RU2164792C1 - Medical insole - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has conducting and nonconducting magnetophoretic layers provided with acupressure massage protrusions and means for connecting selected foot zones through pulse shapers to negative output unit of ferropiezogenerator of module structure with conic type pressure drive. Joining drive edges are manufactured as coupled conic surfaces having generatrix slope angle of 40-75 deg to cross-section plane running in perpendicular to the axis. Seignette member groups of the generator modules are connected in opposition to each other with their positive output being connected to passive electrode. EFFECT: combined magnetic, electric and acupressure stimulation of selected foot zones; enhanced effectiveness of treatment. 8 dwg

Description

 The invention relates to medical equipment and is intended to stimulate biologically active zones of the feet according to the Zakharyin-Ged scheme.

 Sub-puncture or podotherapy is one of the intensively mastered methods of reflexology, which is based on the use of the presence in the area of the feet (sole) of point and zone representations of practically all human organs and functional systems, described in detail (Dale H, Huand M., 1975 y). Being an active relaxation zone, the foot area also provides the opportunity to obtain information about the state of the body. The topography of the projection zones in the soles is known (Konig, Wancura 1975, "New Chinese Acupuncture", Bergson, Tuciak. USA, 1974 "Zone therapy", in the works of R. Durinyan, 1980, 1983, as well as in Guaz Luvsan, "Traditional and Modern Aspects in Oriental Reflexotherapy", Science, USSR, 1986), as the possibility of diagnosis and impact through the soles of organs and functional systems for the treatment or prevention of the disease. Therefore, the development of designs of therapeutic insoles, providing the use of several combined reflex effects, is an urgent task.

 Known devices for both mechanical massage of the reflex zones of the feet (Germany, p. N 3622562, AS USSR N 1316670), and for complex therapy, where acupressure is combined with exposure to a magnetic field (Germany, p. N 3221505, A. C. USSR N 1364335).

 The disadvantage of these devices is the inability to stimulate a selected zone for reflex exposure, because the design provides only stimulation of the entire surface of the foot at the same time.

 Known insole for shoes with built-in flat electrochemical cell (Japan, N 61-21669, MKM A 61 N 1/18). The essence of this device is that the bottom layer of the insole made of graphite fibers serves as a flat positive electrode, and the upper layer of aluminum or zinc foil serves as a flat negative electrode. An electrolyte is placed between the electrodes. The described solution has several disadvantages: the impossibility of choosing the necessary stimulation zone for an individual user; the duration of exposure of the exposed surface of the foot to aluminum or zinc surfaces can cause unpleasant subjective sensations and even undesirable complications, and the functionality of the stimulation is limited by electrical exposure to direct current.

 The insole according to A. S. USSR N 1544428, A 61 H 15/00, A 61 H 39/04, (OB N 7, 1990) is also known. The device contains an insole perforated through holes in the topographic location of reflexogenic zones according to the Zakharyin-Ged scheme, which are inherent only to the left and right feet. Elastic massage elements consisting of heads, necks and supports are installed in the holes.

 A common drawback of these devices is reflexology-massage or electro-puncture without the simultaneous effects of massage, electrical stimulation and magnetotherapy of selected reflexogenic zones of the feet.

 The prototype of the invention selected device according to (A.S. N 1526701, MKI A 61 N 1/18, "Medical insole"), consisting of two non-conductive elastic layers. The upper layer is perforated, between the layers in the heel area there is a power source in the form of a ferro-piezoelectric element with positive and negative poles. The negative pole is connected by a conductor to the active electrode, having the shape of a pin, the positive pole is connected by a conductor to a passive electrode. The bottom layer of the insole is self-adhesive and serves to fix the ferro-piezoelectric element and the active electrode, which is installed with the possibility of permutation and fixing in the holes of the perforated upper layer and connected to the pole of the power source, and the passive electrode is connected to the second pole.

 The disadvantage of the prototype is the limitation of functionality only by massage and foot electropuncture with random pulses without the combined effects of massage, electrical stimulation and magnetotherapy, as well as the lack of stable parameters of the electropuncture pulses with adjustable amplitude and duration.

 These shortcomings are eliminated in the inventive device "Medical insole".

 The technical problem solved by the invention is to create a device that extends the functionality due to the three-component massage-electro-puncture-magnetotherapeutic effects on selected reflexogenic zones with pulses with adjustable parameters (amplitude and duration) of a piezo piezoelectric generator with a conical push drive, which provides sufficient accuracy for dynamic compression of oncoming groups ferro-piezoelectric elements of working generator modules, the number of which may be "n".

The problem is solved in that in order to obtain a combined three-component massage-electro-puncture-magnetotherapeutic effect on a selected zone or zones of feet, the choice of a configuration of a selected zone with magnetophore protrusions of different field orientations (NS, SN), its combination with acupressure protrusions from the conductive material into the corresponding perforation holes, a multilayer structure of applied elastic layers in the form of insoles with self-adhesive coatings, a non-conductive edging of the reflexology contours is proposed zones according to the Zakharyin-Ged scheme, with the ability to connect selected zones through a pulse shaper to the negative terminal of a ferro-piezoelectric generator of modular design with a conical push drive, in which the connecting edges are made in the form of mating conical surfaces with an inclination of the forming cones at an angle of 40-75 ^o to the transverse plane the cross section perpendicular to the axis, while the groups of ferro-piezoelectric elements of the generator modules are turned on in the opposite direction, connecting to the passive electrode with a positive terminal.

Comparative analysis with the prototype shows that in the claimed and known solutions, the presence of the following similar features is noted:
- patch elastic layer in the form of feet with perforation and a self-adhesive coating,
- a ferro-piezoelectric voltage source, a cylindrical ferro-piezoelectric element with silver electrodes at the ends, operating at the direct pressure of the body on the piezoelectric element.

The difference between the claimed device from the known are:
1. The multilayer structure of five elastic layers in the form of insoles with self-adhesive coatings.

 2. Each layer, conducting and non-conducting, as well as the magnetophore layer, has two different orientations of the magnetic fields (N-S, S-N).

 3. Switching conductive layers in the form of insoles and connecting each layer or selected zone to a power source.

 4. The topography of reflexogenic zones according to the Zakharyin-Ged scheme is applied to all layers, both conducting and non-conducting, and magnetophore.

 5. A non-conductive thinning was performed along the contours of reflexogenic zones, along which a zone or group of zones can be cut out and, thanks to the adhesive base, fixed to the plane of the left or right insoles.

 6. The presence of self-adhesive coatings on the underside of the conductive, non-conductive and magnetophore layers, as well as perforations on them, makes it possible to “assemble” the left and right insoles with acupressure protrusions into a single multilayer assembly.

7. A structural embodiment of a modular type ferro-piezoelectric generator with a conical push-pull drive, in which the connecting edges are made in the form of mating conical surfaces with an inclination of the forming cones at an angle of 40-75 ^o to the plane of the cross-section perpendicular to the axis, while the groups of ferro-piezoelectric elements of the generator modules are turned on, By connecting with a passive electrode with a positive terminal, it ensures the stability of dynamic compression and the formation of pulses in amplitude and duration, absolutely the electrical safety of the device during operation.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of the left and right medical insoles with topography (according to the Zakharyin-Ged scheme) of reflexogenic zones; in FIG. 2 is a sectional view of a typical multilayer insole; in FIG. 3 and FIG. 4 - in the context of its constituent 2, 3, 4, and 5th layers; in FIG. 5 - a ferro-piezo-generating unit in a section with push and support cone elements, in FIG. 6 - upper pressure element of the generator; in FIG. 7 is a bottom support element with generator modules in section; in FIG. 8 is a section of a ferro-piezoelectric generator assembly according to AA ¹ assembled with generator modules, solid-state elements and a section of an upper conical drive with steel balls.

 The treatment insole contains a lower conductive elastic layer 1, a thin elastic insulating layer with a double-sided adhesive coating 2, elastic with acupressure protrusions in two versions with a conductive and non-conductive base layer 3, a thin elastic insulating layer with a double-sided adhesive layer 4, and an upper elastic magnetophore layer 5 s acupressure magnetic protrusions in two modifications of the magnetic field orientation (NS, SN). Layer 3 has acupressure protrusions 6 in the conductive and non-conductive versions, layer 5 has acupressure protrusions 7 and perforations 8, while the protrusions 7 are made in two modifications with the opposite orientation of the magnetic field. All layers have a relief deposition of reflexogenic zones (topography according to the Zakharyin-Ged scheme) with contours around the perimeter of zones with non-conductive thinning 9 to separate each zone by conductivity and the possibility of convenient cutting, that is, the allocation of a “chosen” zone or group of zones. In addition, each acupressure protrusion of conductive-non-conductive 6 and magnetophore 7 layers 3 and 5 has a cross-shaped incision at the top (see Fig. 3) to enhance the effect on the sole.

Between the outer conductive layer 1 on its inner side and the layers 2, 3, 4, and 5 assembled together in the area of the heel of the foot, a ferro-piezoelectric generator 10 is placed, which consists of:
- the upper pressure unit 11 with a conical base and steel balls 12 pressed around the perimeter, a cylindrical groove under the fastening limiting screw 13 and a return spring 14 with holes 30,
- lower modular quadruple ferro-piezoelectric generating unit 15, pressed into a plastic insulating block 16, with ferro-piezoelectric generating modules 17 with formers 18 of the amplitude and duration of the generated pulses, and fixing screws 31.

 Each ferro-piezoelectric generator module 17 contains a metal casing 19, an insulating cylinder 20, annealed copper inserts 21, solid-state inserts 22, support screws 23, a central (negative) annealed copper 24 electrode, opposed ferro-piezoelectric elements 25 (i.e. +, -; -, +), solid-state working inserts 26 with a hemispherical exit to the conical working part of the lower node 15.

 The upper pressure unit 11 with the conical base and the tightening screw 13 inserted in the lower cylindrical hole by the spring 14 is inserted into the lower modular quadruple ferro-piezoelectric generator unit 15, pressed into the plastic insulation block 16, while the working cone of the upper unit enters the conical groove of the lower one (see Fig. 5), and is tightened by a screw 13, i.e., the pressed steel balls 12 in the upper push unit 11, moving relative to the solid-state working inserts 26 with hemispherical outlets in the conical part of the lower unit 15, go from the position "Min" to "Max" pressure, and the movement of the outputs of the solid-state inserts 26 is regulated by screws 23. For strictly vertical movement of the upper pressure unit 11 relative to the lower, assembled in block 16 with a metal body 19 and an internal conical groove, in the upper pressure unit 11, holes 30 are made, and in the lower node, fixing screws 31.

 The medical insole is assembled as follows.

 The acupressure protrusions 6 of the layer 3 are inserted into the grooves of the perforations 8 of the layer 5 having the acupressure protrusions 7, and are fastened with a self-adhesive layer 4, forming the upper working surface of the insole. The conductive sections of the selected zone or zones with the help of plates 27 from the ferro-piezoelectric generator 10 located in the heel zone, through the formers 18 and conductors 28 are connected to the negative terminals of the electrodes 24 of the ferro-piezoelectric generator and form an “Active electrode”, and the positive terminal on the housing of the generator modules through the conductive surface of the layer 1 forms a "Passive electrode" 29, i.e. layers 3, 4 and 5 assembled together with laid conductors by a ferro-piezoelectric generator and selected zones bonded to layer 1 and 2 in a compressed form form a single elastic damping therapeutic insole, with acupressure massaging magnetophore and conductive protrusions that carry an electropulse effect on the selected zone.

 The device operates as follows.

 The insole is selected according to the size of the shoe. They decide in advance what effect should be achieved, and depending on which organ it is used for, they assemble the insole elements. It should occupy a position corresponding to the inner surface of the sole of the shoe and ensure a good fit to the foot.

 In a fully formed and ready-to-use insole, when the body pressure is applied to the upper pressure unit 11, the balls 12 transmit force to the solid-state inserts 26 of the lower ferro-piezoelectric unit 15, which moves inward, deforming the ferro-piezoelectric elements 25, forming a “positive” on the case 19, and 30 potential the electrodes of module 24 are “negative” potentials, switched through a pulse shaper 18, conductors 28 and contact plates 27 to selected zones, i.e. zone or zone of stimulation through acupressure conductive protrusions 6, with simultaneous magnetotherapeutic effects from acupressure magnetophore protrusions 7 in these zones.

 Moreover, the presence of the topography of the reflex zones in both the conducting and magnetophore layers, the possibility of choosing one or several zones, switching formed by the amplitude and duration of the pulse potentials (using RCL according to the principles and schemes known from electronics), positive or negative for each of them, the possibility of cutting into topographic sections along the contours of zones with electrical and magnetic isolation from others, creates a variety of options for therapeutic effects.

 In addition, it is possible to make "samples" in the necessary places of the insoles in order to completely exclude the impact on some areas of the foot - the convenience of observing the degree of impact and the result of the effect achieved.

 For convenience and to avoid errors in the formation of the healing insole, the topography of the reflex zones is plotted on all layers 1, 2, 3, 4, and 5 of the left and right insoles on both sides.

 Thus, the claimed therapeutic insole provides a combination of three-component synchronous effects of magneto-electro- and acupressure stimulation of selected zones of the feet with adjustable parameters of the pulses in the process of natural movements of a person. Stimulation of the reflex zones of the feet is indicated for all returning groups, and for some diseases it can be used as an independent treatment method, and also be a good adjuvant therapy that enhances other methods of influencing the body.

 The invention is characterized by wide functionality and complete safety, allows more effective treatment in both home and inpatient settings.

Claims (1)

A medical insole comprising several layers of elastic material, the upper of which is perforated, and the lower is self-adhesive, active and passive electrodes and a power source in the form of a ferro-piezoelectric element, which is located in the heel region of the insole between the layers, characterized in that it further comprises a conductive non-conductive and magnetophore layers with acupressure massing protrusions, self-adhesive layers, non-conductive edging of the contours of reflexogenic zones according to the Zakharyin-Ged scheme with ozhnostyu connect selected areas through pulse shapers to the negative terminal segnetopezogeneratora modular construction with conical push actuator, wherein the joint edge formed in the form of mating tapered surfaces with a slope forming a cone at an angle of 40 - 75 ^o to the cross-sectional plane perpendicular to the axis, wherein the group segnetopezoelementov generator modules are turned on in the opposite direction, connecting with a passive electrode with a positive terminal.

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