US20100031842A1

US20100031842A1 - Space energy implosion unit and an energy amplification generator using the same

Info

Publication number: US20100031842A1
Application number: US12/443,965
Authority: US
Inventors: Eun-Jae Lee; Yong-Won Lee
Original assignee: Individual
Current assignee: Individual
Priority date: 2006-10-02
Filing date: 2007-10-01
Publication date: 2010-02-11
Also published as: EP2086637A4; JP2010521415A; EP2086637A1; CN104353188A; WO2008041812A1

Abstract

Provided are a space energy implosion unit and an energy amplification generator using the same. The space energy implosion unit includes: a planar structure 1 having a regular pentagonal shape; a cubic structure 2 which is installed to be separated from an upper portion of the planar structure 1 and has a regular pentagonal pyramid shape; and a separation structure 3 which separates the planar structure 1 and the cubic structure 2 from each other and has a smaller area than areas of the planar structure 1 and the cubic structure 2. The energy amplification generator includes: a first geometrical structure in which vertices of each of five or seven pieces of planar structures 1 having a regular pentagonal shape contact one another; a second geometrical structure which is separated from an upper portion of the first geometrical structure and in which vertices of each of five or seven cubic structures 2 having a regular pentagonal pyramid shape contact one another; and a plurality of separation structures 3 which separate the first geometrical structure and the second geometrical structure from each other, are installed between the planar structure 1 and the cubic structure 2 and have a smaller area than areas of the planar structure 1 and the cubic structure 2.

Description

TECHNICAL FIELD

The present invention relates to a space energy implosion unit which implodes a little energy that is full in the universe to be directly and indirectly used, and an energy amplification generator using the same.

BACKGROUND ART

Newton's Mechanics in which the nature of materials is defined as particles dominate classical scientific circles. However, as quantum mechanics and relativity theory are established before and after 1900, the nature of materials can be understood as particles and waves.
For example, it can be understood that an untouchable energy is changed into a touchable material by using equation (E=mc2). Also, as it is understood that, according to the Heisenberg uncertainty principle which is a basis for quantum mechanics, a particle position x and a momentum p cannot be determined simultaneously and are limited by mutual uncertainty (ΔxΔp≧h 2π (where, h is a Planck's constant), new thinking that particles as materials and waves as non-materials cannot be separated from one another has emerged. Thus, it is accepted to be obvious that the universe is comprised of materials and non-materials and materials can be changed into energies which are non-materials.
On the other hand, in early 1990, G. I. Shipov doctor (selected as one of 500 leaders who made the most affect on the 20^thcentury, by American Biographic Institute, 1998) which is Russian scientist has found that an energy reacts with a particular geometrical shape. Such an energy field is referred to a third force which is not gravity or an electromagnetic force, i.e., a torsion field or a space energy. The torsion field (space energy) is mutual influence or a wide-meaning resonance effect that is originated from all materials, rotation of electricity or magnetism, and rotation of biomolecules.
Such a space energy is very little and is full in the universe. It is very little and is not measured using a conventional apparatus for measuring an electromagnetic field. However, the existence of the space energy is verified by a trace (an interference effect) that leaves in materials or an electromagnetic field.
The space energy is also applied to medicine. A new academic field such as quantum medicine which is a new medical treatment method has emerged. In advanced countries such as USA or France, enormous research expenses for studying an effect of a space energy on a living body have been supported.
In this way, study and development for using a space energy (a torsion field) generated in the universe filled with mutually-changed materials and energies by a particular geometrical shape in reality has proceeded in several countries.

DISCLOSURE OF INVENTION

Technical Problem

The present invention provides a space energy implosion unit in which a space energy full in the universe is effectively imploded using a particular geometrical shape so that the imploded space energy can be indirectly and directly used in reality, and an energy amplification generator using the same.

Technical Solution

According to an aspect of the present invention, there is provided a space energy implosion unit, the space energy implosion unit comprising: a planar structure 1 having a regular pentagonal shape; a cubic structure 2 which is installed to be separated from an upper portion of the planar structure 1 and has a regular pentagonal pyramid shape; and a separation structure 3 which separates the planar structure 1 and the cubic structure 2 from each other and has a smaller area than areas of the planar structure 1 and the cubic structure 2.
According to another aspect of the present invention, there is provided a space energy implosion unit, the space energy implosion unit comprising: a planar structure 6 having a regular heptangular shape; a cubic structure 7 which is installed to be separated from an upper portion of the planar structure 6 and has a regular heptangular pyramid shape; and a separation structure 8 which separates the planar structure 6 and the cubic structure 7 from each other and has a smaller area than areas of the planar structure 6 and the cubic structure 7.
According to another aspect of the present invention, there is provided an energy amplification generator, the energy amplification generator comprising: a first geometrical structure in which vertices of each of five or seven pieces of planar structures 1 having a regular pentagonal shape contact one another; a second geometrical structure which is separated from an upper portion of the first geometrical structure and in which vertices of each of five or seven cubic structures 2 having a regular pentagonal pyramid shape contact one another; and a plurality of separation structures 3 which separate the first geometrical structure and the second geometrical structure from each other, are installed between the planar structure 1 and the cubic structure 2 and have a smaller area than areas of the planar structure 1 and the cubic structure 2.
According to another aspect of the present invention, there is provided an energy amplification generator, the energy amplification generator comprising: a first geometrical structure in which an a first geometrical structure in which both-end vertices at two continuous sides of each of five or seven pieces of planar structures 6 having a regular heptangular shape contact one another; a second geometrical structure which is separated from an upper portion of the first geometrical structure and in which both-end vertices at two continuous sides of each of five or seven cubic structures 7 having a regular heptangular pyramid shape contact one another; and a plurality of separation structures 8 which separate the first geometrical structure and the second geometrical structure from each other, are installed between the planar structure 6 and the cubic structure 7 and have a smaller area than areas of the planar structure 6 and the cubic structure 7.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an exploded perspective view of a space energy implosion unit according to an embodiment of the present invention;

FIG. 2 is a perspective view of a cubic structure having another shape of the space energy implosion unit of FIG. 1;

FIG. 3 is an exploded perspective view of a space energy implosion unit according to another embodiment of the present invention;

FIG. 4 is a perspective view of a cubic structure having another shape of the space energy implosion unit of FIG. 3;

FIG. 5 is an exploded perspective view of a space energy implosion unit according to another embodiment of the present invention;

FIG. 6 is a perspective view of a cubic structure having another shape of the space energy implosion unit of FIG. 5;

FIG. 7 is an exploded perspective view of a space energy implosion unit according to another embodiment of the present invention;

FIG. 8 is a perspective view of a cubic structure having another shape of the space energy implosion unit of FIG. 5;

FIG. 9 is an energy amplification generator according to an embodiment of the present invention;

FIG. 10 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 9;

FIG. 11 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 9;

FIG. 12 is a perspective view of another shape of the second geometrical structure of FIG. 10;

FIG. 13 illustrates a stack structure of a second geometrical structure, a first geometrical structure, a plate structure, and a separation structure of the energy amplification generator of FIG. 9;

FIG. 14 is an energy amplification generator according to another embodiment of the present invention;

FIG. 15 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 14;

FIG. 16 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 14;

FIG. 17 is a perspective view of another shape of the second geometrical structure of FIG. 16;

FIG. 18 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 9;

FIG. 19 is an energy amplification generator according to another embodiment of the present invention;

FIG. 20 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 19;

FIG. 21 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 19;

FIG. 22 is a perspective view of another shape of the second geometrical structure of FIG. 21;

FIG. 23 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 19;

FIG. 24 is an energy amplification generator according to another embodiment of the present invention;

FIG. 25 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 24;

FIG. 26 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 24;

FIG. 27 is a perspective view of another shape of the second geometrical structure of FIG. 26;

FIG. 28 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 25;

FIG. 29 is an energy amplification generator according to another embodiment of the present invention;

FIG. 30 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 29;

FIG. 31 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 29;

FIG. 32 is a perspective view of another shape of the second geometrical structure of FIG. 31;

FIG. 33 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 29;

FIG. 34 is an energy amplification generator according to another embodiment of the present invention;

FIG. 35 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 34;

FIG. 36 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 34;

FIG. 37 is a perspective view of another shape of the second geometrical structure of FIG. 36;

FIG. 38 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 34;

FIG. 39 is an energy amplification generator according to another embodiment of the present invention;

FIG. 40 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 39;

FIG. 41 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 39;

FIG. 42 is a perspective view of another shape of the second geometrical structure of FIG. 41;

FIG. 43 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 39;

FIG. 44 is an energy amplification generator according to another embodiment of the present invention;

FIG. 45 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 44;

FIG. 46 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 44;

FIG. 47 is a perspective view of another shape of the second geometrical structure of FIG. 46;

FIG. 48 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 44;

FIG. 49 shows a graph of Table 1 and illustrates the number of subjects before taking a space energy processing water;

FIG. 50 shows a graph of Table 2 and illustrates the number of subjects that show Erythema symptoms after taking a space energy processing water;

FIG. 51 shows a graph of Table 2 and illustrates the number of subjects that show Edema Papulation symptoms after taking a space energy processing water;

FIG. 52 shows a graph of Table 2 and illustrates the number of Oozing subjects after taking a space energy processing water;

FIG. 53 shows a graph of Table 2 and illustrates the number of Excoriation subjects symptoms after taking a space energy processing water;

FIG. 54 shows a graph of Table 2 and illustrates the number of Lichenification subjects after taking a space energy processing water; and

FIG. 55 is a graph showing tumor volumes of white rats that have drunk a general drinking water and white rats that have drunk a space energy processing water.

BEST MODE FOR CARRYING OUT THE INVENTION

The present invention will now be described more fully with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown.
FIG. 1 is an exploded perspective view of a space energy implosion unit according to an embodiment of the present invention, and FIG. 2 is a perspective view of a cubic structure having another shape of the space energy implosion unit of FIG. 1.
Referring to FIG. 1, the space energy implosion unit according to an embodiment of the present invention includes a planar structure 1 having a regular pentagonal shape, a cubic structure 2 which is installed to be separated from an upper portion of the planar structure 1 and has a regular pentagonal pyramid shape, and a separation structure 3 which separates the planar structure 1 and the cubic structure 2 from each other and has a smaller area than areas of the planar structure 1 and the cubic structure 2. In this case, the separation structure 3 has a regular pentagonal shape. Here, the planar structure 1 is implemented as one or more pieces, and as the number of planar structures increases, the quantity of implosion of a space energy increases.
The cubic structure 2, the separation structure 3, and the planar structure 1 are stacked so that the arrangement angle of their respective sides is identical.
Here, a cubic structure 2′ may also be applied in another shape. In other words, the cubic structure 2′ may be implemented by forming a subcubic structure 2 b′ having a regular pentagonal pyramid shape having a smaller area than the area of a regular pentagonal planar plate 2 a′ on the planar plate 2 a′ as illustrated in FIG. 2.
FIG. 3 is an exploded perspective view of a space energy implosion unit according to another embodiment of the present invention, and FIG. 4 is a perspective view of a cubic structure having another shape of the space energy implosion unit of FIG. 3.
Referring to FIG. 3, the space energy implosion unit according to another embodiment of the present invention is similar to the space energy implosion unit shown in FIG. 1. The only difference therebetween is that, in FIG. 3, the space energy implosion unit further includes a planar cut groove 1 a in which the planar structure 1 is cut to one side from the center and a cubic cut groove 2 a in which the cubic structure 2 is cut to one side from the center. In this case, the separation structure 3 has a regular pentagonal shape but has a cut groove 3 a in which the separation structure 3 is cut to one side from the center.
The cubic structure 2, the separation structure 3, and the planar structure 1 are stacked so that the arrangement angle of their respective sides is identical.
Here, a cubic structure 2′ may also be applied in another shape. In other words, the cubic structure 2′ may be implemented by forming a subcubic structure 2 b′ having a regular pentagonal pyramid shape having a smaller area than the area of a regular pentagonal planar plate 2 a′ on the planar plate 2 a′ as illustrated in FIG. 4. In this case, a cubic cut groove 2 c in which the cubic structure 2 is cut to one side of the planar plate 2 a from the center is formed in the cubic structure 2′.
FIG. 5 is an exploded perspective view of a space energy implosion unit according to another embodiment of the present invention, and FIG. 6 is a perspective view of a cubic structure having another shape of the space energy implosion unit of FIG. 5.
Referring to FIG. 5, the space energy implosion unit according to another embodiment of the present invention includes a planar structure 6 having a regular heptangular shape, a cubic structure 7 which is installed to be separated from an upper portion of the planar structure 6 and has a regular heptangular pyramid shape, and a separation structure 8 which separates the planar structure 6 and the cubic structure 7 from each other and has a smaller area than areas of the planar structure 6 and the cubic structure 7.
In this case, the separation structure 8 has a regular heptangular shape.
Here, the planar structure 6 is implemented as one or more pieces, and as the number of planar structures increases, the quantity of implosion of a space energy increases.
The cubic structure 7, the separation structure 8, and the planar structure 6 are stacked so that the arrangement angle of their respective sides is identical.
Here, a cubic structure 7′ also be applied in another shape. In other words, the cubic structure 7′ may be implemented by forming a subcubic structure 7 b′ having a regular heptangular pyramid shape having a smaller area than the area of a regular heptangular planar plate 7 a′ on the planar plate 7 a′ as illustrated in FIG. 6.
FIG. 7 is an exploded perspective view of a space energy implosion unit according to another embodiment of the present invention, and FIG. 8 is a perspective view of a cubic structure having another shape of the space energy implosion unit of FIG. 5.
Referring to FIG. 7, the space energy implosion unit according to another embodiment of the present invention is similar to the space energy implosion unit shown in FIG. 5. The only difference therebetween is that, in FIG. 7, the space energy implosion unit further includes a planar cut groove 6 a in which the planar structure 6 is cut to two continuous sides from the center and a cubic cut groove 7 a in which the cubic structure 7 is cut to two continuous sides from the center. In this case, the separation structure 8 has a regular pentagonal shape but has a cut groove 8 a in which the separation structure 8 is cut to two continuous sides from the center.
The cubic structure 7, the separation structure 8, and the planar structure 6 are stacked so that the arrangement angle of their respective sides is identical.
Here, a cubic structure 7′ may also be applied in another shape. In other words, the cubic structure 7′ may be implemented by forming a subcubic structure 7 b′ having a regular heptangular pyramid shape having a smaller area than the area of a regular heptangular planar plate 7 a′ on the planar plate 7 a′ as illustrated in FIG. 8. In this case, a cubic cut groove 7 c′ in which the cubic structure 7′ is cut to two continuous sides of the planar plate 7 a′ from the center is formed in the cubic structure 7′.
In the space energy implosion unit shown in FIGS. 1, 3, 5, and 7, the planar structure 1 implodes a space energy that is full in the universe due to its geometrical structure, and the cubic structure 2 concentrates the space energy imploded from the planar structure 1 due to its geometrical structure in a forward direction. When the cubic structure 2 is implemented in the shapes shown in FIGS. 2, 4, 6, and 8, the space energy that is full in the universe is imploded and simultaneously is concentrated in a forward direction.
An energy amplification generator using the space energy implosion unit according to exemplary embodiments of the present invention will now be described.
FIG. 9 is an energy amplification generator according to an embodiment of the present invention, FIG. 10 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 9, FIG. 11 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 9, FIG. 12 is a perspective view of another shape of the second geometrical structure of FIG. 10, and FIG. 13 illustrates a stack structure of a second geometrical structure, a first geometrical structure, a plate structure, and a separation structure of the energy amplification generator of FIG. 9. Here, like reference numerals in FIGS. 1 through 4 denote like elements having the same function.
Referring to FIG. 9, the energy amplification generator according to an embodiment of the present invention includes a first geometrical structure 10 in which vertices of each of five pieces of planar structures 1 having a regular pentagonal shape contact one another, a second geometrical structure 20 which is separated from an upper portion of the first geometrical structure 10 and in which vertices of each of five cubic structures 2 having a regular pentagonal pyramid shape contact one another, and a plurality of separation structures 3 which separate the first geometrical structure 10 and the second geometrical structure 20 from each other, are installed between the planar structure 1 and the cubic structure 2 and have a smaller area than areas of the planar structure 1 and the cubic structure 2.
The first geometrical structure 10 is one or two or more. The first geometrical structure 10 implodes a space energy that is full in the universe due to its geometrical structure to be indirectly and directly used.
The second geometrical structure 20 concentrates the space energy imploded by the first geometrical structure 10 in a forward direction.
Areas of the first geometrical structure 10 and the second geometrical structure 20 allow the quantity of the imploded space energy to be increased. In other words, in order to obtain a larger quantity of space energy, the number of stacked first geometrical structures 10 increases or the areas of the first and second geometrical structures 10 and 20 increase.
On the other hand, a second geometrical structure 20′ may be modified in another shape. In other words, as illustrated in FIG. 12, in the second geometrical structure 20′ a cubic structure 2 is implemented by forming a subcubic structure 2 b′ having a regular pentagonal pyramid shape having a smaller area than the area of a regular pentagonal planar plate 2 a′ on the planar plate 2 a′ Five cubic structures 2′ are disposed on a plane so that vertices of each of five cubic structures 2′ contact one another, thereby implementing the second geometrical structure 20′ of the present application. The second geometrical structure 20′ having the cubic structure 2′ implodes the space energy and simultaneously concentrates the space energy in a forward direction.
A plate structure 40 supports the first geometrical structure 10 and has the same shape as that of the first geometrical structure 10. A plate hole 43 corresponding to a case hole 53 that will be described later is formed in the center of the plate structure 40.
The separation structures 3 may be installed among several first geometrical structures 10 so that the first geometrical structures 10 are separated from one another, or may be installed between the first geometrical structure 10 and the second geometrical structure 20 so that they are separated from each other, or may be installed between the first geometrical structure 10 and the plate structure 40 so that they are separated from each other. The separation structures 3 have a regular pentagonal shape and may be implemented to a predetermined thickness by stacking several plates or as a one product having a predetermined thickness.
The separation structures 3 allow the frequency of a radiated space energy to vary. In other words, the frequency of the space energy varies according to the thickness of the separation structures 3. The thickness of the separation structures 3 may be between 3 mm and 20 mm, and 7 mm thick separation structures 3 are used in the present embodiment.
A case 50 has a cover 51 in which a radiation sphere 52 through which a space energy is radiated in a forward direction is formed. The case hole 53 corresponding to the plate hole 43 is formed in the case 50.
The first geometrical structure 10, the separation structures 3, and the second geometrical structure 20 that will be stacked on the plate structure 40 are built in the case 50. In other words, the plate structure 40 on which the first and second geometrical structures 10 and 20 and the separation structures 3 are stacked, is fixed in the case 50 in such a way that a bolt portion 63 a of a fixing member 63 perforates the plate hole 43 and the case hole 53 and then is engaged with a nut 64 in the rear of the case 50, as illustrated in FIG. 9.
An energy amplification generator according to another embodiment of the present invention will now be described.
FIG. 14 is an energy amplification generator according to another embodiment of the present invention, FIG. 15 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 14, FIG. 16 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 14, FIG. 17 is a perspective view of another shape of the second geometrical structure of FIG. 16, and FIG. 18 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 9. Here, like reference numerals in FIG. 9 denote like elements having the same function.
Referring to FIG. 14, the energy amplification generator according to another embodiment of the present invention includes a first geometrical structure 110 in which vertices of each of five pieces of planar structures 1 having a regular pentagonal shape contact one another, a second geometrical structure 120 which is separated from an upper portion of the first geometrical structure 110 and in which vertices of each of five cubic structures 2 having a regular pentagonal pyramid shape contact one another, and a plurality of separation structures 3 which separate the first geometrical structure 110 and the second geometrical structure 120 from each other, are installed between the planar structure 1 and the cubic structure 2 and have a smaller area than areas of the planar structure 1 and the cubic structure 2.
The first geometrical structure 110 is one or two or more. The first geometrical structure 110 implodes a space energy that is full in the universe due to its geometrical structure to be indirectly and directly used.
The second geometrical structure 120 concentrates the space energy imploded by the first geometrical structure 110 in a forward direction.
Areas of the first geometrical structure 110 and the second geometrical structure 120 allow the quantity of the imploded space energy to be increased. In other words, in order to obtain a larger quantity of space energy, the number of stacked first geometrical structures 110 increases or the areas of the first and second geometrical structures 110 and 120 increase.
In this case, in the first geometrical structure 110, the planar structure 1 further includes a planar cut groove 1 a in which the planar structure 1 is cut to one side between two contacting vertices from the center, and the cubic structure 2 further includes a cubic cut groove 2 a in which the cubic structure 2 is cut to one side between two contacting vertices from the center.
In addition, the separation structures 3 have a regular pentagonal shape but also have a cut groove 3 a in which each of the separation structures 3 is cut to one side from the center.
The cubic structure 2, the separation structures 3, and the planar structure 1 are stacked that the arrangement angle of their respective sides are identical.
On the other hand, a second geometrical structure 120′ may be modified in another shape. In other words, as illustrated in FIG. 17, a cubic structure 2′ of the second geometrical structure 120′ is implemented by forming a subcubic structure 2 b′ having a regular pentagonal pyramid shape having a smaller area than the area of a regular pentagonal planar plate 2 a on the planar plate 2 a′. At this time, a cubic cut groove 2 c′ in which the cubic structure 2′ is cut to one side between two contacting vertices of the planar plate 2 a′ from the center is formed in the cubic structure 2′. Five cubic structures 2′ are disposed on a plane so that vertices of each of five cubic structures 2′ contact one another, thereby implementing the second geometrical structure 120′ of the present application.
A plate structure 140 supports the first geometrical structure 110 and has the same shape as that of the first geometrical structure 110. A plate hole 143 corresponding to a case hole 53 is formed in the center of the plate structure 140.
The case 50, the cover 51, the radiation sphere 52, the case hole 53, the fixing member 63, the bolt portion 63 a, and the nut 64 are the same as in the energy amplification generator shown in FIG. 9 and thus, a detailed description thereof will be omitted.
An energy amplification generator according to another embodiment of the present invention will now be described.
FIG. 19 is an energy amplification generator according to another embodiment of the present invention, FIG. 20 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 19, FIG. 21 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 19, FIG. 22 is a perspective view of another shape of the second geometrical structure of FIG. 21, and FIG. 23 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 19. Here, like reference numerals in FIGS. 9 and 14 denote like elements having the same function.
Referring to FIG. 19, the energy amplification generator according to another embodiment of the present invention includes a first geometrical structure 210 in which vertices of each of seven pieces of planar structures 1 having a regular pentagonal shape contact one another, a second geometrical structure 220 which is separated from an upper portion of the first geometrical structure 210 and in which vertices of each of seven cubic structures 2 having a regular pentagonal pyramid shape contact one another, and a plurality of separation structures 3 which separate the first geometrical structure 210 and the second geometrical structure 220 from each other, are installed between the planar structure 1 and the cubic structure 2 and have a smaller area than areas of the planar structure 1 and the cubic structure 2.
The first geometrical structure 210 is one or two or more. The first geometrical structure 210 implodes a space energy that is full in the universe due to its geometrical structure to be indirectly and directly used.
The second geometrical structure 220 concentrates the space energy imploded by the first geometrical structure 210 in a forward direction.
Areas of the first geometrical structure 210 and the second geometrical structure 220 allow the quantity of the imploded space energy to be increased. In other words, in order to obtain a larger quantity of space energy, the number of stacked first geometrical structures 210 increases or the areas of the first and second geometrical structures 210 and 220 increase.
The cubic structure 2, the separation structures 3, and the planar structure 1 are stacked that the arrangement angle of their respective sides are identical.
On the other hand, a second geometrical structure 220′ may be modified in another shape. In other words, as illustrated in FIG. 22, a cubic structure 2′ of the second geometrical structure 220′ is implemented by forming a subcubic structure 2 b′ having a regular pentagonal pyramid shape having a smaller area than the area of a regular pentagonal planar plate 2 a′ on the planar plate 2 a′. Seven cubic structures 2′ are disposed on a plane so that vertices of each of seven cubic structures 2′ contact one another, thereby implementing the second geometrical structure 220′ of the present application.
A plate structure 240 supports the first geometrical structure 210 and has the same shape as that of the first geometrical structure 210. A plate hole 243 corresponding to a case hole 53 is formed in the center of the plate structure 240.
The case 50, the cover 51, the radiation sphere 52, the case hole 53, the fixing member 63, the bolt portion 63 a, and the nut 64 are the same as in the energy amplification generator shown in FIGS. 9 and 14 and thus, a detailed description thereof will be omitted.
An energy amplification generator according to another embodiment of the present invention will now be described.
FIG. 24 is an energy amplification generator according to another embodiment of the present invention, FIG. 25 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 24, FIG. 26 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 24, FIG. 27 is a perspective view of another shape of the second geometrical structure of FIG. 26, and FIG. 28 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 25. Here, like reference numerals in FIGS. 9, 14, and 19 denote like elements having the same function.
Referring to FIG. 24, the energy amplification generator according to another embodiment of the present invention includes a first geometrical structure 310 in which vertices of each of seven pieces of planar structures 1 having a regular pentagonal shape contact one another, a second geometrical structure 320 which is separated from an upper portion of the first geometrical structure 310 and in which vertices of each of seven cubic structures 2 having a regular pentagonal pyramid shape contact one another, and a plurality of separation structures 3 which separate the first geometrical structure 310 and the second geometrical structure 320 from each other, are installed between the planar structure 1 and the cubic structure 2 and have a smaller area than areas of the planar structure 1 and the cubic structure 2.
The first geometrical structure 310 is one or two or more. The first geometrical structure 310 implodes a space energy that is full in the universe due to its geometrical structure to be indirectly and directly used.
The second geometrical structure 320 concentrates the space energy imploded by the first geometrical structure 310 in a forward direction.
Areas of the first geometrical structure 310 and the second geometrical structure 320 allow the quantity of the imploded space energy to be increased. In other words, in order to obtain a larger quantity of space energy, the number of stacked first geometrical structures 310 increases or the areas of the first and second geometrical structures 310 and 320 increase.
In this case, in the first geometrical structure 310, the planar structure 1 further includes a planar cut groove 1 a in which the planar structure 1 is cut to one side between two contacting vertices from the center, and the cubic structure 2 further includes a cubic cut groove 2 a in which the cubic structure 2 is cut to one side between two contacting vertices from the center.
In addition, the separation structures 3 have a regular pentagonal shape but also have a cut groove 3 a in which each of the separation structures 3 is cut to one side from the center.
The cubic structure 2, the separation structures 3, and the planar structure 1 are stacked that the arrangement angle of their respective sides are identical.
On the other hand, a second geometrical structure 320′ may be modified in another shape. In other words, as illustrated in FIG. 27, a cubic structure 2′ of the second geometrical structure 320′ is implemented by forming a subcubic structure 2 b′ having a regular pentagonal pyramid shape having a smaller area than the area of a regular pentagonal planar plate 2 a′ on the planar plate 2 a′. At this time, a cubic cut groove 2 c′ in which the cubic structure 2′ is cut to one side between two contacting vertices of the planar plate 2 a′ from the center is formed in the cubic structure 2′. Seven cubic structures 2′ are disposed on a plane so that vertices of each of seven cubic structures 2′ contact one another, thereby implementing the second geometrical structure 320′ of the present application.
A plate structure 340 supports the first geometrical structure 310 and has the same shape as that of the first geometrical structure 310. A plate hole 343 corresponding to a case hole 53 is formed in the center of the plate structure 340.
The case 50, the cover 51, the radiation sphere 52, the case hole 53, the fixing member 63, the bolt portion 63 a, and the nut 64 are the same as in the energy amplification generator shown in FIGS. 9, 14, and 19, and thus, a detailed description thereof will be omitted.
An energy amplification generator according to another embodiment of the present invention will now be described.
FIG. 29 is an energy amplification generator according to another embodiment of the present invention, FIG. 30 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 29, FIG. 31 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 29, FIG. 32 is a perspective view of another shape of the second geometrical structure of FIG. 31, and FIG. 33 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 29. Here, like reference numerals in FIGS. 5 through 8 denote like elements having the same function.
Referring to FIG. 29, the energy amplification generator according to another embodiment of the present invention includes a first geometrical structure 60 in which both-end vertices at two continuous sides of each of five pieces of planar structures 6 having a regular heptangular shape contact one another, a second geometrical structure 70 which is separated from an upper portion of the first geometrical structure 60 and in which both-end vertices at two continuous sides of each of five cubic structures 7 having a regular heptangular pyramid shape contact one another, and a plurality of separation structures 8 which separate the first geometrical structure 60 and the second geometrical structure 70 from each other, are installed between the planar structure 6 and the cubic structure 7 and have a smaller area than areas of the planar structure 6 and the cubic structure 7.
The first geometrical structure 60 is one or two or more. The first geometrical structure 60 implodes a space energy that is full in the universe due to its geometrical structure to be indirectly and directly used.
The second geometrical structure 70 concentrates the space energy imploded by the first geometrical structure 60 in a forward direction.
Areas of the first geometrical structure 60 and the second geometrical structure 70 allow the quantity of the imploded space energy to be increased. In other words, in order to obtain a larger quantity of space energy, the number of stacked first geometrical structures 60 increases or the areas of the first and second geometrical structures 60 and 70 increase.
On the other hand, a second geometrical structure 70′ may be modified in another shape. In other words, as illustrated in FIG. 32, a cubic structure 7′ of the second geometrical structure 70′ is implemented by forming a subcubic structure 7 b′ having a regular heptangular pyramid shape having a smaller area than the area of a regular heptangular planar plate 7 a′ on the planar plate 7 a′. Five cubic structures 7′ are disposed on a plane so that both-end vertices at two continuous sides of each of five cubic structures 7′ contact one another, thereby implementing the second geometrical structure 70′ of the present application. The second geometrical structure 70′ having the cubic structure 7′ implodes a space energy and simultaneously, concentrates the space energy in a forward direction.
A plate structure 90 supports the first geometrical structure 60 and has the same shape as that of the first geometrical structure 60. A plate hole 93 corresponding to a case hole 53 that will be described later is formed in the center of the plate structure 90.
The separation structures 8 may be installed among several first geometrical structures 60 so that the first geometrical structures 60 are separated from one another, or may be installed between the first geometrical structure 60 and the second geometrical structure 70 so that they are separated from each other, or may be installed between the first geometrical structure 60 and the plate structure 90 so that they are separated from each other. The separation structures 8 have a regular heptangular shape and may be implemented to a predetermined thickness by stacking several plates or as a one product having a predetermined thickness.
The separation structures 8 allow the frequency of a radiated space energy to vary. In other words, the frequency of the space energy varies according to the thickness of the separation structures 8. The thickness of the separation structures 8 may be between 3 mm and 20 mm, and 7 mm thick separation structures 3 are used in the present embodiment.
A case 50 has a cover 51 in which a radiation sphere 52 through which a space energy is radiated in a forward direction is formed. The case hole 53 corresponding to the plate hole 93 is formed in the case 50.
The first geometrical structure 60, the separation structures 8, and the second geometrical structure 70 that will be stacked on the plate structure 90 are built in the case 50. In other words, the plate structure 90 on which the first and second geometrical structures 60 and 70 and the separation structures 8 are stacked, is fixed in the case 50 in such a way that a bolt portion 63 a of a fixing member 63 perforates the plate hole 93 and the case hole 53 and then is engaged with a nut 64 in the rear of the case 50, as illustrated in FIG. 29.
An energy amplification generator according to another embodiment of the present invention will now be described.
FIG. 34 is an energy amplification generator according to another embodiment of the present invention, FIG. 35 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 34, FIG. 36 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 34, FIG. 37 is a perspective view of another shape of the second geometrical structure of FIG. 36, and FIG. 38 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 34. Here, like reference numerals in FIG. 29 denote like elements having the same function.
Referring to FIG. 34, the energy amplification generator according to another embodiment of the present invention includes a first geometrical structure 160 in which both-end vertices at two continuous sides of each of five pieces of planar structures 6 having a regular heptangular shape contact one another, a second geometrical structure 170 which is separated from an upper portion of the first geometrical structure 160 and in which both-end vertices at two continuous sides of each of five cubic structures 7 having a regular heptangular pyramid shape contact one another, and a plurality of separation structures 8 which separate the first geometrical structure 160 and the second geometrical structure 170 from each other, are installed between the planar structure 6 and the cubic structure 7 and have a smaller area than areas of the planar structure 6 and the cubic structure 7.
The first geometrical structure 160 is one or two or more. The first geometrical structure 160 implodes a space energy that is full in the universe due to its geometrical structure to be indirectly and directly used.
The second geometrical structure 170 concentrates the space energy imploded by the first geometrical structure 160 in a forward direction.
Areas of the first geometrical structure 160 and the second geometrical structure 170 allow the quantity of the imploded space energy to be increased. In other words, in order to obtain a larger quantity of space energy, the number of stacked first geometrical structures 160 increases or the areas of the first and second geometrical structures 160 and 170 increase.
In this case, in the first geometrical structure 160, the planar structure 6 further includes a planar cut groove 6 a in which the planar structure 6 is cut to two continuous sides between two contacting vertices from the center, and the cubic structure 7 further includes a cubic cut groove 7 a in which the cubic structure 7 is cut to two continuous sides between two contacting vertices from the center. In addition, the separation structures 8 have a regular heptangular shape but also have a cut groove 8 a in which each of the separation structures 8 is cut to two continuous sides from the center.
The cubic structure 7, the separation structures 8, and the planar structure 6 are stacked that the arrangement angle of their respective sides are identical.
On the other hand, a second geometrical structure 170′ may be modified in another shape. In other words, as illustrated in FIG. 37, a cubic structure 7′ of the second geometrical structure 170′ is implemented by forming a subcubic structure 7 b′ having a regular heptangular pyramid shape having a smaller area than the area of a regular heptangular planar plate 7 a′ on the planar plate 7 a′. At this time, a cubic cut groove 7 c′ in which the cubic structure 7′ is cut to two continuous sides between two contacting vertices of the planar plate 7 a′ from the center is formed in the cubic structure 7′. Five cubic structures 7′ are disposed on a plane so that both-end vertices at two continuous sides of each of five cubic structures 7′ contact one another, thereby implementing the second geometrical structure 170′ of the present application.
A plate structure 190 supports the first geometrical structure 160 and has the same shape as that of the first geometrical structure 160. A plate hole 193 corresponding to a case hole 53 that will be described later is formed in the center of the plate structure 190.
A case 50, a cover 51, a radiation sphere 52, a case hole 53, a fixing member 63, a bolt portion 63 a, and a nut 64 are the same as in the energy amplification generator shown in FIG. 29 and thus, a detailed description thereof will be omitted.
An energy amplification generator according to another embodiment of the present invention will now be described.
FIG. 39 is an energy amplification generator according to another embodiment of the present invention, FIG. 40 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 39, FIG. 41 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 39, FIG. 42 is a perspective view of another shape of the second geometrical structure of FIG. 41, and FIG. 43 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 39. Here, like reference numerals in FIGS. 29 and 34 denote like elements having the same function.
Referring to FIG. 39, the energy amplification generator according to another embodiment of the present invention includes a first geometrical structure 260 in which both-end vertices at two continuous sides of each of seven pieces of planar structures 6 having a regular heptangular shape contact one another, a second geometrical structure 270 which is separated from an upper portion of the first geometrical structure 260 and in which both-end vertices at two continuous sides of each of seven cubic structures 7 having a regular heptangular pyramid shape contact one another, and a plurality of separation structures 8 which separate the first geometrical structure 260 and the second geometrical structure 270 from each other, are installed between the planar structure 6 and the cubic structure 7 and have a smaller area than areas of the planar structure 6 and the cubic structure 7.
The first geometrical structure 260 is one or two or more. The first geometrical structure 260 implodes a space energy that is full in the universe due to its geometrical structure to be indirectly and directly used.
The second geometrical structure 270 concentrates the space energy imploded by the first geometrical structure 260 in a forward direction.
Areas of the first geometrical structure 260 and the second geometrical structure 270 allow the quantity of the imploded space energy to be increased. In other words, in order to obtain a larger quantity of space energy, the number of stacked first geometrical structures 260 increases or the areas of the first and second geometrical structures 260 and 270 increase.
The cubic structure 7, the separation structures 8, and the planar structure 6 are stacked that the arrangement angle of their respective sides are identical.
On the other hand, a second geometrical structure 270′ may be modified in another shape. In other words, as illustrated in FIG. 42, a cubic structure 7′ of the second geometrical structure 270′ is implemented by forming a subcubic structure 7 b′ having a regular heptangular pyramid shape having a smaller area than the area of a regular heptangular planar plate 7 a′ on the planar plate 7 a′. Seven cubic structures 7′ are disposed on a plane so that both-end vertices at two continuous sides of each of seven cubic structures 7′ contact one another, thereby implementing the second geometrical structure 270′ of the present application.
A plate structure 290 supports the first geometrical structure 260 and has the same shape as that of the first geometrical structure 260. A plate hole 293 corresponding to a case hole 53 that will be described later is formed in the center of the plate structure 290.
A case 50, a cover 51, a radiation sphere 52, a case hole 53, a fixing member 63, a bolt portion 63 a, and a nut 64 are the same as in the energy amplification generator shown in FIGS. 29 and 34 and thus, a detailed description thereof will be omitted.
An energy amplification generator according to another embodiment of the present invention will now be described.
FIG. 44 is an energy amplification generator according to another embodiment of the present invention, FIG. 45 is a perspective view of a first geometrical structure of the energy amplification generator of FIG. 44, FIG. 46 is a perspective view of a second geometrical structure of the energy amplification generator of FIG. 44, FIG. 47 is a perspective view of another shape of the second geometrical structure of FIG. 46, and FIG. 48 illustrates the structure in which a second geometrical structure, a first geometrical structure, a plate structure and separation structures are stacked, of the energy amplification generator of FIG. 44. Here, like reference numerals in FIGS. 29, 34, and 39 denote like elements having the same function.
Referring to FIG. 44, the energy amplification generator according to another embodiment of the present invention includes a first geometrical structure 360 in which both-end vertices at two continuous sides of each of seven pieces of planar structures 6 having a regular heptangular shape contact one another, a second geometrical structure 370 which is separated from an upper portion of the first geometrical structure 360 and in which both-end vertices at two continuous sides of each of seven cubic structures 7 having a regular heptangular pyramid shape contact one another, and a plurality of separation structures 8 which separate the first geometrical structure 360 and the second geometrical structure 370 from each other, are installed between the planar structure 6 and the cubic structure 7 and have a smaller area than areas of the planar structure 6 and the cubic structure 7. Here, the first geometrical structure 360 is one or two or more.
The first geometrical structure 360 implodes a space energy that is full in the universe due to its geometrical structure to be indirectly and directly used.
The second geometrical structure 370 concentrates the space energy imploded by the first geometrical structure 360 in a forward direction.
Areas of the first geometrical structure 360 and the second geometrical structure 370 allow the quantity of the imploded space energy to be increased. In other words, in order to obtain a larger quantity of space energy, the number of stacked first geometrical structures 360 increases or the areas of the first and second geometrical structures 360 and 370 increase.
In this case, in the first geometrical structure 310, the planar structure 6 further includes a planar cut groove 6 a in which the planar structure 6 is cut to two continuous sides between two contacting vertices from the center, and the cubic structure 7 further includes a cubic cut groove 7 a in which the cubic structure 7 is cut to two continuous sides between two contacting vertices from the center. In addition, the separation structures 8 have a regular heptangular shape but also have a cut groove 8 a in which each of the separation structures 8 is cut to two continuous sides from the center.
The cubic structure 7, the separation structures 8, and the planar structure 6 are stacked that the arrangement angle of their respective sides are identical.
On the other hand, a second geometrical structure 370′ may be modified in another shape. In other words, as illustrated in FIG. 47, a cubic structure 7′ of the second geometrical structure 370′ is implemented by forming a subcubic structure 7 b′ having a regular heptangular pyramid shape having a smaller area than the area of a regular heptangular planar plate 7 a′ on the planar plate 7 a′. At this time, a cubic cut groove 7 c′ in which the cubic structure 7′ is cut to two continuous sides between two contacting vertices of the planar plate 7 a′ from the center is formed in the cubic structure 7′. Seven cubic structures 7′ are disposed on a plane so that both-end vertices at two continuous sides of each of seven cubic structures 7′ contact one another, thereby implementing the second geometrical structure 370′ of the present application.
A plate structure 390 supports the first geometrical structure 360 and has the same shape as that of the first geometrical structure 360. A plate hole 393 corresponding to a case hole 53 that will be described later is formed in the center of the plate structure 390.
A case 50, a cover 51, a radiation sphere 52, a case hole 53, a fixing member 63, a bolt portion 63 a, and a nut 64 are the same as in the energy amplification generator shown in FIGS. 29, 34, and 39 and thus, a detailed description thereof will be omitted.
The space energy implosion unit shown in FIGS. 9, 14, 19, 24, 29, 34, 39, and 44, a space energy which is a kind of a torsion field, i.e., a small space energy that is full in the universe, is imploded and is converted into a usable energy to be directly or indirectly used due to the above-described geometrical structure.
An implosion mechanism of a space energy has not clearly been investigated scientifically yet. However, the present applicant has found a structure in which a space energy can be most effectively radiated, through many repetitive experiments. Such a space energy does not have the intensity that can be directly perceived by human's five senses but its existence can be verified through several experiments.
In other words, when a case where a space energy is radiated on a particular object and a case where a space energy is not radiated on a particular object are compared, if any difference therebetween occurs, it can be inductively known that a space energy exists. Hereinafter, various experimental examples for verifying the existence of a space energy will be described.
(1) Cancer Cell Growth Experiment
FIG. 55 is a graph showing tumor volumes of white rats that have drunk a general drinking water and white rats that have drunk a space energy processing water.
The present experiment has been carried out by professor Hyunwon Kim of Wonju medical college of the Yonsei University, April 2004 and his researchers.
In order to carry out the present experiment, after two chambers where experiment white rats C56BL/6 live were prepared, a water supply tube in which a processing water processed by radiating a space energy on a general drinking water was put was installed in one of the chambers, and a water supply tube in which a general drinking water was put was installed in the other one (a control group) so that the space energy processing water or the general drinking water can be freely taken by subjects from the water supply tubes that are put in each chamber. The same number of experiment white rats C56BL 6 as experiment white rats C56BL/6 to whose subcutaneous tissues malignant skin cancer cells B16 Melanoma are injected were put in each chamber and tumor volumes were observed according to days for 20 days.
In the graph of FIG. 55, a portion marked by control indicates tumor volumes of white rats that have drunk a general drinking water according to days, and a portion marked by life energy indicates tumor volumes of white rats that have drunk a space energy processing water according to days.
As a result of measuring tumor volumes for 20 days, as shown in the graph of FIG. 55, in case of white rats that have drunk a space energy processing water that is imploded by an energy amplification generator, tumor volumes are very smaller than those of the control group.
As known from the graph of FIG. 55, in case of white rats (life energy) that have drunk a space energy processing water, tumor volumes are very smaller than those of white rats (control) that have drunk a general drinking water. Thus, the space energy processing water makes an anticancer action on a living body of a white rat. That is, the existence of the space energy can be verified from the graph.
(2) Clinical Tests Relating to Whether a Processing Water that is Processed by a Space Energy Affects Infant Atopic Patients or not.
FIG. 49 shows a graph of Table 1 and illustrates the number of subjects before taking a space energy processing water. Also, FIG. 50 shows a graph of Table 2 and illustrates the number of subjects that show Erythema symptoms after taking a space energy processing water, FIG. 51 shows a graph of Table 2 and illustrates the number of subjects that show Edema Papulation symptoms after taking a space energy processing water, FIG. 52 shows a graph of Table 2 and illustrates the number of Oozing subjects after taking a space energy processing water, FIG. 53 shows a graph of Table 2 and illustrates the number of Excoriation subjects symptoms after taking a space energy processing water, and FIG. 54 shows a graph of Table 2 and illustrates the number of Lichenification subjects after taking a space energy processing water.
The clinical tests have been carried out at Chungnoi oriental hospital (principal Jaekyu Ryu) located in the third floor, Winplus commercial building, 507, Daechi-dong, Kangnam-gu, Seoul, Republic of Korea, in early 2005. The clinical tests are experiments for verifying whether, when infant atopic patients took a space processing water, the space processing water affects the infant atopic patients clinically or not.
In the clinical tests, D-company spring water (hereinafter, referred to as a space energy processing water) in which the space energy that is radiated from the energy amplification generator according to the present invention is investigated for 10 days, was taken by 40 infant atopic patients (male 15, female 25) of 0-4 years old who visited at the Chungnoi oriental hospital for atopic treatment.
In the clinical tests, five hypotheses that, when infant atopic patients took the space energy processing water, there may be a difference between before and after taking the space energy processing water were formed, and an atopic index ((SCORAD: SCORing Atopic Dermatitis) index)) before and after taking the space energy processing water was measured, thereby verifying a clinical effect of a space energy processing water.
Here, the atopic index (SCORAD index) has clinical significance only when the whole body skin status, partial skin photos and itching are simultaneously checked and a resultant value thereof is obtained. However, there was a difficulty for checking the whole body skin status and itching because subjects were infants. Thus, Erythema, Edema Papulation, Oozing, Excoriation, and Lichenification which are main atopic symptoms were scored and classified.
The symptoms of atopic patients before taking a space energy processing water are shown in Table 1 and FIG. 50.

TABLE 1

Subjects Symptoms before taking Space Energy Processing Water

		Edema		Excori-	Licheni-
Status	Erythema	Papulation	Oozing	ation	fication

Severe(III)	5	3	3	0	2
Moderate(II)	25	20	15	1	1
Mild(I)	8	17	2	5	1
0(No	2	0	20	34	36
symptom)

Table 1 is expressed as a graph, as shown in FIG. 51.
Five hypotheses that, when infant atopic patients took a space energy processing water, there may be a difference between before and after taking the space energy processing water are as described below.
(a) Hypothesis 1
Erythema symptoms of infant atopic patients who took 200-300 cc of a space energy processing spring water for one month three times a day for 10 days may be different from those before taking the space energy processing spring water.
(b) Hypothesis 2
Edema Papulation symptoms of infant atopic patients who took 200-300 cc of a space energy processing spring water for one month three times a day for 10 days may be different from those before taking the space energy processing spring water.
(c) Hypothesis 3
Oozing symptoms of infant atopic patients who took 200-300 cc of a space energy processing spring water for one month three times a day for 10 days may be different from those before taking the space energy processing spring water.
(d) Hypothesis 4
Excoriation symptoms of infant atopic patients who took 200-300 cc of a space energy processing spring water for one month three times a day for 10 days may be different from those before taking the space energy processing spring water.
(e) Hypothesis 5
Lichenification symptoms of infant atopic patients who took 200-300 cc of a space energy processing spring water for one month three times a day for 10 days may be different from those before taking the space energy processing spring water.
The result of the clinical tests is shown in Table 2.

TABLE 2

Subjects: Symptoms after taking Space Energy Processing Water.

		Edema		Excori-	Licheni-
Status	Erythema	Papulation	Oozing	ation	fication

Severe(III)	0	1	1	0	2
Moderate(II)	14	10	0	1	1
Mild(I)	13	12	1	4	1
0(No	13	17	38	35	36
symptom)

(a) Result of Hypothesis 1
In Erythema symptoms of infant atopic patients, there was a significant difference between before taking 200-300 cc of the space energy processing water three times a day for 10 days and after taking it and treatment. In other words, as illustrated in FIG. 50, in Erythema symptoms of patients after treatment by taking the space energy processing water, the status of a number of patients who belong to ‘severe’ and ‘moderate’ of Table 2 is moved to the status of mild or ‘0(no symptom)’, that is, symptoms have been improved.
(b) Result of Hypothesis 2
In Edema Papulation symptoms of infant atopic patients, there was a significant difference between before taking 200-300 cc of the space energy processing water three times a day for 10 days and after taking it and treatment. In other words, as illustrated in FIG. 51, in Edema Papulation symptoms of patients after treatment by taking the space energy processing water, the status of a number of patients is moved to the status of 0(no symptom), that is, symptoms have been improved.
(c) Result of Hypothesis 3
In Oozing symptoms of infant atopic patients, there was a significant difference between before taking 200-300 cc of the space energy processing water three times a day for 10 days and after taking it and treatment. In other words, as illustrated in FIG. 52, in Oozing symptoms of patients after treatment by taking the space energy processing water, the status of a number of patients is moved to the status of ‘0(no symptom)’, that is, symptoms have been improved.
(d) Result of Hypothesis 4
In Excoriation symptoms of infant atopic patients, there was no significant difference between before taking 200-300 cc of the space energy processing water three times a day for 10 days and after taking it and treatment. In other words, as illustrated in FIG. 53, in Excoriation symptoms of patients after treatment by taking the space energy processing water, the Excoriation symptoms of most subjects were not severe, and thus, it was a difficulty for finding significance in comparison with the results before and after taking the space energy processing water. However, it was verified by naked eyes that the skin status after taking the space energy processing water is more smooth than before taking the space energy processing water.
(e) Result of Hypothesis 5
In Lichenification symptoms of infant atopic patients, there was no significant difference between before taking 200-300 cc of the space energy processing water three times a day for 10 days and after taking it and treatment. Since Lichenification symptoms occur in adult chronic serious-case patients having a long disease-contraction period, as illustrated in FIG. 54, many Lichenification symptoms have not been found in infants having a short disease-contraction period of less than 4 years old.
As verified in the above results, symptoms such as Erythema (hypothesis 1), Edema Papulation (hypothesis 2), Oozing (hypothesis 3), and Excoriation (hypothesis 4) have been improved. Although, in case of Lichenification (hypothesis 5) symptoms, there was no significant difference, the existence of a space energy can be verified according to the results of hypotheses 1, 2, 3, and 4.
The space energy radiated from the energy amplification generator according to the present invention allows a living body energy to be activated, as verified in the above-described cancer cell growth experiments or clinical tests. However, the space energy shows various effects in the following fields.
If the space energy radiated from the energy amplification generator is radiated on a plant, the growth of the plant is brought on, and chemical reactions such as decay etc. are suppressed. Thus, it can be understood from the results that one action of the space energy according to the present invention is a non-ionization action for suppressing ionic polarization. Such a phenomenon occurs even in a human body and is as described above.
In addition, when the space energy is radiated on milk at about 20° C. for about three weeks, milk is not decayed but can be eaten and is changed into yogurt in which lactobacillus that has also been used in a health food is contained.
In addition, when the space energy is radiated on a strawberry for two months, the strawberry is not decayed or acidified, is dried and dehydrated and is changed into a glutinous shape like raisins. This does not harm the human body when man takes the strawberry. This represents a processing method by which foods can be kept for a long time, comparing when strawberries are kept in a general environment, for more than three days, they begin to be deformed and be decayed after several days have elapsed.
In addition, when the space energy is radiated on a cold-storage apple for about two or more years, due to moisture evaporation, part of the epidermis is crumpled and its interior fleshiness is not greatly different from the fleshiness of an original apple. In this way, when the present invention is applied to living body objects around man, their living body energy can be preserved and reinforced.
While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims.

INDUSTRIAL APPLICABILITY

As described above, in the space energy implosion unit and the energy amplification generator using the same according to the present invention, a space energy which is a kind of a torsion field and is imploded in a particular geometrical shape, is more effectively imploded so that the space energy can affect the human body and animals and plants favorably and furthermore, affect inanimate objects favorably.

Claims

1. A space energy implosion unit comprising:

a planar structure 1 having a regular pentagonal shape;

a cubic structure 2 which is installed to be separated from an upper portion of the planar structure 1 and has a regular pentagonal pyramid shape; and

a separation structure 3 which separates the planar structure 1 and the cubic structure 2 from each other and has a smaller area than areas of the planar structure 1 and the cubic structure 2.

2. The space energy implosion unit of claim 1, wherein the planar structure 1 further comprises a planar cut groove 1 a in which the planar structure 1 is cut to one side from the center, and the cubic structure 2 further comprises a cubic cut groove 2 a in which the cubic structure 2 is cut to one side from the center.

3. The space energy implosion unit of claim 1, wherein a cubic structure 2's implemented by forming a subcubic structure 2 b′ having a regular pentagonal pyramid shape having a smaller area than the area of a regular pentagonal planar plate 2 a′ on the planar plate 2 a′.

4. The space energy implosion unit of claim 3, wherein the cubic structure 2′ further comprises a cubic cut groove 2 c′ in which the cubic structure 2′ is cut to one side of the planar plate 2 a′ from the center.

5. The space energy implosion unit of one of claims 2 through 4, wherein the separation structure 3 has a regular pentagonal shape but has a cut groove 3 a in which the separation structure 3 is cut to one side from the center.

6. A space energy implosion unit comprising:

a planar structure 6 having a regular heptangular shape;

a cubic structure 7 which is installed to be separated from an upper portion of the planar structure 6 and has a regular heptangular pyramid shape; and

a separation structure 8 which separates the planar structure 6 and the cubic structure 7 from each other and has a smaller area than areas of the planar structure 6 and the cubic structure 7.

7. The space energy implosion unit of claim 6, wherein the planar structure 6 further comprises a planar cut groove 6 a in which the planar structure 6 is cut to two continuous sides from the center, and the cubic structure 7 further comprises a cubic cut groove 7 a in which the cubic structure 7 is cut to two continuous sides from the center.

8. The space energy implosion unit of claim 6, wherein a cubic structure 7′ is implemented by forming a subcubic structure 7 b′ having a regular heptangular pyramid shape having a smaller area than the area of a regular heptangular planar plate 7 a′ on the planar plate 7 a′.

9. The space energy implosion unit of claim 8, wherein the cubic structure 7′ further comprises a cubic cut groove 7 c′ in which the cubic structure 7′ is cut to two continuous sides of the planar plate 7 a′ from the center.

10. The space energy implosion unit of one of claims 7 through 9, wherein the separation structure 8 has a regular heptangular shape but has a cut groove 8 a in which the separation structure 8 is cut to two continuous sides from the center.

11. An energy amplification generator comprising:

a first geometrical structure in which vertices of each of five or seven pieces of planar structures 1 having a regular pentagonal shape contact one another;

a second geometrical structure which is separated from an upper portion of the first geometrical structure and in which vertices of each of five or seven cubic structures 2 having a regular pentagonal pyramid shape contact one another; and

a plurality of separation structures 3 which separate the first geometrical structure and the second geometrical structure from each other, are installed between the planar structure 1 and the cubic structure 2 and have a smaller area than areas of the planar structure 1 and the cubic structure 2.

12. The energy amplification generator of claim 11, wherein the first geometrical structure is one or two or more.

13. The energy amplification generator of claim 11, wherein the planar structure 1 further comprises a planar cut groove 1 a in which the planar structure 1 is cut to one side between two contacting vertices from the center, and the cubic structure 2 further includes a cubic cut groove 2 a in which the cubic structure 2 is cut to one side between two contacting vertices from the center.

14. The energy amplification generator of claim 11, wherein a cubic structure 2′ is implemented by forming a subcubic structure 2 b′ having a regular pentagonal or heptangular pyramid shape having a smaller area than the area of a regular pentagonal planar plate 2 a′ on the planar plate 2 a′.

15. The energy amplification generator of claim 14, wherein the cubic structure 2 further includes a cubic cut groove 2 c in which the cubic structure 2 is cut to one side between two contacting vertices of the planar plate 2 a from the center.

16. The energy amplification generator of claim 11, wherein the separation structures 3 have a regular pentagonal shape but also have a cut groove 3 a in which each of the separation structures 3 is cut to one side from the center.

17. The energy amplification generator of one of claims 12 through 16, further comprising a plate structure which supports the first geometrical structure and has the same shape as that of the first geometrical structure.

18. The energy amplification generator of claim 17, further comprising a case 50 in which the first geometrical structure, the separation structures 3, and the second geometrical structure stacked on the plate structure are built and has a cover 51 in which a radiation sphere 52 through which a space energy is radiated in a forward direction is formed, and a case hole 53 corresponding to the plate hole 43 is formed in the case 50.

19. An energy amplification generator comprising:

first geometrical structure in which both-end vertices at two continuous sides of each of five or seven pieces of planar structures 6 having a regular heptangular shape contact one another;

second geometrical structure which is separated from an upper portion of the first geometrical structure and in which both-end vertices at two continuous sides of each of five or seven cubic structures 7 having a regular heptangular pyramid shape contact one another; and

plurality of separation structures 8 which separate the first geometrical structure and the second geometrical structure from each other, are installed between the planar structure 6 and the cubic structure 7 and have a smaller area than areas of the planar structure 6 and the cubic structure 7.

20. The energy amplification generator of claim 19, wherein the first geometrical structure is one or two or more.

21. The energy amplification generator of claim 19, wherein the planar structure 6 further comprises a planar cut groove 6 a in which the planar structure 6 is cut to two continuous sides between two contacting vertices from the center, and the cubic structure 7 further includes a cubic cut groove 7 a in which the cubic structure 7 is cut to two continuous sides between two contacting vertices from the center.

22. The energy amplification generator of claim 19, wherein a cubic structure 7′ is implemented by forming a subcubic structure 7 b′ having a regular pentagonal or heptangular pyramid shape having a smaller area than the area of a regular heptangular planar plate 7 a′ on the planar plate 7 a′.

23. The energy amplification generator of claim 22, wherein the cubic structure 7′ further includes a cubic cut groove 7 c′ in which the cubic structure 7′ is cut to two continuous sides between two contacting vertices of the planar plate 7 a′ from the center.

24. The energy amplification generator of claim 19, wherein the separation structures 8 have a regular heptangular shape but also have a cut groove 8 a in which each of the separation structures 3 is cut to two continuous sides from the center.

25. The energy amplification generator of one of claims 19 through 24, further comprising a plate structure which supports the first geometrical structure and has the same shape as that of the first geometrical structure.

26. The energy amplification generator of claim 25, further comprising a case 50 in which the first geometrical structure, the separation structures 8, and the second geometrical structure stacked on the plate structure are built and has a cover 51 in which a radiation sphere 52 through which a space energy is radiated in a forward direction is formed, and a case hole 53 corresponding to the plate hole 43 is formed in the case 50.