RU11607U1 - INSTALLATION FOR DETERMINING THE DEGREE OF HUMAN MOTOR ASYMMETRY (TREMOROMETER) - Google Patents

Abstract

Installation for determining the degree of motor asymmetry of a person (tremometer), comprising a housing inside which is a complex of measuring equipment, shields with insulated electric tracks, probes with insulated handles, measuring rods inside of which are connected by flexible conductors to the measuring complex, characterized in that the measuring equipment consists from two similar measuring channels (separately for the right and left hands), and differs in the form of tracks on the shields, made in the form of circles and crosspieces, providing testing in different directions with simple and complex trajectories of the probe separately with each hand or simultaneously with both.

Description

INSTALLATION FOR DETERMINING THE DEGREE OF HUMAN MOTOR ASYMMETRY (TREMOROMETER)

The invention relates to the field of engineering and psychological studies in ergonomics for measuring static and dynamic characteristics of a person in various conditions and modes of activity, as well as to the field of physiological and medical scientific research of mechanisms of organization of involuntary movements.

Known tremorometer containing a corne with a pulse counter, a probe and a conductive shield with a hole ("Methods and devices for assessing the functional state and level of performance of a human operator / V.G. Volkov, V.M. Mashchkova.- M .: Nauka, 1993 .-208 p.). The probe is a conductive rod with an insulating handle, connected by conductors to the device body.

The shield is made of a metal sheet with a hole in which the test subject places the end of the probe during examination. When the arm oscillates, the electric circuit of the conductive elements of the shield and the probe closes and an electric pulse arrives at the input of the counter.

This device has the disadvantage that it has limited capabilities for studying the properties of the test person, since it gives only static characteristics. With its help, a measurement of tremor is made, assessing the degree of fatigue and suitability of the subjects during professional selection. The device is not suitable for examining children, as it involves conscious compliance with electrical safety with strict observance of instructions.

A variety of installations are also known that simulate workplaces and basic production operations that are widely used for professional MPK6O04R10 / 02 G04H03K G04H03M1 / 00

Zional selection, training and training of operators of various professions. The variety of currently simulated simulators can be subdivided into three main 1 categories: simulators (for training and training one-shot machines, mock-ups (when designing human-machine systems) and electrical models (for studying operator activity in laboratories).

One of the simulator models is known in which the tracking mark is tracked by only one coordinate (Sribor two-handed tracking on the plane. Type MCR - S. Firma “Dr. Schuffid. Madeling, Austria, 1980. Catalog). In it, the “shallow” trajectory is applied to a wide paper ribbon, which is stretched in front of a narrow slit so that the operator sees only a short ptgrikh moving along the illuminated breakthrough, and watches it with the help of a hand-drawn font (sight). The distance between the fixed path and the curve drawn by the operator’s hand determines the magnitude and nature of the mismatch in time. The disadvantage of this design is tracking the mark only in one plane.

The invention consists in the fact that the measuring equipment consists of two analogous measuring channels (separately for the right and left hands), and the forms of the tracks on the cabs, made in the groove of О1 fuses and crosses, which provide testing in various grooves with simple and complex trajectories of the probe separately for each hand or synchronously with both.

Various forms of tracks on the boards for moving the measuring probe allow the use of shields in techniques for examining people of different ages, starting with doppsolnsngo, and with varying degrees of asymmetry of the hands. Channels do not have information and control relationships, with the exception of one setting in the form of a common meander generator.

In FIG. 1 is a structural diagram of a tremometer.

Tremoromeggr consists of two similar measuring channels separately for the right and left hands. Channels have only one defining relationship - in the form of a common square wave generator (rectangular pulses). This allows us to consider the principle of its operation on the example of one channel. It consists of an integrator 1, touch counters 2 and time 3, a rectangular pulse generator 4 with a frequency of 10 Hz, an electronic key 5, a binary decimal decryptor into a six-segment code 6, and indicators 7.

The device operates as follows: after connecting it to the network, the test subject picks up the probes in his hands and places their ends between the conducting conductors on an isolated track. For example, the test subject must slide the probes along a circular path. When the conductive busbar is touched with a probe, a signal (zero logic level) during the movement of each hand comes from the probe to the integrator 1, which is necessary to prevent contact scraping. The pulse (or level generated by the integrator 1, is input to the input of the touch counter 2 and the control input of the electronic key 5 (or the key of temporary pulses). The touch counter 2 marks the total number of impulses. 11 ms received from the integrator 1 during the passage of the probe with the specified motion path, and the electronic key 5, when opened, passes impulses from the geander of the meander 4 to the time counter 3. Thus, the time counter 3 starts to count the time the touch touches the bus is searched for. Binary-decimal codes generated by touch counters 2 and time Change 3, the binary decimal decryptor of code 6 arrives, the cat (pre) enters the pumped-up code into the control code of seven-segment indicators, that is, seven-segment code. The received information is recorded by the tester.

To reset the contents of all counters and, therefore, reset the indicators, there is a button “Reset.

tire shields and at the same time allows you to estimate the total duration of touches separately for each hand.

Using a tremorometer you can: walk an objective measurement of tremor, accuracy and time characteristics of hand-eye coordination when performing special testing uni- and bimanual movements, for which there is a variation in the directions and degree of complexity of the trajectory of movement. It can be used in adults and children, starting from 5 years old, to assess the degree of fatigue during study, work or sports trips, and also to determine the degree of suitability of the subjects in professional or sports selection.

It should be noted the safety of the device for general people, which is especially important when working with psholniki and preschoolers who are capable of unpredictable actions. This is ensured by the minimum signal level required for registration and the maximum isolation of the measuring rod in the probe.

Claims (1)

Installation for determining the degree of motor asymmetry of a person (tremometer), comprising a housing inside which is a complex of measuring equipment, shields with insulated electric tracks, probes with insulated handles, measuring rods inside of which are connected by flexible conductors to the measuring complex, characterized in that the measuring equipment consists from two similar measuring channels (separately for the right and left hands), and differs in the form of tracks on the shields, made in the form of circles and crosspieces, providing testing in different directions with simple and complex trajectories of the probe separately with each hand or simultaneously with both.