RU2082384C1 - Statoelectromechanical manipulator device - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has casing 1 with plate 4 having cells 6 uniformly spaced over it for positioning removable action members 7. Plate 4 also has static electricity inducer unit as felt disk 5 positioned close to the plate and rotatable on the shaft of electric motor 2. Plate 4 and action members 7 spaced over it are manufactured from material possessing dielectric properties like ebonite. Action members 7 are placeable in cells 6 in the lower part of plate 4 of casing 1 in relative positions enabling treatment of a zone of required outlines to be realizable. EFFECT: enhanced effectiveness of medical treatment. 9 dwg

Description

 The invention relates to medical equipment and can be used for therapeutic effects on the human body with static electricity and at the same time additionally mechanical impact on a group of points of any configuration zone.

A device is known, made in the form of an ebonite circle, acting by static electricity by rubbing the skin over a diseased area of the body. Other, additional effects of this device are not provided. [one]
A device for acupressure is known, consisting of a sliding housing on which acting elements in the form of finger-shaped rods are arranged in pairs in each fragment. This device can carry out a mechanical action of the "shiatsu" type on a group of points. Other, additional effects of this device are not provided [2]
The technical result is to provide a combination of mechanical point impact on the zone of any configuration with a deep impact of static electricity on these same points. To do this, the housing plate with cells evenly placed on it for removable acting elements is in contact with the pathogen of static electricity in the form of a felt disk on an electric motor shaft, and the acting elements are made of a dielectric, for example, ebonite. A plate with cells is also made of a dielectric.

 In FIG. 1 of FIG. 6 shows a manipulator with some options for placing the acting elements, a bottom-side view; in FIG. 7 bottom plate with acting elements placed on it, bottom view; in FIG. 8 cell in the section in the section and the acting element in the section; in FIG. 9 sectional manipulator.

 A housing 1, in which an electric motor 2 is placed, connected by a shaft 3 to a disk 5 with a static exciter, in contact with the lower plate 4, equipped with cells 6 for acting elements 7, equipped with a head 8, which is included in the niche 9. The electric motor 2 is equipped with a wire 10 for power supply.

 Statoelectromechanical manipulator operates as follows.

First, the acting elements 7 are introduced into the cells 6 of the removed lower plate 4, placing the heads 8 in the niches 9, forming the desired impact configuration. Then insert the lower plate 4 into the housing 1. Depending on the diseases to be treated, the interposition of the acting elements in the cells of the lower plate can be as follows:
FIG. 1 active elements are arranged in the form of two parallel lines for paravertebral (paravertebral) exposure along the first lateral lines (meridians) of the back with osteonchondrosis of the spine and radiculitis;
FIG. 2 acting elements are located crosswise for impact on the thigh in the area of passage of the sciatic nerve during its inflammation;
FIG. 3 acting elements are located in the form of a lattice for influencing the upper-outer quadrant of the buttock with radiculitis, accompanied by inflammation of the sciatic nerve;
FIG. 4 acting elements are located in the form of an oval for influencing the rear of the elbow joint in case of its disease;
FIG. 5 acting elements are arranged in a circle for impact around the calyx of the knee joint in case of its disease;
FIG. 6 finger-shaped elements are arranged in two parallel lines for paravertebral (paravertebral) impact on the second meridians (Lines) in case of osteochondrosis of the spine or radiculitis.

 After that, connect the wire 10 to the power supply. The shaft 3 of the electric motor 2 starts to rotate, rotating the static electricity exciter 5 in the form of a felt disk, which rubbing the ebonite lower plate 4 and the heads 8 of the acting elements 7, forming and accumulating electrostatic potential in them.

 Then the manipulator is pressed by the acting elements in the disease zone for, for example, 10 minutes, immersing them in soft tissue until the patient feels pressure, but no more (in the comfort zone).

 The acting elements can be not only finger-shaped, but also of another rounded shape, for example, in the form of a blunt cone, in the form of a ball at the end, and others. In this case, the electrostatic potential is concentrated at the end of the acting element and when it is immersed deep into the soft tissues, the electrons flow from the ebonite to the neurovascular formations, stimulating their work, restoring the energy, conduction and blood supply reduced by the disease.

 Unlike electrons moving in a closed electric circuit from electrode to electrode when exposed to electric current, the electrostatic effect gives the electrons locally, directly to the impact zone, without involving distant areas. This allows you to more accurately and independently adjust the impact.

Claims (1)

 Statoelectromechanical manipulator, comprising a housing with evenly placed cells for acting elements and acting elements with rounded working ends, characterized in that a static exciter of dielectric is introduced into it, made in the form of a rotation figure equipped with a motor, and in contact with the acting elements, which are also made of dielectric.

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