JPH0747140A - Apparatus for collecting cosmic energy and method therefor - Google Patents

Abstract

PURPOSE:To raise a value added in the treatment of disease. the taste of foods or the like by collecting energy existing in a cosmic space. CONSTITUTION:A plurality of triangle coloring circular zone lines are arranged concentric on the surface of a first display plate 10A to form a group 14a-14g of first triangle coloring circular zone lines and the brightness of the coloring is reduced gradually inward from outside. Second group of triangle coloring circular zone lines 15a-15g identical to the first triangle coloring circular zone lines is formed being displaced by a phase of 60 deg.. Moreover, gold foils 17 are provided respectively into six mini triangle areas 16 to be formed between the zone line on the outermost side and the zone line on the innermost side of both the zone line groups to form a first collector 1A.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cosmic energy collector and method capable of collecting invisible energy existing in outer space to treat diseases and improve the quality of water, food and the like.

[0002]

2. Description of the Related Art Conventionally, the applicant of the present application has filed Japanese Patent Application No. 3-1215.
We have proposed a space energy collection tool and device shown in No. 02. This cosmic energy collector has a plurality of triangular colored annular band lines concentrically formed on the surface of the display plate to form a first triangular colored annular band line group, and the brightness of the coloring is directed from the outside to the inside. Are gradually changing. A second triangular colored annular band line group similar to the first triangular colored annular band line group is formed with a phase shift of 60 degrees.

[0003]

Although the conventional cosmic energy collector can collect invisible energy, it has been found in the subsequent experimental research that the energy collecting effect can be further enhanced.

An object of the present invention is to provide a cosmic energy collector and device capable of efficiently collecting energy existing in outer space and further increasing added value such as treatment of diseases or taste of food. .

[0005]

In order to achieve the above-mentioned object, the invention according to claim 1 forms a plurality of triangular colored annular band lines concentrically on the surface of the first display plate (10A). One triangular colored annular band line group (14a to 14g) is formed, and the brightness of the coloring is gradually reduced from the outside to the inside, and the first triangular colored annular band line group (14a to 14g) is formed.
Second triangular colored annular band line group (15a to 15) similar to
g) is formed by displacing the phase by 60 degrees, and further, within the six small triangular areas (16) formed between the outermost and innermost strip lines of the both triangular colored annular strip line groups. A plurality of triangular colors on the surface of the first collecting tool (1A) and the second display plate (10B), each of which is configured by applying a positive color (17) such as gold, copper, iron, red, black The annular band lines are formed concentrically to form a first triangular colored annular band line group (14a to 14).
g) is formed, and the brightness of the coloring is gradually increased from the outer side to the inner side, and the first triangular colored annular band line group (1
4a to 14g) similar to the second triangular colored annular band line group (15
a to 15 g) are formed by displacing the phase by 60 degrees, and further, six small triangular areas (16) are formed between the outermost band line and the innermost band line of the both triangular colored annular band line groups. Second collecting tool (2) configured by applying negative colors (20) such as silver, aluminum, sodium, blue and white
And A).

The invention according to claim 2 is the same as claim 1, wherein the first triangular colored annular band line group (14a to 14g).
And the second triangular colored annular band line group (15a to 15g) is colored in a rainbow color.

According to a third aspect of the invention, in the first aspect, the outermost vertices of the first and second triangular colored annular band line groups (14a to 14g, 15a to 15g) of the first collecting tool (1A). Hexagonal colored strips (13a-1
3g), and the brightness of the coloring is gradually reduced from the outside to the inside, and the first and second triangular colored annular band line groups (14a to 14g, 15a to the second collecting tool (2A)) are formed.
The hexagonal colored band line group (13a to 13g) is formed inside the hexagon connecting the outermost vertices of 15g), and the lightness of the coloring is gradually increased from the outer side to the inner side. .

According to a fourth aspect of the present invention, in the third aspect, the first triangular colored annular band line group (14a to 14g), the second
A means of coloring the triangular colored annular band line group (15a to 15g) and the hexagonal colored band line group (13a to 13g) in rainbow color is adopted.

According to a fifth aspect of the present invention, in any one of the first to fourth aspects, the star-shaped colored annular band line group (22a-22g) is formed on the back surface of the first display plate (10A), and A pentagonal colored strip line group (21a to 21g) is formed inside the pentagon connecting the outermost vertices of the strip line group, and the brightness of coloring of each strip line group is gradually reduced from the outer side to the inner side. A means for forming a band line group similar to the back surface of the first display plate (10A) on the back surface of the second display plate (10B), and gradually increasing the coloring brightness from the outside to the inside. Is taking.

According to a sixth aspect of the present invention, in the fifth aspect, the star-shaped colored annular band line group (22a to 22g) and the pentagonal colored band line group (21a) on the back surface of the first display plate (10A).
~ 21g) is formed in a rainbow color whose brightness decreases gradually,
The group of star colored ring-shaped strips (22a-22g) and the pentagonal colored strips (21a) on the back surface of the second display plate (10B).
~ 21 g) is formed into a rainbow color whose brightness gradually increases.

According to a seventh aspect of the present invention, in the first aspect, the brightness of coloring of the first triangular colored annular band line group (14a to 14g) formed on the surface of one display plate (10A) is changed from the outside to the inside. By gradually decreasing it, and gradually increasing the coloring brightness of the second triangular colored annular band line group (15a to 15g) from the outer side to the inner side, and the cross portions of both band line groups are alternately exposed. Further, the positive color (17) and the negative color (20) are alternately applied to the small triangular area (16).

According to an eighth aspect of the present invention, in the seventh aspect, both strips are provided at the center of the first triangular colored annular strip line group (14a to 14g) and the second triangular colored annular strip line group (15a to 15g). A means of connecting endlessly to each other by means of a group of swath-shaped strip lines (24a to 24g) is adopted.

According to a ninth aspect of the present invention, in any one of the first to eighth aspects, in the small triangular area (16) provided with the positive color (17), the permanent magnet (18A) has an N pole on the surface side. The permanent magnet (18B) is joined to the small triangular area (16) joined with the negative color (20) with the surface side as the S pole.

According to a tenth aspect of the invention, a collection tool group is formed by combining a plurality of the first collection tools (1A, 1B, 1C) and the second collection tools (2A, 2B) according to any one of the first to ninth aspects. (34) A collection method of cosmic energy, characterized in that the collection tool groups (34) are spaced apart from each other so as to be respectively located at the vertices of a polygon having a triangle shape or more, and cosmic energy is collected in the polygon.

[0015]

According to the invention described in claims 1 to 9, when water or food contained in a container is placed on top of any of them, a first triangular colored annular band line group, a second triangular colored annular band line group, Tests have shown that the action of positive and negative colors in the small triangular area collects cosmic energy and improves its quality.

Further, in the energy collecting method according to the tenth aspect, tests have revealed that the cosmic energy is efficiently collected in the region connecting the vertices of polygons of triangles or more.

[0017]

The first embodiment of the invention according to claim 6 is as follows.
An embodiment will be described with reference to FIGS.

The cosmic energy collector of this embodiment is shown in FIG.
As shown in FIG. 1, independent first collecting tool 1A and second collecting tool 2A
Both collecting tools are mounted on the upper surface of the support table 3.

The structure of the first collecting tool 1A will be described with reference to FIGS. 1 to 3. For example, a circular sheet made of white paper is formed on the surface of the circular first display plate 10A made of, for example, green acrylic resin or wood. 11A is adhered, and a predetermined pattern described below is drawn on this sheet 11A.
On the outer peripheral edge of the surface of the circular sheet 11A, a silver circular ring 12A is drawn. On the surface of the circular sheet 11A, a group of concentric regular hexagonal colored strips 13a in which regular hexagonal strips are drawn concentrically so as to contact the inner circumference of the circular ring 12A.
~ 13g are formed. Furthermore, the circular sheet 11A
On the surface of the first concentric hexagonal colored strips 13a to 13g, the first concentric portion is located inside the triangle connecting the vertices of the hexagonal colored strips 13a located on the outermost side. The triangular colored band line groups 14a to 14g are formed. Furthermore, the concentric regular hexagonal colored strip line groups 13a to 13g
The second concentric triangular colored strip line groups 15a to 15g are formed inside the triangle that connects the remaining three vertices located on the outermost side. Further, concentric hexagonal colored strip line groups 13a to 13g, first and second concentric triangular colored strip line groups 14a to 14g, 15a to 1
The coloring of 5 g is a rainbow color that changes from red to purple in seven steps from the outer band line to the inner band line.

The first concentric triangular colored strip line groups 14a to 14
g and the second concentric triangular colored band line groups 15a to 15g, the outermost and innermost band lines 14a and 15g form a small regular triangular area 16 and gold foil 17 as a positive color that easily reflects light energy. Are glued together.

As shown in FIG. 1, each of the band line groups 13a-1.
Inside the hexagons formed in the central portions of 3g, 14a to 14g, and 15a to 15g, colored strip line groups 13a 'to 13g', 14a 'to 14g', which are similar to the strip line groups, are formed.
15a 'to 15g' are formed. Similarly, a group of colored strips of similar shape is also drawn on the inside thereof. further,
A gold foil 19 is adhered to the center of the circular sheet 11A.

As shown in FIGS. 2 and 3, a circular sheet 11B similar to the circular sheet 11A is adhered to the back surface of the first display plate 10A. Inside the silver circular ring 12B, concentric pentagonal colored strip line groups 21a to 21 are formed.
g is drawn. Concentric star colored band line groups 22a to 22g are drawn on the inner side connecting the five outermost vertices of the colored band line groups 21a to 21g. Innermost strip 22g
In the small pentagon formed inside, the colored strip line groups 21a-21g, 22a-22g and similar colored strip line groups 21a'-21g ', 22a'-22g' are formed. Further, a silver ring band 23 is drawn in the center of the circular sheet 11B, and a gold foil 19 is adhered in the center.

Further, the concentric pentagonal colored strip line groups 21a to 21
g, 21a 'to 21g', concentric star colored band line group 22a to
The coloring of 22 g and 22 a ′ to 22 g ′ is a rainbow color that changes from red to purple in seven steps from the outer band line to the inner band line.

Next, the structure of the second collecting tool 2A will be described with reference to FIGS. The second collecting tool 2A is different from the first collecting tool 1A only in the coloring direction of each band line group and the coloring of the small triangular area 16 and is the same in other respects. Is attached and the description is omitted.
Therefore, only different points will be described. Concentric regular hexagonal colored strip line groups 13a to 13g and 13a 'to 13 shown in FIG.
g ′, first and second concentric triangular colored strip line groups 14a to 14
g, 14a'-14g ', 15a-15g, 15a'-
The coloring of 15 g'is a rainbow color that changes from purple to red in seven steps from the outer band line to the inner band line.

Further, the concentric pentagonal colored strip line group 21a shown in FIG.
~ 21g, 21a '~ 21g', concentric star colored band group 2
The coloring of 2a to 22g and 22a 'to 22g' is a rainbow color that changes from purple to red in seven steps from the outer band line to the inner band line.

Further, a silver foil 20 having a negative color that easily absorbs light energy is adhered to each of the six small triangular areas 16. The first and second collecting tools 1A and 2A configured as described above are, for example, as shown in FIG.
It is mounted on the upper surface of the support table 3 and used for collecting energy.

Next, the operation of the energy collector of the first embodiment will be described. First collection tool 1A shown in FIG.
When the water and food stored in the container are arranged on the upper part of the second collecting tool 2A, the first triangular colored annular band line groups 14a to 14
It was found by tests that the cosmic energy is collected and its quality is improved by the cooperative action of the g, the second triangular colored annular band line groups 15a to 15g, and the gold color 17 and the silver color 20 of the small triangular area 16.

Next, a second embodiment of the invention as defined in claim 6 will be described with reference to FIG. In this example,
For example, the surface 5 of the support plate 5 made of green acrylic resin or the like.
The circular sheet 11A and the circular sheet 11B used in the first collecting tool 1A of the first embodiment are bonded to the a and the back surface 5b so as to sandwich the support plate 5. In the same way, the first
The circular sheet 11C and the circular sheet 11D used in the second collecting tool 2A of the embodiment are adhered so as to sandwich the support plate 5.

The operation and effect of the space energy collector of the second embodiment is the same as that of the first embodiment, but both plates 1A and 2A are integrally formed on one support plate 5. , Easy to handle.

Next, a third embodiment of the invention as defined in claim 9 will be described with reference to FIGS. This third
The first collecting tool 1B of the embodiment is different from the first display plate 10A and the circular sheet 11A of the first collecting tool 1A described in the first embodiment as shown in FIGS.
Engagement recesses 16a are formed so as to be located at the center of each of the six. Further, the permanent magnets 18A are fitted and fixed in the respective engaging recesses 16a. Furthermore, each permanent magnet 18A
The outer side of is a north pole. Other configurations are similar to those of the first embodiment.

On the other hand, the second collecting tool 2B of the third embodiment is different from the second display plate 10B and the circular sheet 11C of the second collecting tool 2A described in the first embodiment as shown in FIGS. The engaging recesses 16a are formed so as to be located at the centers of the respective small triangular areas 16, and the permanent magnets 18B are fitted and fixed in the engaging recesses 16a. And
The outside of each permanent magnet 18B is made to be the S pole.

The collecting tool of the third embodiment constructed as described above is used by being juxtaposed on the upper surface of the support table 3 as in the case of FIG. By comparison, it has been found that the energy collecting action is improved by the amount of the provision of the permanent magnets 18A and 18B.

Next, a fourth embodiment embodying the invention of claim 9 will be described with reference to FIG. The energy collecting tool 9 of the fourth embodiment uses two of the first collecting tool 1B and the second collecting tool 2B of the third embodiment, and
The common square support plate 5 is used instead of the second display plates 10A and 10B. Also, the first collecting tool 1
B and 1B and the second collecting tools 2B and 2B are located on the diagonal line of the support plate 5, respectively.

In the fourth embodiment, the permanent magnets 18A to 18A are used.
Two first collectors 1B, 1B having A and a permanent magnet 1
Since the two second collectors 2B and 2B having 8B to 18B were used, the test results revealed that the energy collecting action was improved as compared with the above-described respective examples.

Next, a fifth embodiment of the invention as defined in claim 9 will be described with reference to FIGS. 13 and 14. Fifth
As shown in FIG. 13, the first collecting tool 1C of the embodiment is different from the first collecting tool 1B of the third embodiment in that the first and second concentric triangular colored strip line groups 14a ′ to 14g ′, 15a ′ to 15g. '
The chrysanthemum pattern 25 is drawn inside each. Moreover, FIG.
4, the concentric star colored band line groups 22a 'to 22
A chrysanthemum pattern 25 is also drawn inside g '. Other configurations of the first collecting tool 1C are similar to those of the first collecting tool 1B.

On the other hand, the second collecting tool 2 paired with the first collecting tool 1C
Although C is also not shown, the central portion of the circular sheet is changed to a chrysanthemum pattern like the first collecting tool 1C. In this fifth embodiment, the gold foil 19 was replaced with a chrysanthemum pattern, but as a result of the test,
It was found that the same energy collecting effect as in the example was obtained.

Next, a sixth embodiment embodying the invention of claim 7 will be described with reference to FIGS. 15 and 16. The energy collector 6 of the sixth embodiment is a simplified version of the above-described two separate collectors. That is, as shown in FIG. 15, the first concentric triangular colored strip line group 14a.
.About.14g and the second concentric triangular colored band line groups 15a to 15g are alternately hidden from each other at the cross portion. In addition, both band line groups 14a 'to 14g' drawn inside,
Similarly, 15a 'to 15g' are arranged so that one of them is alternately hidden by the other at the cross portion. The first concentric triangular colored band line groups 14a to 14g and 14a 'to 14g' are colored in a rainbow color that changes from red to purple in seven steps from the band line located outside to the band line located inside. . On the contrary, the second concentric triangular colored strip line groups 15a to 15g, 15a '
The coloring of ˜15 g ′ is a rainbow color that changes from purple to red in seven steps from the outer band line to the inner band line.

Further, the silver foil 20 is adhered to the uppermost area 16 of the six small triangular areas 16, and the gold foil 17 is applied to the area 16 next to the area 16. Next, the silver foil 20 and the gold foil are applied to each area 16. 17 are applied alternately. Similarly, the silver foil 20 and the gold foil 17 are alternately applied to the small triangular areas formed by both the band line groups 14a 'to 14g' and 15a 'to 15g'.

Further, in the sixth embodiment, permanent magnets 18A and 18B are alternately fixed to the outer six small triangular areas 16. Furthermore, on the back surface of the energy collector 6, as shown in FIG. 16, a light green hexagonal band line 29a is drawn inside a silver circular ring 12B.
A light green star-shaped band line 29b is also drawn inside the hexagonal band line 29a. Furthermore, a gold foil 19 is applied on the inside.

It was found that the energy collector of the sixth embodiment also has the same energy collecting action as the collector of the third embodiment. Next, a seventh embodiment embodying the invention of claim 8 will be described with reference to FIG.

The energy collecting tool 7 of the seventh embodiment is
In the collecting tool 6 of the sixth embodiment, both band line groups 14a ′ to 1
4g ', 15a' to 15g 'and permanent magnets 18A, 18
B is omitted. Also, the first concentric triangular colored strip line group 14a
˜14 g and the second concentric triangular colored band line groups 15a to 15g are connected in parallel to each other by two swath-shaped band line groups 24a to 24g. The other structure is the same as that of the sixth embodiment.

It has been found that the energy collector 7 of the seventh embodiment also has the same energy collecting action as the collector of the sixth embodiment. Next, an eighth embodiment in which an energy collecting device configured by using the collecting tool of the above embodiment is embodied will be described with reference to FIG.

On the central upper surface of the support plate 5 of the collecting tool of the fourth embodiment, a forward and reverse rotatable motor 26 constituting a rotary support device is provided.
Further, a circular support table 28 is rotatably supported on the upper end of the rotary shaft 27 of the motor 26. The energy collector 7 described in the seventh embodiment is placed on the upper surface of the support table 28. This collection tool 7
Alternatively, the energy collector 6 may be used.

A chair (not shown) is arranged so as to cover the energy collector shown in FIG. 18, and its seat is positioned above the collector 7. Then, while sitting on a chair, the table 28 and the collector 7 are rotated by the rotation shaft 27 of the motor 26, and after 10 to 20 minutes have passed, the mental state is stabilized and when there is an affected area such as a backache or a sprain. The therapeutic effect can be seen. It is considered that this is because the energy existing in outer space is collected by the collectors 1B, 2B, 7 and supplied to the affected area.

By the way, when using this apparatus, as shown in FIG.
Using a metal collection plate 30 as shown in
The therapeutic effect becomes more remarkable. The collecting plate 30 is
The outer metal frame 31 is made of pure silver, and the inner metal frame 32 is
Is made of pure gold, and a hexagonal crystal or gold 33 is fitted inside the metal frame 32. Then, it was found that when the collecting plate 30 was applied to the affected part of the body and the collecting device shown in FIG. 18 was used, the therapeutic effect was significantly enhanced.
It is speculated that this is because the resonance phenomenon between the collector and the plate 30 facilitates the passage of energy to the airways of the body.

The aforesaid collecting device amplifies the θ wave, which is a kind of brain waves, and acts on the ability under the consciousness of human beings to control the mind, that is, maintain a relaxed and calm state of mind and body, and obtain love and happiness. It becomes easier and can increase virtue and public morals. Further, the collecting device has an action of improving the quality such as taste by arranging the container of water or food and drink above.

By the way, as a result of carrying out the determination by the scanning electron micrograph at the Osaka Municipal Industrial Testing Laboratory for the two types, that is, the soumen treated using the energy collecting apparatus of the above-mentioned example and the untreated soumen, became.
The device used for the measurement is FX manufactured by JEOL Ltd.
-90Q type, the measurement condition was an accelerating voltage of 25 KV, the detected image was a secondary electron image, the magnification was about 400 times and 1500 times, and the surface of the soumen was coated with gold ion sputter and used for observation.

In the scanning electron micrograph of the commercially available soumene, it cannot be produced if the amount of salt adhering to the surface of the particles is small, whereas the soumene treated with the collecting apparatus of the present invention shows the surface of the particles. The amount of salt adhering to the product was small, the transparency when rising in hot water was high, and the stickiness of the starch itself became strong, so it became a flexible and hard-to-break product. It is speculated that the taste of somen is improved for the above reasons.

Next, a ninth embodiment of the energy collecting apparatus will be described with reference to FIG. In this embodiment, the collecting tool 9 shown in the fourth embodiment is used as a box type chair 35.
And the columns 36 are erected from the side surface of the chair 35,
The first and second collectors 1A and 2A are supported on the upper ends of both columns via a support table 37.

In the ninth embodiment, since the first and second collectors 1A and 2A are located above the head of the human body, a further therapeutic effect can be seen. Instead of the collecting tools 1A and 2A, collecting tools 6, 7, and 9 may be used.

Next, an embodiment in which the collecting method according to claim 10 is embodied will be described. A method of collecting energy using the above-described energy collectors 1A, 1B, and 9 will be described with reference to FIGS.

FIG. 21 shows a combination of two first collecting tools 1A and two second collecting tools 2A. This 4
The collection tools 34 are grouped into a group, and the collection tool group 34 is shown in FIG.
As shown in (a), they are arranged so as to be located at the vertices of the triangle. Further, as shown in FIG. 7B, it is also arranged at the center of the triangle. Further, the collection tool group 34 is arranged so as to be located at each vertex of the hexagon as shown in FIG. 7C, or is also arranged at the center of the hexagon as shown in FIG. Good.

It has been found that in each of the arrangement examples shown in FIGS. 21A to 21D, energy is strongly collected inside the triangle or hexagon. In FIG. 23, the energy collector 9 used in the third embodiment (FIG. 12) is arranged so as to be located at the apex of a triangle. In FIG. 24 (a), the collection tool group 34 is arranged at the center of the triangle. Further, in FIG. 7B, the collector 9 is arranged at the center of the triangle. Furthermore, they may be arranged as shown in FIGS.

In each of the arrangement examples shown in FIGS. 23 and 24 (a) to (d), it was found that energy is strongly collected inside the triangle or hexagon. Next, a collector using the first and second collectors 1A and 2A and the energy collector 6 will be described with reference to FIGS. 25 and 26.

In this collecting device, the first and second collecting tools 1 are provided on the upper surface of the bottom plate 42 of the transparent first case 41 having the shape of a truncated cone.
Two sheets A and 2A are arranged as shown in FIG. An annular fluorescent lamp 44 is supported in the middle of the inside of the first case 41 via a bracket 43. On the upper edge of the case 41, there is a transparent second case 4 having a conical cylindrical shape.
5 is detachably mounted. Both cases 41, 4
Ventilation holes 41a and 45a are formed at a plurality of locations in the apparatus 5. A motor 47 is supported on the bottom plate 46 of the second case 45, and a rotary table 48 is attached to its rotary shaft. The energy collector 6 is horizontally mounted on the upper surface of the table 48. Further, rotary blades 49 are attached to the motor 47. A cover 50 that covers the motor 47 and the blades 49 from below is attached to the lower surface of the bottom plate 46, and a plurality of ventilation holes 50a are formed in the side wall surface.

A support plate 51 is provided on the second case 45.
The mercury lamp 52 is supported by. Also, the second case 4
A jewel 53 made of crystal is attached to the upper end portion of 5.

In the energy collecting apparatus configured as described above, when the fluorescent lamp 44 and the mercury lamp 52 are turned on and the rotary table 48 driven by the motor 47 is rotated to rotate the collector 6, the cosmic energy is efficiently generated. To be collected. When the blades 49 are rotated by driving the motor 47, the air in the second case 45 is sent into the first case 41 through the ventilation holes 50a of the cover 50.

Next, another example of the energy collecting apparatus will be described with reference to FIG. In this device, the chair 35 described with reference to FIG. 20 is arranged below the bed 55 so as to be horizontally movable along the guide rail 56. In addition, as shown in FIG.
The collecting device described in 5 is supported by the support arm 57.

It has been found that this device has a significant therapeutic effect on physical ailments. The present invention is not limited to the above embodiment, but can be embodied as follows.

(1) The circular sheets 11A to 10D wrapped with a transparent resin sheet are adhered to the support plate 5. (2) First collecting tool 1A, 1B, 1C and second collecting tool 2
Omit the circular sheets 11B and 11D on the back side of A and 2B.

(3) The coloring of each band line group is changed to other coloring other than the iridescent color in which the brightness changes stepwise. (4) Energy collector 6 shown in FIGS. 15 and 16 or FIG.
The energy collecting tool 7 shown in FIG. 7 is arranged as a single group or a plurality of groups as shown in FIGS. 21 to 24 to collect energy.

(5) The energy collector shown in FIG.
A band line group 61 that changes from the outside to red, yellow, and blue in order.
a to 61c and band line groups 62a to 62c that sequentially change from the outside to blue, yellow, and red are drawn. An annular gold foil ring 63 is drawn on the inner side of both band lines, and the hexagonal band line 29a and the star-shaped band line 29b are drawn on the inner side thereof.

(6) In the collecting tool shown in FIG. 29, a circular sheet 11A is drawn with a combination figure 65 of a hexagonal ring of aluminum foil and two triangular rings. Further, a figure 66 made of copper foil similar to the figure 65 is drawn inside, and a figure 6 similar to the figure 66 made of silver foil is drawn inside the figure 66.
Draw 7. Furthermore, gold foil 68 is placed inside the figure 67.
Is provided, and a crystal 33 is attached to the center thereof. The silver foil 20 is attached to the regular triangular area 16 of the figure 65, and the gold foil 19 is attached to the regular triangular area 16 of the figure 66.

Energy collection is also possible in this alternative embodiment. (7) In place of the gold foils 19 and 19 applied to the front and back central portions of the first collection tool 1A shown in FIGS. 1 to 3, white (not shown) is applied, and the front and back of the second collection tool 2A shown in FIGS. Use black instead of the gold foils 19, 19 on the center of both sides. Similarly, a white color is applied in place of the gold foil 19 in the central portion of the collecting tool 1B, and a black color is applied in place of the gold foil 19 in the central portion of the collecting tool 2B.

(8) FIGS. 13 and 14 of the fifth embodiment described above.
Although not shown, the chrysanthemum pattern 25 at the center of the collecting tool 1C is white, and the chrysanthemum pattern at the center of the collecting tool 2C paired with the collecting tool 1C is black.

(9) FIGS. 15 and 16 of the sixth embodiment described above.
3 instead of the chrysanthemum pattern 25 at the center of the collection tool 6 shown in FIG.
As shown in 0, a white triangle pattern 71 and a black triangle pattern 72
Alternately form 6 diameters.

It has been found that the other examples shown in (7) to (9) above all have a high energy collecting effect. (10) In the above-mentioned embodiment, copper foil, iron foil, red or the like as a positive color is used instead of the gold foil 17, and aluminum foil, metallic sodium foil, blue or the like as a negative color is used instead of the silver foil 20. to use.

[0068]

As described above in detail, the present invention has the effect of collecting energy existing in outer space and enhancing the added value such as treatment of diseases or taste of food.

[Brief description of drawings]

FIG. 1 is a first example of a first embodiment of the invention.
It is a front view which shows a collection tool.

FIG. 2 is a sectional view taken along the line AA of FIG.

FIG. 3 is a back view of the first collecting tool according to the first embodiment.

FIG. 4 is a front view of a second collecting tool according to the first embodiment.

FIG. 5 is a back view of the second collecting tool according to the first embodiment.

FIG. 6 is a perspective view showing a usage state of the collecting tool according to the first embodiment.

FIG. 7 is a perspective view of a collecting tool according to a second embodiment.

FIG. 8 is a front view of a first collecting tool according to a third embodiment.

9 is a sectional view taken along line BB of FIG.

FIG. 10 is a front view of a second collection tool according to the third embodiment.

11 is a cross-sectional view taken along the line CC of FIG.

FIG. 12 is a perspective view of a collecting tool according to a fourth embodiment.

FIG. 13 is a front view of a first collecting tool according to a fifth embodiment.

FIG. 14 is a rear view of the first collecting tool according to the fifth embodiment.

FIG. 15 is a front view of a collecting tool according to a sixth embodiment.

FIG. 16 is a back view of the collecting tool according to the sixth embodiment.

FIG. 17 is a front view of a collecting tool according to a seventh embodiment.

FIG. 18 is a perspective view of a collecting device according to an eighth embodiment.

FIG. 19 is a front view of a metal collection plate.

FIG. 20 is a perspective view of a collecting device according to a ninth embodiment.

FIG. 21 is a front view of a collection tool group used in the energy collection method.

22 (a) to 22 (d) are plan views showing an energy collecting method.

FIG. 23 is a plan view showing an energy collecting method.

24 (a) to (e) are plan views showing an energy collecting method.

FIG. 25 is a vertical cross-sectional view showing another example of the energy collection device.

26 is a cross-sectional view taken along the line DD of FIG.

FIG. 27 is a front view showing another example of the energy collection device.

FIG. 28 is a front view showing another example of the energy collector.

FIG. 29 is a front view showing another example of the energy collector.

FIG. 30 is a front view showing another example of the energy collector.

[Explanation of symbols]

1A-1C ... 1st collection tool, 2A-2B ... 2nd collection tool, 5
Support plate, 6, 7, 9 ... Collecting tool, 10A, 10B ... 1st
And second display plate, 11A to 11D ... Circular sheet, 13a to 13g ... Concentric regular hexagonal colored band line group, 14a to
14g ... 1st concentric triangular colored strip line group, 15a-15g ... 2nd concentric triangular colored strip line group, 16 ... Small triangular area, 17 ... Gold foil, 18A, 18B ... Permanent magnet, 20 ... Silver foil, 21a ...
21g ... Concentric pentagonal colored strips, 22a-22g ... Concentric star colored strips, 24a-24g ... Swirl strips, 26 ... Motor, 28 ... Support table, 34 ... Collection tool group.

Claims (10)

[Claims] 1. A first triangular-colored annular band line group (14a to 14g) is formed by concentrically forming a plurality of triangular-colored annular band lines on the surface of a first display plate (10A). Gradually decreases the brightness of from the outside to the inside,
A second triangular colored annular band line group (15a to 15g) similar to the first triangular colored annular band line group (14a to 14g) is formed by shifting the phase by 60 degrees, and further, both triangular colored annular band line groups are formed. Each of the six small triangular areas (16) formed between the outermost and innermost strips of gold has a positive color (17) such as gold, copper, iron, red, or black. A plurality of first triangular colored annular band lines (14a to 14a-) are formed by concentrically forming a plurality of triangular colored annular band lines on the surface of the first collecting tool (1A) and the second display plate (10B) configured by applying. 14g), and the brightness of the coloring is gradually increased from the outer side to the inner side, and a second triangular colored annular band line group (15a) similar to the first triangular colored annular band line group (14a to 14g) is formed. .About.15 g) formed by shifting the phase by 60 degrees, and further, the above-mentioned both triangular colored annular band line group Negative color (20) such as silver, aluminum, sodium, blue, or white in the six small triangular areas (16) formed between the outermost and innermost strips of A cosmic energy collector comprising a second collector (2A) configured and applied. 2. The space energy collector according to claim 1, wherein the first triangular colored annular band line group (14a to 14g) and the second triangular colored annular band line group (15a to 15g) are colored in rainbow color. . 3. The first collecting tool (1A) according to claim 1.
First and second triangular colored annular band line groups (14a to 14)
g, 15a to 15g), a hexagonal colored strip line group (13a to 13g) is formed inside the hexagon connecting the outermost vertices, and the brightness of the coloring is gradually reduced from the outside to the inside. 2 Hexagonal colored strips (13a-13) inside the hexagon connecting the outermost vertices of the first and second triangular colored annular strips (14a-14g, 15a-15g) of the collecting tool (2A).
g) is formed, and the lightness of the coloring is gradually increased from the outside to the inside, and a cosmic energy collector. 4. The first triangular colored annular band line group (14a to 14g), the second triangular colored annular band line group (15a to 15g), and the hexagonal colored band line group (13a to 13) according to claim 3.
g) is a rainbow colored cosmic energy collector. 5. A star colored annular band line group (22a to 22g) is formed on the back surface of the first display plate (10A), and pentagonal coloring is applied inside the pentagon connecting the outermost vertices of the band line group. Forming a band line group (21a to 21g), and further gradually decreasing the brightness of coloring of each band line group from the outer side to the inner side, and the first display plate to the back surface of the second display plate (10B). The cosmic energy collecting tool according to any one of claims 1 to 4, wherein a band line group similar to the back surface of (10A) is formed, and the brightness of the coloring is increased stepwise from the outer side to the inner side. 6. The first display plate (1) according to claim 5,
0A) the star-shaped colored annular band line group (22a to 22)
g) and the pentagonal colored strip line group (21a to 21g) are formed in a rainbow color in which the brightness gradually decreases, and the second display plate (1).
0B), the star-shaped colored annular band line group (22a to 22)
g) and the pentagonal colored strip line group (21a to 21g) are cosmic energy collectors formed in a rainbow color whose brightness gradually increases. 7. The lightness of coloring of the first triangular colored annular band line group (14a to 14g) formed on the surface of one display plate (10A) according to claim 1, gradually decreasing from the outside to the inside. Then, the second triangular colored annular band line group (15
a to 15 g), the lightness of coloring is gradually increased from the outside to the inside so that the cross portions of both band line groups are alternately exposed, and the positive color (17) is added to the small triangular area (16). Space energy collector with alternating negative and negative colors (20). 8. The first triangular colored annular band line group (14a to 14g) and the second triangular colored annular band line group (1) according to claim 7.
5a to 15g) in the center of which both swaths are swathed (24a
~ 24g) endlessly connecting the cosmic energy collectors. 9. The small triangular area (16) having a positive color (17) according to any one of claims 1 to 8, wherein a permanent magnet (18A) is bonded with the surface side being an N pole, and a negative color ( A space energy collecting tool in which a permanent magnet (18B) is joined with the surface side as an S pole in the small triangular area (16) provided with 20). 10. A first collecting tool (1A, 1B, 1C) and a second collecting tool (2A, 2) according to any one of claims 1 to 9.
A plurality of B) are combined to form a collection tool group (34), and the collection tool groups (34) are spaced apart from each other so as to be respectively located at the vertices of a polygon having a triangle shape or more, and the cosmic energy is collected in the polygon. How to collect cosmic energy.