KR20000033400A - Device for measuring energy - Google Patents

Abstract

PURPOSE: A device for measuring energy of human body is provided. CONSTITUTION: A device for measuring energy comprises a collective electrode(1), a rise rate measuring unit(2) and a discrimination unit(4). The collective electrode(1) collects electric charges discharged from a human body, and generates a voltage signal having a level in proportion to an amount of the electric charges collected. The rise rate measuring unit(2) measures a rise rate of the level of the voltage signal from the collective electrode(1). The discrimination unit(4) discriminates a strength of energy generated from the human body according to the value in proportion to the rate measured by the rise rate measuring unit(2).

Description

A measuring device

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an instrument for measuring a signal, and more particularly, to an instrument for use in scientific investigation of a instrument from the human body.

Oriental language can be seen as the total bioenergy associated with various media inherent in the human body. Examples of these various media include far infrared rays, magnetic fields, static electricity, aurora, blood volume, blood flow rate, heart rate, oxygen partial pressure in blood, and electromagnetic particles whose identity has not been identified. This group gives fresh vitality to living cells in the human body, maximizes the body's immunity, and can treat various diseases.

Therefore, the necessity of variously measuring and using the intensity of the group from the human body is emerging.

An object of the present invention is to provide a measuring device that can objectively measure the strength of the group from the human body.

1 is a block diagram showing a measuring device according to an embodiment of the present invention.

<Description of the code | symbol about the principal part of drawing>

1 electrode collector, 2 means of measuring the rate of rise,

3 means of distance measurement, 4 judges,

21 ... amplification, 22 ... comparison,

23.Elevation rate measurement unit, 31 ... Light emitting diode,

32 ... light-emitting diodes, 33 distance measuring unit.

The measuring device of the present invention for achieving the above object includes a collecting electrode, a rising rate measuring means and a determination unit. The collecting electrode collects the electric charges emitted from the human body and generates a voltage signal having a level proportional to the collected electric charge amount. The rising rate measuring means measures the rate at which the level of the voltage signal from the collecting electrode increases during the unit time. The determination unit determines the strength of the group generated from the human body as a value proportional to the ratio measured by the rise rate measuring unit.

According to the results of objective experiments so far, the electric charges emitted from the human body have characteristics related to the strength of the group. That is, the charges emitted from the human body, the greater the intensity of the group, the faster the amount of charges emitted from the human body. According to the present invention focusing on this characteristic, the intensity of the group can be objectively measured by the ratio measured by the rate of increase measurement.

Preferably, distance measuring means for measuring the distance between the human body and the collecting electrode is further included, and the determination unit corrects the ratio measured by the rate of increase measuring means in accordance with the distance measured by the distance measuring means. Thereby, the intensity | strength of a more precise group can be measured.

Hereinafter, preferred embodiments of the present invention will be described in detail.

Referring to FIG. 1, the measuring apparatus according to an embodiment of the present invention includes a collecting electrode 1, a rising rate measuring unit 2, a distance measuring unit 3, and a determination unit 4. The collecting electrode 1 collects the electric charges contained in the radiation wave from the human body, and generates a voltage signal having a level proportional to the collected electric charge amount. The rising rate measuring means 2 measures the rate at which the level of the voltage signal from the collecting electrode 1 increases during the unit time. The distance measuring means 3 measures the distance between the human body and the collecting electrode 1. The determination unit 4 corrects the ratio 2 measured by the ascending rate measuring means 2 according to the distance measured by the distance measuring means 3, and is a value proportional to the result. Determine.

The rate of increase measurement means includes an amplifier 21, a comparator 22, and a rate of increase measurer 23. The amplifier 21 amplifies the voltage signal from the collecting electrode 1 at a constant and high rate. The comparator 22 is a reference voltage of a lower limit level set among the voltage signals from the amplifier 21 ( V _REF Only signals of levels higher than) are output. Thereby, it can be detected whether the amount of electric charges increased by generation | occurrence | production of group. The rising rate measuring unit 23 measures the rate at which the level of the voltage signal from the comparing unit 22 increases during the unit time. That is, the slope of the rising edge of the voltage signal output from the comparator 22 is measured. The ratio calculated by the rise rate measuring unit 23 represents the rate of increase of the amount of charge collected in the collecting electrode 1.

The distance measuring means includes a light emitting diode 31 as a light emitting unit, a light receiving diode 32 as a light receiving unit, and a distance measuring unit 33. The light emitting diode 31 is fixed to the collecting electrode 1 and emits light of a constant intensity to irradiate light on the human body. The photodiode 32 is fixed to the collecting electrode 1 and generates a voltage signal having a level proportional to the intensity of light reflected from the human body. Here, as the distance between the human body and the collecting electrode 1 increases, the intensity of light emitted from the light emitting diode 31 to the human body decreases, and the intensity of light reflected from the human body and incident on the light receiving diode 32 also decreases. . Therefore, the intensity of light incident on the light receiving diode 32 is inversely proportional to the square of the distance between the human body and the collecting electrode 1. That is, the distance between the human body and the collecting electrode 1 is inversely proportional to the square root of the intensity of light incident on the light-emitting diode 32. According to such an operation principle and an algorithm set by a separate experiment, the distance measuring unit 33 is a value inversely proportional to the square root of the level of the voltage signal from the light-emitting diode 32, and is formed between the human body and the collecting electrode 1. Measure the distance.

The amount of charge is inversely proportional to the distance traveled. That is, the amount of charges collected by the collecting electrode 1 is inversely proportional to the distance between the human body and the collecting electrode 1. Therefore, the determination part 4 correct | amends the ratio 2 measured by the climb rate measuring means 2 according to the distance measured by the distance measuring means 3, and is a value which is proportional to the result, and is generated from a human body. Determine the intensity of more precisely.

As described above, the measuring device according to the present invention can objectively measure the strength of the group from the human body, and thus may contribute to the development of various devices related to the group. For example, it can be used in a device that can immediately find the location of the blood of the human body by measuring the strength of the group of each part of the human body.

The present invention is not limited to the above embodiments, but may be modified and improved by those skilled in the art within the spirit and scope of the invention as defined in the claims.

Claims (4)

A collecting electrode configured to collect charges emitted from the human body and generate a voltage signal having a level proportional to the collected charge amount; Ascending rate measuring means for measuring a rate at which the level of the voltage signal from the collecting electrode increases during a unit time; And And a determination unit that determines the strength of the group generated from the human body as a value proportional to the ratio measured by the rising rate measuring unit. The method of claim 1, wherein the increase rate measuring means, An amplifier for amplifying the voltage signal from the collecting electrode at a constant ratio; A comparator for outputting only a signal having a level higher than a lower limit level among the voltage signals from the amplifier; And And a rising rate measuring unit measuring a rate at which the level of the voltage signal from the comparing unit increases during the unit time. The method of claim 1, Distance measuring means for measuring the distance between the human body and the collecting electrode is further included, wherein the determination unit, the measurement measured, characterized in that for correcting the ratio measured by the rate of increase measuring means according to the distance measured by the distance measuring means Device. The method of claim 3, wherein the distance measuring means, A light emitting unit which is fixed to the collecting electrode and irradiates light to the human body by generating light having a constant intensity; A light receiving unit fixed to the collecting electrode and generating a voltage signal having a level proportional to the intensity of light reflected from the human body; And And a distance measuring unit measuring a distance between the human body and the collecting electrode as a value inversely proportional to the square root of the level of the voltage signal from the light receiving unit.