RU24940U1 - BIDODECAHEDR - Google Patents

Description

differs in that the mother material of the Yang and Yin groups were used as the coating material. Bidodekaadr is characterized in that, for example, aluminum is used as the material of the yin group of the inner coating layer. The bidodecahedron is characterized in that, for example, copper is used as the material of the yang - group of the outer coating layer. The bidodecahedron is characterized in that informational symbols, for example runes, are applied to the dodecahedron body. The bidodecahedron is characterized in that information symbols can be 1131 taken from the material of the yang group, for example, gold and the 1st and the nephrig. The Bpdodskahedron is characterized in that the inner supporting layer of the wall of the dodecahedron body is made of perforated material, for example, polymer. The bidodecahedron is characterized in that the activator is made in the form of pyramids in an amount of 1 to 12, placed inside the dodecahedron body and directed with its vertices to the center of the dodecahedron. The bidodecahedron is characterized in that the activator pyramid is made of a yin mineral, for example, amethyst. The bidodecahedron is characterized in that the activator pyramid is made of yin metal, for example, aluminum. The bidodecahedron is characterized in that the activator is represented by a vortex magnetic and electromagnetic field generator, for example, the Alfatron. The bidodecahedron is characterized in that the body of the dodecahedron is made in the form of a hollow contour formed by edges and fixed at the vertices of the dodecahedron.

Variant of the technology for performing face coating from YaN and INB materials: the inner bimetallic coating layer is made of aluminum foil, applied to the polymer frame of the dodecahedron, molded, for example, from high-pressure polypropylene or polyethylene polyethylene by injection molding. The outer layer of Nokrygia can be made in the form of a layer of copper deposited on top of aluminum, for example, by the galvanic method.

The technical effect of the introduced new module elements in combination with well-known features can be explained as follows.

Voll methods, kinesitherapy, as well as K.G. Korotkova, see e.g. Fundamentals of GDV bioelectrography, St. Petersburg: SPbGITMO (TU), 2001. -360 p., It was found that the proposed coating embodiment provides the formation of a field of up to 500 m (with a dodecahedron rib length of 7 cm), instead of 5 - 10 m in the original cavity structure from polymer material.

The wave radiation generated by the bidodecahedron due to the use of the cavity structure, the dodecahedron and its equipping with a special activator, makes it possible to process a considerable area, apartments, garbage dumps, etc. with the generated radiation.

The radiation formed by the cavity structure, before being directed to the processing object, is passed through the matrix of the spin system of the molecules of the activator substance (information matrix, nanomer, runes, mineral, etc.).

The aggregate n3viy4eHHe represents a holographic energy matrix, which is a carrier of encoded information on the properties of the activator, in the particular case a three-dimensional and informational matrix of the miceral.

Aggregate radiation causes structural restructuring of the air medium with a dash of surface containing pathogenic ingredients, and also has a positive effect on the person, the environment and the processed materials due to their positive structure and the transfer of medical information to them ..

The design of the bidodecahedron is shown in Figs. 1-3, where its general view, the placement of the activator, and the embodiment of the coating are shown.

2- activator; 3- bimetal coating.

Fig. 2 shows the outline of the dodecahedron, with an illustration of the implementation

bimetallic coating.

In fig. Figure 3 shows a section of a coating fragment, where: 4-polymer

frame, 5-layer foil, 6-layer copper,

Let us explain the physical basis of the work of the bideodecahedron.

The curved surface of the dodecahedron 1 forms the maxima of the standing waves of the shaped spin field with an increased total energy (see, for example, G.I. Shipov, Theory of Physical Vacuum, M., 1983).

In the proposed bidodecahedron, the cavity structure (dodecahedron) in combination with the activator and the bimetallic coating of the body are the combined source of a harmonized positive yang - biofield ..

Bidodecahedron is used as follows.

Before its application, the properties of the processing object are identified.

E17 procedure is performed, for example, using a Voll sensor.

After that, the module is placed in the projection zone on the treated surface of the epicenter of the pathogenic emitter. Then, with an interval equal to the transient time, the degree of activation of the properties of the processing object is checked.

If there is insufficient change in the properties of the processing object, the operating mode of the bidodecahedron is adapted by changing the activator.

The experimental verification of the bidedecahedron was carried out under the following conditions. The working elements of the bidodecahedron were made of a polymeric material, the coating was aluminum and copper.

As activators used informational symbols of the runes. The experiments confirmed that the bidodecahedron provides a stable structural adjustment of the parameters of the air and water environment, in particular, the neutralization of pathogenic properties and ingredients, with the fixation of positive information in the medium, for example, medical information.

ANTSRAEN “MALAVIT-CENTER ifirmAmALAVIT plan in 2002 the release of technical means of environmental protection using the proposed utility model.

Director of ANC RANS "MALAVIT CENTER V. M. Dvornikov 05/20/2002 and the company MALAVIT

Claims (13)

1. Bidodecahedron, including the edges of the dodecahedron connected by common ribs and an activator, characterized in that the faces of the dodecahedron are made with a two-layer bimetallic coating.  2. The bidodecahedron according to claim 1, characterized in that the materials of the Yang and Yin groups are used as the coating material.  3. The bidodecahedron according to claim 1, characterized in that, for example, aluminum is used as the material of the yin group of the inner coating layer.  4. The bidodecahedron according to claim 1, characterized in that, for example, copper is used as the material of the yang group of the outer coating layer.  5. The biododecahedron according to claims 1 to 4, characterized in that information symbols, for example runes, are applied to the dodecahedron body.  6. Bidodecahedron according to claim 5, characterized in that the information symbols can be made of material of the yang group, for example gold.  7. Bidodecahedron according to claim 5, characterized in that the information symbols can be made of the material of the yang group, for example jade.  8. The bidodecahedron according to claim 1, characterized in that the inner supporting layer of the wall of the dodecahedron body is made of perforated material, for example, polymer.  9. The bidodecahedron according to claim 1, characterized in that the activator is made in the form of pyramids in an amount of one to twelve, placed inside the dodecahedron body and directed with its vertices to the center of the dodecahedron.  10. The bidodecahedron according to claim 1, characterized in that the activator pyramid is made of a yin mineral, for example, amethyst.  11. Bidodecahedron according to claim 1, characterized in that the activator pyramid is made of yin metal, for example aluminum.  12. Bidodecahedron according to claim 1, characterized in that the activator is represented by a vortex magnetic and electromagnetic field generator, for example, an Alfatron generator. 13. The bidodecahedron according to claim 1, characterized in that the body of the dodecahedron is made in the form of a hollow contour formed by ribs and fixed at the vertices of the dodecahedron.