ground, and the measurement probe 22 is connected to the power supply side of the power supply unit 11 to supply a predetermined power to the human body through a metal electrode installed at an end thereof. It is applied to the electric resistance detection unit 13 serves to detect the electric resistance value of the human body part. That is, by configuring the power supply unit 11, the measurement probe 22, and the electrical resistance detection unit 13 together with the grip probe 21 serving as a grounding role, it is possible to detect the electrical resistance value of the human body part.

Measurement probe 22 is made of a grip 40, an elastic "" shaped bridge 41, the electrode housing 42, the metal electrode 43, provided to act as a handle, as shown in Figure 3, When the user presses the metal electrode of the measuring probe 22 on the human body part to detect the electrical resistance value of the human body part, the elastic bridge 41 is configured to bend by the user's pressing pressure. A pair of strain gauges 30 and 31 are provided on the upper and lower portions of the middle portion of the bridge 41. The bridge 41 is formed with a flat mounting portion to adhere the strain gauges 30 and 31. In addition, since the flow is generated, the strain gauges 30 and 31 are fixed to the bridge 41 by using an epoxy adhesive so that the strain gauges 30 and 31 and the bridge 41 are not separated even when the flow is generated. In order to protect the strain gauges 30 and 31 from the outside, a protective film is also formed as an epoxy on the outside.

Therefore, when the user presses the measuring probe 22, the bridge 41 is bent, and thus, the upper strain gauge 30 contracts, and the lower strain gauge 31 is elongated. The resistance values of the strain gauges 30 and 31 change depending on the length change. This change in resistance allows the user to know the pressure at which the measurement probe 22 is pressed.

Looking at the action of the microprocessor, the microprocessor 17 is the body of the human body through the electrical resistance detector 13 when the pressure value detected through the pressure detector 14 is greater than the reference pressure value stored in the memory unit 15 The electrical resistance value is read out and output to the output unit 16. When the electrical resistance value is smaller than the preset value, the electrical resistance value of the human body part is not read. The electrical resistance value of the read human part is transmitted to the computer for diagnosing a disease of the human body through the communication port 18 so as to diagnose the disease of the human body.

For example, as shown in Figure 4, when the measuring probe 22 is in contact with the human body, the pressure in the measurement start step (A) and the end step (C) and the intermediate step (B) is different from each other and the electrical resistance value is different. There is a number. In the measurement start step (A) and the end step (C), since the skin and the electrode are not in close contact with each other, the electrical resistance value of the human body part is measured higher than the actual value. Only in the intermediate step (B) can the measurement probe 22 and the skin is stably in close contact with a certain pressure to accurately measure the electrical resistance of the human body.

Therefore, in the case of the measurement start step (A) and the end step (C) where the pressure is equal to or less than the reference pressure TH value, the electric resistance value of the human body part is not detected, and the pressure is the intermediate step of which the reference pressure TH or higher ( Only in case of B), electric resistance value of human body part can be detected. That is, even when measuring the electrical resistance of the same human body part, the electrical resistance value when the pressure is slightly applied to the measuring probe 22 and the appropriate reference pressure is different from each other, resulting in measurement error in the electrical resistance value measured at the human body part. The electric resistance value of the human body can be detected only when the pressure TH or more is applied, thereby minimizing the measurement error of the electric resistance value.

5 is a control flowchart illustrating a method of controlling a body resistance detecting device according to an exemplary embodiment of the present invention. Referring to FIG. 5, first, the microprocessor 17 determines whether the measurement probe 22 is in contact with a human body part to measure an electrical resistance value (100).

If the measurement probe 22 is in contact with the human body to be measured as a result of the determination in step 100, the microprocessor 17 measures the pressure value at which the user contacts the measurement probe 22 through the pressure detector 14. Read in (101).

Then, the microprocessor 17 determines whether the pressure value read in step 101 is greater than or equal to a preset value for the electrical resistance measurement (102).

If the pressure value read as a result of the determination in step 102 is less than the preset value, the microprocessor 17 shows the electric resistance value of the human body higher than the original value, so that the user may make the measurement probe 22 more firmly. In order to warn the user through the output unit 16 that the contact pressure is low (103). Then return to step 101.

On the other hand, if the pressure value read as a result of the determination in step 102 is larger than the preset value, the microprocessor 17 is to contact the electrical resistance detection unit 13 because the user is to contact the measurement probe 22 at a proper pressure to the human body part. Read the electrical resistance of the human body.

Then, based on the electrical resistance value of the human body read in step 104 to diagnose the internal abnormalities and diseases (105).

As described in detail above, the present invention detects the pressure pressing on the human body to measure the measurement probe, and only when the detected pressure is higher than the reference pressure to detect the electrical resistance value of the human body to press the measurement probe There is an effect that can minimize the measurement error of the electrical resistance value according to the pressure deviation.

Claims (4)

A measurement probe provided to be in contact with the human body part to transmit a predetermined voltage applied from the outside to a human body part to be measured; An electrical resistance detector for detecting electrical resistance of the human body part using the output signal of the measurement probe; A pressure detector for detecting a pressure applied to the measurement probe when in contact with a human body part; And a microprocessor configured to detect an electric resistance value of the human body part through the electric resistance detector, when the pressure detected by the pressure detector is greater than a preset value. The apparatus of claim 1, wherein the body resistance detector includes an output unit for warning the user, and the microprocessor alerts the user through the output unit when the pressure value detected through the pressure detector is less than a preset value. Body resistance detection device, characterized in that. The at least one strain gauge of claim 1, wherein the measurement probe has a length that is changed according to the deformation amount of the measurement probe so that the pressure applied to the measurement probe can be detected as the deformation amount of the measurement probe. Body resistance detection device characterized in that provided. The pressure detection unit of claim 1 or 3, wherein the pressure detector includes a Wheatstone bridge circuit for outputting an output value corresponding to a change in resistance of the at least one strain gauge, and an amplifier for amplifying the output value of the Wheatstone bridge circuit. Body resistance detection device, characterized in that.

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