RU46183U1 - ACTIVE ELECTRODE PROBE FOR ELECTROPUNCTURAL DIAGNOSTICS - Google Patents

Abstract

The utility model relates to the field of medicine and can be used in clinical practice for electroluncture diagnostics.

The objective of the utility model is to simplify the impact on the electrical parameters of a biologically active point.

The problem is solved in that the active electrode is a probe for influencing biologically active points, containing a tubular body, a baffle and a spherical movable brass electrode mounted coaxially with the body, connected to the measuring device, and the electrode with the baffle is connected by a spring.

Description

The utility model relates to medicine, in particular, to diagnostic methods and can be used in clinical practice for electropuncture diagnostics.

The active electrode is known - a probe with a smooth and fast technique for measuring the electrical parameters of a biologically active point using the electrode pressure on the measurement point, consisting of a housing, a brass spherical electrode, and a partition. (Samokhin A.V., Gotovsky Yu.V. Electropuncture diagnostics and therapy according to the method of R. Voll, 3rd ed., Revised and supplemented. "IMEDIS", Moscow, 2000. - P.23-35.) .

The disadvantage of the electrode is the inability to smoothly jump to the "measurement plateau" of electrical parameters of the biologically active point.

The active electrode is known - a probe with sound and light systems for indicating the force of influence on a biologically active point, consisting of a body, a brass spherical electrode, a partition, sound or light systems for indicating the force of impact on a biologically active point (Lupichev N.L. Electropuncture diagnostics, homeotherapy and the phenomenon of long-range action. NPK "IRIUS", Moscow, 1990. - p. 18-25.).

The disadvantage of the electrode is the lack of differentiation of the force of influence on the biologically active point due to hearing defects or vision of the person conducting the patient examination.

The objective of the utility model is to simplify the impact on the electrical parameters of a biologically active point.

The problem is solved in that the active elekperd - the probe for influencing biologically active points contains a lively housing

and, mounted coaxially with it, a spherical movable brass electrode with a diameter of 3 mm with a cross-shaped cross-section connected with a measuring device, additionally containing a spring for smoothly dosing the pressure force to a biologically active point.

The active electrode - the probe in general form is shown in Fig., Where: 1 - a movable, brass spherical electrode with a diameter of 3 mm with a crosswise cross-section, 2 - a hole for the electrode, 3 - a metal spring for smooth dosing of pressure force to a biologically active point, 4 - arrow - pointer pressure force, rigidly connected to the electrode, 5 - slot in the housing for the movement of the arrow, 6 - scale with divisions of the pressure force on a biologically active point from 500 to 1200 grams - forces, 7 - partition made of impact resistant polystyrene, rigidly connected to the body elek probe rod, 8 - active electrode body - a probe with a diameter of 25 mm made of impact-resistant polystyrene, 9 - an electric cord for connecting the electrode to the apparatus of electropuncture diagnostics.

The study is carried out in the following sequence. The active electrode - the probe is connected to the AE socket 1 of the apparatus for electropuncture diagnostics "Mini expert DT". The passive electrode is connected to the PE socket of the apparatus. The device is switched to the "diagnostics" mode. The apparatus is calibrated and hand-arm conductivity is measured. A passive electrode is placed in one arm of the patient. Active electrode - probe is installed to the place of the proposed location of the biologically active point at any angle. Next, the active electrode is moved - the probe from the bottom up along the meridian with constant pressure on the skin of 600 g / force, the biologically active point is determined by the maximum deviation of the device’s arrow. After establishing contact with a biologically active point, increase the pressing force (with it the active electrode - probe until reaching the "measurement plateau" - diagnostically

significant value of the electrical parameters of the biologically active point. The thus established diagnostically significant force of pressing the active electrode - the probe to the skin surface, expressed in grams / force, is used to measure the electrical parameters of other biologically active points.

Using the proposed active electrode - probe allows the clinician to significantly speed up the process of searching and measuring the electrical parameters of biologically active points, improve the quality of electropuncture diagnostics and reduce the duration of its session due to the smooth dosing of the pressure force on the biologically active point, achieved using a spring, which minimizes the violation of the quality of life the patient.

Claims (1)

An active probe electrode for influencing biologically active points, comprising a tubular body, a baffle and a spherical movable brass electrode mounted coaxially with the body, connected to the measuring device, characterized in that the electrode is connected to the baffle by a spring.