KR20100036085A - How to measure stress and body fat at the same time - Google Patents

Abstract

PURPOSE: A method for measuring stress and body fat at the same time is provided to easily study relation between the stress and the body fat by displaying the measured result of the stress and the body fat on one report. CONSTITUTION: Information of an examinee, which includes a name, an age, a sex, and a height is inputted(10). Four electrodes are attached to the examines(20). The body fat of the examinee is measured by applying a preset current to four electrodes(30). The degree of the stress of the examinee is measured by analyzing a heart rate of the examinee(40). The measured result of the body fat and the stress of the examinee is outputted on one report(50).

Description

How to measure stress and body fat at the same time {.}

The present invention relates to a method for measuring stress and body fat at the same time, the stress that allows to measure the body fat and stress at a time with the electrode attached to the limbs (preferably both hands and feet) of the subject once And how to measure body fat at the same time.

The general body fat measurement method is a method of measuring the amount and amount of fat and water in the body by sending high-energy high-frequency waves to the body by using the difference in electrical resistance between non-fat tissue and adipose tissue (Bio electrical Impedance). Analysis, BIA).

On the other hand, in the medical field, a lot of researches are currently underway to measure stress. In a simple method, an electrode is attached to the chest part of a subject to measure an electrocardiogram indicating electric potential activity of the heart, and then the correlation between the heart rate and the stress shown on the ECG waveform is measured. Measure stress accordingly.

However, in the conventional method for measuring stress using an electrocardiogram, an electrode is mainly attached to the chest and the posture is mainly measured by lying down or sitting, whereas the body fat measurement measures body fat by contacting both hands and feet with electrodes. Posture was measured mainly because it was difficult to measure ECG and body fat at the same time.

The present invention has been made to solve the above-described problems, the object of the present invention is not only to measure the stress and body fat at the same time, but also to provide a report that can see the stress results and body fat results at a glance stress and body fat At the same time, it provides a method of measuring.

In order to solve the above problems, the method for simultaneously measuring the stress and body fat according to the present invention includes an information input step of inputting personal information including the name, age, sex, height of the subject; An electrode attachment step of attaching four electrodes to the limbs of the subject; A body fat measurement step of measuring current of 1KHz, 5KHz, 50KHz, 250KHz, 500KHz, 1MHz to the electrode and receiving an impedance value of the subject's body to measure the body fat, muscle mass, inorganic mass, intracellular fluid, and extracellular fluid of the subject; After the body fat measurement step, a stress measurement step of analyzing the heart rate by measuring the electrocardiogram from the electrode attached to the subject for 4 to 6 minutes, and analyzing the degree of stress from the heart rate; And a report output step of outputting the results including the body fat, the muscle mass, the inorganic mass, the intracellular fluid, and the extracellular fluid in the body fat measurement step and the stress measurement result in the stress measurement step together in one report. do.

 In addition, information input step of inputting personal information including the name, age, sex, key of the subject; An electrode attachment step of attaching four electrodes to the limbs of the subject; A body fat measurement step of measuring a body fat, muscle mass, inorganic mass, intracellular fluid, and extracellular fluid of the subject by receiving an impedance value of the subject's body after flowing a current of 1 KHz to the electrode; After the body fat measurement step, measuring the electrocardiogram from the electrode attached to the subject for about 1 minute to analyze the heart rate, the stress measurement step of analyzing the degree of stress from the heart rate; In step 5BHz, 50KHz, 250KHz, 500KHz, 1MHz instead of 1KHz in the body fat measurement step, repeating the stress measurement step each time the current of each frequency flows; And a report output step of outputting the results including the body fat, the muscle mass, the inorganic mass, the intracellular fluid, and the extracellular fluid in the body fat measurement step and the stress measurement result in the stress measurement step together in one report. do.

As described above, according to the present invention, stress and body fat can be measured at the same time, and the results of stress and body fat can be displayed in a single report. It is effective in doing so.

Hereinafter, the present invention will be described in detail with reference to the drawings. Like reference numerals in the drawings denote like elements.

1 is a flowchart illustrating a method of simultaneously measuring stress and body fat according to an embodiment of the present invention, and FIG. 2 is a flowchart of a method of simultaneously measuring stress and body fat according to another embodiment of the present invention. .

1, the method for simultaneously measuring the stress and body fat in accordance with a preferred embodiment of the present invention, information input step 10, electrode attachment step 20, body fat measurement step 30, stress measurement step 40 ), A report output step 50 is included.

In the information input step 10, personal information including the name, age, sex, and height of the examinee is input. In addition to the input information, various personal information such as weight, past diseases and genetic information may be further included.

The electrode attachment step 20 is a step of attaching an electrode to a subject. The electrode is attached to the four hands near both hands and both feet. The four electrodes allow both stress measurement and body fat measurement.

Body fat measurement step 30 first flows a current to the electrode (31). The current sequentially flows current having a frequency of 1 KHz, 5 KHz, 50 KHz, 250 KHz, 500 KHz, and 1 MHz. Since the subject's body is a resistor, it is possible to know the impedance (resistance component) of the subject by knowing the flowing current and voltage (32). When the impedance value is obtained, results of body fat, muscle mass, inorganic mass, intracellular fluid, extracellular fluid, and the like correlated with the impedance value can be known (33).

The stress measurement step 40 is a step after the body fat measurement step, and measures the electrocardiogram for 4 to 6 minutes from the electrode attached to the subject (41). The heart rate is analyzed from the electrocardiogram graph (42), and the degree of stress from the heart rate is analyzed (43).

In the report output step 50, the results including body fat, muscle mass, inorganic mass, intracellular fluid, and extracellular fluid in the body fat measurement step and the stress measurement results in the stress measurement step are output together in one report.

Another embodiment of the present invention will be described with reference to FIG. Another embodiment of the present invention, an information input step of inputting personal information including the name, age, gender, key of the subject; An electrode attachment step of attaching four electrodes to the limbs of the subject; A body fat measurement step of measuring a body fat, muscle mass, inorganic mass, intracellular fluid, and extracellular fluid of the subject by receiving an impedance value of the subject's body after flowing a current of 1 KHz to the electrode; After the body fat measurement step, measuring the electrocardiogram from the electrode attached to the subject for about 1 minute to analyze the heart rate, the stress measurement step of analyzing the degree of stress from the heart rate; In step 5BHz, 50KHz, 250KHz, 500KHz, 1MHz instead of 1KHz in the body fat measurement step, and repeating the stress measurement step each time the current of each frequency flows; And a report output step of outputting the results including the body fat, the muscle mass, the inorganic mass, the intracellular fluid, and the extracellular fluid in the body fat measurement step and the stress measurement result in the stress measurement step together in one report.

Another embodiment according to the present invention differs from the above-described embodiment in that body fat measurement and stress measurement are alternately performed. Impedance measurements are measured separately by input frequency, and the electrocardiogram (for stress measurements) is measured between each impedance measurement.

On the other hand, body fat measurement can be measured in about 1 minute, but when measuring stress takes about 5 minutes. In general, since body fat measurement is performed without standing in contact with other objects for precise impedance, a standing measurement device may cause a problem of having to stand a relatively long time (about 5 minutes) when measuring stress. Therefore, in a device for measuring stress and body fat, which implements a method for simultaneously measuring stress and body fat according to the present invention, an auxiliary device capable of sufficiently supporting a test subject standing time is proposed. The device is composed of an insulator as equipment for the elderly, and preferably, the bed type can be stood about 90 degrees with respect to the floor.

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been used herein, they are used only for the purpose of describing the present invention and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a flowchart of a method for simultaneously measuring stress and body fat according to an embodiment of the present invention;

2 is a flowchart of a method of simultaneously measuring stress and body fat according to another embodiment of the present invention.

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

10: information input step 20: electrode attachment step

30: body fat measurement step 40: stress measurement step

50: Report output step

Claims (2)

An information input step of inputting personal information including name, age, sex, and height of the examinee; An electrode attachment step of attaching four electrodes to the limbs of the subject; A body fat measurement step of measuring current of 1KHz, 5KHz, 50KHz, 250KHz, 500KHz, 1MHz to the electrode and receiving an impedance value of the subject's body to measure the body fat, muscle mass, inorganic mass, intracellular fluid, and extracellular fluid of the subject; After the body fat measurement step, a stress measurement step of analyzing the heart rate by measuring the electrocardiogram from the electrode attached to the subject for 4 to 6 minutes, and analyzing the degree of stress from the heart rate; And a report output step of outputting the results including the body fat, the muscle mass, the inorganic mass, the intracellular fluid, and the extracellular fluid in the body fat measurement step and the stress measurement result in the stress measurement step together in one report. How to measure stress and body fat at the same time. An information input step of inputting personal information including name, age, sex, and height of the examinee; An electrode attachment step of attaching four electrodes to the limbs of the subject; A body fat measurement step of measuring a body fat, muscle mass, inorganic mass, intracellular fluid, and extracellular fluid of the subject by receiving an impedance value of the subject's body after flowing a current of 1 KHz to the electrode; After the body fat measurement step, measuring the electrocardiogram from the electrode attached to the subject for about 1 minute to analyze the heart rate, the stress measurement step of analyzing the degree of stress from the heart rate; In step 5BHz, 50KHz, 250KHz, 500KHz, 1MHz instead of 1KHz in the body fat measurement step, repeating the stress measurement step each time the current of each frequency flows; And a report output step of outputting the results including the body fat, the muscle mass, the inorganic mass, the intracellular fluid, and the extracellular fluid in the body fat measurement step and the stress measurement result in the stress measurement step together in one report. How to measure stress and body fat at the same time.

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