RU2147446C1 - Biological corrector device - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has rigid ring-shaped base or flexible one taking ring shape. The base is manufactured from circular cross-section conductor material. Metal members shaped as revolution bodies are rotatably spaced all over the whole length of the base, their surface layers having different electrode potentials. A part of members is monometallic. Bimetallic members have one metal distributed over its surface as a 10- 40 mcm thick layer. The bimetallic members surface layer and the monometallic members are manufactured from metals belonging to the row of Mn, Zn, Fe, Co, Ni, Cu, Ag. In particular cases, the members having silver surface layer are placed between the members which surface layer is manufactured from other metals shown in the mentioned row. Biological corrector device can be manufactured as a bracelet, beads, rosary and other things. EFFECT: increased therapeutic effectiveness. 4 cl, 2 dwg

Description

 The invention relates to medical equipment and can be used to restore impaired body functions by non-traditional methods, including by acting on biologically active zones.

 Known medical bracelet made of a set of copper threads [1]. Its disadvantage is a weak therapeutic effect, due, firstly, to the fact that all copper filaments are under the same potential, and when the bracelet is worn on the wrist, copper ions are not introduced into the skin in sufficient quantities (copper is a trace element necessary for humans) and - secondly, in that the ultra-low-frequency (VLF) electrical vibrations that occur at the skin-copper interface are too low to have a noticeable effect on the body.

 The closest in technical essence to the claimed object is a biological corrector containing an open ring-shaped base made of round conductor, at the ends of which two metal elements are fixed in the form of balls made of metals with different values of the electrode potential (different work function of the electrons) [2] . The disadvantage of the corrector-prototype is the low therapeutic effect, due to the fact that the length of the conductor of the ring-shaped base made of one metal is more than an order of magnitude greater than the diameter of the surface areas of the balls in contact with the skin, as a result of which only the surface areas of the balls and the nearest to them are areas of an annular base in contact with the skin. Microcurrents flow in the skin through the boundaries of these regions due to the contact potential differences occurring between each ball and the ring-shaped base, and at the borders of these regions, VLF flicker-noise oscillations useful to humans arise.

 The technical result, the achievement of which the claimed solution is directed, is the enhancement of the therapeutic effect.

 This is achieved by the fact that in a biological corrector containing a rigid ring-shaped or flexible made of a round conductor, taking an annular shape when covering a part of the human body, the base and two metal elements worn on it, made in the form of a body of revolution, in which the surface layers have different values of the electrode potential, on the said basis between these elements are additional metal elements, also made in the form of a body of revolution, while all Options are arranged with the possibility of free rotation. This is also achieved by the fact that some of the elements are made of monometallic and some are bimetallic, while for each bimetallic element one of the metals is placed on the surface of the element in the form of a layer with a thickness of 10-40 μm, as well as the fact that the monometallic elements and the surface layers of bimetallic elements made of metals selected from the range: manganese, zinc, iron, cobalt, nickel, copper and silver. In the particular case, this is achieved by the fact that elements whose surface layer is made of silver are located between elements whose surface layer is made of other metals of the above series.

 In FIG. 1 and 2 show two versions of the biological corrector, made in the form of bracelets.

 In FIG. 1 shows a variant of a biological corrector, in which the rotation bodies are made in the shape of a ball. The biological corrector contains a rigid ring-shaped base 1 made of a circular conductor, limited by protrusions 2. put on the ends of the base with tension (for example, by means of a press fit) or fixed to the ends of the base in another way. One protrusion is fixed at one end of the base before putting on metal elements made in the form of a ball with a cylindrical through hole, the second is fixed at the other end of the base after being put on. Each spherical element can freely rotate around the base 1. Some of the spherical elements are made monometallic, some are bimetallic, with each bimetallic element one of the metals is made in the form of a ball 3, and the second in the form of a spherical surface layer, for example, of manganese 4, zinc 5, cobalt 6, nickel 7, silver 8. Spherical monometallic elements are made, for example, of iron (steel) 9 and copper 10.

 The need for the simultaneous use of mono- and bimetallic elements is dictated by economic considerations. A silver ball is more expensive than a ball made of cheap metal coated with a layer of silver, an iron (steel) ball is cheaper than a ball from any non-ferrous conductor coated with a layer of iron.

 In FIG. Figure 2 shows a variant of a biological corrector in which the rotation bodies have a barrel-shaped shape (the designations in Fig. 2 coincide with the designations in Fig. 1, including for elements made in the form of a rotation body).

 The biological corrector can also be made in the form of beads, rosaries and other objects worn on the human body.

 Standard electrode potentials of metals located in the surface layers of elements made in the form of bodies of revolution are, in B: Mn -1.78; Zn -0.763; Fe -0.440 and -0.036; Co - 0.277 and +0.400; Ni 0.250; Cu +0.521 and +0.337; Ag +0.799. The highest electrode potential among these metals has Ag, which in the biological corrector acts as a cathode, and Mn, Zn, Fe, Co, Ni, and Cu, which are friendly trace elements for humans, act as local anodes. When two metals with different electrode potentials (different work function of the electrons) are connected, electrons from a metal having a lower electrode potential transfer to a metal having a higher electrode potential, and the first one becomes the anode and the second becomes the cathode.

 It is advisable to apply metals to elements made in the form of a body of revolution using electrochemical cathodic deposition from solutions of the corresponding electrolytes. The coating thickness should be in the range of 10 - 40 microns (for a coating of silver, acting as an insoluble cathode, 10 microns is enough). The structure of the metal coating should be dense, fine-grained, without pores (which retains the luster of metals deposited on the surface of the elements for longer). It is possible to deposit on the surface of elements and less than seven metals, for example zinc, cobalt, copper and silver.

 The biological corrector implements the therapeutic effect on humans due to constant microcurrents under the influence of EMF arising at the boundaries between metals with different values of electrode potential, microelement electrophoresis in the skin, and ELF flicker-noise electric vibrations arising at the skin-metal interface. At the same time, each metal gives its amplitude-frequency spectrum at the border with the skin. The upper cutoff frequency of flicker noise in the skin layer adjacent to the metal does not exceed 20 Hz. VLF flicker-noise processes also occur in various systems, organs, tissues and elements of human tissues, in particular in biological membranes, acupuncture points and meridians. VLF vibrational processes that occur at the skin-metal interface interact with vibrational processes in the skin, which ultimately leads to the normalization of physico-chemical processes in the body. To enhance the therapeutic effect, the biological corrector during the day needs to be shifted several times (in any direction) relative to the previous position on the skin surface. In this case, transient exponential electrochemical processes occur between the metal elements and the skin and the level of flicker noise in the surface layer of the skin increases compared to the case when the biological corrector remains stationary for a long time relative to the skin surface (any transition process has a flicker-noise spectrum).

 The claimed biological corrector provides a tactile effect on a larger number of areas of the human skin than the corrector prototype, and a greater likelihood of metal elements entering the area of the selected biologically active zone.

Sources of information used in compiling the description
1. A. p. USSR N 1676634, class A 61 N 1/22, "Device for therapeutic effect", publ. 09/15/91, Bull. N 34.

 2. USSR patent N 1766238, cl. A 61 H 39/04, A 61 N 1/18. "Biological corrector", publ. 09/30/02. Bull. N 36 is a prototype.

Claims (4)

 1. Biological corrector containing a rigid ring-shaped or flexible, made of a circular conductor, taking an annular shape when covering part of the human body base and two metal elements worn on it, made in the form of a body of revolution, in which the surface layers have different electrode potentials, different the fact that on the basis between the above-mentioned elements are additional metal elements, also made in the form of a body of revolution, while all elements are placed with the possibility of their free rotation.  2. The biological corrector according to claim 1, characterized in that some of the elements are made of monometallic and some are bimetallic, with each bimetallic element having one of the metals placed on the surface of the element in the form of a layer with a thickness of 10-40 microns.  3. The biological corrector according to claim 2, characterized in that the monometallic elements and the surface layers of the bimetallic elements are made of metals selected from the series: manganese, zinc, iron, cobalt, nickel, copper and silver.  4. The biological corrector according to claim 3, characterized in that the elements whose surface layer is made of silver are located between elements whose surface layer is made of other metals of the above series.

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