JP2017094052A - Quantum irradiation dome - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently apply a quantum wave to an object to be irradiated.SOLUTION: A resin panel 23 kneaded with semiconductor powder is lined on a metal enclosure 22, and a large-sized dome 2 for housing a person to be treated and a material is formed in the inside. Therefore, a quantum wave which is radiated from the metal enclosure 22 is applied to an object to be irradiated, for instance, a person to be treated (human body), and the quantum wave which penetrate the person to be treated or is reflected by the person to be treated, is reflected by the semiconductor powder and again applied to the person to be treated. With this, the quantum wave can be efficiently applied to the total body of the person to be treated, or in the case of various objects such as food, organisms and industrial products as the other object to be irradiated, the denaturation can be efficiently performed.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a quantum irradiation dome used when treating a patient or modifying an object using quantum waves.

  2. Description of the Related Art Conventionally, treatment devices are commercially available that irradiate a human body with microwaves or electromagnetic waves to improve blood circulation or enhance the healing effect of an affected area. However, since the effect is poor or the effect on the inside of the human body is low (difficult to penetrate), the present inventor has previously proposed Patent Document 1.

  Patent Document 1 uses an AC power supply as a bias, an electromagnetic wave received from the outside by a mechanism such as a so-called ore radio, is amplified by an LC parallel resonance circuit and superimposed, and only a negative component is taken out from an electrode or the like to an affected area. When applied, it causes fluctuations in the outer electron orbits of the material atoms constituting the electrode, generates a quantum wave due to the vibration of the protons associated therewith, and irradiates the affected area, thereby activating the cells in the affected area. Yes.

  In Patent Document 2, the same effect is obtained by irradiating the medical sheet with the quantum wave and the far-infrared ray and sticking the medical sheet on the human body.

  In Patent Document 3, the edible oil is denatured by irradiating the edible oil with quantum waves and used for oxidation prevention.

Japanese Patent No. 5684434 Japanese Patent No. 5567841 Japanese Patent No. 5727104

  Since the above-mentioned Patent Documents 1 and 2 use quantum waves, it is possible to treat the inside of the human body, particularly the inside of the cranium that shields the microwaves and electromagnetic waves, and handle with a small configuration. Is also easy. However, this is a local response, and a wide range of treatments throughout the body cannot be efficiently performed. Also in Patent Document 3, since the electrode is immersed in edible oil or the electrode is brought into contact with a metal housing containing the edible oil, there is a limit to objects that can be denatured.

  An object of the present invention is to provide a quantum irradiation dome capable of performing a wide range of treatments over a whole body and a wide range of denaturation of objects when performing treatment with quantum waves and denaturation of objects.

  In the quantum irradiation dome of the present invention, when a quantum wave is applied, a metal casing that radiates the quantum wave to the inside and a resin, preferably ABS, are mixed with semiconductor powder that reflects the quantum wave. Comprising a resin panel affixed to the inside of the metal casing and irradiating the irradiated object accommodated in the interior with the quantum wave.

  According to the above configuration, a metal housing that radiates quantum waves inside is lined with a resin kneaded with semiconductor powder that reflects the quantum waves, and a large-sized body that accommodates a patient or substance inside. Provide a dome. According to the experiment results of the present inventors, semiconductor powder reflects quantum waves with high efficiency, and is therefore suitable as a material lined on the dome. Therefore, when a quantum wave is applied to the metal casing, radiation to the outside is also performed, but the inside can be efficiently contained by repeated reflection by the resin containing the semiconductor powder. Then, when the quantum wave is radiated from the metal casing of the dome by the quantum wave generator, the quantum wave is irradiated, for example, to the person to be treated (human body) as the object to be irradiated and further transmitted through the person to be treated. The quantum wave reflected by the subject or the patient is reflected by the resin semiconductor powder and irradiated again to the subject.

  In this way, it is possible to efficiently irradiate the whole body of the subject with a quantum wave that has the characteristics of easily reaching the inside of the human body and passing through bones and the like. As a result, the whole body can be activated, the state of organs related in a complicated manner can be adjusted, or cancer that has spread throughout the whole body can be atrophied. Further, as other irradiated objects, there are various objects such as food, living things, and industrial products, and the modification of the atomic nuclei can be performed efficiently. Examples of quanta include photons, electrons, quark, and neutrinos.

  In the quantum irradiation dome of the present invention, the semiconductor powder is contained in an amount of 2 to 20 wt%, particularly preferably 5 wt%.

  According to the above configuration, in the experiment result of the present inventors, the reflectance of the quantum wave starts to be saturated at about 2% by weight with respect to the concentration of the semiconductor powder, so the minimum content is 2% by weight. By doing so, cost performance can be improved. Then, considering the density variation and the like, the optimum value is preferably 5% by weight. On the other hand, since the maximum value is almost completely saturated at 20% by weight, it is preferable to set the maximum value to 20% by weight in order to reduce material costs and to suppress a decrease in strength of the resin.

  Furthermore, in the quantum irradiation dome of the present invention, when the semiconductor powder is contained in an amount of 5% by weight, the resin panel is formed to a thickness of 2 mm or more.

  According to said structure, if the resin panel is thick, the effect of reflection will become large, but it will cost.

  Therefore, by setting the resin panel to a plate thickness of 2 mm or more, it is possible to obtain the desired reflectance when the semiconductor powder contains 5% by weight. Moreover, cost performance can be improved by setting it as 2 mm.

  In the quantum irradiation dome of the present invention, the semiconductor powder is a metal oxide and / or a silicate compound.

  According to said structure, according to the experiment result of this inventor, as a semiconductor powder, a metal oxide or a silicate compound has a large effect which reflects a quantum wave. The metal oxide preferably contains at least one of zinc oxide, titanium oxide, zirconium oxide, magnesium silicate, and aluminum oxide. Moreover, it is preferable that the said metal oxide and a silicate compound are used in combination of multiple types.

  In the quantum irradiation dome of the present invention, the resin is further kneaded with metal powder for imparting conductivity.

  According to the above configuration, the resin is further kneaded with a metal powder for imparting conductivity to a semiconductor powder such as a metal oxide or a silicate compound. The effect of reflecting can be further increased.

  Furthermore, in the quantum irradiation dome of the present invention, the semiconductor powder and the metal powder are powders of 10 to 100 μm, particularly preferably 30 to 50 μm.

  According to said structure, the effect which reflects the said quantum wave can be enlarged more.

  In addition, the quantum irradiation dome of the present invention is formed in a cylindrical shape or a substantially hexagonal cylindrical shape.

  According to said structure, the dome of a cylinder or a substantially hexagonal cylinder functions like an integrating sphere used in optical measurement, and for a patient to be disposed downward from the center of the cylinder or the substantially hexagonal cylinder, Quantum waves reflected from the inner wall concentrate.

  Therefore, it is possible to efficiently irradiate the subject or the object with the quantum.

  Furthermore, in the quantum irradiation dome according to the present invention, the metal casing includes the outer shell by a relatively thick outer shell for obtaining strength and a support member electrically connected to the outer shell. The inner shell is disposed at a predetermined interval, and is formed to be relatively thin with the inner shell reflecting the quantum wave. The inner shell is electrically spaced from the inner shell with a predetermined interval. And an inner shell to which the quantum wave is applied.

  According to the above configuration, the relatively thick outer shell gives strength, blocks external electromagnetic waves, reflects the quantum wave inward by the inner shell, is electrically insulated, and has a relatively thin wall. A quantum wave from the quantum wave generator is applied to the inner shell and radiated to the inside, and a reflected wave from the patient or object is re-reflected.

  Therefore, it is possible to irradiate the treatment subject or the object with the quantum wave extremely efficiently.

  The quantum irradiation dome according to the present invention is characterized in that a quantum wave from a quantum wave generator is applied to the metal casing to treat the human being as the irradiation object.

  As described above, the quantum irradiation dome of the present invention has a metal casing that radiates quantum waves inside, and is lined with resin in which semiconductor powder that reflects the quantum waves is kneaded with high efficiency. Form a large dome to contain the therapist and the substance.

  Therefore, for example, a quantum wave that is irradiated to a person to be treated (human body) as an object to be irradiated and further transmitted through the patient or reflected by the person to be treated is reflected by the semiconductor powder of the resin and treated again. Therefore, the whole body of the subject can be irradiated efficiently. Or in the case of various objects, such as food, a living thing, and an industrial product, as another irradiation object, the modification | denaturation can also be performed efficiently.

It is a figure showing the whole quantum therapy equipment composition concerning one embodiment of the present invention. It is a figure which shows the use condition of the said quantum therapy device. It is a typical vertical sectional view which shows the structure of the dome for quantum irradiation which concerns on one Embodiment of this invention. It is an electric circuit diagram of the 2nd quantum wave generator. It is a perspective view which shows the structure around LED quantum irradiator which is a 3rd quantum wave generator. It is a figure which shows typically the irradiation method of quantum information to LED.

  FIG. 1 is a diagram illustrating an overall configuration of a quantum therapy device 1 according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating a usage state of the quantum therapy device 1. In FIG. 2, the configuration of FIG. 1 is partially omitted. The quantum therapy device 1 includes a quantum irradiation dome 2 installed at a place where treatment is performed on a patient 9 as an irradiation object, an antenna 3 as a quantum wave generator, and other quantum wave generators 4. The high-voltage treatment device 5, the LED quantum irradiator 6 as another quantum wave generator, and an antenna as a quantum wave oscillator installed at any place where the treatment is performed or at any arbitrary place 8 and is configured.

  The dome 2 is a large dome whose inner wall surface 21 is made of a material that radiates and reflects quantum waves, and accommodates the patient 9. Quantum waves generated by the antenna 3, the quantum wave generator 4 and the LED quantum irradiator 6 are radiated into the dome 2. The radiated quantum wave is irradiated to the patient 9, and the quantum wave transmitted through the patient 9 or reflected by the patient 9 is reflected in the dome 2 and irradiated again to the patient 9. Will be.

  In this way, it is possible to efficiently irradiate the whole body of the person 9 to be treated with a quantum wave having a feature that it easily reaches the inside of the human body and passes through bones and the like. As a result, the whole body can be activated, the state of organs related in a complicated manner can be adjusted, or cancer that has spread throughout the whole body can be atrophied. Examples of quanta include photons, electrons, quark, and neutrinos.

  FIG. 3 is a schematic vertical sectional view showing the structure of the dome 2. In general, the dome 2 is configured by attaching a resin panel 23 capable of reflecting quantum waves to the inside of a metal housing 22 capable of radiating quantum waves. The resin 231 of the resin panel 23 is preferably ABS, and semiconductor resin 232 that reflects quantum waves is kneaded into the resin 231 and molded to form the resin panel 23. According to the experiment results of the present inventors, the semiconductor powder 232 reflects the quantum wave with high efficiency, and is therefore suitable as a material lined on the dome 2. Therefore, when a quantum wave is applied to the metal housing 22, radiation to the outside is also performed, but the inside can be efficiently contained by repeated reflection by the resin 231 containing the semiconductor powder 232.

  The quantum irradiation dome 2 used in the quantum therapy device 1 is preferably formed in a cylindrical shape or a substantially hexagonal cylindrical shape as shown in FIG. By doing so, the dome of the cylinder or the substantially hexagonal cylinder functions like an integrating sphere used in the optical measurement, and the inside of the subject 9 disposed downward from the center of the cylinder or the approximately hexagonal cylinder The quantum waves reflected by the wall surface 21 are concentrated. Thereby, the treatment subject 9 can be efficiently irradiated with quantum. In addition, since the quantum irradiation dome 2 accommodates the human being 9 as the person to be treated, the end portion of the quantum irradiation dome 2 is not limited to the above-described efficient irradiation of the quantum wave but also has a feeling of occlusion. The opened substantially hexagonal cylindrical shape or cylindrical shape is preferable.

  The metal housing 22 is configured by a three-layer metal structure of an outer shell 221, an inner shell 222, and an inner shell 223, and an insulator 224 and an outer shell that electrically insulate and support the inner shell 223 within the inner shell 222. Further, a support member 225 for supporting the inner shell 222 by 221 is further provided. The outer shell 221, the inner shell 222, and the inner shell 223 having conductivity are made of metal such as tin, zinc, SUS304, or aluminum, and are formed in a substantially hexagonal cylindrical shape in this embodiment.

  The outer shell 221 is formed of a relatively thick metal plate, for example, 3 mm in order to obtain strength. The middle shell 222 is arranged at a predetermined interval, for example, 10 cm, inside the outer shell 221 by a support member 225 electrically connected to the outer shell 221. The inner shell 222 is made of a material suitable for reflecting quantum waves, and is formed of, for example, a 3 mm metal plate. The inner shell 223 is relatively thin, for example, 1 mm, and is formed of a metal plate suitable for quantum wave oscillation. Further, the inner shell 223 is disposed with a predetermined interval, for example, 10 mm inside the inner shell 222 by an insulator 224 such as foamed polystyrene, and is electrically insulated from the inner shell 222. In this way, the treatment subject 9 can be irradiated with quantum waves very efficiently.

  The inner shell 223 is supplied with a quantum wave received by the antenna 3 by quantum teleportation via a cable 31 as described later. The antenna 3 is housed in a cover 35 installed on the top portion 26 of the metal housing 22. The cover 35 is made of metal, and is electrically connected to the antenna 3 by housing the antenna 3. The cover 35 is electrically insulated from the outer shell 221 and the middle shell 222 connected to the outer shell 221 by a rubber sheet 33 or the like, and a cable inserted through the connection hole 27 formed in the outer shell 221 and the middle shell 222 is used. The bottom surface of the cover 35 and the top surface of the inner shell 223 are electrically connected.

  Although schematically shown in FIG. 3, the bottom surface of the six surfaces of the metal housing 22 lies with the patient 9 and a bed 24 that can be drawn / stored in the axial direction of the hexagonal cylinder is formed. Yes. An inner shell 223 and a resin panel 23 are provided on the bed 24 side, and the inner shell 223 is electrically connected to the remaining inner shell 223 by a cable 28. An outer shell 221 and a middle shell 222 are formed on the floor side of the bottom surface, and the bed 24 can travel on the rail 25 formed on the middle shell 222 for the person 9 to enter and exit. ing.

  In the dome 2 configured as described above, according to the experiment result of the present inventor, the reflectance of the quantum wave starts to be saturated at about 2% by weight with respect to the concentration of the semiconductor powder 232. The amount is preferably 2% by weight. By doing so, cost performance can be improved. In consideration of concentration variation and the like, the optimum value is particularly preferably 5% by weight. On the other hand, since the maximum value is almost completely saturated at 20% by weight, it is preferably 20% by weight in order to suppress material costs and to suppress a decrease in strength of the resin.

  As described above, the resin panel 23 is formed by molding the semiconductor powder 232 in the resin 231 such as ABS. In order to form the substantially hexagonal cylinder or the substantially cylindrical inner wall surface as described above, the resin panel 23 is molded into a small area of about 5 cm square, for example, and is screwed and fixed to the inner shell 223 with screws 29. If the resin panel 23 is thick, the effect of reflection is increased, but the cost is increased. Therefore, by setting the resin panel 232 to a plate thickness of 2 mm or more, an expected reflectance in the case where the semiconductor powder 232 is contained by 5% by weight can be obtained. Moreover, cost performance can be improved by setting it as 2 mm.

  Further, according to the experiment result of the present inventors, as the semiconductor powder 232, a metal oxide or a silicate compound is preferable because it has a large effect of reflecting quantum waves. The metal oxide preferably contains at least one of zinc oxide, titanium oxide, zirconium oxide, magnesium silicate, and aluminum oxide. Moreover, it is preferable that the said metal oxide and a silicate compound are used in combination of multiple types. Furthermore, the above-mentioned metal oxides and silicate compounds may be used by pulverizing ores containing them while maintaining the natural minerals instead of the refined minerals.

  Furthermore, it is preferable that the resin 231 is kneaded with metal powder for imparting conductivity. Examples of the metal powder include tin and zinc powder. Thus, the metal powder is kneaded into the semiconductor powder 232, so that the effect of the resin panel 23 reflecting the quantum wave can be further increased. The semiconductor powder 232 and the metal powder are 10 μm or more and 100 μm or less, particularly preferably 30 μm or more and 50 μm or less (for example, 325 mesh), so that the resin panel 23 has an effect of reflecting quantum waves. Can be larger.

  Below, the quantum wave irradiation method which concerns on one Embodiment of this invention by the quantum therapy device 1 is explained in full detail. In the present embodiment, the quantum wave is generated by the antenna 3, the quantum wave generator 4, and the LED quantum irradiator 6, and has a very efficient and synergistic effect by using the dome 2 configured as described above. Then, the patient 9 is irradiated.

  First, the antenna 3 as a first quantum wave generator receives a quantum wave oscillated by a quantum wave oscillator and transmitted from the antenna 8 at a super light speed using the quantum teleportation phenomenon, and a cable 36. Is reradiated into the dome 2 from the inner wall surface 21 of the inner shell 223. Examples of the re-radiated quantum include the photon, electron, quark, and neutrino.

  In order to use the quantum teleportation phenomenon, it is preferable that the receiving antenna 3 is made of the same kind of metal material as the transmitting antenna 8 and is formed in a small and similar shape. According to the experiment results of the present inventors, if the metal material of the transmitting-side antenna 8 and the receiving-side antenna 3 are different, the quantum energy propagation efficiency is poor, and the transmitting-side antenna 8 and the receiving-side antenna 3 are poor. This is because the quantum energy is hardly propagated if the shapes are different. Examples of the metal material include tin, zinc, SUS304, and aluminum. Among these, aluminum is particularly preferable. Thus, quantum energy can be efficiently propagated by forming the transmitting-side antenna 8 and the receiving-side antenna 3 with similar metal materials.

  Furthermore, according to the experiment results of the present inventors, the similar antennas 3 and 8 have the highest quantum energy propagation efficiency when they are hexagonal cylinders. In particular, as shown in FIG. 1, a pair of members 31 having three wall surfaces 311, 312, 313; 321, 322, 323, 811, 812, 813; In the case of realizing the combination of 32; 81, 82, the members 31, 32; 81, 82 can be easily formed by bending the rectangular metal plate into 120 parts at 120 degrees.

  Here, it is possible to generate a quantum wave at the place where the dome 2 is installed by using another quantum wave generator 4 or an LED quantum irradiator 6 as will be described later, and apply the quantum wave to the dome. However, by utilizing the above-mentioned quantum teleportation phenomenon, a large-energy quantum wave generated by a dedicated large-scale quantum wave oscillator provided outside the quantum therapy device 1 can be simultaneously applied regardless of distance and time. Radiation can occur in the dome 2.

  Next, the quantum wave generator 4 as the second quantum wave generator is configured as shown in FIG. 4, for example. 4 includes an AC power supply 41 that generates an AC voltage, an LC parallel resonance circuit 42 that superimposes a voltage derived from an external electromagnetic wave on the AC voltage, and rectifies the superimposed voltage. And a rectifying element 43 that applies a negative component to the inner wall surface 21 of the dome 2. The output from the rectifying element 43 is given to the inner shell 223 via the cable 44.

  The AC power supply 41 generates AC at a variable frequency, and the frequency range is 2 Hz or more and 200 Hz or less, preferably 100 Hz. The output voltage of the AC power supply 41 is 25 V or more and 250 V or less, preferably 100 V, and is output with a current of 100 mA or more and 300 mA or less. The LC parallel resonance circuit 42 extracts a resonance frequency component from the external electromagnetic wave. The resonance frequency is 20 kHz or more and 2 MHz or less. Then, a voltage obtained by superimposing a voltage induced in the LC parallel resonant circuit 42 from an external electromagnetic wave on the AC voltage of the AC power supply 41 is rectified by the rectifying element 43 to give a negative component to the inner wall surface 21 of the dome 2. Thus, the photons, electrons, quark, neutrino and other quanta are radiated from the inner wall surface. Even if the full wave component is given to the inner wall surface 21 without providing the rectifying element 43, the quantum is radiated, but according to the experiment result of the present inventors, the amount of radiation is greatly reduced. It is preferable to provide only a negative component.

  The quantum wave generator 4 can generate a quantum wave at the place where the dome 2 is installed. Further, with such a low frequency voltage, the quantum wave radiated from the inner wall surface 21 of the dome 2 by the quantum teleportation phenomenon can be enhanced.

  The dome 2 is insulated from the ground as described above, but a low-frequency weak current of several μA to several tens of μA flows from the dome 2 into the air. Therefore, it is possible to appropriately adjust the weak current, and thus the quantum energy irradiated to the patient 9 by putting a high resistance between the dome 2 and the ground. That is, when the discharge amount is increased according to the scale of the device, the usable energy is reduced.

  Preferably, in the quantum therapy device 1 of the present embodiment, a high-voltage power supply 5 is further provided. The high-voltage power supply 5 applies a negative high voltage of 3000 V or more and 10000 V or less that periodically changes at a low frequency, for example, 50 Hz or 60 Hz, to the inner wall surface 21 of the dome 2 via the cable 51. According to the experiment results of the present inventors, the inner wall surface of the dome 2 is obtained by connecting a high-voltage power source 5 composed of a commercially available high-voltage treatment device or the like to the inner wall surface 21 of the dome 2 to give a low-frequency negative high voltage. The quantum wave radiated from 21 can be enhanced, which is preferable. In the example of FIG. 1, the high-voltage power supply 5 is shown as a quantum wave amplifier, and outputs 3000 V when the indicator 52 is lit, outputs 6000 V when the indicator 53 is lit, and outputs 9000 V when the indicator 54 is lit. Represents that

  Preferably, in the quantum therapy device 1 of the present embodiment, a microwave oscillator may be provided. As the microwave oscillator, one used for a facial device can be used. The microwave can be generated by applying a voltage to the crystal resonator, and the oscillation frequency can be changed depending on the material of the oscillation plate connected to the crystal resonator. The oscillation plate is made of a conductive plate such as carbon, graphite, titanium, magnesium, or SUS, and the oscillation frequency is 10 to 200 MHz and the power is 2 to 30 W. With this microwave, the therapeutic effect can be enhanced by a synergistic effect with the quantum wave, and by changing the frequency of the microwave, the site to be treated in the patient 9 can be changed.

  Subsequently, the LED quantum irradiator 6 will be described as a third quantum wave generator. The configuration around the LED quantum irradiator 6 is shown in FIG. FIG. 5 is a perspective view showing the vicinity of the rear ceiling of the dome 2. The rear of the dome 2 is covered with an end plate 20 having a ventilation opening 201. Near the ceiling, a monitoring camera 79 is installed in the center, speakers 71 and 72 are installed on both sides, and the LED quantum irradiator 6 is installed below the monitoring camera 79. The monitoring camera 79 is connected to a personal computer or the like for operating the quantum therapy device 1 (not shown) so that the patient 9 can be monitored. The speakers 71 and 72 radiate music obtained by reproducing the CD 74 shown in FIG.

  This LED quantum irradiator 6 is based on the discovery of the present inventor that light can be used as a means for transmitting quantum energy, and the quantum energy is superimposed on the light and propagated to the patient 9. This is a new quantum therapy device. The LED quantum irradiator 6 is composed of an assembly of a large number of LEDs 61, and each LED 61 is mounted on a common substrate and lights up when a DC voltage is applied from a power source (not shown). The board on which the LED 61 is mounted is housed in the housing 62, and a cover having a lens corresponding to each LED 61 is covered on the front surface so as to protect and condense the LED 61. As described above, the LED quantum irradiator 6 superimposes the quantum energy on the light and propagates it to the patient 9, so that the LED quantum irradiator 6 first reaches the patient 9 with as much direct light as possible. Is attached to the ceiling of the dome 2 with a predetermined depression angle (looking down angle).

  Here, there are various elements that emit light, but as described above, when light is used as a carrier of quantum energy, even if the element emits the same light, quantum is accumulated in incandescent bulbs and fluorescent lamps. However, it has been confirmed by experiments of the present inventors that there is no effect unless it is a semiconductor light emitting element such as an LED or a semiconductor laser. Therefore, as the element, a semiconductor light emitting element such as an LED that stores quantum information is used by irradiating the quantum with a predetermined period, and a power source for energizing the semiconductor light emitting element is provided. When energization is performed, the light emitted from the semiconductor light emitting element is used as a carrier, and the quantum energy based on the stored quantum information is superimposed on the light and propagated to the irradiated site.

  FIG. 6 is a diagram schematically illustrating a method of irradiating the LED 61 with the quantum information 69. As shown in FIG. 6A, the quantum information 69 is irradiated by placing the LED 61 on the conductive plate 63 and applying a negative voltage with a predetermined period to the conductive plate 63. By applying a negative potential or electric field to the conductive plate 63 for a predetermined time, the quantum generated from the conductive plate 63 can be accumulated in the LED 61. The conductive plate 63 generates the potential and the electric field when a negative voltage is applied from the application circuit 65 shown in FIG. 6B or the application circuit 66 shown in FIG. As shown in FIG. 6A, the conductive plate 63 may be grounded, for example, via a high resistance 64 of MΩ or higher.

  The application circuit 65 includes a series circuit of a diode 652 and a resistor 653 connected to one terminal of the AC power supply 651, and a series circuit of a diode 654 and a resistor 655 connected to the other terminal. The cathodes of the diodes 652 and 654 are connected to the AC power source 651, and the anode is connected to one end of the resistors 653 and 655. As a result, a negative half-wave voltage extracted from the other ends of the resistors 653 and 655 is applied to the conductive plate 63. When the AC power supply 651 is a single-phase two-wire, one wire is grounded in a pole transformer or the like, and this application circuit 65 is surely negative when any of the two wires is hot. The voltage can be taken out.

  The application circuit 66 is constituted by a diode bridge composed of diodes 662 to 665. The cathode of the diode 662 and the anode of the diode 664 are connected to one terminal of the AC power supply 661, the cathode of the diode 663 and the anode of the diode 665 are connected to the other terminal, and the cathodes of the diodes 664 and 665 are grounded. . As a result, a negative full-wave voltage extracted from the anodes of the diodes 662 and 663 is applied to the conductive plate 63.

  The AC power supplies 651 and 661 apply an AC voltage of 2 Hz to 2 kHz, preferably 3 Hz to 100 Hz. When AC power supplies 651 and 661 are commercial power supplies, for example, a voltage of 100 V (effective value) is applied to conductive plate 63 at 50 or 60 Hz. The AC power supplies 651 and 661 are used in this embodiment because the circuit is simple, and the periodic negative voltage may be a triangular wave, a rectangular wave, a pulse wave, or the like.

  By applying a periodic negative voltage to the conductive plate 63 in this way, the LED 61 is irradiated with any one of 17 types of quanta such as photons, electrons, quark, neutrino, etc. It is easy to occur (occurs a lot), and neutrinos may be generated). The quantum information 69 is stored in the LED 61 by irradiating these quanta for a predetermined time, specifically 2-3 minutes or more, preferably 4-5 minutes or more. When the LED 61 storing the quantum information 69 is energized from a DC power supply, quantum energy is emitted from the LED 61.

  Therefore, when a living organism is exposed to the radiated quantum energy, the tissue is activated, specifically the electron arrangement of atoms is affected (the outer electron orbit of the material atom is changed, and the proton For example, it is possible to generate quantum waves by vibrations), to promote blood circulation of animals, and to enhance the healing effect of the affected area. Moreover, the target symptom can be varied according to the predetermined period. In particular, when the predetermined period is 3 to 100 Hz, it is possible to obtain a human blood circulation improving effect, so that stiff shoulders and swelling are eliminated, and wounds are healed quickly.

  The clinical trial results of the present inventors are shown below. Currently, four treatment units are in operation, and more than 200 clinical trial data have been collected. A notable example is that a 67-year-old male patient with stage 4 liver cancer and type II diabetes Irradiation has completely eliminated the cancer. In the present clinical trial results, more than 80% of improvement examples have been extracted, and from these 200 or more cases, for example, frequencies that can improve dementia and frequencies that accelerate the regeneration of brain cells are revealed. The effect is also obtained. In the clinical trial, the LED quantum irradiator 6 is not used, and the quantum wave is introduced into the dome 2 using the antenna 3 and the quantum wave generator 4.

Women with age-related macular degeneration with a history of 15 years → 100% vision recovery with treatment once every 40 minutes Men with leukemia with a history of 5 years → 80% recovery with 3 treatments once an hour Men with a history of lung cancer with a history of 2 years → Cancer cells disappeared by 3 treatments per hour → Women with a history of 1 year due to radiation exposure → 80% improvement with treatments 2 times per hour → Women with a history of 2 years with colon cancer (intestinal obstruction) → Treatments 3 times per hour Cancer cell disappearance Woman with cerebral palsy (right body) with a history of 42 years → Sensory recovery with 10 treatments for 1 hour, 80% recovery with walking ability with walker. Woman with a history of cervical cancer with a history of 1 year → 3 times 30 minutes Treatment reduced cancer by 80%. For most other unexplained diseases, all cases showed an improvement effect, and none had an improvement effect.

  As described above, in the quantum therapy device 1 of the present embodiment, the quantum wave generated by the quantum teleportation from the antenna 3 serving as the first quantum wave generator, the quantum wave from the second quantum wave generator 4, and the first Since any one of the quantum waves from the LED quantum irradiator 6 which is the quantum wave generator 3 is radiated into the quantum irradiation dome 2 and irradiates the treatment subject 9, it has a very efficient and synergistic effect. The treatment of the subject 9 can be performed.

  Although this embodiment demonstrated the example utilized as the quantum therapy device 1 which performs a human treatment, the above-mentioned composition is applicable also to other irradiated objects. For example, as other irradiated objects, there are various objects such as food, living things, and industrial products, and the modification of the nuclei can be efficiently performed.

DESCRIPTION OF SYMBOLS 1 Quantum therapy device 2 Quantum irradiation dome 21 Inner wall surface 22 Metal housing 221 Outer shell 222 Inner shell 223 Inner shell 224 Insulator 225 Support member 23 Resin panel 231 Resin 232 Semiconductor powder 24 Bed 25 Rail 28 Cable 3 Antennas 31 and 32 A pair of members 311, 312, 313; 321, 322, 323 Wall surface 33 Rubber sheet 35 Cover 36 Cable 4 Quantum wave generator 41 AC power supply 42 LC parallel resonance circuit 43 Rectifier element 44 Cable 5 High voltage power supply 51 Cables 52 to 54 Indicator 6 LED quantum irradiator 61 LED
62 Housing 69 Quantum information 71, 72 Speaker 73 Player 79 Surveillance camera 8 Antenna 81, 82 A pair of members 811, 812, 813; 821, 822, 823 Wall surface 9 Subject to be treated

Claims (11)

Given a quantum wave, a metal housing that radiates the quantum wave inside;
A resin powder that is kneaded with a semiconductor powder that reflects the quantum wave, and includes a resin panel that is attached to the inside of the metal casing;
A quantum irradiation dome characterized by irradiating the irradiation object accommodated in the interior with the quantum wave.   3. The quantum irradiation dome according to claim 2, wherein the semiconductor powder is contained in an amount of 2 to 20% by weight, particularly preferably 5% by weight.   3. The quantum irradiation dome according to claim 2, wherein when the semiconductor powder is contained in an amount of 5% by weight, the resin panel is formed to a thickness of 2 mm or more.   4. The quantum irradiation dome according to claim 1, wherein the semiconductor powder is a metal oxide and / or a silicate compound. 5.   5. The quantum irradiation dome according to claim 4, wherein the metal oxide includes at least one of zinc oxide, titanium oxide, zirconium oxide, magnesium silicate, and aluminum oxide.   The dome for quantum irradiation according to any one of claims 1 to 5, wherein a metal powder for imparting conductivity is further kneaded into the resin.   7. The quantum irradiation dome according to claim 6, wherein the semiconductor powder and the metal powder are powders of 10 to 100 [mu] m, particularly preferably 30 to 50 [mu] m.   The quantum irradiation dome according to any one of claims 1 to 7, wherein the quantum irradiation dome is formed in a cylindrical shape or a substantially hexagonal cylindrical shape. The metal casing is
An outer shell for strength,
A support member electrically connected to the outer shell, and a middle shell that is disposed at a predetermined interval inside the outer shell and reflects the quantum wave;
2. An inner shell provided with a predetermined interval inside the inner shell and electrically insulated from the inner shell, to which the quantum wave is applied. The dome for quantum irradiation of any one of -8.   The quantum irradiation dome according to any one of claims 1 to 9, wherein a quantum wave from a quantum wave generator is applied to the metal casing to treat a human being as the irradiation object. .   10. The quantum irradiation according to claim 1, wherein a quantum wave from a quantum wave generator is applied to the metal casing to denature a nucleus of an object that is the object to be irradiated. dome.

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