SU1762943A1 - Aeroionic electric stimulator - Google Patents

Abstract

The invention relates to medical technology and is intended to electrically stimulate reflex zones. The purpose of the invention is to increase efficiency when exposed to extended areas of bone cover due to the formation of a variable amplitude electrofactor. The aeroionic electrostimulator contains an active corona and passive grounded electrodes connected to a unipolar power source, as well as a porous dielectric element mounted on the counter corona electrode. The porous dielectric element is designed as a side surface of a hollow cylinder, the axis of which is set parallel to the axis of the active corona electrode rotatably. The technical solution significantly expands the functionality of the aeroionic electrostimulator, since it provides the possibility of conducting an aeroionic effect on the skin in a dynamic with varying current on an arbitrarily large area of the reflexogenic zones, can be used in clinical and outpatient conditions for conducting an aeroscine electrostimulus. treatment in the treatment of neurological, therapeutic and other diseases. 2 Il. cl

Description

The invention relates to medical technology, in particular to devices for electrostimulation of reflexogenic zones.

The purpose of the invention is to increase efficiency when exposed to extensive areas of the skin by forming an electrofactor that is variable in amplitude.

The invention is illustrated in the drawing, in which figure 1 shows the schematic diagram of the aeroinous electrostimulator, section; figure 2 is a side view.

In the dielectric case 1, an active corona electrode 2 is installed along its axis, made, for example, in the form of a wire on tension (blades or needles).

mounted on a common rod, etc.) and connected via a high-voltage cable 3 to a unipolar high-voltage power source 4 via a ballast resistance 5.

The dielectric body 1 is made in the form of a roller, which makes it possible to rotate around the active electrode 2, and through the bracket 6 is attached to the handle 7. An element made of porous dielectric material 8 is mounted on the side surface of the body 1 opposite the active electrode 2. The cylindrical shape is porous element 8 is provided with guides (stiffening ribs) 9, and the fastening is provided with rubber rings 10 installed along the edges of housing 1. Passive

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A grounded electrode 11 is mounted on the skin 12 and connected through a microammeter 13 to a high voltage power source 4.

The device works as follows. Passive electrode 11 is placed on an arbitrary part of the patient's body undergoing aeroion therapy. Then the body 1 is applied to the skin 12 in the region of the reflexogenic zone so that the porous element 8 contacts the skin and a high voltage, for example, negative polarity, is supplied from the source 4. At a certain amount of voltage on the active electrode 2, a corona discharge occurs. Negative ions rush to the skin surface in the region of the porous dielectric element 8 and settle on its inner surface, infecting it and increasing the intensity of the electric field in the pores. In each of them, a microdischarge arises, leading to the additional formation of ions of both polarities. The positive ions rush to the active wire electrode 2, and the negative ones - to the skin 12. During the reciprocating movement of the handle 7, the dielectric body 1, made in the form of a roller, rolls along the surface of the skin 12. In this case, the active electrode 2 also moves progressively along the reflexogenic zone at a fixed distance from the skin, equal to or different from the radius of the cylindrical surface of the porous dielectric element 8. The secondary ionization zone is located for example TIV active electrode 2 in the place of abutment of the dielectric material to the skin surface 12 and accordingly moves together with the active electrode 2 along the reflexogenic zones.

In this way, a dynamic impact of aero ionic flow on an arbitrarily bopyy reflexogenic zone of the patient's skin surface is carried out. The discharge current is monitored with a microammeter 13. At the end of the aeroionic reflexology session, the power source 4 is turned off and the discharge is stopped.

Since the axis of the coronaer is longitudinal

the electrode does not coincide with the axis of the cylinder, the distance between the corona electrode and the skin gradually changes and, consequently, the density of aero-ion flow changes according to the periodic law. The amplitude and period of oscillation of the aero-ion flux density depends respectively on the eccentricity between the axes of the cylinder and the discharge electrode and the speed of movement of the device. In this way, a dynamic change is made in the amplitude of the effecting factor, the strength of the current, which has a beneficial effect on the patient's well-being.

The design of the aeroionic electrostimulator is simple to implement, convenient in operation, and ensures that the patient influences the patient's skin surface in dynamics with high reliability and low invasiveness of the procedures.

The device can be used in pulmonology, neurology, therapy, and other areas of clinical medicine, as well as in outpatient and home conditions for carrying out azro-ion stimulation of the reflexogenic zones, in particular for anesthesia for pain reactions, treatment of bronchitis, pneumonia, etc.

Claims (1)

Invention Formula An aeroionic electrostimulator containing a corona and grounded electrodes connected to a unipolar power source, as well as an element of a porous dielectric material opposite the corona electrode, characterized in that, in order to increase efficiency when exposed to long areas of the skin by forming an alternating the amplitude of the electrofactor, the element of a porous dielectric material is made in the form of a lateral surface of a hollow cylinder mounted for rotation on an axis associated with the handle, with This corona electrode is made extended and placed in a hollow cylinder parallel to its axis. 1762943 X / y. . J