RU2071363C1 - Device for forming vorticity power field - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has two circular rows of forming members differing in their forming capacity. The members are separated with grooves communicating with common central cavity, connected with the base and oriented in opposite directions with their end face surfaces along the central cavity axis pointing to the action area. Members of the device have various forms and protrusions and/or recesses can be optionally manufactured on every of their surfaces. They are oriented along the cavity axis and can belong to two or more concentric surfaces. The forming members can have working surfaces on both end faces, their base being manufactured as carcass. The forming members are mountable at various distances from the axis and are shiftable along the axis of the central cavity. EFFECT: enhanced effectiveness of human organism stimulation. 23 cl, 9 dwg

Description

 The invention relates to medical equipment and can be used to correct the energy state of an object, in particular, a person with various diseases.

 A device is known for forming a vortex energy field, comprising a series of forming elements of bioactive material with grooves communicating with a central cavity, around which there are acting elements connected with a base having end working surfaces, with the middle lines of the grooves intersecting the side surface of the cavity and their walls oriented at angles forming the vortex direction of the reflected energy. In this case, the device does not provide sufficient effectiveness due to the low energy properties of the formed field (see US Pat. N 2005505).

 The technical result of the invention is to increase the energy affecting characteristics of the device and the possibility of their individual selection in a wide range. For this, the forming elements separated by grooves are grouped in two circular rows and oriented in opposite directions by the working surfaces. Circular rows of elements with different forming ability can create energy fields of different signs (recharge or suction) and / or of different sizes.

 The device may have forming elements connected one-piece or detachably on two sides with a common base.

 The device can be made in such a way that it has a base in the form of two plates, between which there are forming elements. Moreover, the forming elements represent a single body with a plate or different bodies connected together inseparably. The grooves that separate the forming elements can be common, can be separate, because they differ in their height and / or direction with respect to the central cavity.

 The efficiency of the device can be improved if, in the device, the functions of the working surface are also given to the second end surfaces of the forming elements.

 The device may contain a system of forming elements interconnected by a frame. Forming elements can have different shapes in both transverse and axial sections. They can be turned to the central cavity with narrow or wide sides. Their working surfaces may belong to two or more concentric surfaces. Any surface of each acting element may have protrusions and / or depressions directed to the axis of the central cavity or intersecting at least one working end surface.

 The forming elements can be made with holes oriented to the central cavity, to one of the working surfaces or the walls of the grooves and having an arbitrary cross-sectional shape. The forming elements may be partially coated with a bioactive material with properties different from the main material.

 The forming elements in a circular row can have a different shape and can be made of different bioactive materials. Elements in each circular row or in both rows can be located at different distances from the axis of the central cavity.

 In FIG. 1 presents a prototype device; figure 2 a device with a base in the form of an external frame; figure 3 version of the frame; figure 4 - embodiment of the working end surface; figure 5 forming elements with protrusions and depressions; 6 and 7, embodiments of forming elements; on Fig and 9, the relative position of the forming elements with different execution of the base.

 The device contains forming elements 1, separated by grooves 2, the base 3 in the form of a frame. Elements 1 have an inner surface 4 and an outer surface 5 and working surfaces 6. The inner surfaces of the elements form a central cavity 7, with which the grooves formed by the side surfaces 8 of two adjacent forming elements 1 communicate.

 The working surfaces 6 of the elements 1 are oriented in opposite directions along the axis of the central cavity. Two circular rows of forming elements have different forming abilities. They can differ in the degree of turbulence of the energy field, determined by the angle at which the grooves intersect or touch the side wall of the central cavity, in the biological activity of the material. These parameters affect the magnitude of the generated field in the same way as the shape of the elements 1. The direction of the formed field can also be different: to the working end surfaces of the elements 1 (feeding field) or from them (suction field). By selecting various characteristics of the elements of the device (shape, material, relative position), one can achieve various required parameters of the field formed by the device. Moreover, as shown by experiments, the total field is not a simple sum or difference of the fields created by two rows, since they have a mutual influence on each other.

 For the device shown schematically in FIG. 2, the working surfaces of the alternating elements 1 forming two circular rows (in the form of the created direction of the energy field) are oriented up and down.

 One working surface of the forming elements 1 of the device may be flat. In order to change the structure of the biocosmic field, elements 1 are changed giving them a complex shape, introducing additional details into elements 1.

 Working surfaces (lower and / or upper) may have details such as a depression in the form, for example, of a groove or protrusion, the points of which together form a concentric circle; belonging to concentric surfaces centered on the axis of the central cavity (FIGS. 4 and 5). Of course, these concentric circles are interrupted in areas where the forming elements of the device 1 are separated by grooves 2.

 The inner surfaces 4 of the forming elements 1, which form the Central cavity 7, may have a flat appearance. But they can be given a complex shape by introducing details such as, for example, gutters and / or protrusions. The points of such parts also form concentric circles centered on the axis of the central cavity.

 On the outer surface of the device, protrusions and gutters of various configurations can be formed in the profile, which are concentric circles centered on the axis of the central cavity 7 (Fig. 5).

 If a vertical plane is drawn through the axis of the central cavity 7 and the body of element 1, then the sectional shape of the forming element will be a closed figure in the form of a triangle, square, hexagon, or other figure consisting of straight and / or curved lines.

 The body shape of the forming elements 1 can be diverse. Their opposite faces can be parallel (cube, box, etc.) and / or non-parallel. Their faces can be not only flat, but spherical, cylindrical and other curved surfaces. In Fig. 4, the lateral surfaces of the elements and the lower working surface are formed by planes, and the outer and inner have a cylindrical shape.

 If the body of the element 1 has tapering or expanding sides, then the elements 1 of the device with their tapering sides can be directed towards the center and form the central cavity 7 with their respective faces (Figs. 1, 2, 3). But they can be oriented towards the central cavity 7 and with their expanding sides. The working surfaces 6 of the elements 1 can also have a complex structure.

 Parts on the surface of each element 1 can be oriented in the longitudinal direction, in a direction oriented from the outer surface to the central cavity. They can be parallel to one of the walls 8 of the grooves 2 or oriented at an angle to it. The essence of this proposal is illustrated in FIG. 6, where on the upper and lower working surfaces 6, as well as on the walls 8 of the grooves 2 there are parts in the form of rounded and triangular protrusions.

 Details on the surfaces of the forming elements of the device can be a vertical formation (Fig.7).

 The device can be made in such a way that on its lower and upper working surfaces, along with parts of a concentric shape, there is at least one longitudinal component, on the outer and inner surfaces, along with parts of a concentric shape, there is at least one vertical component, on the walls 8 grooves 2 there is along with the details of the longitudinal direction there is at least one vertical part.

 The forming elements 1 in the body may have holes of arbitrary shape in cross section. These holes can be oriented along the central axis parallel to the base 8 or at an angle to the base 3, parallel to one of the walls 8 or at an angle to them.

 In the device, all its elements can have the same design. But it is possible to manufacture such a device in which at least two elements 1 have differences in design.

 When installing the forming elements 1 at different distances from the axis of the cavity 7 and with mixing along the axis of the cavity 7, it is possible to obtain a group of forming nodes that are in mutually energetic interaction. In this case, a node of a smaller diameter can be placed in the central cavity 7 of a node of a larger diameter in case the diameter of the central cavity is larger than the outer diameter of the smaller hub.

 Elements 1 of one node can be placed in the grooves of another node at different distances from the axis. In the same way, three or more nodes can be assembled into one device. Nodes can be located one above the other. In a device consisting of two or more nodes, the forming elements 1 can be made of the most diverse shapes.

 The device is used as follows. Taking into account the measurements obtained by the author, the shapes and materials of the forming elements are selected, as well as a variant of their mutual arrangement. A device with selected parameters is placed contactly or non-contactly over the area of influence, directing a vortex energy field formed by the device to it. The exposure time can be selected from 30/40 min to 5-8 hours depending on the readings, the intensity of the formed field and the type of exposure. The device with contact installation is used for a short time. With a contactless installation, it is advisable to use it for several hours, during a night's sleep.

 The device allows, through the correction of the energy state, to stimulate the activity of the body and direct its own resources replenished with the help of this device to the fight against various diseases, such as hypertension, arthrosis, arthritis, cholecystitis, diabetes, nephritis, cardiovascular disease, renal stone disease etc. Immunity can be increased, metabolism is improved, which in turn contributes to the normalization of weight. According to the author, the device can also be used to increase energy in animals and to regulate plant development.

Claims (23)

 1. A device for the formation of a vortex energy field containing forming elements of bioactive material, separated by grooves communicating with the Central cavity, around which are placed associated with the base of the forming elements having end working surfaces, while the middle lines of the grooves intersect the side surface of the cavity, and the walls are oriented at angles forming the vortex direction of the reflected energy, characterized in that the forming elements are grouped in two circular rows with different shapes iruyuschey ability, working surfaces oriented in opposite directions along the central cavity axis.  2. The device according to p. 1, characterized in that the circular rows of forming elements are installed on two opposite sides of the base, made with a through hole, which is part of the Central cavity.  3. The device according to claim 1, characterized in that the base is made in the form of two plates with through holes communicating with the central cavity, on one side of each of which is facing one circular row of forming elements.  4. The device according to p. 3, characterized in that the forming elements of one row are placed in the grooves of the forming elements of another row.  5. The device according to claim 1, characterized in that the base is made in the form of a frame connecting the forming elements, both end surfaces of each of which are made by workers.  6. The device according to paragraphs. 1 to 5, characterized in that the working surfaces of the forming elements of at least one row belong to two or more concentric surfaces.  7. The device according to paragraphs. 1 to 6, characterized in that the forming elements in the axial section have the shape of a polyhedron.  8. The device according to paragraphs. 1 to 6, characterized in that the sides of the forming elements in the axial section are made in the form of curved lines.  9. The device according to paragraphs. 1 to 6, characterized in that the forming elements in cross section have the shape of a regular or irregular polygon.  10. The device according to p. 9, characterized in that at least one side of the polygon is a generatrix of the body of revolution.  11. The device according to claim 9, characterized in that the polygons with their narrow sides are oriented towards the axis of the central cavity.  12. The device according to p. 9, characterized in that the polygons are oriented towards the axis of the central cavity with their wide sides.  13. The device according to paragraphs. 1 to 12, characterized in that on the lateral surface of the cavity there are protrusions and / or depressions formed by two or more concentric surfaces, the centers of which are located on the axis of the central cavity.  14. The device according to paragraphs. 1 to 13, characterized in that on the outer side surface of the forming elements made protrusions and / or depressions formed by two or more concentric surfaces, the centers of which are placed on the axis of the Central cavity.  15. The device according to paragraphs. 1 to 14, characterized in that on the walls of the grooves made protrusions and / or depressions, oriented to the axis of the Central cavity.  16. The device according to paragraphs. 1 to 14, characterized in that on the walls of the grooves are protrusions and / or depressions crossing at least one working surface of each forming element.  17. The device according to paragraphs. 1 16, characterized in that on the lateral surfaces of the forming elements made protrusions and / or depressions crossing at least one working surface.  18. The device according to paragraphs. 1 17, characterized in that in the body of its forming elements there are holes of arbitrary shape in the cross section, oriented to the central cavity, to one of the working surfaces or to one of the walls of the grooves.  19. The device according to paragraphs. 1 to 18, characterized in that at least one surface, including the holes inside the forming element is covered with a bioactive material with properties different from the main material.  20. The device according to paragraphs. 1 19, characterized in that the forming elements in circular rows have a different shape.  21. The device according to paragraphs. 1 to 20, characterized in that the forming elements in circular rows are made of various bioactive materials.  22. The device according to paragraphs. 1 21, characterized in that the forming elements in both circular rows or in each row are located at equal distances from the axis of the Central cavity.  23. The device according to paragraphs. 1 to 22, characterized in that the forming elements are displaced relative to each other along the axis of the Central cavity.

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