RU2709829C1 - Method of determining degree of employee fatigue - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, and can be used in occupational hygiene in determining degree of worker fatigue performing types of jobs requiring high concentration of attention. Method includes measuring bioelectric potential of biologically active points. Measurements are made on the meridian of the stomach, on the left or right side, in six biologically active points of the human body V21, E8, E11, E15, E16, E21 and its average value is found. If value is 44.0±0.6 mcA diagnose mild degree 1 fatigue, with value of 39.3±0.81 mcA, diagnosed manifested 2nd degree of fatigue, with value 35.0±1.36 mcA is used to diagnose highly expressed 3rd degree of fatigue.

EFFECT: method reduces labor input and duration of the process, increases objectivity of conclusions in quantitatively comparable values.

1 cl, 1 dwg, 3 tbl, 3 ex

Description

The invention relates to medicine and can be used in occupational health when determining the degree of fatigue of an employee performing types of work that require an increased concentration of attention.

A known method of detecting fatigue according to the complaints of the examinee on a feeling of fatigue (Small Medical Encyclopedia 1968, t. 10, p. 1016).

The method has no objective quantitative parameters.

A known method of detecting fatigue using proofreading tables (Rosenblatt VV. The problem of fatigue, M., 1975, p. 121).

The disadvantage of this method is the lack of accuracy in the study of this method due to neglect and, therefore, there may be a mismatch of the test limb and limb, showing the worst result, as a reflection of a decrease in the functionality of the opposite hemisphere of the brain, subject to more fatigue at a given functional load and determining static endurance representing his limbs (Rosenblatt V.V. The problem of fatigue, pp. 107, 131; Space biology and aerospace copper Ina, 1986, No. 6, pp. 18-21, 1987, No. 1, pp. 4-11; Knowledge is power, 1985, No. 2, p. 19; Ayrapetov S.G. Health, emotions, beauty, M. 1977, p. 3-16).

In the regulatory processes taking place in the human body, the central nervous system plays a dominant role, therefore, when assessing the human condition, it is necessary to evaluate the state of the central nervous system itself (Maslov NB, Bloshchinsky IA, Maksimenko VN Neurophysiological picture of the genesis of fatigue , chronic fatigue and overwork of a human operator // Human Physiology. - 2003. - T. 29. - No. 5. - S. 123-133).

Closest to the proposed is a method for determining the types of higher nervous activity, which consists in measuring the bioelectric potential of biologically active points. (RF patent 2597808, IPC АВВ 5/05, published in 2015).

The disadvantage of this method is the large number of measurements.

An object of the invention is to reduce labor costs and the duration of the process, increasing the objectivity of conclusions in quantitatively comparable values.

The technical problem is solved in that in the method for determining the degree of employee fatigue, which consists in measuring the bioelectric potential of biologically active points of the skin, the measurements are carried out on the meridian of the stomach, from the left or right side, at six biologically active points of the human body V21, E8, E11, E15 , E16, E21 once a day, determine the average value of the bioelectric potential of biologically active points of the skin and at a value of 44.0 ± 0.6 μA, the first degree of fatigue (mild) is diagnosed, with a value of 39.3 ± 0.81 μA dia nostiruyut 2nd degree of fatigue (expressed), a value of 35.0 ± 1.36 uA diagnosed third degree of fatigue (silnovyrazhennuyu).

The technical result consists in the fact that when using the proposed method the presence of highly qualified specialists is not required and the method allows you to quickly and objectively, in quantitatively comparable quantities, determine the degree of fatigue of the employee.

To clarify the essence of the proposed method, the figure shows the image of a person and his surface-localized biologically active points (PLBAT), which are located as follows, presented in table. 1.

The employee’s bioelectric potential is measured in a PCB using a milliammeter, for example an ELAP device. Measurement of the bioelectric potential of the PCBAT is carried out at acupuncture points V21, E8, E11, E15, E16, E21 on the meridian of the stomach, on the left or right side, intended for acupuncture and diagnosis of human diseases (Portnov F.G. Electropuncture reflexotherapy. - 2nd ed ., revised and additional - Riga: Zinatne, 1982. - S. 44, 45, 84, 96, 105-107.).

To measure the bioelectric potential of the PCBAT, any instrument can be used to establish the bioelectric potentials of biologically active points of human skin, for example, an ELAP type milliammeter.

The experiments were conducted on workers of working age from 16 to 59 years, male and female. The measurement results are given in table. 2.

Example 1

Using the method of determining fatigue, using the correction tables, the first degree of fatigue (weakly expressed) was established in 11 machine operators with numerical control, male and female. For these 11 operators, the bioelectric potential was measured with a milliammeter of an ELAP-type device in six PCBATs (see figure) once a day after performing labor functions. The average biopotential level was determined in six PCBATs, which amounted to 44.0 ± 0.6 μA.

Example 2

On the basis of the known method for determining fatigue, using correction tables, 9 drivers of fatigue (expressed) were determined in 9 male and female drivers. These drivers measured the bioelectric potential with a milliammeter of an ELAP type device in six PCBATs (see figure) once a day after performing labor functions. Average biopotential levels were determined in six PCBATs for each of the drivers. The average biopotential value was 39.3 ± 0.81 μA.

Example 3

On the basis of the known method for determining fatigue, using proofreading tables, 12 male and female dispatchers working on personal electronic computers determined the third degree of fatigue (severe). At these dispatchers, the bioelectric potential was measured with a milliammeter of an ELAP type device in six PCBATs (see figure) once a day after performing labor functions. Average biopotential levels were determined in six PCBATs for each of the dispatchers. The average biopotential was 35.0 ± 1.36 μA.

When determining the degree of fatigue of an employee by the proposed method, the complexity is reduced from 10 minutes to 7 minutes per employee, and the accuracy increases by 5.9% compared to the prototype (table. 3).

Claims (1)

A method for determining the degree of employee fatigue, which consists in measuring the bioelectric potential of biologically active points of the skin, characterized in that the measurements are carried out on the meridian of the stomach, from the left or right side, at six biologically active points of the human body V21, E8, E11, E15, E16, E21, determine the average value of the bioelectric potential of biologically active points of the skin and diagnose a mild 1st degree of fatigue at a value of 44.0 ± 0.6 μA, diagnose a pronounced 2nd degree at a value of 39.3 ± 0.81 μA languor, with a value of 35.0 ± 1.36 μA, a pronounced 3rd degree of fatigue is diagnosed.

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