JPH0668854A - Miniature solar lamp - Google Patents

Abstract

PURPOSE:To regenerate carbon dioxide gas in the atmosphere to oxygen to be sued for biochemical reaction with a human body in a plasma reaction part. CONSTITUTION:In a ceiling installation system, for a UV-ray lamp of 100W or less, a cylindrical reflection mirror 22 is closed with a cover, and four bulbs are set inside. Mass is converted into energy by the constancy of the speed light, principle of relativity, and the pelation E=mc<2> in light quantum collision. Holes 13, 14 are provided at an upper and a lower part of cylinder in such a constitution that O2 or O3 are regenerated. Blood circulation in the human body becomes favorable, uncomfortableness is reduced, office work efficiency in improved, health is maintained, and an extreme medical effect is achieved by ozone and biochemical reaction, thereby productivity is improved.

Description

Description: TECHNICAL FIELD [0001] The present invention includes a carbon dioxide gas oxygenator installed inside a cylindrical curved mirror as a symmetrical light source of a lamp that suffers from photon collisions of ultraviolet rays. The present invention relates to a device for producing artificial sunlight by means of mini-ultraviolet rays, a UV lamp for UV-cutting UV rays harmful to a human body used in the apparatus, and a method for manufacturing the same. [Prior Art] [0002] Conventional ultraviolet lamps are often used as an enlightening lamp that directly uses the applied ultraviolet rays or directly as a chemical ray having a strong chemical action for a chemical reaction. [Problems to be Solved by the Invention] [0003] A conventional ultraviolet lamp using ultraviolet rays is a health lamp as direct irradiation to the human body, or a house lamp is irradiated by irradiating the house. The main use of ultraviolet rays was to increase the production of storage and to install it in the cafeteria for hygiene to sterilize it. However, it is medically shunned due to the fact that it is impaired in the eyesight of the human body and the risk of carcinogenesis in the subsequent clinical practice. [0004] As a first problem, the present invention rarely directly uses ultraviolet rays. By reflecting the ultraviolet rays, which are also called actinic rays, by a curved mirror, the photon collisions due to the ultraviolet rays are aimed to collide, and carbon dioxide gas CO ₂ existing in the atmosphere is decomposed into photons.
It is an oxygenation device for carbon dioxide gas, which is capable of regenerating carbon C ₂ and O ₂ and regenerating oxygen, and is further used in the device. It is also an object of the present invention to provide an artificial light device for sunlight to a human body and a method for manufacturing the device, because the ultraviolet lamp can be easily attached to the device. [Means for Solving the Problems] In order to achieve the above object, in the ultraviolet lamp of the present invention, two or four ultraviolet lamps are lit inside a cylindrical curved mirror that can be assembled and disassembled.
Not only is carbon dioxide gas oxygenated, but a large amount of ozone O ₃ is also generated. [0006] The diameter of the inside of the cylinder of the above-mentioned ultraviolet lamp is owed to the generation of plasma current in the electric welding in the range of the distance of ultraviolet photon collision of 3.5 to 7 ^mm , and this distance of spark electricity corresponds to the photon collision of ultraviolet light It is also calculated as a cycle, and the amount of ozone O ₃ generated is the largest, and it depends on the percentage generation rate of oxygen O ₂ and ozone O _3. The shorter the straight surface of the cylindrical curved surface is, the more effective it is.
It is less than ^mmφ . [0007] In order to attach the ultraviolet lamp to the oxygenator, natural convection of air is used for the assembled cylinders, which are divided into upper and lower parts of the cylindrical curved mirror, and the ultraviolet rays corresponding to the air amount are adjusted according to the different hole positions. Photon collisions are sufficiently obtained, and both ends of the cylindrical curved mirror are screwed up and down so that the lids overlap with each other, and oxygen ozone is sent out through the exhaust holes of each part. [0008] In addition, in order to obtain a UV-cut which is harmful to the human body, the plasma reaction part of the UV lamp is exposed to harmful UV rays when a chemical mixture is applied to the exposed part of the UV lamp.
Can be cut. Further, there is a glass shield in the hole where the direct light leaks out, and a vinyl chloride and acrylate ester resin is used to make a harmful line
V-cut can be obtained. [0010] Further, there is an ultraviolet wavelength characteristic depending on the wavelength of the ultraviolet ray.
Around 0 ^mμ is appropriate. As an oxygenation device for carbon dioxide gas by reforming CO ₂ , C ₂ and O ₂ by UV photon collision and artificial sunlight in plasma electric reaction exposed in a part of the lamp; as UV cut UV There is a manufacturing method that involves applying chemical components. [Operation] When the photon of ultraviolet rays is made to collide with the inside of the cylindrical reflector of artificial light configured as described above as a symmetric light source, the mass is the energy and the energy is the mass based on the principle of relativity and the invariant speed of light. Can be converted to CO ₂
When energy is applied to the carbon dioxide gas that has a molecular bond of, the atoms cause a reaction and CO ₂ → C ₂ + 2O ₂ carbon C
₂ and oxygen O ₂ . This principle is also a mechanism in the natural world in which carbon dioxide gas CO ₂ in the atmosphere is re-formed into oxygen by ultraviolet rays having a long wavelength of ultraviolet rays applied to the atmosphere. 0012 and is also made to the fact that a certain amount of air for the reasons described above, it impinging photons is to regenerate the oxygen O _2, will be the energy (E = mc ²⁾ can be converted to mass,. 3O ₂ → Ozone O ₃ will be generated from 2O ₃ . Further, by setting 2 to 4 ultraviolet lamps, CO ₂ is regenerated into oxygen O ₂ and ozone O ₂ is maximized with respect to the amount of carbon dioxide gas CO ₂ generated in a short time. It is possible to artificially create the _{3rd generation} . [Embodiment] An embodiment will be described with reference to the drawings. In FIG. 1, the cover 1 of a mini solar lamp is set in a groove from the left and right with respect to a base 15, and a cylindrical reflecting mirror is provided inside. In the inner diameter, the ultraviolet lamps 3, 4, 5 and 6 are used as light sources that are symmetrical from 2 to 4 lights, and the lamp socket 12 has two columns 2 on the left and right, and the column 2 has an angle 1
Fixed by 6, the angle 17 is provided with transformers 27, 28, 29, 30 of ultraviolet lamps, each of them is provided with a glow lamp 31 and a cord 38 of a switch. As shown in FIG. 2 (a), the support 1 has a socket 1
2 is fixed and has ultraviolet lamps 3, 4, 5 and 6 and is a cylindrical curved mirror 2 excluding the plasma reaction part of this lamp.
2 and the joining portion forms a reel 9 with screws 7 and 8, and a glass 10 and an exhaust hole 14 are provided above and below, respectively. (B) has a cover 20 and a socket shield 19 for shielding the UV of the socket, and covers 25 and 26 for sealing the inside of the cylindrical reflecting mirror.
3 (a), which is constructed so as to be folded over and is fixed by screws 24, includes a chain 21, an exhaust hole 34, a cover 33 for the chain 21, an air intake hole 32 for the entire ultraviolet lamp. , (B) is a cylindrical curved mirror with a gloss of 20 or less, and a semi-circular stainless steel press is assembled. The upper and lower parts have an air intake hole 13 and oxygen and ozone discharge holes 14, respectively. There is a fixing 16 on the glass plate, and a glass plate 10 that shields the ultraviolet rays is attached. FIG. 4 shows a cover 1, transformers 27, 28, 2
9, 30 Exhaust hole 34, cover 33, glow lamp 3
1 and angles 16 and 17. In the embodiment shown in FIG. 5, the lamp 3 is directly mounted on the ceiling or the like by the mounting plate 36.
4, 5, 6 and glass 10. Circular cylindrical reflecting mirror 37,
The lower hole 13 and the upper hole 14 are convection holes, and the remote switch 39. FIG. 2 (b) shows a cylindrical reflecting mirror 3 in which a set of four ultraviolet lamps is used to form a mini sun.
7 shows the manufacturing process of the ultraviolet lamp in Fig. 7. This manufacturing process includes the following steps: (a) First step (Fig. 2b): A UV lamp of about 100 W with a wavelength of around 350 ^µm is set as a symmetrical light source. Process to do. (B) Second step (Fig. 2b): An ultraviolet lamp as an oxygenator in the cylindrical reflecting mirror and a plasma reaction portion of UV cut ultraviolet rays are divided into carbon, chrome, molybdenum and nickel. The process in which the chemical mixture liquid of manganese, silicon was applied. (C) Third step (FIG. 2b): a step of setting four ultraviolet lamps in a cylindrical reflecting mirror and covering the reflecting mirror with overlapping lids from above and below, [Effect of the invention] Since the present invention is configured as described above, it has the following effects. By attaching the UV lamp as a symmetrical light source, the energy E = mc ² in the collision of photons is equal to carbon dioxide C
O ₂ carbon and oxygen O ₂ are regenerated at an early time, and oxygen O ₂
Is easy to get. And the distance of the symmetrical light source is 5 to
Energy efficiency of more than 14 ^mm can be obtained, and energy due to collision of photons can be effectively obtained. Further, if the chemical reaction mixture is applied beforehand to the plasma reaction part, it can be distinguished from the oxygen device part in the ultraviolet lamp, and mini sunlight can be easily manufactured. Further, since the position of the symmetrical light source can be set in the socket attached to the column, the structure can be set by passing the ultraviolet lamp through the cylindrical reflecting mirror and inserting it into the socket, so it can be easily manufactured. Can be done. Further, by processing the relationship between the mass and energy of the theory of relativity using ultraviolet rays as a symmetric light source in this way, even if the capacity (W number of one lamp) of the ultraviolet lamp changes, this structure causes oxygenation. Device-plasma reaction is formed. Further, when the ultraviolet lamp is changed from the slender type to the donut type, the ultraviolet lamps are symmetrically configured by stacking the ultraviolet lamps on top of each other, so that a mini sun having a square outer shape is formed. In the collision theory of photons using the ultraviolet light as a symmetric light source, the method of manufacturing an artificial light device as mini-sunlight (lacking heat rays) capable of converting mass into energy due to the principle of invariance of light velocity and relativity is described above. By adopting the manufacturing method, the carbon dioxide gas C in the cylindrical reflecting mirror can be easily obtained from the invariance of the speed of light in ultraviolet rays and the mass relativity
Ozone O ₃ can be easily and safely produced within a short time by not only converting O ₂ to oxygen O ₂ but also using a set of four ultraviolet lamps.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a vertical sectional view of a mini solar lamp. FIG. 2 (a) is a partial side elevational sectional view. Figure 3 (a) is a side view of the mini solar lamp. (B) is a partial vertical cross-sectional view of the cylindrical reflecting mirror.
Fig. 4 is a perspective view of a mini solar lamp. Fig. 5 is a perspective view of a donut type mini solar lamp. FIG. 6 is a vertical cross-sectional perspective view of a donut type cylindrical reflecting mirror. FIG. 3 (b) is a partial lateral cross-sectional view showing the manufacturing process of the plasma reaction part in the ultraviolet lamp. 0030 1 ... Cover, 2 ... Post, 3, 4,
5,6 ... UV lamp 7,8 ... Set screw, 10 ... Glass 11 ...
… Fixed. 12 …… Socket 13 …… Prepared hole 14 ……
Upper hole, 15 ... Base, 16, 17 ... Angle,
18 ... Stopper 19 ... Shield, 20 ... Cover,
22 ... Cylindrical reflector, 25, 26 ... Lid, 27, 2
8, 29, 30 ... Transformer, 31 ... Glow lamp 32 ... Cover hole 33 ... Cover 34 ... Hole,
35 ... Exhaust hole. 36 ... Mounting plate, 37 ... Donut type cylindrical reflector.

Claims (1)

As mounting scheme heavenly Claims (1) Office, the ultraviolet lamp 3, 4, 5, 6 as a symmetric light source 3 (a), the ultraviolet photons collide, carbon dioxide CO ₂ Decompose into carbon C ₂ and oxygen O ₂ . An artificial light device for sunlight in a carbon dioxide oxygenator that cuts out ultraviolet rays that are harmful to the human body and emits ultraviolet rays that biochemically react with hormones in the body. (2) The photon collision of ultraviolet rays is caused inside the cylindrical reflecting mirror 22 to decompose CO ₂ into carbon and oxygen, and the cylindrical reflecting mirror 22 is divided into two parts, the upper part and the lower part. The oxygen regenerator for a carbon dioxide gas oxygenator according to claim 1, wherein the oxygen regenerator is a cylinder and a thin seal 9 is attached to the inside of the joint to improve the efficiency of reflection. (3) As shown in FIG. 3 (a), the convection holes 1 for air at different positions are formed in the upper and lower portions of the cylindrical reflecting mirror 22, respectively.
3. The oxygen regenerator in the oxygenator for carbon dioxide according to claim 2, wherein the oxygen regenerator is provided by providing 3 and 14. (4) In addition to simply regenerating oxygen O ₂ by setting 4 bulbs of 2 bulbs of UV lamp, a large amount of ozone O ₃ is generated and both ends of the device are UV rays that biochemically react with the body. The artificial light device of sunlight in the oxygenator of carbon dioxide according to claim 1, which is irradiated with. (5) It is a square type (Fig. 5) rather than elongated sunlight (Fig. 1), and the cylindrical reflecting mirror 2 is a donut type to match the ultraviolet lamp. An artificial light device for sunlight in the carbon dioxide oxygenation device according to claim 4. (6) Using a UV lamp as a symmetric light source inside a cylindrical reflector, the principle of relativity in which UV photons collide with each other to convert the mass into energy, the oxygenation device that bears the constant light speed, and a part of the UV lamp are exposed to expose the human body. Of ultraviolet rays that biochemically react with the hormones in the body. (7) The artificial sunlight of 4 light-quantum collisions caused by UV rays set with 4 UV lights for the purpose of obtaining ozone O ₃ from 2 UV lamps inside the cylindrical reflecting mirror. (8) An ultraviolet lamp in which the chemical reaction liquid of carbon, chrome, molybdenum, nickel, manganese, and silicon is applied to the plasma reaction lamp part that becomes a part of the ultraviolet lamp. (9) The cylindrical reflector is divided into two parts, the upper part and the lower part, and the air intake hole 3 and the exhaust hole 4 are arranged at different positions for natural convection of air, and harmful ultraviolet rays are emitted to the plasma reaction part. 9. The method of manufacturing an ultraviolet lamp according to claim 8, wherein a chemical mixed liquid to be cut is applied, and the cylindrical reflecting mirror is sealed with an upper lid 26 and a lower lid with a screw 24.