RU2104058C1 - Device for amplifying cosmos energy - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has at least one corrector unit having base and forming members coupled to it. The members are separated with slots communicating with central cavity and directed at an angle providing for eddy flow of energy to be formed. The corrector unit has variable cross-section. The base can have shape of any geometrical figure. A part of external surface being common for forming members of the same corrector unit is designed to be narrowing or dilating when moving towards their working surfaces. Amplifier members have variable energy characteristics to enable them to be properly selected to enhance effectiveness of object stimulation. EFFECT: wide range of functional applications. 27 cl, 15 dwg

Description

 The invention relates to medical equipment and can be used to correct the energy state of the object [1]. Some specially made objects, which are various kinds of applicators, are used to correct a person's condition. However, the effectiveness of such devices is low.

 A device for the accumulation of biocosmic energy, which is a hollow body, for example, in the form of a pyramid, which can be made of metal or dielectric [2]. This device does not allow the impact on the local area.

 A device for enhancing biocosmic energy is also known, comprising at least one corrector, each of which is formed by forming elements connected to the base, having a common working surface and separated by grooves communicating with a central cavity, at least one wall of each groove under the angle forming the vortex direction of the energy reflected by the forming elements [3]. The disadvantages of this device is the inability to obtain various values of the collected and enhanced biocosmic energy, since the technical means used in the device allow you to vary the values obtained in a small range.

 The technical result of the invention is the provision of the possibility of selecting energy characteristics for individual use in the correction of human condition.

 For this, the biocosmic energy amplifier contains at least one corrector formed by forming elements connected to the base, which is made with a variable cross section, and the part of the outer surface, which is the common surface of the forming elements, is made expanding or tapering to their working surfaces. The base of each corrector can be made in the form of a polyhedron, part of a sphere, cylinder, ellipsoid, cone, or a combination thereof, the height of which is oriented along the axis of the central cavity, which can be continued as a through channel in the base. The outer surface of at least one corrector can be made in the form of a pyramid or in the form of a body of rotation of a line of arbitrary shape around the longitudinal axis of the central cavity, for example, a segment of a ball, pyramid, truncated pyramid, cone or truncated cone. Additional forming elements may be placed on the outer surface of the forming elements, forming at least one row of protrusions in the cross section of the corrector. The forming elements can be installed with the possibility of changing the distance to the axis of the cavity and / or moving along it. The forming elements of one corrector can be installed in the grooves of another corrector or two or more correctors, in the central cavity of another corrector, the central cavities of the correctors can be oriented along a common axis, can be oriented by working surfaces at different angles. The axes of the central cavities of all the correctors can be parallel to each other, can intersect at one point. The working surfaces of all the forming elements of each corrector can be parts of a common surface, for example, a plane, can be concave in the form of parts of a sphere, cone, ellipsoid, polygon, but can enter different surfaces. The corrector can be equipped with a shielding element located in the central cavity, made of material that is different in energy and information properties from the corrector, or of the same material, can be made in the form of a part of a plant, for example, a stem, root, top with adjacent shoots and branches of a flower, leaves. The outer surface of the shielding element can be made in the form of a body of revolution, have a variable cross section, tapering and / or expanding to the working surface of the forming elements and may have a through and / or muffled cavity. The base of the corrector can be made in the form of a frame. At least one forming element of one of the correctors may be made of a material having different energy information properties with the material of the steel forming elements. As the material of the amplifier elements, metal, wood, stone, ceramics, or a natural mineral can be used. The surface of at least one forming element and / or base of one corrector t / or screening element may be coated with a biologically active material.

 In FIG. 1 shows a corrector of a biocosmic energy amplifier; in FIG. 2-5 are shown correctors in the form of bodies of revolution; in FIG. 6-9 given their relative position; in FIG. 10 shows a corrector with additional forming elements; in FIG. 11 - form of execution of the base in the form of a frame; in FIG. 12 - corrector with a shielding element; in FIG. 13-15 - examples of the shielding element.

 The biocosmic energy amplifier contains one or more correctors 1, consisting of forming elements 2 and base 3, which can be made in the form of a single geometric figure, for example, a pyramid (Fig. 1), a cone, a truncated cone (Fig. 5), a sphere ( Fig. 2) and so on. They can be connected one-piece or detachably with the possibility of changing the relative position, and can be made in the form of a single body (Fig. 4). The forming elements 2 are divided by grooves 4 communicating with the central cavity 5. The base 3 may have a through channel 6, which is a continuation of the central cavity 5 of the corrector 1. The free ends of the forming elements 3 are their working surfaces 7. In the particular case, the working surfaces can degenerate into line 8 The base 3 can be made in the form of a frame, which due to its flexibility provides a change in the relative position of the forming elements 2, the outer surface of which 6 is made tapering or expanding I to their working surfaces 7, 8. The working surface 7 may be formed as part of the total surface, which is the plane polyhedron, a sphere, a cone, an ellipsoid or a combination thereof (Figure 10), or a variety of surfaces. The mutual orientation of the correctors during the formation of the total energy field can be different, namely along the common axis, along parallel axes, the axis of the central cavities 5 of the corrector 1 can intersect at one point. The forming elements 2 of one corrector 1 can be placed in the grooves 4 of another or other corrector. Corrector 1 can be installed coaxially, one in the cavity 5 of the other. The forming elements may be provided with additional forming elements 9, forming in cross section at least one row of protrusions. The amplifier contains a shielding element 10 placed along the axis of the central cavity 5 of the corrector 1, which can be made of the same material as the corrector 1 or of a material having different energy-information properties with the material of the corrector 1. The shielding element 10 can be made in the form of a body of revolution, can have a cross section tapering to the working surfaces of 7.8 forming elements 2, can be made in the form of a part of the plant, namely the trunk, root, top with adjacent shoots or branches, flower, leaves. As the material of the amplifier elements, and / or metal, and / or wood, and / or stone, and / or ceramics, and / or a natural mineral can be used. The forming elements 2 can be made of materials with different energy-information properties. The surface of one of the elements of the corrector 1 may be provided with a coating 12 of biologically active material. As such material, a drug can be used.

 The amplifier is used as follows.

 According to the technique developed by the authors, on the basis of preliminary measurements of the biofield of each corrector 1, for example, with the use of dowsers, they select the quantity, shape and materials, as well as their relative position, an amplifier with selected parameters of the energy field has contact or non-contact working surfaces 7 or 8 above the area impact, directing the vortex energy field formed by the amplifier onto it.

 The exposure time is selected from a few minutes to 5-8 hours, depending on the readings, the intensity of the formed field and the type of exposure (contact or non-contact).

 The amplifier allows, through the correction of the energy state, to stimulate the activity of the body and direct its own resources replenished with enhanced biocosmic energy to overcome various diseases, namely hypertension, arthrosis, arthritis, cholecestitis, diabetes mellitus, nephritis, cardiovascular disease, kidney stone disease etc. The amplifier allows, by correcting the energy state of a person, to increase immunity, improve metabolism, which in turn helps to normalize weight. The amplifier can have a noticeable effect on the energy of animals and regulate the development of plants, improving their germination, productivity, preservation of the finished product. The amplifier also allows you to influence technological processes that are not associated with living objects.

Claims (27)

 1. A biocosmic energy amplifier containing at least one corrector made in the form of forming elements connected to the base, having working surfaces separated by grooves communicating with the central cavity, at least one wall of each groove intersects the side surface at an angle forming a vortex the direction of the energy reflected by the forming elements, characterized in that the corrector is made with a variable cross section, and part of the outer surface, which is common to all boiling elements configured to expand or contract their working surfaces.  2. The amplifier according to claim 1, characterized in that the base of the corrector is made in the form of a polyhedron, part of a sphere, cylinder, cone, ellipsoid, or a combination thereof, while its height is oriented along the axis of the central cavity.  3. The amplifier according to paragraphs. 1 and 2, characterized in that the base of at least one corrector is made with a through channel, which is a continuation of the Central cavity.  4. The amplifier according to paragraphs. 1 and 3, characterized in that the outer surface of at least one of the correctors is made in the form of a pyramid.  5. The amplifier according to paragraphs. 1 and 3, characterized in that the outer surface of at least one of the correctors is formed by the rotation of a line of arbitrary shape around the longitudinal axis of the Central cavity.  6. The amplifier according to claim 5, characterized in that the outer surface of the corrector is made in the form of a segment of a ball, cone or a truncated cone.  7. The amplifier according to paragraphs. 1 to 6, characterized in that on the common surface of the forming elements of at least one corrector placed additional forming elements forming in the cross section of the corrector at least one row of protrusions.  8. The amplifier according to paragraphs. 1 to 7, characterized in that the forming elements of at least one corrector are installed with the possibility of changing the distance to the longitudinal axis of the Central cavity and / or movement along it.  9. The amplifier according to paragraphs. 1 to 8, characterized in that the forming elements of at least one of the correctors are located in the grooves of one or more other correctors.  10. The amplifier according to paragraphs. 1 to 8, characterized in that the forming elements of one of the correctors are located in the Central cavity of the other corrector.  11. The amplifier according to paragraphs. 1 to 8, characterized in that the Central cavity of the correctors are oriented along a common axis. 12. The amplifier according to paragraphs. 1 to 10, characterized in that at least two correctors are oriented by the working surfaces of the forming elements at an angle from 0 to 180 ^o .  13. The amplifier according to paragraphs. 1 10, characterized in that the axis of the Central cavities of all the correctors are parallel to each other.  14. The amplifier according to paragraphs. 1 10, characterized in that the axis of the central cavities of all the correctors intersect at one point.  15. The amplifier according to paragraphs. 1 to 14, characterized in that the working surfaces of all the forming elements of the corrector are parts of a common surface and / or different surfaces.  16. The amplifier according to claim 15, characterized in that the working surfaces are concave in the form of parts of a sphere, cone, polyhedron or ellipsoid.  17. The amplifier according to paragraphs. 1 16, characterized in that at least one corrector is equipped with at least one screening element of arbitrary shape, placed along the axis of the Central cavity and / or in the immediate vicinity of the groove, and / or the surface of the forming elements.  18. The amplifier according to claim 17, characterized in that the shielding element is made of a material identical in energy information properties to the corrector material.  19. The amplifier according to claim 17, characterized in that the materials of the shielding element and the corrector are selected with different energy-information properties.  20. The amplifier according to paragraphs. 1 to 19, characterized in that the shielding element has an outer surface formed by the rotation of a line of arbitrary shape around its longitudinal axis, oriented along the axis of the Central cavity.  21. The amplifier according to claim 17, characterized in that the shielding element is made in the form of a part of the plant, namely the trunk, root, top with adjacent shoots or branches, flower, leaves.  22. The amplifier according to p. 20, characterized in that the screening element has a cross section that tapers to the working surfaces of the forming elements of the corrector.  23. The amplifier according to paragraphs. 17 20 and 22, characterized in that the shielding element is made of at least one muffled and / or through cavity.  24. The amplifier according to paragraphs. 1 16, characterized in that the base of at least one of the correctors is made in the form of a frame.  25. The amplifier according to paragraphs. 1 to 23, characterized in that at least one forming element of one of the correctors or one of its surfaces is made of a material having different energy-information properties with the material of the remaining forming elements.  26. The amplifier according to paragraphs. 1 25, characterized in that the material of its elements selected wood, and / or metal, and / or stone, and / or ceramics, and / or natural mineral.  27. The amplifier according to paragraphs. 1 to 26, characterized in that at least one surface of at least one forming element and / or base of at least one corrector and / or screening element is provided with a coating of biologically active material.

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