RU144036U1 - MINI ELECTRIC PUNCH TESTER - Google Patents

Abstract

The utility model relates to the field of testing the influence of various objects used by a person on the body of a particular person. A mini electro-puncture tester is proposed that contains a passive electrode (1), a direct current source (2), a current indicator (3) and an active electrode (6), in which, according to a utility model, the current indicator (3) is made in the form of a microammeter with an integrated digital display (4), current source (2), passive electrode (1) and test button (5), which is held in one of the hands of the patient, and the active electrode (6) is made in the form of a half ring, mounted on top of the second phalanx of the ring finger same hands diagnosed and connected to microa with a meter (3) through the test button (5), the closing power circuit between the microammeter (3) and the active electrode (6) during the measurement. The technical result consists in expanding the functionality of the tester and increasing the convenience of its individual use. 3 head P. f-ly, 1 ill.

Description

The utility model relates to the field of electropuncture diagnostics, in particular, for testing various objects by affecting biologically active points (BAP).

BATs are selected areas of the epidermis with a diameter of 2-3 mm (slightly changing point sizes depend on the internal and external temperature, as well as the general condition of the autonomic nervous system - ANS), characterized by an increased concentration of capillaries and nerve endings, small lymphatic ducts, and a number of unusual physical and physiological properties. The physiological feature of BAP is that through the corresponding sections of the spinal cord, each point is uniquely connected with the organs, tissues and systems of a person. With harmful effects, all of the above BAT parameters deviate from normal values. Thus, the BAT system is a well-developed diagnostic apparatus by nature.

All methods of electro-puncture diagnostics are based on the fact that BAPs have values of a number of physical characteristics that are very different from the surrounding tissues. Of all the parameters, the most accessible for observation are changes in temperature and conductivity of BAP. Skin temperature reflects the state of the parasympathetic nervous system, and conduction - the sympathetic part of the ANS.

All methods of electro-puncture diagnostics (ED) are based on the exciting effect on the human body by direct current received from a high-resistance source. In this case, the exposure current must be strictly defined (dosed), and the value of the measured value of electrical conductivity is determined by the fact that a healthy body establishes a state of equilibrium between excitation and response (stable measurement value).

A device for ED containing an active electrode, a direct current source, a microammeter containing additional scales, a resistor and a passive electrode is known (see RF patent No. 2295283, A61B 5/053, A61H 39/00 2007).

A disadvantage of the known device is that it cannot be used individually without operator assistance.

Closest to the proposed device is an electropunctural device containing a passive electrode connected in series, a current source, a switch, a clock indicator, a non-linear amplifier, a current regulator, a polarity switch output connected to the active electrode, and a marker landing for the active electrode (see RF patent No. 20088888, A61H 39/100 1994). A disadvantage of the known device is that for the standard measurement of electro-puncture diagnostics, it is necessary to know the location of the BAT on the human body and accurately press the test point (the doctor takes about two weeks to work on the BAP), its relative complexity and large size, which makes it inconvenient for individual use.

The objective of the utility model is to expand the functionality of the device for ED by determining the effect of various objects on the human body. Moreover, the device is simple in its design and allows for exclusively individual use, because the active electrode is made in the form of a half ring, which excludes special preparation for diagnosing, and pressing the BAT is constantly standard. Thereby, stably good repeating measurements are achieved.

This problem is solved by the fact that a mini-electropuncture tester is proposed, containing a passive electrode, a current source, a current indicator, a test button and an active electrode connected in series. In which, according to the utility model, the current indicator is made in the form of a microammeter with a built-in digital display, and the active electrode is made in the form of a half ring and connected to the microammeter via a test button and is attached to the top of the second phalanx of the ring finger. Another difference of the tester is that a microammeter with a digital display and a current source are built into the passive electrode. Also in the list of differences it should be noted that the test button is built into the case of the passive electrode, which is held in one of the hands of the diagnosed.

Due to the above mentioned features of the tester, it provides a technical result consisting in expanding the functionality and its mobility while ensuring its simplicity and ease of use individually, consistently well repeating measurements.

The essence of the utility model is illustrated in the drawing, which shows a schematic diagram of the proposed tester.

The tester contains a passive electrode 1, a direct current source 2, a current indicator 3 and an active electrode 6, in which, according to a utility model, the current indicator 3 is made in the form of a microammeter with an integrated digital display 4, a direct current (battery) source 2 of 15-16 μA and a voltage of 4.5-9 V, test button 5, passive electrode 1 in the form of a metal cylinder and is held in one of the hands of the diagnosed. And the active electrode 6 is made in the form of a semicircle mounted on top of the second phalanx of the ring finger of the same hand being diagnosed and connected to the microammeter 3 through the test button 5, the closing power circuit between the microammeter 3 and the active electrode 6 during the measurement process.

It should be noted that the dimensions of the passive electrode 1 with a built-in microammeter 3 with a digital display 4, a direct current source 2, a test button 5 are 25 mm in diameter and 110 mm in length. The active electrode 6, having the shape of a half ring, is put on top of the second phalanx of the fourth (ring) finger of the same hand so that its inner surface is in contact with the BAP. Given that the inner surface of the active electrode is large enough (more than 1 sq. Cm), then contact with the BAT is ensured automatically when donning the active electrode 6.

The sensitivity of microammeter 3 is calculated in such a way that it starts to work with a measured resistance of about 600 ohms. Indicators of skin resistance are recorded in arbitrary units from 0 to 100 units. If the skin resistance drops to 0, then the display 4 of the microammeter 3 shows 100 units.

Claims (4)

1. Mini electropuncture tester containing a passive electrode, a current source, a current indicator, a test button and an active electrode, characterized in that the current indicator is made in the form of a microammeter with a built-in digital display, and the active electrode is made in the form of a half ring and connected to the microammeter through a test button and attached to the top of the second phalanx of the ring finger. 2. The tester according to claim 1, characterized in that a current source is built into the passive electrode. 3. The tester according to claim 1 or 2, characterized in that a microammeter with an integrated digital display is built into the passive electrode. 4. The tester according to claim 1 or 2, or 3, characterized in that the test button is built into the case of the passive electrode, which is held in one of the hands of the diagnosed.