RU1817694C - Reflexotherapy device - Google Patents

Abstract

Usage: medical equipment for reflexotherapy. SUMMARY OF THE INVENTION: a reflexotherapy device comprises an impact electrode with an internal discharge and a piezoelectric generator, the possibility of changing the distance between the pointed protrusion of the funnel-shaped electrode and the cone of the pointed one in order to increase the reliability of operation and stabilize the exposure parameters. It is envisaged to expand the capabilities of the device by providing a stimulating effect by an electromagnetic field and ultraviolet corona discharge. 2 s.p. f-ly, 5 ill.

Description

The invention relates to medical equipment, in particular to devices for electrophysical exposure, and can be used for reflexotherapeutic effects on biologically active areas of the surface of the human body and stimulation of regeneration processes.

The aim of the invention is to increase the reliability and stability of exposure parameters, as well as expanding functionality.

In FIG. 1 shows a general view of a device equipped with an electrode with a funnel-shaped inner surface; in FIG. 2 - device with a spherical working end; in FIG. 3 is a diagram of an electrode With a funnel-shaped inner surface; in FIG. 4 is a diagram of an electrode with a spherical working end; in FIG. 5 - node diagram

mechanical compression of a piezoelectric generator.

The device comprises a dielectric housing 1, a piezoelectric generator 2 with a compression mechanism, a key with a key attaching sleeve A, a current conductor 5, an electrode 6 with a funnel-shaped inner surface and the composition: a discharge 7 made in a dielectric housing with an opening, an electrode 8 pointed with a shoulder 9, a pointed protrusion 10 and a cone 11. inserted a electrode 12 with a funnel-shaped inner surface with a pointed protrusion 13.

To regulate the pulsating discharge of the generator, a device was introduced, made, for example, by means of a screw 14 connected to the ground and to a contact fixed to the conductors 5 and connected to the acting electrode.

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The device (see Fig. 2) contains an electrode 15 with a spherical working end as part of a discharge 7 made in a dielectric housing with an opening in which a current conductor 5 is placed, a spherical electrode 16 located inside the sleeve 17 of the movable cylindrical limiter, the electrode 18 pointed with the cone 19 and the shoulder 20 and, for example, the ring electrode 21 with a pointed inner edge 22, mounted on the end of the spherical electrode 16, the Pointed electrode 18 is connected to the pole of the generator 2 by a current conductor 5 and fixed relative Itelno body. There is a guaranteed gap between the pointed electrode 18 and the spherical electrode 16, as well as between the pointed edge 22 and the cone 19.

The mechanical compression unit of the piezoelectric generator 2 (see Fig. 5) contains piezoelectric elements 23 located in the housing 24, unipolar charging is carried out using a washer 25 connected to the conductive 5. The piezoelectric generator is fixed in the compression mechanism as part of the pusher 26, a .7 adjusting screw with a lock washer 28, a lever 29, a roller 30, and a stop 31.

A device with an electrode b with a funnel-shaped inner surface operates as follows. The pointed electrode 8 is placed opposite the impact zone and the electrode 12 is not in contact with the surface. When the button 3 is pressed, the piezoelectric generator generates a high voltage pulse. A corona discharge is formed on the cone of electrode 8, which acts on the object. As the distance between the electrode 12 and the shoulder 9 increases, the corona discharge intensity on the pointed electrode 8 increases and decreases on the electrode 12 and thereby the nature of the effect on the object changes. Exposure may also be through clothing, bandages, etc.

The second type of action is carried out by contacting the surface of electrode 12 with an object. When a generator key is pressed at the end of electrode 8, a corona discharge is also formed, decreasing as the electrons are redistributed from electrode 12 to an electrically neutral object. In this case, the complex effect of two types of discharges occurs. Thus, if the electrical contact between the electrode 12 and the shoulder 9 is broken, the charge is redistributed in the electrode 12 so that a negative discharge accumulates on the cone 11, which, due to the gas discharge, is mainly transported between the electrode 12 and the pointed protrusion 10 to the workpiece. Regulation of gas discharge current and adjustment of current between

5 by the electrode 12 and the object of action is carried out by moving the electrode 12 relative to the housing 6 and changing the distance between the pointed protrusion 10. In the case of supplying a positive potential to the pointed electrode 8 (for example, when the key 3 is moved backward), a corona discharge is not formed on it de high electrostatic field and high ionization is capable of 5, therefore, the portion of the electropulse action of the electrode 12 increases (in this case, the electrons pass from the electrically neutral object and in the electrode 12).

0 A device with an electrode 15 with a spherical working end works as follows. The spherical electrode 16 is located above the treated surface area of the body. By pressing key 3

5 piezoelectric generators generate high voltage potential. An electrostatic potential is formed on the surface of the electrode 16, which acts on an electrically neutral object. When the electrical contact between the electrode 21 and the shoulder 20 is opened, the charge of the spherical electrode is redistributed in such a way that in the zone of the shoulder 20 and the pointed electrode 18

5, a positive charge is formed, and a negative charge is formed on the surface of the sphere of the electrode 16, which is due to the gas discharge mainly between the electrode 18 and the sphere of the electrode 16 (pointed electrode

0 18 promotes ionization) affects the object. The current is adjusted by changing the distance between the pointed 18 and spherical 16 electrodes,

5, when a positive potential is applied to the pointed electrode 18 (for example, when the key is reversed), the electrodes act on the surface of the body moving from an electrically neutral object to a positively charged spherical electrode 16. The discharge current is regulated when the electrical contact between the electrode ring 21 opens and bead 20 is determined by the change

5, the distance between the cone 19 of the pointed electrode 18 and the pointed inner edge of the ring electrode 21 and, accordingly, the change in the value of the gas discharge current between them. With a positive potential on the shoulder 20, the ionizer is the pointed inner edge 22 of the negative charged ring electrode 21. The movable dielectric sleeve 17 allows it to be contacted by the electrode 16 without contact by means of an electrostatic field formed around the spherical electrode 16. The movable installation of the spherical electrode 16 with respect to the pointed electrode 18, it is possible to control the discharge current.

Claims (3)

SUMMARY OF THE INVENTION 1. A reflexotherapy device comprising a piezoelectric generator located in a dielectric housing, a piezoelectric element mechanical compression unit, and a discharge located on a working head of the housing and consisting of a first electrode made sharp and coaxial with it, installed with the possibility of axial movement of the second electrode, characterized in that, in order to increase the reliability and stability of the exposure parameters, as well as 6 to expand the functionality, the non-working end of the first electrode is made with a cone-shaped part ending with an annular pointed protrusion and an annular bead, with the possibility of electrical contact with which a second electrode is installed, placed in a hollow dielectric working head and having a pointed annular jumper on the inner surface, while the piezoelectric generator equipped with a regulator of the discharge distance between its active and passive contacts. 2. Device pop. 1, characterized in that the second electrode is made with a through channel having a crown-shaped inner surface. 3. The device pop. 1, characterized in that the second electrode is made with a damped spherical working end, while the device is equipped with an annular stop located coaxially with the electrode with the possibility of axial movement. 52341 /. FIG. I 4 / No. FIG 4 Fi3.3 I 27 28 25 23 26 30 23 37 FIG. 5