RU1816576C - Piezostimulator - Google Patents

Abstract

Usage: the invention relates to devices for electrophysical exposure and can be used to stimulate biologically active zones on the human body. Essence: in a piezoelectric stimulator, by pressing a key, an electric discharge is formed between the electrode 17c with the pointed end 18 and the metal funnel-shaped electrode 20, which affects the object. 4 ill.

Description

The invention relates to devices for electrophysical exposure and can be used to stimulate biologically active zones on the human body.

An electropuncture device is known comprising electrodes and an electronic control circuit.

A disadvantage of the known device is the complexity of the design and the associated low reliability.

A device for reflexology is known. comprising a pointed electrode with a power source.

A disadvantage of the known device is the use of a power source, which complicates the device, makes it more expensive, reduces its reliability and safety. The complexity of this device does not allow it to be used for constant exposure.

Also known is a device comprising a piezoelectric transducer,; a movable electrode, a stationary electrode and a grid with a grid. The disadvantage of this device is low

reliability and limited functionality associated with the design of the movable electrode and grid with grid.

A piezostimulator containing a casing with a piezoelectric transducer and an arrester with electrodes was selected as a prototype.

The specified prototype device contains a hollow casing with a piezoelectric generator, driven by a thrust handle or pedal, and an arrester with electrodes located in the head having partitions 11 that divide successive grooves 12 having alternating recessed part 12a and less deepened part 12b . The recessed portions 12a and the lesser recessed parts 12b are separated by a projection 13. at the base of which there is an opening. The holes serve to introduce electrodes made on a rod 16, which is fixed under the grating 10 and connected through a conductor 17 to one of the poles of the piezoelectric generator 3. The grating 10 is supported in the tip 9 of the housing 1 by means of a tape

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18. The tape 18 has contact leads or contacts 19 which are inserted into the grooves 12, either in the recessed part or the slightly recessed part. The tape 18 is metallized and connected at one end to the second pole of the piezoelectric generator. The disadvantages of this device are the complicated design of the sizing and the limited functionality associated with the design of the sizing.

The aim of the invention is to simplify the design and expand the functionality.

This goal is achieved in that in a piezostimulator containing a dielectric casing, a power electric mechanism with piezoelectric elements and a discharge, the discharge is made in the form of a dielectric housing, a spring-loaded pointed electrode, an electrode with a pointed end, a dielectric sleeve, a grid made of dielectric material, metal funnel-shaped electrode, and a dielectric tip, while the spring-loaded pointed electrode is mounted movably relative to the electrode with a pointed end and with the possibility of contact with it, an electrode with a pointed end is located in a dielectric housing with the possibility of electrical interaction with metal. a funnel-shaped electrode, a mesh of dielectric material is mounted on a metal funnel-shaped electrode by means of a dielectric tip with a gap and the possibility of changing the distance between it with the free end of the dielectric tip, and the dielectric sleeve is mounted on the electrode with a pointed end on the side of the pointed end and with the possibility of axial movement relative to it .

The pointed end of the electrode provides a concentration of the electrostatic field on it and ionization of the gas discharge.

The execution of the pointed electrode by a spring-loaded electrode prevents its blunting during operation, and, therefore, improves the conditions for the occurrence of a discharge on it.

The installation of the dielectric sleeve movably relative to the electrode allows, for example, in the process of adjustment to establish the optimal width of the discharge zone and bring it closer to the dielectric grid in order to set the desired operating mode, maximize the use of secondary effects of the gas discharge between the electrodes.

The location of the electrode with a pointed end in a dielectric housing with

The possibility of electrical interaction with the funnel-shaped electrode ensures the safe operation of the device, since during the interaction of these electrodes a voltage of 15004000 V arises in the supply of 1-5 μA.

Figure 1 shows a General view of the piezoelectric stimulator; Fig. 2 - section and part of the casing, section; in Fig.Z - section aa; figure 4 - device power electric

mechanism.

The piezostimulator consists of a dielectric casing 1, in which a power electric mechanism 2 with piezoelectric elements is fixed, for which, for example, a mechanism can be used (see Fig. 4). The mechanism 2 is connected to the key 3 mounted on the axis 4 with the possibility of rotation. Conductors 5 are connected respectively to a pointed electrode 7 under a spring spring 6 and a metal washer 8, mounted on the casing 1, for example, by a screw 9. The electrode 7 is mounted in the sleeve 10 with the possibility of axial movement, thanks to

which protects its pointed end from blunting. The pointed end of the electrode is necessary to concentrate an electrostatic field on it and ionize the gas discharge. Bushing 10 sop wife with

nut 11, for example, by means of a thread and is fixed against rotation in the casing (for example, by means of a groove 12 made in the sleeve 10 and a protrusion 13 made in the casing 1). The nut 11, in turn, is axially bounded in the housing 1. On the housing 1 is attached an arrester 14 comprising a dielectric housing 15 with an opening 16 in which, for example, by means of glue, an electrode 17 with a pointed end 18 is fixed. On the electrode 17 is fixed with the possibility of moving relative to it and subsequent fixing, for example, by means of glue, a dielectric sleeve 19. A metal funnel-shaped electrode 20 with a stool 21 is also fixed in the housing 15, on which, by the dielectric tip 22, is fastened ying mesh of dielectric material 23 (e.g.

kapron fabric or other), with the possibility of changing the distance between it and the free end face B of the dielectric tip 22 (for example, due to a set of washers 24 located between the grid 23 and the electrode 20). In this case, the electrode 20 by

the protrusion 21 is electrically connected through the hole 16 with a metal washer 8. The spring 6 is selected so that when the sleeve 10 moves from the electrode 17, a gap arises between it and the electrode 7. The slide sleeve 19 relative to the electrode 17 allows, when adjusting, to establish the optimal zone width. The discharge between the electrodes 17 and 20. The gap between the pointed end 18 and the mesh 23 in the developed device in order to preserve the mesh 23 should be at least 0.5 mm.

The piezostimulator works as follows. By pressing the lever 3-1 through the ball 30 and the pusher 29, mechanical force is transmitted to the piezoelectric elements 27 located in the housing 26. On the other hand, a screw 25, a nut 33 for adjusting the compression of the piezoelectric elements and a pusher are used to stop the mechanical pressing. When the piezoelectric elements are mechanically pressed, polarizing charges appear on the surface of the crystal, and opposite charges in the appearance of induced charges appear on the metal plates of the crystals. the electric charge is removed to the spring-loaded pointed electrode. If the electrode 7 is connected to the electrode 17. between the pointed end 18 and the metal funnel-shaped electrode 20, an electric discharge occurs, which, under conditions of contact with the object due to the partial conductivity of the object, flows through it and has an electromassage effect. The gap in the developed device of more than 0.5 mm between the grid 23 and the surface B is necessary to reduce the force impact of the object on the grid 23 in the area of its attachment to the electrode 20. The opening of the electrodes 7 and 17 allows due to the occurrence of spark discharges between them to exert a pulsed effect per object. As the distance between the electrodes 7 and 17 increases, the frequency of the pulses decreases, and their power increases. The gap Due to the deformable ™ of the object does not interfere with the contact of the mesh 23 with the object, with a small (about 20-50 g) force on the object. On the other hand, if necessary, the impact on the object without contacting it with the grid 23, this gap with a slight touch (for example, less than 10 g) protects the grid from contact with the object. In this case, the effect is carried out by the secondary effects of a gas discharge between the electrodes 17 and 20, electromagnetic radiation, ozone, flows of ionized particles, etc.

The proposed device is intended to be used mainly with a negative potential on the electrode 17 with a pointed end 18. When a positive pulse is formed on the electrode 17, the direction of movement of the electric charges during the discharge will have a substantially opposite direction. The implementation of the pointed electrode 7

0 spring-loaded prevents its dulling during operation, and therefore improves the conditions for a discharge on it, the ability to change the distance between the electrical grid 23 and the end of the dielectric tip 22 allows you to set the desired operating mode during adjustment or operation (guaranteed contact or guaranteed contactless). Installation

0 of the dielectric sleeve 19 movably relative to the electrode 17 allows, for example, during the adjustment process to establish the optimal width of the discharge zone and bring it closer to the dielectric grid 23, s

5 to maximize the use of secondary effects of gas discharge between the electrodes 17 and 20. All this allows to expand the functionality of the device, i.e. use it for

0 stimulation of biologically active points (B AT) (zones) on the human body, massage, anesthesia, disinfection and other purposes. The lack of a power source and the complicated construction of the piezostimulator, low weight (200 g), the simplicity of the method of use, and the improvement of the therapeutic effect make it possible to use the piezostimulator not only in medical institutions, but also at home as prescribed by the doctor, as well as in beauty parlors.

The device is reliable in operation, safe and meets the specified biomedical and technical requirements, technologically advanced in industrial production. The inventive Piezostimulator can be manufactured under conditions of small-scale production using software materials and technology.

Formula of the shade A piezostimulator containing a dielectric casing, a power electric 5 mechanism with piezoelectric elements and a discharge, characterized in that, in order to simplify the design and expand the scope of application by acting on different parts of the patient’s body, the discharge is made in the form of a dielectric body of a spring-loaded pointed electrode, an electrode with a pointed end, a dielectric sleeve, a mesh of dielectric material, a metal funnel-shaped electrode and a dielectric tip in this case, the spring-loaded pointed electrode is movably mounted relative to the electrode with a pointed end and with the possibility of contact with it / the electrode with a pointed end is electrically interconnected in the dielectric casing

working with a metal funnel-shaped electrode, a mesh of dielectric material is fixed to the metal funnel-shaped electrode by means of a dielectric tip with a gap and the possibility of changing the distance between it and the free end of the dielectric tip, and the dielectric sleeve is mounted on the electrode with a pointed end on the side of the pointed end with the possibility of axial movement strengthened regarding him.

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