JP2011182562A - Electromagnetic wave power transmission, solar cell, mirror with no blind corner, building material, and method of manufacturing the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inexpensive, durable, and recyclable building material that requires less material, and to provide a method of manufacturing the same. <P>SOLUTION: A sinewave electromagnetic wave having a single wavelength is used to transmit power through the inside of a glass tube in which gold or the like is vapor-deposited or plated on the inside or the outside, thereby achieving efficient long-distance power transmission. Two sheet glasses (a) are configured to have a curved-surface shape having the same curvature and a steel plate (b) is placed therebetween in the curved-surface shape with the same curvature as that of the sheet glasses. A building material is formed by sandwiching the steel plate between the two sheet glasses and subjecting it to pressure-bonding by using an adhesive sheet (c) made of a polyvinyl butyral resin. By using the building material, it is possible to form a building with a bright indoor space such as a dome-shaped roof that has a durable structure with an extremely small number of columns though being inexpensive because it requires less building material. The building material is recyclable except the PVB sheet. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

The present invention can store a body simply and for a long period of time, and is extremely light and brittle. The outer surface and the inner surface of a polystyrene foam are made of a metal plate such as aluminum, or a structure of a polystyrene sheet. At the same time, it is integrally molded, and the surface strength is strengthened with a material that is extremely light, strong, and easy to carry, such as ridges, boats, canoes, yachts, and building blocks. The present invention relates to a building material and a manufacturing method thereof. The present invention also relates to a method for fixing a crystal resonator.

  Conventionally, when storing corpses in each home simply and for a long period of time, dry ice is put inside a wooden casket, and the temperature of the corpses is lowered to preserve the corpses. However, wooden caskets do not have a thermal insulation effect, so the body cannot be stored for a long time without using a large amount of dry ice.

In addition, it is extremely light and brittle, and has the characteristics of expanded polystyrene. The surface of the expanded polystyrene is integrally molded with a metal plate such as aluminum, stainless steel, or copper, or a glass plate, or a polystyrene structure. In addition, the conventional quartz resonator (quartz crystal resonator), which has a strong and styrofoam property, cannot withstand the movement (G).

  However, if the corpse is stored for a long time using a wooden casket, the wooden casket does not have a heat insulating effect, so a large amount of dry ice is required. Therefore, if you want to make a bag with high heat insulation effect, made of Styrofoam that can be completely sealed, and store the body for a long time, use a very small amount of dry ice. The purpose is to preserve the body for a long time.

In addition, the surface brittleness, which is a drawback of expanded polystyrene, is made by integrally molding a metal plate or polystyrene structure such as aluminum and expanded polystyrene, thereby making the surface of the expanded polystyrene strong and glossy. However, an object of the present invention is to fix the crystal resonator as a convex lens shape as a means for molding an extremely strong polystyrene foam and fixing the crystal resonator to a structure that can withstand movement (G).

As a means for solving the above-mentioned problems, instead of wooden casket, heat insulation effect is high, made of styrene foam, which can be completely sealed, made of styrene foam, instead of wooden casket After putting the body into the inside of the casket, put it inside the wooden casket, or after putting the body into the inside of the wooden casket, add the wooden casket containing the body, If you do not use a wooden coffin, or if you do not use a wooden coffin, you can use a single unit of a polystyrene coffin to make a dead body with a very small amount of dry ice. Can be stored for a long time. Also, by integrally molding polystyrene structure and polystyrene foam, one side is polystyrene structure, one side is made of polystyrene foam, two-molded molding, and the surface of polystyrene foam is bonded together Both surfaces are on the surface of the polystyrene structure, and the brittleness of the surface, which is a defect of polystyrene foam, can be glossy and strong.

  According to the present invention, there is an effect of forming a door mirror for an automobile without a blind spot.

  In addition, according to the present invention, the following (1), (1) and (2) are formed by forming an iron plate between the plate glass and the plate glass, for example, a building material having a sandwich shape using an adhesive PVB resin sheet or the like. There are effects as in 2), (3), (4), and (5).

As an effect of (1), because it is a building material made of flat glass and iron plate, it can be separated and completely recycled by heating the glass to a temperature of about 1,600 degrees Celsius or higher. There is an effect that can be done.

  The effect of (2) is that the iron plate is sandwiched between the plate glass and the plate glass so that the iron plate does not come into contact with the air and thus has no effect of rusting. There is an effect that a certain building can be formed.

  As the effect of (3), since it is a plywood sandwiched between steel sheets in the form of a sandwich between plate glass and electricity, electricity can be energized. .

  As an effect of (4), a plywood made of a curved glass plate and an iron plate is sandwiched between two curved glass plates having the same curvature and sandwiched between two curved glass plates having the same curvature. For example, it is possible to form a dome-shaped roof having a circular shape, and a building material having a circular shape or a cylindrical shape. It is possible to form a building with very few pillars and an extremely small number of pillars, so that it can form a bright indoor building with more than 50% of incident sunlight. effective.

  The effect of (5) is, for example, the structure of an Islamic mosque building, or the structure of a cylindrical tent used by Mongolian nomads for the purpose of grazing while moving for grazing. Similarly, when a building having a one-story structure is formed, if the building is constituted by a cylindrical outer wall and a dome-shaped roof, there is no need to provide one column inside the house. There is an effect that it is possible to form a house having the same structure as a mosque. Moreover, there exists an effect which can form easily the building which carried out hexagon shape and octagon shape.

According to the present invention, a body can be stored easily for a long period of time. In addition, the outer surface and inner surface of styrene foam, which is extremely light and brittle, are integrally molded with a metal plate such as aluminum or a structure of a polystyrene sheet at the same time, with a material with enhanced surface strength. Very light, strong and easy to carry, building materials such as ridges and boats and canoes and yachts and building blocks can be made. Further, the crystal resonator can be fixed as a convex lens shape.

Sheet glass (a) is placed on both sides of the iron plate (b), centering on the iron plate, polycarbonate corrugated plate, and acrylic corrugated plate (hereinafter abbreviated as iron plate) (b). A building material intended for use as a roofing material, and an outer wall material in which sheet glass (a) is bonded and bonded to both side surfaces of the iron plate around the iron plate (b). FIG. 1 is a longitudinal sectional view, in which a symbol (a) is a sheet glass, a symbol (b) is a steel plate, a symbol (c) is a polyvinyl butyral resin sheet (hereinafter abbreviated as PVB, Or a PVB sheet). Using a sheet of glass (a) or polycarbonate corrugated sheet (a) on both sides of the steel sheet (b) centering on the steel sheet (b), using a polyvinyl butyral resin sheet (c), centering on the steel sheet (b) The building material has a structure in which sheet glass (a) is bonded to both sides of the iron plate (b). Furthermore, the solar cell (d) is attached only to the surface of one side of the iron plate (b), and the iron plate (b). A structure in which the solar cell (d) is sealed in the middle between the glass plate (a) and the solar cell (d) is sealed in the middle between the steel plate (b) and the glass plate (a) using a polyvinyl butyral resin sheet (c). A building material intended to be used as a solar cell panel that is an outer wall material incorporating a solar cell (d) integrated with a building material, or a roof panel that is a roof material incorporating a solar cell (d). Fig. 2 is a longitudinal sectional view. Reference numeral (a) in the figure is a sheet glass, reference numeral (b) in the figure is an iron plate, reference numeral (c) in the figure is a sheet made of polyvinyl butyral resin (PVB), and reference numeral in the figure. (D) is a solar cell. Using glass sheet (a) on both sides of iron plate (b) centering on iron plate (b) using polyvinyl butyral resin sheet (c), on both sides of iron plate (b) centering on iron plate (b) A solar cell (d) in which a through hole (e) is formed only on the surface of one side of the iron plate (b) is added to the building material having a structure in which the plate glass (a) is bonded to the iron plate (b). A solar cell (d) sealed in the middle of the plate glass (a) and having a through hole (e) formed between the steel plate (b) and the plate glass (a) using a polyvinyl butyral resin sheet (c) It is intended to be used as a solar panel that is a solar cell panel that is an exterior wall material that incorporates a solar cell (d) with a built-in construction material that is enclosed and bonded together, or a roofing material that incorporates solar cells. Building material. FIG. 3 is a longitudinal sectional view, in which a symbol (a) is a sheet glass, a symbol (b) is a steel plate, a symbol (c) is a polyvinyl butyral resin sheet (PVB), and a symbol in the figure. (D) is a solar cell, and symbol (e) in the figure is a through hole formed in the solar cell (d). The top view of a solar cell (d) is shown. Reference numeral (e) in the figure is a through hole formed in the solar cell (d). On the surface of the iron plate (b), a corrugated plate-like height difference is formed on the surface of the iron plate, so that the sunlight rays (f) from the direction of the arrow and the incident light of the sunlight rays (f) FIG. 5 shows a state in which incident light of sunlight (f) hits an inclined surface on which the corrugated plate b) is inclined, and the incident light is irregularly reflected. FIG. 5 is a longitudinal sectional view, in which the symbol (b) in the figure indicates the iron plate, and the symbol (f) in the diagram indicates the direction of the incident light of the sunlight. Form the height difference of the corrugated plate with the shape of the washboard similar to the washboard on the surface of the iron plate (b). FIG. 6 shows a state in which incident light of sunlight (f) hits an inclined surface where the corrugated plate b) is inclined, and the incident light is irregularly reflected. FIG. 6 is a longitudinal sectional view, in which the symbol (b) in the drawing indicates the iron plate, and the symbol (f) in the drawing indicates the direction of the incident light of the sunlight. Made of a resin that is transparent to sunlight and has good sunlight transmission properties similar to that of plate glass, polycarbonate, or acrylic glass on both sides of the iron plate (b), centering on the iron plate (b). Uses a polyvinyl butyral resin sheet (c) as a resinous flat plate, corrugated corrugated plate, or corrugated corrugated plate (hereinafter abbreviated as plate glass or polycarbonate plate). In addition, the building material has a structure in which the plate glass (a) is bonded to both sides of the iron plate (b) with the iron plate (b) as the center, and further, the solar cell only on the surface of one side of the iron plate (b). (D) is encapsulated between the steel plate (b) and the plate glass (a), and the solar cell (d) is used with the sheet (c) made of polyvinyl butyral resin and the steel plate (b) and the plate glass (a). Sealed in the middle of Building materials intended for use as a solar cell panel which is a roofing material incorporating the solar panel, or solar cell (d) is incorporated siding building materials integrated solar cell in which the concrete (d). FIG. 7 is a longitudinal sectional view, in which the symbol (a) is a sheet glass, the symbol (b) is a steel plate, the symbol (c) is a polyvinyl butyral resin sheet (PVB), and the symbol in the figure. (D) is a solar cell. Made of a resin that is transparent to sunlight and has good sunlight transmission properties similar to that of plate glass, polycarbonate, or acrylic glass on both sides of the iron plate (b), centering on the iron plate (b). Uses a polyvinyl butyral resin sheet (c) as a resinous flat plate, corrugated corrugated plate, or corrugated corrugated plate (hereinafter abbreviated as plate glass or polycarbonate plate). In addition, the building material has a structure in which the plate glass (a) is bonded to both sides of the iron plate (b) with the iron plate (b) as the center, and further, the solar cell only on the surface of one side of the iron plate (b). (D) is encapsulated between the steel plate (b) and the plate glass (a), and the solar cell (d) is used with the sheet (c) made of polyvinyl butyral resin and the steel plate (b) and the plate glass (a). Sealed in the middle of Building materials intended for use as a solar cell panel which is a roofing material incorporating the solar panel, or solar cell (d) is incorporated siding building materials integrated solar cell in which the concrete (d). FIG. 8 is a longitudinal sectional view, in which a symbol (a) is a sheet glass, a symbol (b) is a steel plate, a symbol (c) is a polyvinyl butyral resin sheet (PVB), and a symbol in the figure. (D) is a solar cell. Corrugated sheet made of iron plate (b), corrugated sheet made of sheet glass (b), corrugated sheet made of polycarbonate (b), corrugated sheet made of acrylic, or vinyl chloride (b) Corrugated sheet made of steel sheet, or corrugated sheet made of other resin (hereinafter abbreviated as iron sheet, sheet glass, or polycarbonate), or corrugated sheet sheet glass (b) ), Or a sheet made of polyvinyl butyral resin (hereinafter abbreviated as PVB or PVB sheet) or other adhesive on the surface of the corrugated sheet made of polycarbonate or polycarbonate (b) Using a certain substance, the solar cell (d) is completely separated from the iron plate (b) or the glass sheet (b) on the surface of the corrugated iron sheet (b) or the corrugated sheet glass (b). A solar cell (d) with the same corrugated plate shape is replaced with an iron plate (b) After bonding using PVB sheet (c) on the surface of plate glass (b), it is made of corrugated plate made of plate glass (a) or polycarbonate (a) on the surface of solar cell (d) Using the corrugated plate, one side of the solar cell (d) is the iron plate (b) or plate glass (b), and the other side of the opposite side where the sunlight on the opposite side is incident has good sunlight transmission It is an outer wall material incorporating a building material integrated solar cell (d) that has a structure in which sheet glass (a) or polycarbonate (a) is used to seal the solar cell (d). A building material intended for use as a solar cell panel or a solar cell panel that is a roof material incorporating the solar cell (d). FIG. 9 is a longitudinal sectional view, in which a symbol (a) is a sheet glass, a symbol (b) is a steel plate, a symbol (c) is a polyvinyl butyral resin sheet (PVB), and a symbol in the figure. (D) is a solar cell, and symbol (f) in the figure indicates the direction of incident light of sunlight. FIG. 10 is different from the drawing shown in FIG. 9 in that a solar cell (d 10) is different from the drawing shown in FIG. 9 in that it is easy to attach to the building. FIG. 11 differs from the drawing shown in FIG. 10 only in that a through hole (e) is formed in the solar cell (d). The purpose of forming the through-hole (e) in the solar cell (d) is to paste one PVB sheet (c) on the back surface of the solar cell (d), so that the plate glass (a) on the surface of the solar cell (d), Alternatively, the first object is to seal the polycarbonate (a) and the iron plate (b) on the back side or the plate glass (b) by using one PVB sheet (c). The second purpose is to fix the solar cell (d) by providing a through hole (e) in the solar cell (d) so that the solar cell (d) can be easily hit against the building using nails or the like. Target building material. FIG. 11 is a longitudinal sectional view, in which the symbol (a) is a sheet glass, the symbol (b) is an iron plate, the symbol (c) is a polyvinyl butyral resin sheet (PVB), and the symbol in the figure. (D) is a solar cell, and symbol (e) in the figure is a through hole formed in the solar cell (d). FIG. 12 differs from the drawing shown in FIG. 11 in that the cross section of both side surfaces that are sealed by enclosing the solar cell (d) having the corrugated shape as in FIG. 10 is flat. FIG. 12 is different from the drawing shown in FIG. 11 in that the solar cell (d) can be easily attached to the building.

  To store the body in each home for a long time, it is highly insulated, made of Styrofoam, and can be completely sealed, making an extremely small amount of dry ice The body can be stored for a long time.

Furthermore, in order to make brittleness, surface strength, and gloss and strength on the surface of the polystyrene foam, a metal plate such as aluminum, or a polystyrene structure, a polystyrene foam on the inner surface and the outer surface, Developed as a pair of molded structures, the middle part is made of foamed polystyrene, and both surfaces of the foamed polystyrene are made of polystyrene, and the structure is developed to be used as a kite, boat, canoe, and building material. Provided is a holding method for withstanding a 20,000 G Grooved Type quartz crystal having a stepped shape.
In addition to the polystyrene structure manufactured using polystyrene resin, ABS resin, high impact polystyrene (HIPS), and a resin such as Kaizac are used in place of the polystyrene resin to change the polystyrene structure. Alternatively, an ABS structure or a HIPS structure may be molded to change the polystyrene structure. The reason is that the polystyrene resin has a drawback that it is decomposed by sunlight.

  In addition, when integrally molding the polystyrene structure and the polystyrene foam, the polystyrene structure and the polystyrene foam are bonded to each other, and in order to form the polystyrene structure, the raw material for molding the polystyrene structure is inside the polystyrene resin. By adding approximately 20% of a rubber-based resin, when the polystyrene structure and the polystyrene foam are integrally molded, the polystyrene structure and the polystyrene foam can be further bonded by heat molding.

  Pressed metal plate such as aluminum, stainless steel, copper, etc. The inside of the shape of the tile is made of polystyrene foam molded at the same time. The tiles are made of foamed polystyrene inside, and in the case of roof tiles, when using nails or wood screws, the foamed polystyrene is used on the inside. In addition, since the adhesion is improved, rain leakage can be prevented.

  Using a composite material with a two-layer structure made of transparent glass and polystyrene foam, and two sheets bonded using an adhesive or a double-sided adhesive sheet (double-sided adhesive tape), as an exterior wall material for building materials In that case, the foamed polystyrene molding is decomposed by sunlight, so it is not a transparent glass.For example, colored glass colored red, blue, black, or colored glass, or transparent glass. When sandwiched between a transparent glass and a polystyrene foam molded product, sandwiching a very thin metal plate such as aluminum, a sandwich-shaped three-layer structure will cause the polystyrene foam to be decomposed by sunlight. Disappears.

  Even when manufacturing tiles using glass, after the glass is pressed into a conventional tile shape and molded, the strength against breakage is insufficient with only the tiles made of glass. Since tiles made only of glass are immediately damaged, either a polystyrene foam molding is simultaneously molded and bonded to the inside (inside) part of the tile formed by pressing the glass. When an adhesive and a double-sided adhesive sheet are used to attach a roof tile made of glass and a polystyrene foam molding, the strength against breakage, which is a defect of glass, becomes stronger by several steps. Similarly to the glass described above, when transparent glass is used, the polystyrene foam is decomposed by sunlight, so that, for example, red, blue, black, Using a colored glass or made of glass, sandwiched between a roof tile and a polystyrene foam molded product, a metal plate made of an aluminum plate, and laminated to form a sandwich-shaped three-layer structure, If it is a tile that has a three-layer structure of a glass pressed tile, a very thin aluminum plate pressed into a tile shape, and a polystyrene foam molded article, the foamed polystyrene molded article is made by sunlight. It will not be disassembled.

  When two sheets of a glass plate and a veneer plate are bonded together using an adhesive or a double-sided adhesive sheet, for example, if the thickness of the veneer plate is around 5.0 mm, the plate thickness of the glass plate is Even if it is around 1.0 mm, even if a little pressure and impact are applied, the glass plate will not be distorted or bent, so that it will not be damaged, so that it becomes a building material for the outer wall and interior material.

  Even if two sheets of a metal plate such as a glass plate and an aluminum plate are bonded together using an adhesive or a double-sided adhesive sheet, the effect of bonding the glass plate and the two veneer plates together; Has the same effect.

  When a glass plate, a very thin aluminum plate, a metal plate such as a stainless steel plate, an iron plate, or a copper plate, and a veneer plate are bonded together using an adhesive or a double-sided adhesive sheet, When the glass plate is transparent, the gloss of the metal plate is reflected, resulting in a beautiful and glossy surface like a mirror. Furthermore, it does not deteriorate for a long time, and due to the strength of the veneer plate, even a very thin glass plate can be a strong building material for outer walls and interior materials.

  Even if three sheets of a glass plate, a very thin metal plate, and a polystyrene foam molded product are bonded together, the effect of bonding the three glass plates, the metal plate, and the veneer plate described above together. Has the same effect. Furthermore, by sticking together the polystyrene foam molding, it becomes a building material of an outer wall and an interior material having soundproofing, vibration proofing and heat insulating effects.

  Even if 4 sheets of a glass plate, a metal plate, a veneer plate, and a foamed polystyrene molded product are bonded together, the effect of pasting together the glass plate, the metal plate, and the foamed polystyrene molded product described above, , Have the same effect, outer wall, interior material, building material.

  Flat plate and corrugated plate made of metal such as iron, aluminum, copper, stainless steel, flat plate and corrugated plate, veneer plate, or slate, or glass, tempered glass, or plastics, etc. Adhesive with good compatibility with foamed polystyrene molding, which can attach a fixing hook on the surface, or foamed polystyrene foam can be adhered on the surface of flat plate, plywood board and corrugated board Or, paste and apply unfoamed beads and adhesive, and then styrofoam molding is molded integrally with the flat plate, plywood and corrugated plate at the same time, on the surface of the flat plate, plywood and corrugated plate By molding a foamed polystyrene product into a flat, veneer, and corrugated sheet and integrating them into a two-layer, three-layer, or five-layer composite material, Of the material, due to a combination, a synergistic effect, more, more, soundproof, anti-vibration, excellent heat insulation effect, such as building materials, can be used in a wide range of fields.

  Furthermore, to reduce the weight of hulls such as canoe kayaks, yachts, boats, etc. made of materials such as aluminum and polyethylene, foamed polystyrene inside the hull is made of aluminum and polyethylene. The molded product is molded integrally with the hull of aluminum, polyethylene, etc. at the same time using a hook or adhesive for fixing, and unfoamed beads, and the hull and the polystyrene foam molded product are bonded together. If it becomes, the hull by the composite material of aluminum and a polystyrene foam molding will be made. Or the hull by the composite material of polyethylene and a polystyrene foam molding is made. In the case of a hull of a composite material of aluminum and a foamed polystyrene molding or polyethylene and a foamed polystyrene as described above, the weight of the hull is extremely light, and due to the synergistic effect of the combination of the composite material, It becomes even stronger and the interior can be easily manufactured.

  Simultaneously integrally molds polystyrene, corrugated sheet, other molded products made of glass, ceramics, metal, plywood such as plywood, synthetic resin such as slate, polyethylene, or other materials, and polystyrene foam. In some cases, unexpanded beads made of various materials, such as flat, corrugated, or aluminum, polyethylene, etc. on the surface of boats, canoes, kayaks, yachts, etc. Attached with an adhesive or the like, or mixed with unfoamed beads inside the adhesive After coating and pasting unfoamed beads on the inner surface of a board, boat, etc. When the mold is integrally molded at the same time, it is made of glass, metal, plastic, flat plate, corrugated board, boat, etc. Since the raw materials are the same, the polystyrene foam molding can be easily and integrally molded at the same time.

  When one side is a flat plate or corrugated plate made of metal such as aluminum, copper, stainless steel, iron, or glass, mirror, slate, veneer, wood, etc., and one side is a foamed polystyrene molding, both sides Is a flat plate or corrugated plate made of a metal such as aluminum, copper, stainless steel, or iron, or glass, mirror, slate, veneer, wood, etc. Since the above-mentioned flat plate and corrugated sheet are put into the mold for molding the molded product and are integrally molded simultaneously with the foamed polystyrene molded product, the flat plate, corrugated sheet, or other material constituting the shape Even if the plate thickness is very thin, the surface strength is stiff and strong. Moreover, since the plate thickness of the flat plate, corrugated plate, etc. is extremely thin, it can be easily cut with a cutter, etc., and it is used for roofing, tiles, interiors, and exteriors that have a metal surface. It is possible to manufacture a construction material, or a structure such as a single roof or a palm roof in a single structure.

  If one side is a flat plate or corrugated sheet such as aluminum, copper, or glass and the other side is a foamed polystyrene molded product, put the flat plate or corrugated sheet into the mold for molding the foamed polystyrene molded product, and leave it as it is At the same time, it can be integrally molded, but if both sides are flat, corrugated, such as aluminum, copper, veneer, or glass, first, one side, flat, corrugated, or other curved surface In the stage of molding a metal plate having a foam and a polystyrene foam molding, the foam polystyrene molding is not molded into a 100% state, but in an unfinished state of an immature foam polystyrene molding of about 60%. In addition, after molding a polystyrene foam molding, next, on one side, aluminum, etc., a metal plate, corrugated sheet, etc. When the mold is put into the mold and about 60% unfinished, immature foamed polystyrene molded product is heat molded to 100%, on both surfaces, metals such as aluminum, copper, stainless steel, Alternatively, a sandwich-shaped foamed polystyrene molded article having a flat plate, a corrugated plate, and other curved surfaces made of glass, mirrors, slate, or plywood on both surfaces is completed.

  One side or the center of the polystyrene foam molding, one side, or the surface of the foam molding centered on both sides, a metal plate such as aluminum, copper, stainless steel, or a glass plate, end plate, Or, when it is made of a flat plate such as a slate plate or a veneer plate, a corrugated plate, or a curved material, the appearance seen from the surface is entirely a metal plate, a glass plate, a mirror plate, a veneer plate, etc. There are advantages, like

1. Appearance appears to be a metal plate, glass plate, end plate, and veneer plate.

2. Extremely light metal plate, glass plate, mirror plate, and plywood can be made.

3. Even if the material such as metal plate, glass or plywood is very thin, it is integrally molded with the foamed polystyrene molding at the same time inside the mold for molding the foamed polystyrene molding, so the surface accuracy of the metal plate etc. However, basically, it is completed with the surface accuracy of the mold, so the surface accuracy is excellent without distortion.

4). The material such as a metal plate can be cut very easily by being extremely thin. For example, it can be cut with a cutter knife.

5. In order to form a metal surface, a glass plate surface, or a veneer surface on both surfaces of a polystyrene foam molding on one side or centering on a polystyrene foam, the deterioration is extremely small and the appearance is it's beautiful.

6). A metal plate with low price and heat insulation can be made.

7). As names, aluminum plate, copper plate, stainless steel plate, iron plate, metal, (pseudo), glass, mirror, and plywood can be easily made.

8). The outside is a metal plate or a glass plate, the inside is a metal plate, a glass plate, or a woody plywood, and the middle is a polystyrene foam molded article for 2 × 4 building, for use with a pillar and a wall, A structural member can be easily formed.

9. A structural member of a roof having an inclined angle, such as a single roof or a palm roof, using a metal plate or glass plate for changing tiles can be easily obtained.

  Metal plate, glass plate, ceramic plate, tile plate, paper, paperboard, veneer plate, for example, decorative veneer plate with decoration (trademark) etc. or chemical products such as vinyl tile Boards made of wood, wooden boards, plastic boards, plasterboard boards, natural stone boards such as marble, artificially produced stone boards, mirrors, or slate boards, and polystyrene foam moldings, At the same time, in the case of integral molding, the compatibility with the foamed polystyrene molded product is good on the surface of a metal plate, etc., and when molded integrally, the metal plate and the foamed polystyrene molded product are easily joined. The adhesive can be applied on a surface such as a metal plate, or unfoamed beads, or pre-expanded beads, can be affixed on a surface such as a metal plate using an adhesive And one side is made of metal If the other side of the plate is a foamed polystyrene molding, both surfaces are metal plates, etc., and there may be a foamed polystyrene molding between them, but in the former case, the foamed polystyrene molding If you put a metal plate inside the mold that molds and mold it at the same time, one side will be a metal plate and the other side will be made of polystyrene foam, but both If the side surface is a metal plate or the like, first, about 60% of the pre-foamed polystyrene molded product, after molding the immature foamed polystyrene molded product in the middle, on both sides, on both surfaces By putting a metal plate etc. into the mold for molding the foamed polystyrene molding and making it a 100% single-stage molding process, a complete foamed polystyrene molding is obtained on both surfaces. A metal plate with a three-layer structure sandwiched in the middle, a sandwiched polystyrene foam product in the middle, and a metal plate in the middle is completed with a single molding. . Further, it may be a two-stage molding process as described below. First, put a metal plate, etc., only on one side into a mold for molding a foamed polystyrene molding, mold about 60% immature foamed polystyrene molding, and then mold the other side of polystyrene foam. It is good also as a 2 step | paragraph molding process which puts in the inside of the metal mold | die which shape | molds a molding, and makes about 60% of immature foam polystyrene molding becomes 100% or more.

  Furthermore, it is good also as a one-step shaping | molding process as follows. Using a hook for fixing, molding a polystyrene foam molded product, the metal plate etc. are adhered to both sides inside the mold, and the middle of the two metal plates, etc., If the foamed polystyrene molding is to be molded after it is hollow, fill the unfoamed beads in the middle, such as two metal plates, and mold the foamed polystyrene molding only once. On both surfaces, a metal plate or the like, and in the middle, a three-layer structure of a polystyrene foam molded product, a sandwich-shaped foamed polystyrene molded product in the middle, and a metal plate return 1 Completed by molding. If it is this shaping | molding means, it will be the both sides | surfaces of metal plates. Since the steam for heating, which is necessary to mold the foamed polystyrene molding, can be injected from the side of the outer periphery forming the foamed polystyrene molding, the steam passes through a metal plate, etc. There is no need to form a hole.

  Adhering unfoamed beads on the surface of a metal plate, etc. using an adhesive, and then styrofoam molding, placing a metal plate, etc. inside the mold to mold, styrofoam molding With the development of processing technology that performs integral molding at the same time with objects, it is possible to integrally mold objects made of any and all materials and polystyrene foam moldings at the same time. With the development of this technology, it has become possible to develop a composite material in which a foamed polystyrene product and a foamed polystyrene product are completely different from each other.

  When making a roof tile made of clay or red clay using a metal, such as iron, aluminum, copper, or stainless steel, or a non-ferrous metal, first, After a plate made of a material such as metal is pressed into the shape of a tile with a press, or molded into a shape of a tile with casting, or metal is molded with die casting, the inside of the roof The part corresponding to the inside of the roof tile, that is, the inside of the mold for molding the foamed polystyrene molded product, the structure in the shape of the roof tile is put, for example, 5 times foaming, 10 times foaming, or Simultaneously molded with polystyrene foam moldings such as 20 times foaming or 30 times foaming 50 times foaming, and the surface is made of metal or non-ferrous metal. With roof tiles Unlike, nails, or such as using wood screws, can be fixed. In addition, there is also an effect as a tile having soundproofing, vibration-proofing and heat-resistant effects. In addition, by using a very small amount of metal, non-ferrous metal, etc., the use amount of extremely thin metal, non-ferrous metal, etc., metal, non-ferrous metal, durable, A tile is completed. Using glass, plastics, ceramics, slate, plywood, and tile, etc., the shape of the conventional tile surface is manufactured, and as explained above, 5 times foaming, or 10 times foaming, Or 20 times expanded, or extremely low foamed, 50 times expanded foamed polystyrene, etc., at the same time, integrally molded, the surface is made of glass, plastics, ceramics, slate, and tile, Unlike roof tiles, which are made of clay, red soil, etc., they can be fixed using nails or wood screws. In addition, there is also an effect as a tile having soundproofing, vibration-proofing and heat-resistant effects. Furthermore, even if the amount of glass, plastics, ceramics, slate, and tiles used is extremely small, it is difficult to break, so extremely thin metal plates such as aluminum, glass, plastics, ceramics Using slate and tiles, a strong and durable roof tile is produced.

  Metal plates, non-ferrous metal plates, glass, plastics, ceramics, slate, plywood, paper, paper containers, tiles, etc., and polystyrene foam molded products at the same time and integrally molded, for example, glass The surface accuracy of the glass surface, which is the surface to be joined with the polystyrene foam molding, is the surface accuracy, like the ground glass, the surface accuracy is a loose surface, because the glass has a stronger adhesive effect, For bonding unfoamed beads using an adhesive, glass, such as frosted glass, is more suitable when integrally molded with a foamed polystyrene molding at the same time. In the case of a plate made of metal or non-ferrous metal such as aluminum, copper, stainless steel, iron, etc., the surface to be bonded and the surface to be joined are the same as the surface of ground glass, but the loose surface is the adhesive. When the non-foamed beads are adhered using, the adhesive strength becomes strong.

  For example, a metal plate made of metal, non-ferrous metal, such as aluminum, copper, stainless steel, iron, etc., with a thickness of about 0.1 mm, is used as the surface of one side, and the other side Using a plate such as ground glass, transparent glass, or float glass having a thickness of about 1.0 mm to 2.0 mm on the surface, between a metal plate such as aluminum and a plate such as ground glass, 10 It is extremely light and extremely easy to make a three-layer structure with a sandwich shape of a metal plate, a foamed polystyrene product, and a glass plate, which are integrally molded from a foamed polystyrene product of about 30 to 30 times the foam. Even thin glass is hard to break, and since both surfaces are metal plates and glass plates, it will not deteriorate for a long time, it will be a material for construction, etc., and it will be extremely cheap.

  A composite material in the case of a three-layer structure in which one side is used as a metal plate, a non-ferrous metal plate, or a glass plate, the other side is used as a veneer plate, and a polystyrene foam molded product is integrally molded at the same time. Is mainly used for soundproofing, vibration proofing, and heat-resistant materials, such as outer wall materials, inner wall materials, roofing materials, flooring materials, etc. It can be struck or cut with a saw, a cutter, or a rotary diamond cutter.

  One side is a metal plate, a non-ferrous metal plate, or a glass plate, and the other side is a veneer plate, as in the case of a veneer plate, etc. In the case of the three-layer structure, the composite material is also mainly used as an outer wall material, an inner wall material, a roof material, a floor material, etc. that also serves as a soundproof, vibration proof and heat resistant material. , Saws, cutters, rotary diamond cutters can be cut and used.

  When manufacturing canoes, yachts, boats, etc. using aluminum, when manufacturing both surfaces using aluminum, first, an extremely thin aluminum plate is pressed to the outside. After press-molding the hull processing and the inner hull processing, between the outer hull and the inner hull, a foamed polystyrene molded product was simultaneously molded integrally with aluminum, a foamed polystyrene molded product, and aluminum. For example, when a canoe having a length of 4.5 m, a width of 90 cm, and a depth of 28 cm is manufactured as a hull structure having a stacked, three-layer structure in a sandwich shape, the weight is conventional. The aluminum can be manufactured at about 12 kg, which is half the weight of a canoe. In addition, because it has buoyancy, it will not sink, so you can make a safe boat. In addition, the hull structure has a three-layer structure with impact resistance.

  The outer surface is press-molded with aluminum, and after making hulls such as canoe, yacht, boat, etc., it is made of aluminum. A structure such as polystyrene or ABS is molded integrally at the same time. The outside is aluminum, the inside is a foamed polystyrene molding, and the outside is a sandwich shape such as polystyrene or ABS. Even if it is a three-layered hull structure, it can be manufactured at about 12 kg, which is half the weight of a conventional aluminum canoe. In addition, because it has buoyancy, it will not sink, so you can make a safe boat. In addition, the three-layered hull structure with impact resistance is the sandwich-shaped three-layer structure described above, in which both surfaces are made of aluminum and the middle is a polystyrene foam molded product. Have the same effect.

  A two-layer structure, a three-layer structure, a four-layer structure, or a five-layer structure, in which a foamed polystyrene molding and an extremely thin metal plate, non-ferrous metal plate, glass, veneer plate, etc., are integrally molded at the same time As a result, the metal plate and glass plate having no heat resistance and sound insulation effect become the metal plate and glass plate having heat resistance and sound insulation effect. Furthermore, the thickness of the metal plate and glass plate used on one side can be made extremely thin, so that the surface has the characteristics of a metal plate and glass plate, but the one side is extremely light and the metal plate It is a non-ferrous metal plate, a glass plate, and a veneer plate, but the other side is a three-layer structure with a veneer plate. It becomes a composite material for construction.

  In the case of materials that are easily damaged, such as metal plates, glass plates, ceramic plates, etc. After fixing holes (holes) for fixing plates, glass plates, ceramic plates, etc. on glass plates, ceramic plates, tiles, aluminum plates, stainless steel plates, copper plates, etc., polystyrene foam molding If it is integrally molded with the object at the same time, the workability is good.

  When metal foam, glass board, veneer board, etc. and polystyrene foam molding are integrally molded at the same time and bonded, unfoamed beads are pasted on the surface of the metal board using an adhesive, or polystyrene Applying an adhesive made of, or applying an adhesive mixed with polystyrene, or the same polystyrene as the raw material of the polystyrene foam molding, or containing polystyrene, for example A polystyrene film or polystyrene sheet made of ABS or the like is attached to the surface of a metal plate, glass plate, veneer plate, etc. with an adhesive and processed, and then a metal plate, glass plate, veneer plate, etc. A polystyrene film that is bonded to the surface of a metal plate, glass plate, or plywood plate even if it is integrally molded at the same time. , As mediated, styrofoam molded product, at the same time, by integrally molding a metal plate, a glass plate, a plywood, a foam molded product, can be easily integrated.

  A metal plate, a glass plate, a veneer plate, a plastic plate, etc., which is made of a metal plate, a glass plate, a veneer plate, a plastic plate, a plate such as a plate, and processed by attaching a polystyrene film (polystyrene sheet) on the surface. At the same time, the polystyrene foam molding is integrally molded, and the metal plate and the polystyrene foam molding are thermally fused and integrated. As an advantage, an adhesive or the like is used on the surface of the metal plate. The work is easier than pasting non-foamed beads, but the technology is exactly the same as a technology that fuses a metal plate and a foamed polystyrene molded product together, and at the same time integrally molds and integrates them. It is. The advantage of this technology is that it is a composite material combining ultra-thin, metal plate, ultra-thin, glass plate, veneer plate, plastics plate, ceramics plate, tile, etc. The original metal plate, glass plate, veneer plate, plastics plate, ceramics plate, tile, etc. are not different at all. Furthermore, it is a processing technique for a composite material of a two-layer structure, a three-layer structure, or more, which is light, strong, excellent in heat resistance and soundproofing.

  After building the structure of the house using 2x4 wood, the outer wall, inner wall, ceiling plate, roofing material, etc., such as metal plate, glass plate, plastics plate, ceramics plate, veneer plate, etc. A composite material of a two-layer structure in which a material and a polystyrene foam molding are integrally molded at the same time is used as an outer wall, an inner wall, a ceiling plate, a roof material, or a metal plate, a glass plate, a plastic plate, a ceramic plate, Plywood etc. on both sides, on both surfaces, in the middle, sandwich shape, polystyrene foam molding is molded at the same time, using a composite material with a three-layer structure, exterior and interior When a ceiling board and a roof are constructed using the composite material of the above two-layer structure or three-layer structure, the entire exterior such as the exterior, interior, ceiling board, and roof is made of a metal plate, aluminum, copper, etc. Non-ferrous metal plate, Lath, a ceramic plate, such as a tile plate, a material of inorganic system, completed. As an advantage of the inorganic material, the deterioration is extremely small and is not soiled. In addition, by using extremely thin metal plates, extremely thin non-ferrous metal plates, glass plates, etc., metal plates, non-ferrous metal plates, glass plates were used entirely at a very low cost. A house is completed.

  For example, in the case of roof tiles, when a metal plate such as iron, aluminum, copper, and stainless steel with a thickness of about 0.1 mm to 0.3 mm is used and pressed into a tile shape, at the same time, the corners of the four corners are also made of metal. Molded using a plate, stamped with a metal plate, around 0.2 mm, inside a very thin metal roof tile, a polystyrene foam molded product of about 20 times as a magnification, When the thickness is about 30 mm, and the thickness is integrally molded at the same time, even if the tile is pressed using a metal plate of about 0.2 mm, the strength such as the strength of the weight from above is strong. The strength is higher than that of conventional tiles. Furthermore, it does not break when compared with conventional roof tiles. It can also be fixed using wood screws, nails, etc. In addition, because it is light, it does not place an extra weight on the pillars of the house. Moreover, it becomes a roof tile having a heat resistance effect and a soundproof effect. In addition, because the roof tiles are used with a very small weight of the metal plate, it is completed at a very low cost.

  In addition, when integrally forming a tile and a polystyrene foam molding at the same time, use a metal plate such as aluminum to paste the unfoamed beads into the shape of the tile using an adhesive inside the pressed interior. After applying or applying a polystyrene adhesive, or pasting a polystyrene sheet, a metal plate may be integrally molded with a pressed tile and a polystyrene foam molding at the same time. Since the shape of the plate is pressed into the shape of the tile at the four corners, the shape is pressed inside the corner of the four corners, so when the polystyrene foam molded product is integrally molded at the same time inside the four corners, When molding a foamed polystyrene product, the tile that has been pressed into the shape of a tile due to thermal expansion, and the foamed polystyrene product are strongly bonded to each other by internal pressure and integrated. So, without using adhesives and affixing unfoamed beads etc., you can simply use a metal plate, such as aluminum, and a tile in the shape of a pressed tile, and a polystyrene foam molding. At the same time, the tile made of a metal plate and the foamed polystyrene molded product are integrated and do not come off simply by integrally molding.

  As explained in the above example of tile production, similarly, a metal plate, a glass plate, a plastics plate, a slate plate, a ceramic plate, a tile, and a polystyrene foam molded product are simultaneously integrally molded. When the width is 1 m, the length is 2 m, and the thickness of the metal plate or glass plate is extremely thin, it may be around 0.2 mm. In the case of a glass plate, using a plate thickness of about 2 mm, the polystyrene foam molding has a magnification from 20 times foaming to 30 times foaming, and the thickness of the polystyrene foam molding is 10 mm to 30 mm. Before and after, even if a metal plate or glass plate and polystyrene foam molding are integrally molded at the same time, the width is 1 m, the length is 2 m, and the thickness is 20 mm to 30 mm with a slight weight. Before and after, extremely light, strong, strong, strong, hard to break, hard to cause mold, etc., and resistant to rats, cockroaches, etc. Composite material of metal plate and polystyrene foam is completed In addition, a composite material of a glass plate and a polystyrene foam molding is completed. Also, as with the case of roof tiles, it can be fixed using wood screws and nails. In addition, the cost is very low, which is the same as the case of roof tiles.

  Whether you want to make a kite, a canoe, kayak, yacht, bath tub, or other bathtub, or a bathtub, you can use a metal plate such as an aluminum plate, stainless steel plate, or copper plate. After pressing and molding the bathtub and canopy, canoe, kayak, yacht, bath tub etc. and the bathtub, the inner wall of the inner wall is about 20 to 30 times, and the thickness is 10mm. When the polystyrene foam molded product of about 30 mm from is integrally molded at the same time, the thickness of the aluminum plate, stainless steel plate, copper plate, etc., which are the metal plates used for the outer wall, is extremely around 0.2 mm. Even if it is thin, it is durable, strong, does not deteriorate for a long time, and is resistant to impacts, making it possible to create a kite, canoe, kayak, yacht, bathtub, etc.

  In addition, the use of composite materials in which a very thin metal plate, glass plate, ceramics plate, plywood plate, tile plate, natural marble, artificial marble, or other stone plate, and polystyrene foam are simultaneously molded integrally. It can be used in a wide range of fields, from furniture such as desks, stools, and beds, to interior materials such as exterior materials, doors, and bags, flooring materials, roofing materials, and water areas such as bathrooms.

  An extremely thin glass plate, for example, a glass plate having a thickness of about 2 mm, and a polystyrene foam molded product having a thickness of about 20 to 30 times and a thickness of about 10 to 30 mm, were integrally molded at the same time. When the surface is a glass plate and the back side is a composite material of foamed polystyrene foam (abbreviated to a glass plate and a foamed polystyrene plywood), the laminated glass plate will not bend. Even if pressure is applied, it will not be damaged.

  In the above description, an unfoamed bead made of polystyrene or a polystyrene-based adhesive is made on the surface of a metal plate such as an aluminum plate or a stainless steel plate, a glass plate or a veneer plate. After the application, the description of the composite material (abbreviated as plywood for short), which is integrally molded with the foamed polystyrene product and integrated with the metal plate, glass plate, veneer plate, etc., and the foamed polystyrene product. However, without integrally molding the polystyrene foam molding and the metal plate or glass plate or veneer plate, simply using the adhesive or double-sided adhesive sheet, the metal plate or glass plate, or Veneer board, etc., large shape, block molding, molding completed, cut area cut as needed from block, cut molding, or 1 One sheet, a molded product obtained by molding each of them, a polystyrene foam molded product, bonded using an adhesive or a double-sided adhesive sheet, a composite material (plywood) of a metal plate and a polystyrene foam molded product, or glass You may manufacture the composite material (plywood) of a board, a veneer board, etc. and a polystyrene foam molding.

  Use a metal plate, glass plate, stone plate, etc. on the front surface, a veneer plate on the back surface, and a polystyrene foam molding, an adhesive, or a double-sided adhesive sheet, or other means in the middle. Even if a composite material (plywood) with a three-layer structure of a metal plate, a foamed polystyrene molded product, and a wood-based veneer plate bonded together is used, the effects described above can be obtained. A similar, effective, composite material is produced.

  Furthermore, without using a foamed polystyrene molding, for example, a very thin metal plate of about 0.2 mm, such as aluminum, stainless steel, copper, or iron, or a glass plate of about 2 mm, a ceramic plate, or a tile, Or slate, natural marble, or artificial marble, etc., and a stiff, veneer board are bonded directly using an adhesive, or a double-sided adhesive sheet is used, or a metal plate, glass plate Good compatibility with plywood, etc. Adhesive sheet, made of paper, etc. Composite material (plywood made by bonding metal sheet, glass plate, etc. and wood plywood with adhesive sheet intervening ) Will produce a composite material that has the same effect as described above.

  For example, a metal plate such as aluminum, stainless steel, copper, iron or the like having a thickness of about 0.2 mm, or a glass plate having a thickness of about 2 mm, and a veneer plate having a thickness of about 5 mm and a certain degree of stiffness. Are bonded using an adhesive, or a double-sided adhesive sheet, or other means, even if a metal plate of about 0.2 mm, such as aluminum, is integrated with a wood-based plywood plate, Can be attached with wood screws, sawed and cut with a cutter, easy to handle, and on the surface is a metal plate such as aluminum, but the length is 2m, the width is 1m, the back is A metal plate such as aluminum, called a veneer plate, is extremely light, light and cheap. An aluminum metal plate having a thickness of around 0.2 mm is an aluminum plate having a can beer can thickness of 0.3 mm. Furthermore, when a glass plate having a thickness of about 2 mm and a veneer plate having a thickness of about 5 mm are bonded together using an adhesive or the like, it is difficult to break and has a strong length. It is 2m wide, 1m wide, the front surface is glass, and the back side is veneered.

  In order to simultaneously and integrally mold a polystyrene structure on both surfaces of a polystyrene foam molding, first, a polystyrene sheet or a sheet made of ABS resin, or a Kaizac resin or HIPS resin. Using a sheet made of resin or a sheet made of other resin (abbreviated as "polystyrene sheet" for short), polystyrene structure in the same shape as the internal structure or external structure of polystyrene foam molding. Then, secondly, a polystyrene structure is put on an inner or outer mold, and a polystyrene foam product and a polystyrene structure are simultaneously molded as a pair. In this case, the molding is performed, the molding conditions are used as much as possible, the vapor pressure is reduced, the heating temperature is lowered, and the foaming processing conditions are about 60% of immature foamed polystyrene processing. After finishing, thirdly, the other, single-sided polytylene structure is again molded into a mold for molding a polystyrene foam. The molding processing conditions in this case are not the conditions for immature foaming processing, but are 100% complete and finished in a high temperature state in order to obtain a complete foaming process. The outer surface can also be a polystyrene structure. A three-layer structure. Strong, light, impact-resistant, easy to mold, extremely cheap, boat, canoe, kayak, yacht, bed, sofa, stool, chair, desk wall material for construction, architectural use Blocks, building roofs, fences, etc. can be produced. In particular, when a boat, canoe, kayak, and yacht are manufactured by the above processing method, a conventional three-layer structure Roylex and a three-layer structure boat that have almost the same structure, For example, a canoe with a length of 4.5 m can be obtained at about 14 kg, which is about half of the weight of ROYALEX, for example. It can also be manufactured at a low price.

  A conventional wooden casket is made of foamed polystyrene, made of foamed foam, with a sealed structure, and the wooden casket is placed inside the foamed foamed cocoon, and the body temperature of the body is increased. For the purpose of lowering, if dry ice is put into the inside of a wooden cage or the inside of a sealed structure cage made of polystyrene foam, if the body temperature of the body is lowered, a very small amount, The body can be preserved for a long time by using dry ice. When incinerating the body, incinerate only the wooden urn made of Styrofoam and placed inside the casket, and the body that is placed inside the wooden urn. Incineration of firewood made of polystyrene foam causes pollution, so the firewood made of polystyrene foam is recycled and rented by a funeral company.

  In addition, it is possible to put in a conventional wooden casket, made of foamed polystyrene, sealed structure, made of cocoon, and placed the body inside the styrene foamed casket, so that the body temperature of the body is increased. For the purpose of lowering, if you want to reduce the body temperature of the dead body by putting dry ice inside the bag made of polystyrene foam, use a very small amount of dry ice, for a long time, When the body can be preserved, at the same time, the inside is a cocoon made of polystyrene foam having a high heat insulating effect, but the appearance has an advantage that the appearance of a conventional wooden cocoon can be maintained.

By developing fences, boats, canoes, and building materials made of polystyrene structures, polystyrene structures, in the middle of polystyrene foam, in the form of sandwiches, on the outer surface and on the inner surface It becomes a strong structure with a honeycomb structure that completely changes the properties of polystyrene foam.
However, in the case of molding a polystyrene foam, it is heated and molded using vapor pressure. At the same time, both the outer surface and the inner surface are made of a polystyrene structure, and a structure made of foamed polystyrene is placed between them. Since the sandwiched structure cannot be molded, as shown in the present invention, one side is a polystyrene structure and the other side is made of polystyrene foam. Since the structure made of polystyrene foam is made to face and an adhesive or irregularities are formed and meshed, there is also an advantage that the structure is strong.

  In the country where burial is done from the religion such as Christianity, Islam, Judaism, for example, in the United States, the countries of Europe, when putting it in the wooden urn and doing the burial Bacteria, viruses, prions, etc., which are carried by the dead body, penetrated into the soil from the gaps in the wooden fence, and at the same time, deeply penetrated into the soil. , The prion is contaminated.

  To prevent this problem, the body is made of styrene foam, using cocoons, or using foam materials, such as urethane foam, or other chemical products. There is a need to make a coffin using a material that the body can rot until it becomes completely sterile inside the coffin.

  When the body is put in a jar made of Styrofoam and buried, it varies depending on the region until the body completely rots, but it does not change at all, for example, several years to about 10 years. Because it is a spear, it can completely kill bacteria, viruses, prions, etc. that the body is carrying, so that it does not contaminate the soil with bacteria, viruses, etc. There are advantages. From this point of view, as a material, a styrene foam bag is the most durable, strong, waterproof, and excellent from all points of view.

  Furthermore, a polystyrene structure made of polystyrene, which is molded in exactly the same shape as the inner shape or outer shape of the cage, is made of polystyrene foam, put into a mold when molding the cage, and the polystyrene structure And, if it is a cocoon made of polystyrene foam coffin at the same time, the inner surface and the outer surface of the polystyrene foam are integrally molded with the polystyrene structure, so it is more durable. It will have a more waterproofing effect.

  In particular, malignant prions are not easily decomposed in the ground, so when burying an infected patient with malignant prions, use a spear that does not break in units of 10 or 20 years. There is a need to burial.

  If it is made of foamed polystyrene, a pair of molded polystyrene foam or polystyrene structure, and if it is made of foamed polystyrene, black or black, a color very close to it, or a wood grain pattern such as mahogany or ebony, It is possible to print on a polystyrene structure on the surface of a polystyrene foam cocoon or a polystyrene foam cocoon, forming an outer wall on the outside, mahogany, ebony, or other wood grain pattern, and black, It is possible to easily produce a bag made of polystyrene foam. Furthermore, there is an advantage that family crests can be printed easily.

  Using a cut plate with a thickness of around 30 mm, cut from the styrofoam on the inner wall of a conventional wooden wall, the bottom plate, the wall plate of the inner wall, and the ceiling plate are replaced with the interior of the conventional wooden wall. In addition, the heat resistance when compared with the conventional wooden casket, even with a wooden casket attached with a bond, etc., is a cut plate made of polystyrene foam on the inner wall of the wooden casket. Compared with the conventional wooden-only casket, if it is a sealed, structured, casket, it has a much more heat-resistant effect, so the amount of dry ice used is extremely small And you can save the body for a longer time.

  Since the polystyrene sheet is the same raw material as the polystyrene foam, if the polystyrene structure and the polystyrene foam are simultaneously molded as a pair, the polystyrene structure and the polystyrene foam can be thermally fused to form a pair. Although the surface is glossy and becomes a strong surface material, there is a drawback that only one side can form a polystyrene structure and a polystyrene foam as a pair.

  When transporting wooden wooden coffins from the coffin manufacturing factory to the funeral hall or each home, the wooden coffins are heavy and large so that they will not be damaged. In addition, it is hard to make a wooden, coffin, exterior, but it is made of wooden, coffin, made of polystyrene foam, completely sealed, made of polystyrene foam, inside the coffin, wooden, If you put a coffin, a wooden coffin, made of polystyrene foam, sealed completely, covered, and shipped to the funeral hall, the wooden coffin can be damaged. Absent.

  Furthermore, from the conventional cocoon manufacturing plant to the funeral hall, the styrene foam used for the exterior was used as a heat-resistant casket, and inside the casket made of polystyrene foam, the conventional, For the purpose of cooling the whole of the wooden cocoon, put the body in the wooden cocoon, put the dry ice into the inside of the cocoon for the purpose of cooling, make a storage part, dry ice Or conventional, wooden, coffin, inside, dry ice, conventional, wooden, whole perimeter of coffin, or inside wooden coffin, cooled, conventional, wooden The body temperature of the corpse, which is enshrined inside the cage, is cooled. Since the firewood made of expanded polystyrene causes pollution when incinerated, it should be recycled without incineration.

  Low-density foamed polystyrene molding such as 40-fold or 50-fold foaming, or high-density foamed polystyrene molding such as 3-fold or 5-fold foaming, veneer board, wooden board, tin plate, tin plate , Gypsum board, PVC flat plate, PVC corrugated plate, flat plate made of other resin, corrugated plate slate, iron plate other than tinplate, stainless steel, aluminum flat plate, corrugated plate, copper plate, and wave A flat plate and corrugated plate made of a material such as a plate, and a polystyrene foam molded product are combined using a wooden hook or the like, or sealed inside a polystyrene foam molded product, and the above If the material is fixed, the soundproofing and heat insulation effect is high, and it is easy to produce a light and cheap building material.

  In particular, to develop a building material that is resistant to high temperatures, made of plywood or wood, and foamed polystyrene molded in one piece, with soundproofing and heat insulation effects, at an extremely low price. As a result, the construction of the house may change completely in the future. In addition, building materials made of wood materials such as plywood, flat plates, etc., and wooden, fixed hooks, combined with polystyrene foam molded products, can be nailing, Since it can be easily cut with a saw, it can be used for a wide range of construction materials.

  When a metal plate and a foamed polystyrene to be joined are placed in a mold or the like and simultaneously molded integrally to join the metal plate and the foamed polystyrene, the most important technique is as follows.

  After pasting unexpanded beads (raw material beads) on the surface of a metal plate using an adhesive, the raw material beads pasted on the surface of a metal plate are pasted on a metal plate, etc. As a pre-foamed polystyrene, after pre-foaming on the surface of a metal plate, etc., after aging the pre-foamed polystyrene, put a metal plate etc. with the aged pre-foamed polystyrene on the inside of the mold for molding the foamed polystyrene. The most important technique in the present invention is to join the pre-foamed polystyrene pasted on the surface of a metal plate or the like and the foamed polystyrene of the desired material or thickness inside the mold.

  This means that raw material beads having a particle diameter of, for example, about 1/40, smaller than the pre-foamed polystyrene foam attached to the surface of the metal plate or the like using an adhesive, are attached to the metal plate or the like. The reason is that workability is easier when pasted.

  However, pre-foamed and aged styrofoam may be used by sticking it on the surface of a metal plate or the like using an adhesive, but the workability is poor compared to using raw material beads. I can say that.

  In addition, when hard paper such as corrugated cardboard (corrugated cardboard) or coated paper and polystyrene foam are joined and paired by using the above processing means, it is suitable for transportation that has high heat resistance, sound resistance, and impact resistance. A container is made.

  In addition, the flame retardant foamed polystyrene and corrugated sheet made of corrugated cardboard, coated paper, metal plate, plywood plate, and tin plate, etc. are joined into a pair by using the above processing means, and the field of building materials, etc. Can be widely used.

  In addition, the above processing technology features a curved object made of corrugated cardboard, coated paper, plastic plate, tin plate, copper plate, aluminum plate, stainless steel plate, or other materials, and corrugated plate shape. It is also a great feature that a curved surface shape and a polystyrene foam can be joined to form a pair.

  In addition, products made using the above processing technology are extremely thin, corrugated cardboard, coated paper, plastic plate, tin plate, copper plate, aluminum plate, stainless steel plate, depending on the magnification when molding polystyrene foam. When paired with materials made of other materials, etc. using the above processing technology, they are strong, heat resistant, soundproof, impact resistant, etc. Container and its materials, materials for the purpose of making boats, materials for the purpose of making fishing boats, building materials, or other fields that can be used as materials that can be used in any field Could be developed.

  Also, depending on the magnification of the polystyrene foam, it is a very thin material, corrugated cardboard, coated paper, plastic plate, tin plate, copper plate, aluminum plate, stainless steel plate, or other extremely thin plate, for example, 0.1 When a tin plate, copper plate, aluminum plate, stainless steel plate and foamed polystyrene of about 0.3 mm to 0.3 mm are joined and paired using the above processing technology, they are light and strong, and can be cut with a cutter knife. The result is a material that can be nailed.

  In addition, it is extremely thin, glass plate, plastic plate, or metal plate such as tin plate, copper plate, aluminum plate, stainless steel plate, etc. Even if it is extremely thin, for example, a metal plate such as a tin plate of about 0.1 mm to 0.3 mm, a copper plate, an aluminum plate, a stainless steel plate, a material such as a building material as a material for a strong roof, an outer wall or an inner wall Therefore, materials that can be used in all fields were made from materials for making boats.

  By using the above processing technology, it is possible to combine and integrate extremely thin glass plates, plastic plates, or metal plates such as tin plates, copper plates, aluminum plates, stainless steel plates, and styrene foam. The advantages are strong, heat-insulating, soundproof and impact-resistant, as well as, for example, 0.1 to 0.3mm tin plate, aluminum plate, copper plate, stainless steel plate It can be said that the greatest feature of the present invention is that resources can be saved because an extremely thin and light metal plate can be used.

  Adhesive of unexpanded beads (raw material beads) or pre-expanded pre-expanded beads on the surface of metal plates such as aluminum plate, stainless steel plate, steel plate, glass plate, veneer plate, coated paperboard and cardboard paperboard Then, it is heated to around 100 degrees using steam. Put in the inside of the pot where steam is spouting, heat for about 10 to 20 minutes, or pass inside the continuous pot where steam is spouting, and put it in the mold etc. This makes it possible to form a foamed polystyrene molding layer on the surface of a metal plate, a glass plate, a veneer plate, a coated paperboard, a corrugated paperboard or the like.

  After applying unexpanded beads (raw material beads) or pre-expanded beads on the surface of a metal plate such as stainless steel, glass plate, veneer plate, coated paperboard, and corrugated paperboard, for example, the thickness In the case of forming a molding layer in which a polystyrene layer is molded between a metal plate such as 0.1 mm stainless steel and a metal plate, raw material beads or pre-expanded beads are used as an adhesive on the surface of the metal plate. After creating two metal plates of the same size, the surface of the raw material beads or pre-expanded beads that are pasted using an adhesive on the two metal plates Apply a certain load on the metal plate and heat it to about 100 degrees for about 10 minutes using steam etc. with the load applied on the two metal plates. You And the both sides are stainless steel and other metal plates, but the inside between the metal plates and the inside of the metal plate is a polystyrene foam molded product with a three-layer sandwich shape, extremely light and strong, both sides Is a stainless steel plate and the inside is a three-layer structure made of polystyrene foam.

In addition to the sandwich-shaped three-layer structure in which a polystyrene foam molded product is integrally formed between the metal plate and the metal plate, for example, the following combinations are possible.
(1) A three-layer structure in which a polystyrene foam molded product is integrally molded between a metal plate and a plywood plate.
(2) A three-layer structure in which a foamed polystyrene molding is integrally formed between a metal plate and a glass plate.
(3) A three-layer structure in which a polystyrene foam molded product is integrally formed between a glass plate and a glass plate.
(4) A three-layer structure in which a foamed polystyrene molding is integrally molded between a glass plate and a plywood plate.
(5) A three-layer structure in which a polystyrene foam molded product is integrally molded between a plywood plate and a plywood plate.
(6) A three-layer structure in which a polystyrene foam molded product is integrally molded between a veneer plate and a metal plate.
(7) A three-layer structure in which a polystyrene foam molding is integrally molded between the coated paperboard and the coated paperboard.
(8) A three-layer structure in which a foamed polystyrene molded product is integrally molded between cardboard paperboard and cardboard paperboard.
(9) A three-layer structure in which a foamed polystyrene molding is integrally molded between a plastic plate and a plastic plate.
(10) A three-layer structure in which a polystyrene foam molding is integrally molded between a plastic plate and a metal plate.

Furthermore, in addition to the combinations described above, by developing a method for joining sandwich-shaped three-layer structures according to the present invention, a variety of combinations, sandwich shapes, and the inside are made of foamed polystyrene. An integrally molded three-layer structure was obtained.

  In addition, using a metal plate such as stainless steel, glass plate, veneer plate, coated paperboard, and corrugated paperboard, it has a sandwich shape. For example, both sides are metal plates, etc., and a polystyrene foam molding is integrated in the middle. When molding a molded three-layer structure, when molding a thick foamed polystyrene molding, if the raw material beads are pasted on the surface of two metal plates on both sides, the thickness is thick. The foamed polystyrene molded product can be integrally molded inside the middle of the metal plate.

  Furthermore, as a processing step for mass production, for example, using an adhesive on the surface of the plywood, the raw material beads are pasted. After creating hundreds of plywood, the raw material beads are formed on the surface of the plywood. A structure in which raw material beads pasted using an adhesive are laminated between a plywood board and a plywood board, which is the stage of the previous process in which steam is used to mold the surface and the surface pasted together. If you make a three-layer structure, put it in a room where you can heat with dozens or even hundreds of sheets, and heat it as a heating time at 100 degrees for about 10 to 20 minutes. Even though the surface of both sides is a plywood, a sandwich-shaped three-layer structure in which a polystyrene foam molding is integrally formed inside the plywood and the plywood is molded into tens or hundreds simultaneously. Since Rukoto can, in very simple work process, it is possible to manufacture a three-layer structure object.

  When forming a molded product layer of a thick polystyrene foam product between a plate such as a metal plate, a glass plate, a veneer plate, a flat plate made of wood, a coated paperboard, and a corrugated paperboard, and each of the plates, for example, A net plate or molded in advance at another location between two metal sheets with beads or pre-expanded beads attached to the surface of the metal plate using adhesive. Two sheets of sandwiched thick polystyrene molded product that are sandwiched between two metal plates and in contact with both side surfaces of the molded thick polystyrene molded product are subjected to a certain load from both sides. When the raw material beads or the pre-expanded beads, which are pasted using an adhesive on the surface of the metal plate, are heated at the same time using steam, vapor pressure, or other heating means at around 100 degrees, 2 Sheet metal plate Raw beads are adhered to, or pre-expanded beads are adhered to, is sandwiched between two metal plates. We have invented and discovered a phenomenon in which a cut plate obtained by cutting a foamed polystyrene product or a molded thick foamed polystyrene product is united and united by heat.

  Invention and discovery of this phenomenon, that is, raw material beads or pre-expanded beads are pasted using an adhesive. For example, two veneer plates are laminated on both sides, centering on two veneer plates on both sides and a polystyrene foam molded product or a foamed polystyrene cut plate molded at another location. Heat the layer structure object with steam under a certain load, or use another heating means to heat around 100 degrees for about 10 to 20 minutes. When applied to a structural object, both sides of the veneer are centered on the foamed polystyrene molded product or foamed polystyrene cut plate molded at another location on the raw material beads or pre-expanded beads attached to the veneer plates on both sides. Are fused and united, and a composite material of a three-layer structure object made of plywood on both sides and the inner part of the center made of foamed polystyrene with heat insulation and sound insulation is completed. It became.

  The greatest advantage was that it was possible to produce a three-layer structure object in which both sides were laminated with veneer plates or metal plates, centering on the foamed polystyrene molded products molded at this different location, or cut sheets of foamed polystyrene molded products. Without using a mold, a veneer plate or a metal plate, etc. on both sides, but a veneer plate on both sides, or a three-layer structure object in which the inside of the metal plate is a foamed polystyrene molding, a veneer plate, or This is the development of a technique in which raw material beads or pre-foamed beads attached to a metal plate and a polystyrene foamed product such as a cut plate are combined by heat fusion. The development of this technology has made it possible to mass-produce foamed polystyrene molded products in a short time without using a mold.

  In addition, the following differences occur when molding polystyrene foam moldings by attaching raw material beads or pre-expanded beads using adhesives to metal plates, glass plates, veneer plates, etc. Turned out to be.

For example, a metal plate with unfoamed beads (raw material beads) affixed on a metal plate of about 0.1 mm stainless steel plate using an adhesive, a mold for molding expanded polystyrene, or other electric heating When foamed polystyrene is molded inside the room using the heat means used, the expansion rate of uninvented beads pasted using an adhesive on the metal plate on which unfoamed beads are pasted, and preliminary The expansion ratio at which the pre-expanded beads that have been expanded and expanded are different from the expansion ratio of the unexpanded beads.
It became possible to simultaneously mold two types of polystyrene foams having different expansion ratios and different expansion ratios.

  That is, for example, a metal plate in which unfoamed beads (raw material beads), which is a raw material of polystyrene foam that has not been pre-foamed on the metal plate, are attached to the metal plate using an adhesive, for example, Raw material that uses pre-foamed beads, pre-foamed beads, and foamed polystyrene molded material made from pre-foamed beads, which are integrally processed and united at the same time, are bonded onto a metal plate using an adhesive. Since the expansion ratio of the beads is different from the expansion ratio of the pre-foamed polystyrene that is pre-foamed to form the foamed polystyrene molding, the strength per area on the metal plate is greater than the area of the foamed polystyrene molding. It became clear that it became stronger than the strength of.

  As a result, a foaming ratio of 50 is achieved with an extremely thin metal plate, etc., in which unfoamed beads (raw material beads) are bonded to the surface of a very thin metal plate, glass plate, and plywood using an adhesive. Even if it is combined and processed with polystyrene foam around twice at the same time, the portion corresponding to the back side of a metal plate or the like can be adjusted to a magnification of around 5 to 10 times by the heating time of foaming. Thus, for example, the strength of the surface area of the metal plate, the glass plate, and the veneer plate can be further increased.

  When the unexpanded beads and the pre-expanded beads are integrally processed at the same time as a foamed polystyrene molded product and integrally processed and combined, the surface is very hard, for example, at a low magnification of around 5 times, and the inside is a high magnification, For example, it has become possible to mold a foamed polystyrene molded product having properties that are contradictory to each other at a high magnification of about 50 times.

  A pre-expanded bead with pre-expanded pre-expanded beads affixed to the surface of a metal plate or the like using an adhesive and a pre-expanded bead with the same magnification applied to the metal plate using an adhesive. By using and molding a foamed polystyrene molding, it was possible to mold a polystyrene foam molding with exactly the same magnification.

  As a conclusion, when unexpanded beads (raw material beads) and pre-expanded pre-expanded beads are integrally processed at the same time to form a polystyrene foam molding, the same molding has completely different properties. It was found that a polystyrene foam molded product can be molded.

  For example, the expansion rate of unexpanded beads (raw material beads) on the back side of a metal plate, which is affixed to a metal plate or the like using an adhesive, is an expanded polystyrene molding with a very low magnification. As a result, a foamed polystyrene molded product that is very hard and has a high strength per unit area can be obtained.

  This means that unexpanded beads (raw material beads) or pre-expanded beads are pasted using an adhesive on a very thin metal plate such as stainless steel, copper plate or aluminum of 0.1 mm or less. When expanded beads or pre-expanded beads are expanded, the expanded pressure is used to form a foamed polystyrene product in close contact with a metal plate, glass plate, plywood plate, coated paperboard, flat plate, cardboard paperboard, etc. In the case of a plate etc., even if it is an extremely thin metal plate, the adhesive will not wave, the parallelism and the accuracy of the parallel surface, the parallelism and the parallel surface can be attached as accurately as possible Became.

  A cut sheet with a thick polystyrene foam molded at another location, for example, a cut plate with a thickness of around 60 mm, a metal plate such as stainless steel with a thickness of around 0.1 mm on one side, and a cut plate on the other side When heat-sealing veneer plates of 7mm to 12mm, they are pre-foamed beads or unfoamed beads on the back surface of the metal plate that is the front surface and the back surface of the veneer plate that is the back surface. After pasting (raw material beads) using an adhesive, pre-expanded beads or unexpanded beads (raw material beads) are pasted from above and below a cut plate of about 60 mm using an adhesive. A metal plate and a veneer plate are joined from both sides to a sandwich shape around a cut plate of about 60 mm, and then heated using electricity. For example, an iron plate heated to around 100 degrees C. Using a heating plate from the top and bottom, one side is from a metal plate made of stainless steel of around 0.1mm, and the other side is from a plywood plate. Using a metal plate such as stainless steel around 0.1mm, a cut plate made of foamed polystyrene around 60mm, a veneer plate around 7mm to 12mm, and a heating plate that is two iron plates from above and below When pressure and heating are performed simultaneously, the metal plate made of stainless steel of around 0.1mm on the front surface of the cut polystyrene sheet of around 60mm and the back side of around 7mm to 12mm in about 10 minutes The veneer plate can be heat-sealed simultaneously on the top and bottom of the cut plate of around 60mm.

  Further, the processing means described above is a corrugated sheet such as a corrugated sheet made of stainless steel or a corrugated sheet having a bent structure such as a corrugated sheet. The foamed polystyrene molding expanded inside, and the foamed polystyrene molding having the same shape as the inside of the corrugated sheet can be molded inside the corrugated sheet.

  In addition, as a technology for heat fusing a corrugated tin plate or a corrugated metal plate made of stainless steel and a foamed polystyrene molded product having exactly the same corrugated shape, It has also been found that this technique can also be heat-sealed using the above processing technique.

  Explains the technology of joining the metal plate such as stainless steel, the cut plate made of foamed polystyrene, and the veneer plate by using the iron plate that is the heating plate that is the above processing means. However, as a technique for heat fusion, heat fusion is performed by heating for about 10 minutes at around 100 ° C. using steam or vapor pressure which is a heating means other than the iron plate which is a heating plate. I was able to wear it.

  With a cut plate made of polystyrene foam as the center, for example, a metal plate made of stainless steel of about 0.1 mm is pasted on the surface, and a veneer plate of about 7 mm to 12 mm is heat-sealed to the other back surface. The greatest advantage of the joining technology is that by using a cut sheet of polystyrene foam molded product, a metal plate such as stainless steel is heat-melted on the surface of the polystyrene molded product without using a special mold. It is the greatest advantage of the above-described processing technique that it is possible to attach and bond a veneer plate or the like to the back surface by heat-sealing in a very short time.

  In addition, when using the processing technique of the present invention, the inner part or the outer part of the cardboard box made of cardboard paperboard or the box made of coated paperboard (hard paper), at the same time as the foamed polystyrene molding, Inside the mold or the like, when the cardboard box or the box made of coated paperboard (hard paper) is integrally heat-sealed and molded, the outer part (exterior) or the inner part is cardboard paperboard, Or while being coated paperboard (hard paper), the inner part which is the inner part of the cardboard box or the box made of coated paperboard (hard paper), or the outer part which is the outer part is a foamed polystyrene product. It has become possible to produce a container for transportation that is strong in heat resistance, soundproofing and shock resistance.

  Furthermore, using the processing technique of the present invention, the cardboard box made of cardboard paperboard, or the interior part inside the box made of coated paperboard (hard paper), or made of cardboard paperboard. A cardboard box or a box made of coated paperboard (hard paper) is heat-sealed with a foamed polystyrene molded article and the inside of the mold or other means. The advantage of an integrally processed shipping container is that it is suitable as a shipping container for easily damaged products such as sake, shochu, whiskey, chemicals, etc. in a container made of aqueous solution, solution chemical or glass. A shipping container was made.

  In addition, a cardboard box made of corrugated paperboard or a box made of coated paperboard (hard paper) is used for the outer exterior part, while the inner part inside is made of foamed polystyrene and heat fusion. In the case of the integrally processed container, since the exterior part is corrugated paperboard or coated paperboard (hard paper), printing processing is easy and printing with a very beautiful finish can be performed. For example, ice confectionery such as ice cream, or Can be used as a container for fresh fish.

  Furthermore, the inner or outer part of the cardboard box made of corrugated paperboard or the box made of coated paperboard (hard paper) was heat-fused with the foamed polystyrene at the same time and integrally molded. In the case where the inner part or the outer part is a foamed polystyrene molded product, the biggest disadvantage of the foamed polystyrene molded product is that it is weak in impact resistance, that is, the foamed polystyrene product that is easily damaged. A container to make up for the defects was completed.

  Also, a cardboard box made using cardboard paper developed using the above processing means, a box made of coated paperboard (hard paper), and an eight-method styrene molded product are fused together and integrated. The greatest advantages of containers made of composite materials, such as processed polystyrene foam and cardboard boxes, or boxes made of polystyrene foam and coated paperboard (hard paper), are strong in impact resistance and breakage. Because it is a difficult container, attach a portable air pump to transport live fish such as prawns, crabs, Thailand, etc. It is a container that is optimal as a container for transporting live fish while blowing out air.

  However, the corrugated cardboard box made using the corrugated paperboard used above, or the box made of coated paperboard (hard paper), use wax (wax) or oil that is strong against aqueous solution (seawater). Ordinary corrugated paperboard, although it may be better to use a corrugated cardboard box made of corrugated paperboard that has been processed to be insoluble in aqueous solution (seawater) or a box made of coated paperboard (hard paper) May be used.

  Corrugated cardboard boxes, etc., which is a device for the above processing means, and a composite material of polystyrene foam molding, have developed shock-resistant and heat-resistant containers that are completely resistant to breakage. Development of containers for transporting live fish such as prawns, crabs, and Thailand with a portable pump that can safely transport live fish such as prawns, crabs, and Thailand I was able to do it.

  In particular, since the container made using the composite material technology described above, made using the composite material, is a container that is hardly damaged, for example, in an aqueous solution (seawater) with a portable pump. Containers (live fish boxes) for transporting live live fish, which is a container that blows out air, are not used by all Takkyubin companies because there is no concern that the aqueous solution (seawater) will leak together. Since there is no worry that water solution (seawater) leaks as a container that can be delivered by the company, Takkyubin companies can develop containers that can be delivered throughout Japan.

  In the unlikely event that a Takkyubin company does not accept, or deliver, a live fish box with a pump, which is a container in which an aqueous solution (seawater) is placed inside a container made of polystyrene foam, This is because there is a concern that the container (live fish box) may be damaged and the aqueous solution (seawater) may leak.

  In order to eliminate the above-mentioned concerns, the above processing technique is a thin film of styrene monomer (the thickness of the film is affixed to, for example, corrugated paperboard, etc.) between the foamed polystyrene molded product and the cardboard box. A thin film of styrene monomer is formed between the foamed polystyrene molding and the cardboard box, etc., by heat fusion of the beads (depending on the thickness of the unexpanded beads). Since the unique processing technology that can be used is the feature of the present invention, it is exactly the same as a container made of plastic and has the effect of preventing water leakage, but has heat resistance. Since it is a container, it is also a container that can be used in various fields other than containers intended for transporting live fish.

The reason why a thin film of styrene monomer, exactly the same as a plastic molded product, can be formed between a foamed polystyrene molded product and a cardboard box, for example, is the adhesive on the surface of cardboard paperboard. The raw material beads (unexpanded beads) or pre-expanded beads that are pasted by using a foamed polystyrene foam, for example, corrugated paperboard, depending on the heating temperature when molding the intended polystyrene foam Since raw material beads (unexpanded beads) or pre-expanded beads are melted and dissolved in the middle of the sheet, an extremely thin film, that is, a plastic molding layer, is placed between the foamed polystyrene molded product and, for example, corrugated paperboard. The maximum effect of the present invention is that it can be easily formed.

  This means that, using the above processing technology, for example, a container using a composite material of cardboard paperboard and a foamed polystyrene molding can basically develop a container that does not break at all. That means that.

  If the container is made of a composite material using the above-mentioned processing technology, and a foamed polystyrene molded product and a cardboard box are integrated by heat fusion, wax (wax) or oil resistant to aqueous solution (seawater) Even if it does not use the cardboard box manufactured using the corrugated paperboard etc. processed into the property which does not melt | dissolve with respect to aqueous solution (seawater) using etc., it does not melt | dissolve with respect to aqueous solution (seawater). There is no risk of damage if the cardboard box and styrene foam molded product are heat-sealed and integrated. For example, when used to transport live fish such as prawns, crabs, and Thailand, water leakage will occur. It became possible to develop a container that could be transported without any problems.

  Further, for the purpose of reinforcing the strength of the polystyrene foam molded product, the corrugated cardboard or the corrugated cardboard at the stage of forming the cardboard box described above is used on the surface with raw material beads (not yet used). A description will be given below of a corrugated cardboard box formed by using corrugated paperboard without foamed beads) or pre-foamed beads, and a container obtained by integrally processing a foamed polystyrene product into a composite material.

  For the purpose of reinforcing the strength of the foamed polystyrene molded product described above, the purpose of simultaneously molding the cardboard box at the stage of forming the cardboard box and the foamed polystyrene molded product inside or outside the cardboard box at the same time Then, a cardboard box is placed inside the mold for the purpose of molding a foamed polystyrene molded product, and the foamed polystyrene molded product is formed inside the cardboard box or outside the cardboard box. Thus, as a composite material obtained by fusing a foamed polystyrene molding and a cardboard box, a container in which the strength of impact resistance of the foamed polystyrene molding is reinforced may be used.

  When the foamed polystyrene molding described above is molded inside a mold or the like, why is it necessary to use the foamed polystyrene molding for the inner part of the cardboard box or the outer part of the cardboard box? The purpose of processing a pair of cardboard boxes and foamed polystyrene products at the same time is a cardboard box which is a shortcoming of foamed polystyrene products, which is a shortage of strength when dropped, at the exterior or interior at the same time The purpose is to reinforce the strength when the foamed polystyrene molded product falls.

  In addition, for the purpose of further integrating the cardboard box and the foamed polystyrene product, the foamed polystyrene product comes into contact with the surface of the cardboard box. At the stage where the paperboard or thick cardboard is pasted on the surface of the cardboard box where the cardboard box comes into contact with the foamed foam to form a concave-convex shape, or at the stage of the cardboard paperboard or the stage where the cardboard box is formed By using a press on the surface of the corrugated paperboard, the convexity, or concave-convex shape, or other convexity, or concave shape is formed on the surface of the corrugated cardboard box, or inside the cardboard box At the same time, it is possible to develop a container made of a composite material that integrates a cardboard box and a foamed polystyrene product. I became.

  When the foamed polystyrene molded product described above is dropped by processing a pair of cardboard boxes at the same time as molding the foamed polystyrene molded product for the purpose of making up for insufficient strength when the foamed polystyrene molded product falls. With a portable air pump for the purpose of transporting live live fish, because a container that is strong in impact resistance and strong in heat resistance has been made, making it possible to prevent water leaks at all. By using the so-called live fish box, for example, there is an effect that a takkyubin company that transports live fish such as prawns, crabs, and Thailand with a small amount can handle.

  Furthermore, as an application of the container made of the composite material in which the corrugated cardboard box and the polystyrene foam molded product are integrated and fused as described above, live fish that is alive is transported using seawater (aqueous solution). In addition to the purpose of being used as a container for use, a container for use as a container for the purpose of delivering a returnable box used inside a factory, or a returnable box of a home meal company that delivers foods every day Since it has impact resistance and heat resistance, there is an advantage that it can be used for a long time. In addition, there is an effect that a container having an advantage that the appearance of a cardboard box that can be printed with a beautiful appearance can be used is completed.

Also, instead of the corrugated paperboard described above, the coated paperboard (hard paper) is used, and the coated paperboard (hard paper) and the polystyrene foam are integrally processed and fused to form the coated paperboard (hard paper). Using the composite material of styrene foam molding, the target container described above may be manufactured.

  Of the veneer board, the gypsum board, or the corrugated board, or the glass sheet, or the back surface of the mirror, the stone board, the artificial stone board, the thick paper, or the coated paper (hereinafter referred to as a gypsum board) described above. In order to make the surface have magnetic properties, for example, the thickness of the magnetic iron plate is 230 μm or less, or 230 μm or more, a very thin magnetic iron plate, stainless steel, or aluminum, Alternatively, a copper plate (hereinafter abbreviated as a magnetic iron plate or iron plate) is used, and an iron plate is attached to the surface of the gypsum board or the back surface to make it a magnetic material.

  Also, by attaching an iron plate, an iron plate with holes formed on the back surface of the mirror, or a metal mesh made of iron, and making the surface of the mirror or glass a magnetic material, for example, An object of the present invention is to easily adsorb a memo paper or the like on the surface of a mirror or glass using a magnetic force of a magnet on a mirror or glass surface.

  As the processing means of (1), a magnetic iron plate is used on the surface of one side of a gypsum board using an adhesive or a double-sided tape (hereinafter abbreviated as an adhesive). A plywood-shaped gypsum board (hereinafter abbreviated as a gypsum board with an iron plate) with a gypsum board bonded together is manufactured.

  As the processing means of (2), a plywood board with iron plate is produced by bonding magnetic iron plates from both sides of the gypsum board using an adhesive with the gypsum board in the middle.

  The gypsum board with iron plate, which is made by bonding the gypsum board described in (1) and (2) above to the magnetic iron plate using an adhesive, is used as an interior material for a house, which is a building material. . Or if it is used as an exterior material for the outdoor part of the house or as a ceiling material, it is a gypsum board with a steel plate made of magnetic material on the surface of the gypsum board and a gypsum board with a plywood shape bonded to the gypsum board. There are effects (1) to (6).

  As an effect of (1), when a gypsum board with an iron plate, which is a laminate of a gypsum board and a magnetic iron plate, is used as an interior material in a house interior of a building material, an exterior material in an outdoor part of a house, or an interior material of a ceiling For example, when a gypsum board with iron plate made of a magnetic material is used as a wall material for a room in a house or a ceiling material for a ceiling, a magnet magnet is used on the side wall or ceiling on the side wall of the room. Thus, for example, a memo paper or the like can be attached to the surface of the side wall surface of the room or the surface of the ceiling using the magnetic force of a magnet.

  As an effect of (2), when it is used as an interior material, an exterior material, or a ceiling material of a gypsum board with an iron plate, it becomes a gypsum board having a strong strength that a rat cannot crawl.

  As an effect of (3), the gypsum board bonded to the iron plate has an excellent soundproofing effect.

As the effect (4), the heat insulation effect is excellent.

As an effect of (5), it becomes strong in fire prevention or disaster prevention.

  As an effect of (6), since it is an extremely thin iron plate, it is possible to use a nail or the like to drive a gypsum board with an iron plate to a structure such as a base wood using a nail.

  As explained in (1) to (6) above, gypsum board, veneer board, corrugated cardboard, board glass, mirror back, stone board, artificial stone board, thick paper, or coated paper (below Interior materials are gypsum boards with iron plates made of magnetic material, such as iron plates of 230 μm or less and gypsum boards bonded together using an adhesive. Or, when used as an exterior material or ceiling material, a hole is made in a nail, a safety pin, or a plaster board, and it is processed on the surface of a magnetic iron plate without attaching a memo paper, for example. It can be easily attached and detached using the magnetic force of the magnet. Gypsum board, veneer board, corrugated board, or plate glass, or mirror back, or stone board, artificial stone board, thick paper, or coated paper with the same properties as magnetic steel sheets on the surface It was possible to provide.

  In particular, by attaching a magnetic iron plate to the back surface of the mirror, we provide a mirror that can be attached to the surface of the mirror by using a magnet magnet so that the memo paper can be easily attracted by magnetic force. The purpose is to do.

  The purpose of making the magnetic material properties exactly the same as the properties of the gypsum board with iron plate by means different from the gypsum board with iron plate as the properties of the magnetic material described above is as follows. This will be described in (1) to (9).

  As processing means of (1), gypsum board, plywood board, corrugated board, or glass sheet, mirror back, stone board, artificial stone board, thick paper, or coated paper (hereinafter referred to as gypsum board for short) ) On the front or back surface, spray or apply magnetic iron sand, or iron powder fine powder mixed with fine powder of iron powder, and iron powder on the surface of the gypsum board. This was explained above by forming a finished iron powder layer. Since a gypsum board with magnetic properties similar to the gypsum board with iron plate is completed, the gypsum board, veneer board, corrugated cardboard, or thick paper, as described above, with the properties of magnetic material with action and effect, Or coated paper, sheet glass, or a mirror with sprayed or coated magnetic material on the back of the mirror, for example, gypsum made of magnetic material that is easy to attach and detach to attach memo paper etc. It has become possible to provide boards or plywood or corrugated board or glass or mirrors or stone or artificial stone or thick paper or coated paper.

  As the processing means of (2), gypsum board, corrugated board, or plywood (hereinafter abbreviated as gypsum board, corrugated board, or plywood) raw material, or the inside of the adhesive that joins the plywood, Dust collectors collect iron dust, iron powder fines, or iron-containing dust that is generated at sintering plants, blast furnace factories, steelmaking factories, hot rolling factories, etc. The main component is mainly Fe, Si, Ca, etc., fine powder of sludge mainly containing iron, or mud. A gypsum raw material containing fine iron powder, the main component of which is iron, or a gypsum with magnetic properties using a raw material containing fine iron plate powder inside an adhesive that joins plywood. Manufacture board. Alternatively, a corrugated cardboard having magnetic properties is manufactured. Alternatively, a veneer board having magnetic properties is manufactured.

  The processing means of (3) is a magnetic material that is located in 258 Onoda, Hainan City, Wakayama Prefecture, which is manufactured and sold by Aisen Industry Co., Ltd. The name of the product is steel wool (hereinafter abbreviated as steel wool), which is intended for use as a special cleaner for polishing, which is made of special steel or high-quality iron that has been processed into extremely fine fibers.

  As the processing means of (4), for example, steel wool is cut into a length of about 10 mm and steel wool is cut into a very short length, and then mixed into gypsum, the raw material for the purpose of producing gypsum board. Using the raw materials mixed together, a gypsum board with the properties of a magnetic material is produced, which is very thin and mixed with extremely short steel wool.

  As the processing means of (5), an extremely thin and very short steel wool (hereinafter abbreviated as steel wool) is used inside the adhesive inside the adhesive for joining the plywood or cardboard. A veneer plate having the property of a magnetic material is manufactured, in which a steel wool is sandwiched between the plywood plate and the plywood plate at the stage where the adhesive mixed in the plywood is used or the plywood plate is laminated. Alternatively, a corrugated cardboard made of a magnetic material having a structure in which steel wool is sandwiched in the middle of a paperboard which is a raw material of the corrugated cardboard is manufactured.

  As the processing means of (6), when the surface of the plywood or cardboard is made of a magnetic material (hereinafter abbreviated as veneer or cardboard), on the surface of the plywood or cardboard, or on the back On one side or both sides, made of a very thin magnetic material as described above, for example, an iron plate of 230 μm or less is attached to the plywood or the corrugated board from one side or both sides, A veneer board having a magnetic property or a corrugated cardboard having a magnetic property is manufactured.

  As the processing means of (7), when gypsum board, plywood board, or corrugated board is made of a magnetic material (hereinafter abbreviated as gypsum board, plywood board, or corrugated board), gypsum board, plywood board, or In the middle part for corrugated cardboard or plywood, for example, a wire mesh made of wire made of extremely thin iron metal (hereinafter abbreviated as wire mesh) is plasterboard or plywood, or Sandwich shape made of plywood or paperboard with both sides sandwiched between gypsum, plywood, or paperboard forming corrugated cardboard and a wire mesh sandwiched between gypsum board, plywood board, or cardboard Gypsum board with magnetic properties, plywood with magnetic properties, corrugated cardboard with magnetic properties, thick paper with magnetic properties, The production of coated paper.

  As the processing means of (8), for example, using a processing means such as a press on an iron plate having a thickness of 230 μm or less, or 230 μm or more, which is a very thin iron plate, An iron plate having innumerable holes formed on the surface thereof (hereinafter abbreviated as an iron plate having holes) is used.

  As the processing means of (9), instead of the wire net explained in (8) above, gypsum board, plywood board, cardboard, thick paper, coated paper (hereinafter abbreviated as gypsum board) Sandwich shape in which both sides are made of plaster, centering on the iron plate with holes in the interior of the gypsum board, or in the middle of the plywood board, by sticking an iron plate with holes on the surface using an adhesive In the middle of sandwiched plywood or corrugated cardboard, which is made of plywood on both sides, centered on an iron plate with holes formed in the middle of plywood, which is the raw material of plywood, or plywood Using the processing means described in (1) to (9) above, a corrugated cardboard having a sandwich shape, with both sides made of paperboard, centered on an iron plate with holes formed, is manufactured. Then, there is an effect, such as the following (1) to (6).

  As an effect of (1), a gypsum board having magnetic properties can be obtained. Alternatively, a veneer plate having magnetic properties can be formed. Alternatively, a corrugated cardboard with magnetic properties can be produced.

  As an effect of (2), since an iron plate with a hole is used, a plaster board with an iron plate, or a veneer plate with an iron plate, or a corrugated cardboard with an iron plate (hereinafter abbreviated as a plaster board, or Even plywood such as plasterboard with iron plate) uses a steel plate with holes formed, so when attaching the gypsum board with iron plate to the structure such as the base wood, when attaching the conventional gypsum board, It is possible to use a similar means, such as a nail, to strike a structure such as an underlying wood. An object of the present invention is to provide a gypsum board with an iron plate in which holes are formed.

  As an effect of (3), since an iron plate in which a hole is formed is used, for example, a memo paper can be pasted using a magnet as a magnet. Alternatively, a memo paper can be pasted using a safety pin or the like. Alternatively, it can be nailed using a nail or the like.

  As an effect of (4), one side or both sides of the iron plate in which holes are formed are made of thick paper. For example, as a representative example, when a fitting such as a bag is formed, for example, a memo paper or the like is used. It can be easily attracted by using magnets on the surface of fittings such as fences.

  As an effect of (5), by using an iron plate in which a hole is formed, or a wire mesh made of iron, it can be applied to a base or driven using a safety pin, a nail or the like.

  As an effect of (6), a plaster board, a veneer board, or a corrugated board, which was explained in the above (1) to (9) by using a steel plate in which a hole is formed or a wire mesh made of iron, Or, using raw materials made of thick paper, coated paper, etc., forming a sash, a shoji, or a door or other joinery (hereinafter abbreviated as a sash or joinery), it is extremely light, It is possible to manufacture fittings such as a bag, a shoji, or a door having a magnetic property at a low cost.

  A gypsum board or plywood board, or a building material such as corrugated cardboard, or a fitting such as a fence (hereinafter abbreviated as a gypsum board, plywood board, or urn), which is described above, as a magnetic material. By using it as a building material or fitting, for example, a human body generated from a high-voltage line that is always approaching the interior of a house located just under the high-voltage line or very close to the high-voltage line For this reason, there is an effect that it is possible to block electromagnetic waves (radio waves) that are considered to be a cause of cancer and are harmful to the human body.

  In addition, there is an effect of blocking electromagnetic waves that are generated from various miscellaneous electronic devices inside the house and are harmful to the human body.

  Furthermore, if the metal used for the purpose of blocking electromagnetic waves is a metal that allows current to flow in addition to iron, such as copper, stainless steel, or aluminum, it should block electromagnetic waves. It is possible to use non-ferrous metals such as copper or aluminum, which are easy to process, gypsum board for the purpose of blocking electromagnetic waves, or plywood, or building materials such as corrugated cardboard, fences, or shoji Even if joinery is manufactured, there is an effect of blocking electromagnetic waves.

  A metal plate made of iron or the like described above, or a metal plate made of non-ferrous metal, for example, an iron plate in which holes are formed, or a wire mesh (hereinafter referred to as an iron plate in which holes are formed). ) On gypsum board, or plywood board, or corrugated board, or thick paper, or building materials such as coated paper, or urns, or shoji, or doors or other fittings (hereinafter abbreviated as gypsum board or urn). As processing means for synthesizing the iron plate in which the hole is formed, there are processing means (1) and (2) below.

  As processing means for combining (1), a building material such as gypsum board, or an iron plate in which holes are formed on the surface of a fitting such as a fence, is used on the surface of a gypsum board or a fence using an adhesive. A gypsum board with an iron plate in which a hole is formed or a ridge with an iron plate in which a hole is formed is formed by pasting.

  As a processing means for combining (2), the iron plate in which the hole is formed is used as the center, both sides are formed of gypsum board, and both sides of the iron plate in which the hole is formed are in the sandwich shape of the gypsum board. Form a gypsum board with a steel plate with holes, or a sandwich-shaped steel plate with holes by attaching the raw materials of fittings such as heels from both sides centering on the steel plate with holes, etc. Form.

  Using the above processing means (1) and (2), when forming a gypsum board with an iron plate in which holes (hereinafter abbreviated as holes or patterns) are formed, holes are formed on the surface of the gypsum board. In order to be able to determine the position of the formed hole, the pattern for determining the position of the hole with the same pattern as the pattern of the iron plate with the hole formed on the surface of the gypsum board with the iron plate with the hole formed For example, a place where a plaster board with an iron plate is struck onto a structure such as a base wood using a nail or an iron plate that is a magnetic material is expressed by using a printing or other means. There is an effect that it is easy to confirm a certain place.

  A thick gypsum board, or a thick plywood board, or a thick stone board, or a thick artificial stone board, or a thick glass sheet, or a thick mirror, as described above. In the case of (hereinafter abbreviated as gypsum board, veneer board, stone board, artificial stone board, plate glass, or mirror), for example, in the case of a mirror, an iron plate is provided on the back surface of the mirror. Even if pasted, since the glass forming the mirror is thick, if the magnet is not strong, for example, a note paper or the like cannot be adsorbed using the magnet on the surface of the mirror. A solution to solve the problem of weak magnetic field is a mirror in which a very thin magnet is placed on the back of the mirror with dots and an adhesive is used on the back of the mirror to attach the magnet on the back of the mirror. Since a strong magnetic field can be generated on the mirror surface from the back side of the mirror, even if a magnet with weak magnetism is used, the dot and the magnet are arranged on the back side of the mirror. Due to the synergistic effect with the magnetic field generated by the magnet, a memo paper or the like can be easily pasted on the mirror surface using the magnet. It is characterized by providing a mirror that generates a magnetic field on the surface of the mirror by using a magnet mounted on the back surface of the mirror with a magnet placed on the back surface of the mirror.

  In addition, as described above, a magnetic field is generated on the surface of the mirror using the magnet attached on the back surface of the mirror, with the magnet placed on the back surface of the mirror as described above. For example, the magnetic field (S) generated on the surface of the mirror, the magnetic field (N) of the magnet used for the purpose of adsorbing, for example, note paper on the surface of the mirror, As an application example of SN coupling between the upper magnetic field (S) and the magnetic field (N) on the mirror surface, and the magnetic field (S) and magnetic field (N) on the mirror surface, from the following (1) ( 5) Building materials, fittings, furniture, automobile reinforced safety glass, houses made of concrete, building walls made of concrete, concrete products, bricks, tiles, porcelain, etc. By embedding a magnet inside the ceramic ware (hereinafter abbreviated as a concrete product), Nkurito on the surface of such products, characterized in that it can provide a concrete product which can be generated a strong magnetic field.

  As an application example of (1), by embedding a magnet in a gypsum board, veneer board, or corrugated board (hereinafter abbreviated as gypsum board), a strong magnetic field is generated on the surface of the gypsum board. It is possible to provide building materials such as gypsum board that can be generated.

  As an application example of (2), a magnet is attached to the inside of a bag, a shoji, or a door (hereinafter abbreviated to be a bag), or a magnet is attached to the inside of a bag to It is possible to provide a joinery such as a fence that can generate a strong magnetic field on the surface.

  As an application example of (3), it can be made of concrete by embedding magnets in the walls of houses made of concrete, in the walls of buildings made of concrete, or in concrete products such as blocks. The wall of a house, or the wall of a building made of concrete, or the wall of a house made of concrete that can generate a strong magnetic field on the surface of a concrete product such as a block, or made of concrete It is possible to provide a building wall or a concrete product.

  As an application example of (4), a strong magnetic field is generated on the brick surface by embedding magnets inside bricks, tiles, porcelain or other ceramics (hereinafter abbreviated as bricks). It is possible to provide ceramics such as bricks, tiles, or porcelain that can be made to appear.

  As an application example of (5), as an application example of the plate glass for generating a magnetic field, or a mirror for generating a magnetic field as described above, for example, an adhesive is provided between two plate glasses. The two glass plates were bonded together using an adhesive to increase safety so that the two pieces of glass were bonded together and the glass fragments were not scattered when the glass plate was damaged. It is made of raw materials such as extremely thin ferrite or iron plate with a thickness of 200μm or less, or 200μm or more, in the middle between two tempered glass plates (hereinafter abbreviated as tempered safety glass). An extremely thin magnet (hereinafter abbreviated as a ferrite magnet, iron plate magnet, or magnet) is placed between two tempered glass sheets, for example, where the visual field is not obstructed or the visual field is not deteriorated. 2 sheets of glass In the middle, for example, a round magnet with a diameter of around 10mm, using a very thin magnet inside the adhesive between the glass sheet and the glass sheet, for example, a dot and a round shape, with a diameter of 10mm Forming a tempered safety glass with a very thin magnet in the middle of the two glass sheets, and a sandwiched magnet with dots and dots placed inside the tempered safety glass described above, for example, When tempered safety glass with extremely thin magnets and dots is used as glass for automobiles, dots and dots are placed inside the tempered safety glass to attach an awning that is a cover to avoid direct sunlight. By using a magnetic field generated from a magnet, which is a magnet, it can be easily attached using a magnet or a magnetic metal to attach the awning. It is characterized by providing a tempered safety glass having a structure in which a magnetic field is generated on the surface of the tempered safety glass from the inside of the tempered safety glass by arranging a magnet, which is a magnet, inside the tempered safety glass.

  Building materials intended to block electromagnetic waves using gypsum board, magnetic plywood, or corrugated board made of magnetic materials as building materials, etc. The purpose is to provide.

  In addition, gypsum boards that can be attracted by using magnets such as memo paper, veneer boards, or building materials such as corrugated board, or furniture such as fences, shojis, doors, etc. The purpose is to provide the joinery.

  Another object of the present invention is to provide tempered safety glass having a structure for generating a magnetic field from the inside of safety glass on the surface of tempered safety glass used for automobiles, exteriors of houses, buildings, etc. today. .

  As described above, the safety glass for automobiles in which the glass sheet and the glass sheet are bonded together, or the safety glass used as a building material such as a house or a building, or the structure of the security glass, for example, between the glass sheet and the glass sheet, A polyvinyl butyral sheet made of polyvinyl butyral or polycarbonate (hereinafter abbreviated as PVB), or a polycarbonate sheet is laminated in a sandwich from both sides using a PVB sheet in the middle. A resinous sheet (hereinafter abbreviated as a PVB sheet) made of a laminated sheet (hereinafter abbreviated as a polycarbonate sheet) is sandwiched between two sheets of glass on both sides It is the structure of safety glass or crime prevention glass that has a structure bonded from the surface.

  The polyvinyl butyral (PVB) sheet described above is a sheet having an adhesive effect as an adhesive without using an adhesive. Also, since polycarbonate has no adhesive effect, a sheet of polycarbonate (PVB), laminated with two sheets of polyvinyl butyral (PVB) laminated on both sides with a polycarbonate sheet in the middle (hereinafter abbreviated as polycarbonate) Sheet) is used as safety glass or crime prevention glass. As the thickness of the PVB sheet or the polycarbonate sheet, the thickness of the safety glass for automobiles is 0.38 mm. As safety glass for building materials or crime prevention glass, safety glass for building materials with a thickness of 0.3 mm, 0.8 mm, 1.2 mm, 1.5 mm, and 2.3 mm in the thickness of PVB sheet or polycarbonate sheet Or there is a security glass.

  The safety glass or security glass formed using the PVB sheet or polycarbonate sheet (hereinafter abbreviated as PVB sheet) described above, for example, a thickness of 0.38 In the case of safety glass for automobiles using mm-mm PVB sheets, as explained above, a magnet made of magnetic ferrite or magnetic neodymium, etc. Sandwich-shaped safety glass with 0.3mm in diameter and a round or quadrangular magnet with a diameter of around 10mm sandwiched between two glass sheets forming safety glass for automobiles, centered on the magnet It can be provided.

  The use method and effect of the safety glass in which the magnet is confined in the safety glass or the crime prevention glass (hereinafter, abbreviated as the safety glass) described above, and the effects thereof are described in (1) and (2) below. And will be described in (3).

  As a method of using (1) and its effect, a magnet confined inside the safety glass is generated on the surface of the windshield of the automobile, the surface of the glass of a house, or the surface of the glass of a building. If the magnetic field is used, there is an effect that it is possible to provide a safety glass in which a curtain can be attached or the curtain can be easily attached / detached without providing a memo paper, a curtain for sunshade, or a curtain rail.

  The method of using (2) and the effect are that the safety glass that uses a magnet confined inside the safety glass and generates a magnetic field on the surface of the safety glass has the effect of blocking electromagnetic waves (radio waves). Therefore, as a window glass for a target room for preventing eavesdropping, using safety glass that generates a magnetic field on the surface of the safety glass as a window glass for preventing eavesdropping has an effect of preventing eavesdropping.

  As a method of using (3) and the effect thereof, safety glass that generates a magnetic field on the surface of the safety glass, for example, entering electromagnetic waves (radio waves) generated by high-voltage lines or the like into the interior of a house Has the effect of blocking electromagnetic waves (radio waves) from entering the interior of a house.

  As described above, the application technology on the extended line of the mirror includes a powerful magnet on the back surface of a rear-view mirror for automobiles (hereinafter abbreviated as a rear-view mirror for automobiles, or a rear-view mirror or mirror). By forming the rearview mirror with the, the rearview mirror that generates a magnetic field as a magnetic field on the surface of the rearview mirror is completed. An application example of the rearview mirror described above, in which a magnet is attached to the rear surface of the rearview mirror and a magnetic field is generated on the rearview mirror surface, will be described in the following (1).

  As an application example of (1), a strong magnet is pasted on the back surface of an automobile rearview mirror using an adhesive or the like to form a rearview mirror that generates a magnetic field on the front surface of the rearview mirror. By using a magnetic force on the surface of the rearview mirror, a spherical shape made of a magnetic material, or a spherical shape similar to a spherical shape made of a magnetic material, or a half surface made of a magnetic material is Cross-sectional shape, half-surface is spherical, or half-surface made of magnetic material is cross-sectional, half-surface is a true spherical shape similar to a spherical shape similar to a spherical shape (hereinafter abbreviated as hemispherical shape) On the surface, a mirror with a mirror-finished hemispherical shape using a processing means such as vapor deposition, or a mirror with a hemispherical shape as a mirror (hereinafter abbreviated to be made of a magnetic material). Hemispherical mirror, hemispherical mirror, or mirror ), A hemispherical mirror made of a magnetic material (hereinafter referred to as a mirror) on the surface of the rearview mirror that attaches a magnet to the back surface of the rearview mirror for an automobile and generates a magnetic field on the surface of the rearview mirror. The abbreviated hemispherical rearview mirror or hemispherical mirror cross section is used for the rearview mirror for automobiles in the interior of the automobile or outside the automobile by using magnetic force as a magnet. The effects of the following (1), (2), and (3) are obtained by attaching a magnet to a rearview mirror for automobiles (hereinafter abbreviated as an automobile rearview mirror or rearview mirror). There is.

  As an effect of (1), the advancing direction of the automobile can be obtained by attaching a hemispherical rearview mirror on the surface of the rearview mirror using the attractive force of the magnet attached on the rear surface of the rearview mirror for the automobile. A rear view mirror that can be seen at the same time can be seen at a right angle toward the rear, within the range of 180 degrees up, down, left and right behind the direction of travel of the car.

  As described in (2) above, as described above, the half mirror has a cross-sectional shape and the half surface has a hemispherical shape of a hemispherical surface or more (hereinafter abbreviated to a hemispherical rearview mirror, or By attaching a hemispherical rearview mirror), you can see all the rear fields of view behind the back of the car, within the range of 180 degrees up, down, left and right, For example, when parking in the back, you can check the white line drawn in the parking lot regardless of the position of the driver's seat driving the car or without adjusting the seat. Easy to park back.

  As an effect of (3), by making all rear rear views within the range of 180 degrees of the upper, lower, left and right angles at the rear of the rear of the car into a hemispherical rearview mirror, Regardless of the position of the driver's seat where you are driving the car, you can see and check everything within the 180 degree range up, down, left and right behind the car, so there is no blind spot behind the car at all A rearview mirror can be provided.

  Now, using the magnetic force of the automotive rearview mirror described above, the rearview mirror similar to the conventional automotive rearview mirror is attracted to the hemispherical rearview mirror using the magnetic force. The processing means for forming a rear-view mirror with a hemispherical shape that can see the field of view within an angle range of 180 degrees up, down, left and right behind the rear of the automobile is different from the processing means. Thus, a rear-view mirror for achieving the above-described object is obtained by using a processing means other than the processing means described above in the following (1) and (2). An automotive rearview mirror that forms a rearview mirror that combines a mirror and a hemispherical rearview mirror so that the field of view can be seen within an angle range of 180 degrees up, down, left and right behind all the rear of the automobile. Provide For an example of another embodiment means (1), and in (2) will be described.

  As another implementation means of (1), a hemispherical shape of a rearview mirror in which a hemispherical shape is a cross-sectional shape on the surface of a conventional automotive rearview mirror and a rear half surface is a hemispherical shape. Has a structure in which a rear-view mirror with a cross-sectional shape is pasted onto the surface of a conventional automotive rear-view mirror using an adhesive, and a hemispherical rear-view mirror protrudes from the surface of the rear-view rear-view mirror. By forming the rearview mirror of the structure, there is no blind spot, it has a planar shape that can see all of the 2D view behind the car and 3D view at the same time, all behind the car at the same time It is possible to provide a rearview mirror in which a rearview mirror and a hemispherical rearview mirror are integrated.

  As another implementation means of (2), a round sphere-shaped sphere is divided into two with the center axis of the sphere as the center on the surface of a conventional automotive rear-view mirror described above. The hemispherical shape which is the same shape as the half hemispherical part divided into two, or the shape of a hemispherical part similar to the hemispherical part (hereinafter, abbreviated as hemispherical shape or hemispherical shape) A hemisphere on the surface of a flat-shaped automotive rearview mirror at a location located in the center of the conventional rearview-shaped automotive rearview mirror, or below the center, or above the central portion. A hemisphere of a surface-shaped sphere forms a rear-view mirror with a structure that protrudes from a flat-shaped rear-view mirror by integrated processing, and the rear view of the rear two-dimensional world of the car, and the three-dimensional world Can see the field of view at the same time A rearview mirror is provided.

  A detailed explanation of the structure in which the hemispherical sphere on the surface of the conventional rear-view automobile rearview mirror described above protrudes from the rear-view rearview mirror, for example, With the fisheye, the field of view that the fish can see is in the vertical direction (hereinafter, abbreviated to the vertical direction) toward the direction of fish movement, and the field of view that the fish can see is about 180 degrees. What can be seen as a circular shape within the range is the fisheye of the field of view that the fish can see. This fisheye can see a field of view within a range of about 180 degrees in the vertical direction, which is the direction of fish movement. The fisheye is a hemispherical eye (hereinafter abbreviated as a convex lens shape). However, because the eyes of a convex lens-shaped object protrude from the surface of the fish body, the fish can see the field of view within a range of about 180 degrees in the vertical direction toward the direction of the fish in the 3D world. I can do it.

  Apart from the fisheye described above, there is a compound eye in nature. Compound eyes are shrimp, crab, and insect eyes, which are one, one, and many individual eyes. A large eye that consists of a single eye is a compound eye. The advantage of compound eyes is that one eye sees a completely different field of view, and many eyes work together to see the field of view. For example, in the case of an insect dragonfly, 2 The field of view that can be seen using one eye is a compound eye that can simultaneously see all directions within a 360-degree range, which is a three-dimensional space. This means that insects such as dragonflies are 3D unless they are compound eyes that can see all directions within a 360-degree range at the same time to fly through the space of the 3D world. I can't fly around the world.

  When the rear-view mirror for an automobile is formed by applying the principle of fish-eye and compound eye described above to an automobile rear-view mirror, a hemisphere similar to a fish-eye is formed on the surface of a conventional rear-view mirror. A rearview mirror that is an eye of a convex lens-shaped object that is a surface-shaped eye has a structure in which the eyes of the convex lens-shaped object protrude from the surface of the planar rearview mirror. It is easy to understand if the surface of the conventional rearview mirror is taken as the surface of the fish body and the fisheye is considered as a rearview mirror having a fisheye shape. This means that the rear-view mirror of a convex lens-shaped object with a hemispherical shape in the direction of travel of the car is different from the rear-view mirror of a convex lens-shaped object with a hemispherical shape compared to a conventional rear-view car rear-view mirror. The central axis is perpendicular to the conventional automotive rearview mirror, and the two-dimensional world integrated with the conventional planar rearview mirror and the three-dimensional world space view simultaneously It is possible to provide an automobile rearview mirror that can be seen without change.

  Applying the compound eye principle described above, the rear-view mirror has a structure in which the eyes of a convex lens-shaped object, which is the same eye as a fish-eye, protrudes from the surface of a conventional automotive rear-view mirror. On the surface of the lens, a convex lens-shaped object that is a convex lens-shaped object that is the same eye as a fisheye is raised up or down or two in parallel, or two or more convex lenses in parallel. When a rear-view mirror is formed on the surface of a conventional automotive rear-view mirror, all rear views in the range of 180 degrees up, down, left, and right are simultaneously viewed by human eyes. By applying the principles of fisheye and compound eyes, a rearview mirror that can instantly see and judge the line of sight without changing the line of sight is provided. Characterized in that it can be.

  Conventionally, a rear-view mirror for automobiles having a convex lens shape exists. However, there is no back mirror having a structure in which a convex lens shape is formed by integrally processing a convex lens shape on the central portion of a planar shape rear mirror and combining the planar lens shape. For example, if a flat-shaped rearview mirror and a convex lens-shaped rearview mirror are provided at different locations, the position of the line of sight of the flat-shaped rearview mirror and the convex lens-shaped rearview mirror is different. It takes time. The time required to move this line of sight is also a critical blind spot. As described above, when the conventional rearview mirror having a planar shape and the rearview mirror having a convex lens shape are combined to form an integrated rearview mirror, the line of sight is not moved. It is possible to provide a rearview mirror that can make a judgment by seeing it instantly because no blind spot is generated, can be generated by moving the line of sight, and does not generate any blind spot due to instantaneous time generation. It is characterized by that.

  Inside the conventional automotive rearview mirror described above, one convex mirror similar to a fisheye that applies fisheye and compound eyes, or a convex lens similar to a fisheye Two or more shaped rearview mirrors inside a rearview mirror that has a planar shape, two or more rearview mirrors that have a convex lens shape, or two or more rearview mirrors that have a convex lens shape in parallel When a rearview mirror with a compound eye structure is provided inside the rearview mirror, you can instantly see the two-dimensional space within the range of 180 degrees up, down, left and right, or all of the three-dimensional space without changing the line of sight Can be provided.

  When the rear-view mirror applying the principle of fish-eye and compound eyes described above is formed, for example, when entering an expressway from an acute road such as a runway when entering an expressway, Since the rear mirror for automobiles has a flat shape, it can only see the field of view within 90 degrees perpendicular to the automobile in the direction of travel, so when entering a highway etc. When entering an expressway from an acute road such as a runway, an automobile traveling at high speed on the expressway is 90 ° perpendicular to the traveling direction of the automobile in the conventional planar rearview mirror. Since the field of view can only be seen within the range of degrees, the sharp angle of the runway when entering the expressway is subtracted from the angle of 90 degrees perpendicular to the direction of travel of the car. The field of view That all the blind spot, a disadvantage of rearview mirror in which the conventional planar shape. In order to solve this drawback, there is an effect that can be solved by forming a rearview mirror that applies the principle of fisheye and compound eyes.

  In addition, for example, when a car is traveling on a highway, even if a motorbike (hereinafter abbreviated as a single vehicle) is traveling close to the car, There is a blind spot that cannot be seen with the rearview mirror. The reason for this is that the conventional planar rearview mirror can see the field of view within a very close distance from the side wall of the car, for example, within the range of the car side wall within 60 cm from the side wall of the car. Therefore, when the vehicle changes lanes on the highway, it is a drawback of the conventional rear-view rearview mirror that the single vehicle running on the side wall of the vehicle cannot be seen. In order to solve this drawback, there is an effect that can be solved by forming a rearview mirror that applies the principle of fisheye and compound eyes.

  Furthermore, by forming a rearview mirror that applies the principle of fisheye and compound eyes, you can see the position of the tire that is the rear wheel of the car, so it is easy to park in the back or to put in the garage in the back There is an effect.

  In addition, by forming a rearview mirror that applies the principles of fisheye and compound eyes, you can see directly under the car, so you can see the white line of the parking lot, the sidewalk with a step, or the side groove, so There is an effect that parking becomes easy.

  In particular, one convex lens shape having a fish-eye and compound eye structure as described above, or a convex lens shape having two or more convex lens shapes in the vertical direction, or a convex lens shape having two or more in parallel, or a concave lens shape. A magnet that has a rear mirror similar to a conventional rearview mirror and a magnet made of ferrite or neodymium is attached to the rear surface similar to a conventional rearview mirror. Using a magnetic field generated, one side is made of a magnetic magnet with a cross-sectional shape, and the other side is the back of the structure that applies the fish-eye and compound-eye principles described above. The cross-sectional shape of the rear surface of the mirror is pasted on the back surface similar to a conventional rearview mirror using a magnetic field generated by a magnet pasted on the rear surface similar to a conventional rearview mirror. Using a magnetic field generated by a magnet, one convex lens shape with a fisheye and compound eye structure on the surface of a rearview mirror having a planar shape similar to that of a conventional rearview mirror, or a convex lens shape Using a magnetic force, a rear mirror with a structure in which two or more or two or more convex lens shapes protrude in parallel is formed on the surface of the rearview mirror that has a planar shape similar to a conventional rearview mirror. The magnetic field generated on the surface of the rear-view mirror with the planar shape from the back surface of the rear-view mirror and the magnet provided on the cross-section part of the rear surface of the hemispherical convex lens-shaped rear-view mirror are generated. A convex lens or concave lens with a hemispherical shape applying the principle of fisheye and compound eyes on the surface of a rearview mirror similar to a conventional rearview mirror that absorbs the magnetic field When the rearview mirror in which the Jo to integrally attached coalescing using magnetic force, the following (1), there is an effect such as (2), and (3).

  As an effect of (1), a magnet is attached to the back surface of a conventional rearview mirror having a planar shape using an adhesive or the like, or a magnet is attached to the back surface of the rearview mirror using other means. For example, it is possible to generate a magnetic field on the surface of a rearview mirror in a vehicle, so that a memo paper can be adsorbed using a magnet, and a rearview mirror that can be attached and detached freely is provided. There is an effect that can be done.

  The effect of (2) is that it uses a magnetic field generated on the rear surface of the rearview mirror similar to a conventional rearview mirror having a planar shape to use the principle of fisheye and compound eyes. By attaching a hemispherical convex mirror with a hemispherical shape to the surface of a rearview mirror similar to a conventional planar rearview mirror using magnetic force, Regardless of the position, it is a spherically shaped lens-shaped rearview mirror, so that it is possible to instantly see the rear of the rear field of view within the range of 180 degrees in the vertical and horizontal directions without changing the position of the line of sight.

  The effect of (3) is that a flat-shaped back mirror is produced by attaching a magnet to the back surface of a conventional flat-shaped rear-view mirror using an adhesive or the like. By producing a rearview mirror that generates a magnetic field on the surface of the mirror, as described above, the surface is a hemispherical convex mirror that applies the principle of fisheye and compound eyes, Using the magnetic field generated in the cross-sectional portion of the cross-sectional shape made of a magnet of the magnetic material on the back surface, for example, on the surface of the rear-view mirror in the car of the flat shape, Using a magnetic field generated by a magnet pasted on the back surface and a magnetic field generated by a magnet pasted on the back surface of a hemispherical convex lens, a planar mirror On the surface By developing a rearview mirror with a hemispherical convex lens-shaped rearview mirror attached to the center part, a rearview mirror with a planar shape that can see the rear view of the space behind the two-dimensional world, and 3 The space behind the 2D world, or the 3D world, where the rear view mirror that can see the rear view of all the space behind the 3D world is integrated, and the planar shape and the convex lens shape are integrated. There is an effect that it is possible to provide a rearview mirror that can see the back of all the rear fields of view in the space behind.

  The back surface such as the mirror described in the above, a mirror having a flat shape, a rearview mirror made of a mirror, or a three-sided mirror (hereinafter abbreviated as a mirror) of a dressing table used by women, Or by applying a magnetic force on the back of the mirror using an adhesive, or using other means, using a magnet attached to the back of the mirror to generate a magnetic field on the surface of the mirror. On the surface of the mirror using the magnetic field on the surface, the fish-eye described above, or a mirror having a convex lens shape with a compound eye structure (hereinafter abbreviated as a convex lens-shaped mirror), or one side This is a mirror with a concave lens shape, and the other side is made of a magnetic magnetic body having a cross-sectional shape, and a mirror with a concave lens shape on one side (hereinafter abbreviated mirror with a concave lens shape). Using a magnetic field generated on the surface of a planar mirror. The magnetic field generated by the magnet attached to the back surface of the convex lens-shaped mirror described above, or the concave lens-shaped mirror (hereinafter, a concave or convex lens-shaped mirror). And the magnetic field generated by the magnet attached to the back surface of the mirror and the magnetic field generated on the surface of the mirror having a planar shape are combined, and the two magnetic fields are integrated to be combined. When a mirror with a concave or convex lens shape is attracted by using both magnetic fields on the surface of the mirror having a planar shape, the mirror with a strong planar shape is obtained due to the synergistic effect of the adsorption force of both magnetic fields. The following (1) to (4) effects can be obtained by allowing a mirror having a concave or convex lens shape to be adsorbed on the surface of the surface using a magnetic field generated from both. There are drawbacks.

  The effects and disadvantages of (1) are the use of a magnetic field where both magnets generate a concave lens-shaped mirror or a convex lens-shaped mirror at an arbitrary location on the surface of the planar mirror. Then, by attaching to the surface of the mirror having a planar shape by adsorption using a magnetic field, a concave that becomes a mirror of a magnifying mirror intended to be magnified inside the mirror having a planar shape, Alternatively, there is an effect that a mirror having a convex lens shape can be fixed and provided at an arbitrary position inside the mirror having a planar shape.

  As the effect and drawback of (2), the manufacturing method of a flat glass plate, which is a raw material of a conventional mirror having a flat shape, is based on the principle that the specific gravity of tin and glass are different from each other. Since a flat glass plate is manufactured using a float glass manufacturing method, which is a manufacturing method that applies the above, a plate glass and a concave lens shape or a convex lens shape are simultaneously formed on the surface of a flat plate glass. There are disadvantages that cannot be formed.

  The effect and disadvantage of (3) are that a concave lens shape or a convex lens shape mirror is formed on the surface of a conventional flat mirror, or a concave lens shape on the surface of a flat mirror, or A mirror with a convex lens shape is attached using an adhesive, and a concave or convex lens mirror is pasted on the surface of a mirror with a flat shape and fixed and used. is there.

  The effect and drawback of (4) is that the mirror has a planar shape that generates a magnetic field on the surface of the planar mirror by attaching a magnet to the rear surface or surface of the planar mirror. For example, a concave lens-shaped mirror with a magnet attached to the back surface, or a convex lens-shaped mirror with a magnet attached to the back surface, both magnets are generated at any location on the planar mirror. There is an effect that it is possible to provide a planar mirror that can be fixed at an arbitrary position of the planar mirror using a magnetic field.

  Gypsum board that has a magnet in the center part of the gypsum and sandwiched with gypsum on both sides centered on the gypsum as described above, or both sides that have magnets in the center part of the plywood board Building materials such as plywood sandwiched with plywood or corrugated cardboard (hereinafter abbreviated as gypsum board) with a magnet in the center of the cardboard and sandwiched on both sides centered on the magnet Using, for example, a gypsum board with a built-in magnet as the wall material of an interior material in a house, as described above, the effect of attaching a magnet to the back surface of the mirror is the same as the interior wall. Since a magnetic field is generated on the surface, use a magnet at any place, for example, a painting, a book, a hanging shaft, a mirror, etc. Magnetic force And use by the adsorption there is an effect that can be applied to.

  In addition, a magnet is attached to the interior of a fitting such as a bag, a shoji, or a door (hereinafter abbreviated as a bag), for example, a bag having a sandwich shape in which both sides of the magnet are made of paper. Since the magnetic field is generated on both the front and back surfaces of the heel from the magnet confined inside the heel, this magnetic field is used to explain the above, for example, painting If you use a magnet to attach a calligraphy, hanging shaft, mirror, etc. on both sides of the heel, use magnetic force anywhere on the heel, even from the surface of the heel surface, or from the back surface. However, there is an effect that various miscellaneous objects can be adsorbed and attached to both surfaces of the cocoon using magnetic force at arbitrary locations on both surfaces of the cocoon.

  An iron plate made of a magnet body, for example, an iron plate having a thickness of 200 μm or less, or 200 μm inside a bag, a shoji, or a door (hereinafter abbreviated as a bag) described above. As described above, an iron plate such as an iron plate having a circular shape with a diameter of about 10 mm (hereinafter referred to as an iron plate or an iron plate having a circular shape) is formed on the surface of the paper on which the ridge is formed, or a ridge is formed. A paper for the purpose of forming a wrinkle, or a cloth that is a cloth, with a circular iron plate pasted on the surface of the cloth that is a cloth or on the back surface of a cloth that is a wrinkle When forming a wrinkle, a circular iron plate is pasted on the surface of the cloth that is forming the wrinkle or cloth, or on the back surface, so any place on the surface of the wrinkle Using a magnet, for example, memo paper using a magnet's magnetic force There is an effect that can be attached by adsorption onto a surface.

  In addition, on the surface of the cloth which is the target paper for forming the wrinkles or the cloth for the purpose of forming the wrinkles, for example, a magnet having a circular shape with a thickness of about 0.3 mm and a diameter of about 10 mm (hereinafter referred to as a magnet) , Abbreviated to a magnet, or a circular magnet) on the surface of the paper forming the folds, or on the surface of the cloth that forms the folds, or forming the folds When a fold is formed using a paper for the purpose of forming a fold, or a cloth that is a cloth, with a circular magnet pasted on the back of the cloth that is the cloth, the magnet is attached to the fold. This has the effect of simplifying the work process of forming a target ridge for generating a magnetic field on the surface of the ridge.

  Further, for example, a circular iron plate or a circular magnet is pasted on the surface of the cloth which is the target paper for forming the wrinkles or the cloth for the purpose of forming the wrinkles described above. As an application, for example, wallpaper or fabric used in a room such as a house or a building. As a cloth made of, if you stick it to a wall as an indoor interior material, you can attach an iron plate made of magnetic material or wallpaper with magnets attached, or an iron plate made of magnetic material or magnets. A cloth made of a magnetic material or a cloth affixed with a magnet on the surface of a cloth made of cloth or other cloth (hereinafter abbreviated as wallpaper or cloth) As wallpaper By using the magnet anywhere on the surface of the chamber wall, for example, there is an effect that it is possible to attach the note and by adsorption using a magnetic force.

  As described above, the paper for the purpose of forming the cocoon, the cloth that is the fabric for the purpose of forming the cocoon, the wallpaper used as the interior material of the interior of the house, or the interior material of other materials (hereinafter, For example, a sheet of paper, cloth, or wallpaper), made of a magnetic material, with a thickness of 200 μm or less, or a thickness of 200 μm or more, or other non-ferrous metal For example, a copper plate (hereinafter abbreviated as an iron plate) was formed by pressing a number of holes with a diameter of around 10 mm by pressing or the like. , When a cocoon is made using iron paper made of an iron plate with a magnetic base and a large number of holes, a cocoon is formed on the surface of the cocoon, a magnet is formed on the surface of the cocoon Use a magnet on the front or back side of the fence, for example, At the same time, it is possible to adsorb memo paper, etc. using magnetic force, and at the same time, an iron plate with a lot of holes is used as the base of the paper. There is also an effect that can fix miscellaneous objects.

  Using the wallpaper described above, which is made of an iron plate on which the base is formed of a magnetic material and a large number of holes, with the wallpaper pasted on the surface of the iron plate on which a large number of holes are formed, If you decorate the interior wall surface of the room, you can use magnets on the surface of the walls, for example, you can adsorb memo paper etc. at any place on the wall using magnets, and at the same time form many holes Since the iron plate is used as the base of the wallpaper, there is an effect that various kinds of things can be fixed using safety pins, nails and the like.

  A wallpaper similar to the wallpaper described above, which is made of an iron plate with a base made of a magnetic material and a large number of holes. Wallpaper, which is made of an iron plate whose base is formed of a magnetic material on the surface of the door, and is used as the door surface material. When used on the surface of the door, for example, it is possible to adsorb memo paper etc. at any place on the door using magnetic force, and at the same time, an iron plate with many holes is used as the background of the wallpaper Since it is used, there is also an effect that various miscellaneous objects can be fixed using safety pins, nails and the like.

  For example, a toilet seat washer is manufactured and sold by TOTO, which is headquartered in Kitakyushu City. The product name is Washlet. There is an intended toilet seat washer (hereinafter abbreviated as toilet seat washer). This conventional toilet seat washer has the following disadvantages and effects as described in (1) to (9) below.

  As a disadvantage and an effect of (1), the direction of the outlet for jetting water for the purpose of washing the anus and vagina of the conventional toilet seat washer is fixed in a fixed direction.

  The disadvantages and effects of (2) are that the position of the anus, which is a human organ, and the position of the vagina, which is a female organ, are shifted to positions before and after a variety of positions, and the anus and The vagina part is located.

  As a disadvantage and an effect of (3), the position where the anus of the human body is located and the place where the vagina of the human body is located all exist in common on the human central axis.

  The drawbacks and effects of (4) are that although there is a lot of moisture and moisture inside the toilet seat washer, a sensor for image processing is installed inside the toilet seat washer, and the human anus The position of the vagina of the human body and the position of the vagina of the human body are automatically processed using a sensor installed in the toilet seat washer, so that the position of the anus of each human body can be varied. , And the position of the vagina of the human body is automatically determined, and the toilet seat is a structure that automatically determines the position of the spray port for spraying water, which is the spray port attached to the toilet seat washer In the case of the irrigator, each person's anus of the human body or the position of the vagina of each person's vagina is correctly positioned with the water spray used to clean the human anus and vagina. There is an effect that it is possible to provide a toilet seat washer that can spray without any problems.

  As a drawback and an effect of (5), a means for performing image processing to determine the position of the anus of the human body and the position of the vagina of the human body using the sensor described in (4) above. The method of the means for determining the position of the anus and the vagina by the method of the means for determining the position of the anus of the human body and the position of the vagina of the human body by a method of another means, ).

  The disadvantages and effects of (6) include the image processing using the sensors described in (4) and (5) above, and the position of the human anus and the position of the vagina of the human body. As a method other than the method of determining means, as described in (3) above, the position where the human anus is located and the position where the human vagina is located are all human beings. Therefore, the direction of spraying the water jet is directed along the central axis of the human body, for example, from the anus of the human body to the vagina of the human body. Repeat the injection direction of the water injection port within a certain angle range from the anus to the vagina, from the vagina to the anus, and from the anus to the vagina, on the central axis of the human body. Accordingly, the water injection port is automatically moved back and forth to move the water injection port back and forth. More, providing a toilet seat washer capable of providing a toilet seat washer capable of cleaning the anus and vagina simultaneously is more effective.

  The drawbacks and effects of (7) are that the direction of jetting the water jet, which was explained in (6) above, is set within the range of angles within a certain angle range. Repeatedly from the vagina to the vagina and from the vagina to the anus, the jet that sprays water along the central axis of the human body is automatically reciprocated in the front and rear direction, and the jet of water is moved back and forth. If the toilet seat washer has a structure that can stop the injection port at any position, the water will be at the discretion of the anal at the position of the anus where each person's anus is displaced. If you want to stop the injection port that sprays and wash your anus, you need to move the human body to the injection port that is spraying water to adjust the position of the anus There is an effect that can provide a toilet seat washer.

  Disadvantages and effects of (8) are as described above in (7), in which water is injected in the front-rear direction by moving the injection port for injecting water along the central axis of the human body. In addition to the forward / rearward movement of the direction of the injection port that performs the injection, the water injection port is further laterally oriented with the anus as the central point or the vagina as the central point. The toilet seat washer has a structure in which the water jets automatically reciprocate on the trajectory that can be moved by moving each, and each one is moving on the trajectory at their own will. If the structure is such that the movement of the water injection port is stopped, each person moves his / her body to move the anus or vagina directly above the water injection port. This has the effect of providing a toilet seat washer that does not require adjustment.

  The drawbacks and effects of (9) are that, as explained in (7) and (8) above, the injection port for injecting water along the central axis of the human body is connected to the vagina from the anus direction. The direction of the injection port that injects the water injection port that is moving in the front-rear direction (hereinafter, abbreviated to the front-rear direction or the front-rear direction) is the direction of the front-rear direction. In addition, the structure is such that the water injection port can be moved in the lateral direction around the anus, or the water injection port in the lateral direction around the vagina. Create toilet seat washer that can move freely and stop on any trajectory, for example, each of the family members using the toilet seat washer Each family member remembers the point on the orbit of the water jet in the toilet seat washer. For example, in the case of a father, the water jet automatically moves on the trajectory of the water jet, and on the trajectory of the point where A was memorized. If the toilet seat washer is designed to inject water, the toilet seat washer with a button attached to the toilet seat washer to instruct the A point stored in the toilet seat washer. By making, for example, A, B, C, D, E for the number of family members and the point on the orbit of the water jet on the toilet seat washer, the point on each orbit, A, B, C By providing toilet seat washer that memorized using alphabet of D, E, it is possible to provide toilet seat washer with memorized anal position or vaginal position for the number of family members effective.

  On the surface of the rear-view mirror for automobiles described above or a three-sided mirror used by women, or a mirror (hereinafter abbreviated as rear-view mirror, flat-shaped rear-view mirror, flat-shaped mirror, or mirror) In addition, a convex adapter shape using a fish-eye lens or a compound eye lens, or a mirror adapter adapter (hereinafter abbreviated as an adapter mirror) is used to generate a magnetic field using a magnet to attract the mirror. When mounting an adapter mirror on the surface of a flat-shaped rearview mirror, use an anti-slip adhesive rubber or other rubbery material on the back surface of the adapter mirror. The magnet is attached to the back of the planar rearview mirror on the surface of the planar rearview mirror. The magnetic field generated by both the magnetic field generated by the magnet attached to the adapter mirror and the magnetic field generated from both the adapter mirror on the surface of the planar rearview mirror is used. The adapter is structured so that the adapter mirror does not slip off from the surface of the planar rearview mirror by attaching it on the surface of the planar rearview mirror using the adsorption force of the magnetic field generated from There is an effect that a mirror can be provided. Also, since the back surface of the adapter mirror is formed using rubber or other rubbery material, a rubber film is placed between the surface of the planar rearview mirror and the back surface of the adapter mirror. Since the layer or the film layer made of a rubbery substance is formed, there is an effect that the surface of the planar rearview mirror is not damaged. Furthermore, the following conditions (1) and (2) also have an effect that the adapter mirror can be attracted to the surface of the planar rearview mirror using a magnetic force.

  As a condition of (1), without attaching a magnet to the back surface of the planar rearview mirror, for example, the magnetic field of the magnet attached to the rear surface of the adapter mirror by attaching a magnetic iron plate to the rear surface of the planar rearview mirror. , And using the magnetic force of the adapter mirror on the surface of the planar rearview mirror, the adapter mirror is made to adhere to the surface of the planar rearview mirror.

  As a condition of (2), a magnet is attached to the rear surface of the planar rearview mirror, and a magnetic iron plate is attached to the rear surface of the mirror for adapter, for example, and the magnetic field of the magnet attached to the rear surface of the planar rearview mirror. Is used as a condition for attaching and attaching the adapter mirror onto the surface of the planar rearview mirror.

  A paper or wallpaper made of paper or cloth, or other material to form a paper or wall (hereinafter abbreviated as a wall), as described above. (Hereinafter, abbreviated as paper or wallpaper) is made of a magnetic material having a large number of holes, for example, use an iron plate with a thickness of 200 μm or less, or a thickness of 200 μm or more. Or a non-magnetic metal plate made of a non-ferrous metal such as a copper plate, an aluminum plate, or a stainless steel plate (hereinafter abbreviated as a copper plate or an aluminum plate), for example, having a thickness of 100 μm As described above, on the surface of an aluminum plate having a diameter of 50 μm or less, for example, an iron plate in which a large number of holes having a diameter of about 10 mm are formed by pressing, or the same as the iron plate, the diameter is 10 mm. Aluminum with many holes formed in the front and back by press working Um plate (hereinafter abbreviated as iron plate with holes or aluminum plate with holes) or made of magnetic material without holes, for example, thickness is 230μm Or a non-ferrous metal plate such as a copper plate, an aluminum plate, a stainless steel plate, etc. , Abbreviated copper plate, aluminum plate) on the surface of the paper or wallpaper pasted using an adhesive, the iron plate with the holes described above, or the aluminum plate with holes ( Hereinafter, abbreviated iron plate with a hole or an aluminum plate with a hole is used, or an iron plate not formed with a hole, or an aluminum plate not formed with a hole (hereinafter abbreviated, iron plate without a hole, Or aluminum without holes The base material is an iron plate with a hole, an aluminum plate with a hole, a copper plate with a hole, or an iron plate without a hole, or no hole. Paste paper or wallpaper on the surface of an aluminum plate or copper plate without holes (hereinafter abbreviated as iron plate, aluminum plate, or copper plate) using an adhesive, or use double-sided tape Form affixed paper or wallpaper, or on the surface of an iron plate without holes, an aluminum plate without holes, or a copper plate without holes (hereinafter abbreviated copper plate with holes, copper plate without holes, or copper plate). Do not paste paper or wallpaper (hereinafter abbreviated as paper or paper) on the surface of the paper using glue, adhesive, or double-sided tape. None Copper plate with holes directly on both sides of a wooden frame, or Only stick the copper plate without holes, using glue directly on both sides of the wooden frame, or use needles, wood screws, or other hardware on both sides of the wooden frame. Attached copper plate without holes or copper plate without holes directly on both sides of the wooden frame, or the internal structure is made of metal iron such as metal or aluminum that is not a wooden frame. A copper plate with holes on both sides of a frame made of metal or a copper plate without holes directly attached to both sides of a frame made of a metal material using an adhesive or attached using metal fittings, Alternatively, when a wall is formed, the following effects (1) to (6) are obtained.

  As an effect of (1), a paper or wallpaper is pasted on the surface of an iron plate with a very thin base or an aluminum plate with a very thin base (hereinafter abbreviated as an iron plate with a very thin base). Forming the paper or wallpaper has an effect that even an amateur can replace the paper of the paper, put a paper, or even apply a wallpaper to the wall.

  As an effect of (2), if a paper or wallpaper is formed on the surface of an iron plate with a very thin base, it can be attached to the wall without any wrinkles even if an amateur puts it on the wall. The effect is that you can put wallpaper.

  As the effect of (3), since it is a very thin iron plate, it can be cut using a cutter knife, or it can be attached to or nailed to the underlying wood using nails, wood screws, etc. There is.

  As an effect of (4), the adhesive is applied on the back surface of the iron plate with a very thin base, or on the surface of the iron plate on which the double-sided tape is pasted on the back surface of the iron plate with a very thin base. Forming a paper or wallpaper on which a paper or wallpaper is attached has the effect of providing a paper or wallpaper with better workability.

  The effect of (5) is that the surface of the iron plate, which is the material of the material that forms the surface of the paper, the wall, or the door using a magnetic iron plate with a very thin base, is used. Paper or paper with cloth etc. or paper made with cloth, or on the surface of wall or door, using magnet, anywhere, for example for note paper or adapter Providing a mirror paper or wallpaper or a wallpaper on the surface of a door that is not easily damaged and is not easily torn or a wallpaper that is not easily torn. There is an effect that can be.

  The effect of (6) is that the paper is laminated on the surface of a frame made of wood, or a magnetic iron, or a non-magnetic metal, to form the paper by bonding the paper from both sides. Instead of a sheet of iron, an aluminum plate, an aluminum plate, a copper plate, or a stainless steel plate (hereinafter abbreviated as an aluminum plate or a copper plate) is replaced with an adhesive on the surface of the skeleton. Use a metal plate such as a wood screw or affix to the surface of the frame from both sides to form a hole on the surface of the heel, or an aluminum plate or a hole. A copper plate with a hole, or a stainless steel plate with a hole, or an iron plate without a hole, an aluminum plate without a hole, a copper plate without a hole, or a stainless steel plate without a hole (hereinafter referred to as a metal plate for short) ) On the surface of the skeleton Advantages of sliding doors, the following (a), there is the advantage of (b), (c), (d), (e), (f), and (g). As an advantage of (a), a very thin iron plate instead of a cocoon, for example, a cocoon with an iron plate of 200 μm or less, or 200 μm or more applied to the surface of the skeleton from both sides is a cocoon with properties of a magnetic material. Therefore, by using the magnetic force of the magnet, for example, a memo paper, a drawing, or a picture can be attracted using the magnetic force. As an advantage of (b), the appearance of a cocoon in which a metal plate such as an extremely thin iron plate, an aluminum plate, a copper plate, or a stainless steel plate is pasted on the surface of the skeleton from both sides instead of the paper. Has a glossy metal plate-like appearance. As an advantage of (c), for example, a copper plate having a metal plate thickness of 100 μm or less or 50 μm or less, or a glossy copper plate having a mirror finish by polishing the surface of a metal plate such as a stainless steel plate, or Stainless steel plate has the property of hardness of metal plate, gloss of metal plate, hard to tear unlike reverse paper, strong against breakage and long-term, unlike reverse paper, does not deteriorate and discolor Can be formed. The advantage of (d) is that when the surface of a metal plate, for example, a copper plate with a thickness of 50 μm or less is plated with gold, silver, or the like, or vapor deposition, It becomes a mushroom moth or the appearance of a moth can form a sterling silver fake moth. Advantages of (e) include printing Arabic numerals on the surface of a metal plate, for example, on the surface of a copper plate, or printing a document, printing a painting, or printing a landscape. Or a calendar or a photo of a family member, or a metal plate such as a copper plate etched on the surface of a metal plate with a pattern on the surface of the skeleton frame. Can be formed. As an advantage of (f), when a framework for forming a ridge is formed using magnetic iron, for example, a non-magnetic copper plate, an aluminum plate, or a stainless steel plate instead of a woven paper Even if the non-magnetic metal plate is used instead of the paper, the magnetic force of the magnet can be used to adsorb, for example, a memo paper on the surface of the paper. The advantage of (g) is that if a framework for forming a ridge is formed using magnetic iron, a non-magnetic fold paper or cloth conventionally used to form a fold, or Even if a bag is formed using vinyl (hereinafter abbreviated as paper or wallpaper), the magnetic force of the magnet is used to form, for example, a memo paper from the surface of the non-magnetic paper. Can be adsorbed on the surface of the paper.

  The conventional passenger car described above and an automobile rearview mirror similar to a passenger car (hereinafter abbreviated as a planar rearview mirror, rearview mirror, door mirror, outmirror, inner mirror, or rearview mirror). ) Is basically a planar shape, but in the case of a conventional door mirror, it is slightly curved into a convex lens shape. However, basically, since the conventional door mirror has a planar shape (hereinafter abbreviated as an automobile rearview mirror, a planar rearview mirror, a door mirror, or an inner mirror), this very slight amount is used. On the surface of a planar rearview mirror that is curved into a convex lens shape or a concave lens shape, for example, a washboard shape, a corrugated iron shape with a corrugated shape, a staircase shape, or a terraced field shape (hereinafter abbreviated) The surface of the rearview mirror is parallel to the horizon for the purpose of forming a rearview mirror that is similar to the surface of the washboard and has a raised and lower portion of the washboard shape. A rearview mirror (hereinafter, abbreviated as a washboard shape) formed with a washboard shape on the surface of the rearview mirror on the surface of the rearview mirror in the direction perpendicular to the horizon. As a typical example, for example, a raised portion formed on the surface of a laundry plate-shaped rearview mirror is formed. Has an effect similar to the convex lens shape. In addition, since the valley portion has the same effect as the concave lens shape, the fisheye lens, the compound eye lens, and the concave lens shape described above are combined, and there is no dead field at all. Laundry-plate-shaped rear-view mirror, corrugated iron-shaped rear-view mirror, step-shaped rear-view mirror, or terraced field, which is similar to a flat-shaped rear-view mirror that can be viewed at the same time as a wide angle field of view. A shape rearview mirror can be provided.

  The conventional passenger car described above and an automobile rearview mirror similar to a passenger car (hereinafter abbreviated as a planar rearview mirror, rearview mirror, door mirror, outmirror, inner mirror, or rearview mirror). ) Is basically a planar shape, but in the case of a conventional door mirror, it is slightly curved into a convex lens shape. However, basically, since the conventional door mirror has a planar shape (hereinafter abbreviated as an automobile rearview mirror, a planar rearview mirror, a planar shape mirror, a door mirror, or an inner mirror), The area of one part on the surface of the flat-shaped rearview mirror that is curved in a very convex lens shape, or the total area, for example, 5.0% or less, or 10.0% or less with respect to the total area of the flat-shaped rearview mirror Or 15.0% or less, or 20.0% or less, or 25.0% or less, or 30.0% or less, or 35.0% or less, or 40.0% or less, or 45.0% or less, or 50.0% or less, or 55.0% or less, or 60.0% or less Or 65.0% or less, or 70.0% or less, or 75.0% or less, or 80.0% or less, or 85.0% or less, or 90.0% or less, or 100% of the total area is corrugated, for example, a washboard Shape or corrugated tin shape or corrugated shape, or floor Form the height of the bulge and valley between the stepped or stepped field surface in a parallel direction toward the horizon, or the planar rearview mirror perpendicular to the horizon. By forming a raised part and a valley part in the center part, or both end parts, or the upper and lower parts, the center part, or both end parts, or the upper and lower parts of a conventional planar rearview mirror Is formed, the raised portion formed on the surface of the planar rearview mirror has the same effect as the convex lens shape. In addition, since the valley portion has a similar effect to the concave lens shape, the fish-eye lens, the compound eye lens, the concave lens shape, and the conventional planar rear-view mirror having a slightly convex lens shape described above are combined. This makes it possible to form a flat-shaped rearview mirror that can see both a narrow angle or an acute angle and a wide angle at the same time. A planar rearview mirror that can be seen can be provided.

  In addition, as described above, the shape that has the same effect as the washing plate shape or corrugated iron shape that is a corrugated plate shape is used as a packaging material. For example, the location is headquartered in Fukuoka City The product name is similar to the air pack, manufactured by the S Sangyo Co., Ltd. When a convex lens shape or a cylindrical convex lens shape or a cylindrical shape is formed on the surface of a planar rearview mirror, each one or one becomes a convex lens shape or cylindrical shape similar to a fisheye lens. When one, several, several tens, or several hundreds of the convex lens shape or cylindrical shape similar to the fisheye lens are aggregated, a convex lens shape similar to the compound eye lens shape or a collective lens having a cylindrical shape is obtained. A convex lens shape that is a projection similar to this collective lens, or a cylindrical shape, a convex lens shape that is a center portion of a conventional planar shape rearview mirror, or both end portions, or a raised portion and a valley portion on the upper and lower portions, Alternatively, by forming a large number of cylindrical shapes, the center portion of the planar rearview mirror, the both end portions, or the upper and lower portions, similar to the effect of the corrugated corrugated iron shape explained above. When a large number of convex lens shapes, concave lens shapes, or cylindrical shapes are formed, the raised portion formed on the surface of the planar rearview mirror has the same effect as the convex lens shape. In addition, since the valley portion has a similar effect to the concave lens shape, the fish-eye lens, the compound eye lens, the concave lens shape, and the conventional planar rear-view mirror having a slightly convex lens shape described above are combined. This makes it possible to form a planar rear-view mirror with a narrow or sharp angle of view and a wide angle of view, so there is no dead field and a narrow, sharp or wide angle view. Can be provided at the same time.

  The automotive rearview mirror described above, which is a conventional door mirror, is similar to a convex lens shape with an R angle similar to a very slight convex lens shape for the purpose of viewing a wide-angle view behind the driver. A conventional door mirror has a convex lens shape with an R angle, a convex lens shape similar to a concave lens shape, or a convex lens shape similar to a concave lens shape, or a concave lens shape. However, this conventional door mirror has the following disadvantages and effects as described in (1) to (7) below. As the conventional door mirror and inner mirror described here, a rearview mirror used for a passenger car or an automobile similar to a passenger car is described as a conventional rearview mirror. The rearview mirror used by the truck and the bus is excluded and described.

  The disadvantages and effects of (1) are that with the conventional rearview mirror, the driver can see only backwards within 90 degrees, which is at most perpendicular to the car in the direction of travel of the car. effective.

  As apparent from the disadvantages and effects of (1) above, for example, the angle when entering the main highway from the acceleration lane when entering the highway, For example, if the angle of the road between the acceleration lane and the high-speed lane is 10 degrees, if the angle behind the car that can be seen by the conventional rearview mirror is 90 degrees, this is the angle difference between the acceleration lane and the highway. The field of view within 10 degrees cannot be seen at all with a conventional rearview mirror, and at the same time, it is impossible to see the side of the car, so there is a drawback and effect that a blind spot occurs just before entering the main line from the acceleration lane. is there.

  As a disadvantage and effect of (3), with a conventional rearview mirror, it is not possible to see the side of the rear of the car, or the top or the bottom of the car, for example, the rear wheel tire behind the car. Of course, there is a drawback and effect that there is a blind spot that cannot be seen as both tires behind the car.

  As the defect and effect of (4), as is clear from the defect and effect of (3) above, the vehicle runs right next to the vehicle, directly behind the vehicle, directly below the vehicle, or directly behind the vehicle. There is a fault and effect that there is a blind spot that can not see the unicycle, bicycle and children.

  As apparent from the disadvantages and effects of (3) above, the rear tires of the car cannot be seen as the disadvantages and effects of (5). Or there is a fault and an effect that there is a blind spot where the side of the sidewalk cannot be confirmed.

  As the disadvantages and effects of (6), as described above, a conventional rear-view mirror for a passenger car or a car similar to a passenger car has a convex lens shape that applies the principles of a fish-eye lens and a compound-eye lens, Or, it is processed into a very slightly convex lens shape or a conventional concave lens shape by making it a concave lens shape or a convex lens shape that is a compound eye lens shape that is a collection of convex lens shapes that are convex lens shapes. By forming a convex lens shape similar to a fisheye lens inside a rear mirror for an automobile or a compound lens shape in which a plurality of convex lens shapes are assembled into a conventional rearview mirror, the rearview mirror is incorporated. Can provide a rear-view mirror that does not cause any blind spots that are the main cause of human life accidents. There is a drawback and effect.

  The disadvantages and effects of (7) include a flat shape, a fish-eye lens, or a compound-eye lens inside a conventional rear-view mirror for an automobile in which an R angle is formed in a lens shape of a very slightly convex lens or a concave lens shape. Convex lens shape and concave lens shape applying shape, optical glass using flat shape, convex lens shape and concave lens shape combining complicated shape of rearview mirror using optical glass complicated shape From the backside of the optical glass that is integrally molded, the metal material chromium or silver is vacuum-deposited using a vapor deposition processing technique, forming an R-angle in the shape of a conventional convex lens or concave lens. A back mirror for automobiles with a complex shape combining a convex lens shape and a concave lens shape, applying the flat shape, fisheye lens shape and compound eye lens shape. By integrally molded, there is a drawback to the effect that can be provided in the integrally molded the rearview mirror for a motor vehicle there is no blind spot.

  Applying a fish-eye lens and a compound-eye lens on the surface of a conventional rear-view mirror with a slightly convex lens shape or a concave lens shape with an R angle as described above, a convex lens shape or a concave lens shape is applied. , One on the surface of the conventional planar rearview mirror, two or more on the top and bottom, two or more on the left and right, or four or more on the top and bottom and left and right on the surface of the conventional planar rearview mirror When forming on the surface of a conventional planar rearview mirror, one convex lens shape or two or more convex lens shapes are formed on the surface of a conventional planar rearview mirror. As a solving means for forming a planar rear-view mirror having no blind spots, the following (1) and (2) solving means are used. As a solution to (1), when two or more convex lens shapes are formed on the surface of a conventional planar rearview mirror, the height of the convex lens shape formed on the surface of the conventional planar rearview mirror is high. Solve the problem by forming a flat-shaped rearview mirror with no blind spots by forming a flat-shaped rearview mirror that combines a convex lens shape with exactly the same height and a conventional flat-shaped rearview mirror. To do. As a solution of (2), when two or more convex lens shapes are formed on the surface of a conventional planar rearview mirror, the height of the convex lens shape formed on the surface of the conventional planar rearview mirror is high. Convex lens shape with irregular height, which is a random height, high convex lens shape or low convex lens shape mixed on the surface of a conventional planar rearview mirror at random By forming a planar rearview mirror that combines the conventional rearview rearview mirror and forming a planar rearview mirror that has no blind spots, it is possible to provide a rearview mirror that does not have a blind angle of right and wide angles at all There is.

  In the conventional rear mirror for automobiles described above, in which an R angle is formed in a slightly convex lens shape object or a concave lens shape, the following descriptions (1), (2), and (3) There are drawbacks and blind spots. As the defect and blind spot of (1), there are a defect and blind spot that cannot be seen as a field of view in the immediate vicinity of the automobile. As the defect and blind spot of (2), there are a defect and blind spot in which the tires of both wheels in front of the car cannot be seen as a field of view. As the defect and blind spot of (3), there are a defect and blind spot in which the tires of the rear wheels, which are behind the automobile, cannot be seen as a field of view.

  As described above, in the conventional rearview mirror for automobiles, it is impossible to see the side of the automobile very close as the defect and blind spot of (1). As a drawback and blind spot of (2), the tires on both wheels in front of the car cannot be seen. As for the disadvantage and blind spot of (3), the tires on both wheels behind the car cannot be seen. The following (1), (2), and (2) are the means for providing a rearview mirror that does not have the disadvantages and blind spots of (1), (2), and (3) above. And the solution described in (3). The solution in (1) includes a fish-eye lens, a compound-eye lens, or a convex lens shape applying a shape similar to an air pack shape on the surface of the rearview mirror. This is solved by forming a rearview mirror having a concave lens shape formed on the surface of the rearview mirror, and forming a rearview mirror having no blind spots. As a solving means of (2), on the surface of the rearview mirror, a shape similar to the shape of a washing board, a shape similar to a corrugated iron shape, a shape similar to a staircase shape, or a shape similar to a terraced field (hereinafter referred to as a terraced field) As a typical example, for example, a rear mirror in which a laundry board shape or an uneven shape is formed on the surface of the rearview mirror is formed, and the blind spot is completely absent. The solution is to form a rearview mirror that does not exist. As a means for solving (3), in a conventional flat-shaped rearview mirror (hereinafter, abbreviated as a flat-shaped rearview mirror) in which an R angle is formed in a slightly convex lens shape or a concave lens shape, Fish-eye lens, compound-eye lens, air-pack-like lens, washboard-shaped lens, corrugated iron shape, stepped shape, terraced shape, or uneven shape lens (hereinafter abbreviated fish-eye lens or compound eye) As a typical example, for example, by incorporating a convex lens similar to a fish-eye lens or a compound-eye lens into a flat-shaped rearview mirror, an image projected on a convex lens similar to a fish-eye lens or a compound-eye lens, At the same time, the image is transferred onto the surface of a planar rearview mirror and projected onto a convex lens similar to a fisheye lens or compound eye lens. Since the image can be seen in a planar shape on the surface of the rearview mirror, the problem is solved by forming a rearview mirror in which no blind spot exists.

  As a means for generating a magnetic field on the surface of the plate glass, tempered safety glass, or mirror (hereinafter abbreviated as plate glass or mirror) described above, a glass raw material that is a raw material of the plate glass is used. Inside the melting of the glass melting the raw material of the plate glass, for example, the material is made of alnico, ferrite, or neodymium (hereinafter abbreviated as alnico), the diameter is 1.2 A glass having a round shape with a thickness of 1.3 mm and a glass glass raw material is dissolved in a glass plate raw material and a magnet together, and mixed to produce a float glass manufacturing method, Or, using a method of manufacturing a sheet glass in which a wire mesh or the like is put in the center of the sheet glass and bonded together, or another method of manufacturing a sheet glass, simultaneously with the process of manufacturing a sheet glass, a magnet Producing a magnetic field on the surface of the plate glass using the magnet confined inside the plate glass by manufacturing the plate glass confined inside the plate glass together and confining the magnet inside the central part of the plate glass The following (1), (2), (3), (4), (5), (6), (7), (8), and (9) have been developed. There is an effect like this.

  The effect of (1) is that it is extremely simple and extremely inexpensive because it has developed a processing means for confining a magnet inside the plate glass during the manufacturing process of the plate glass for the purpose of generating a magnetic field on the surface of the plate glass. This has the effect of generating a magnetic field on the surface of the plate glass.

  As an effect of (2), instead of the magnet confined inside the plate glass, an iron plate made of a magnetic material, for example, the diameter of the same shape as the magnet described above is 1.2 mm, and the thickness is By confining an iron plate with a 1.3 mm round shape inside the plate glass and inside the plate glass as a magnet, the properties on the surface of the plate glass that do not have any magnetic properties can be obtained on the surface of the plate glass. There is an effect that can be made the property of a plate glass having properties.

  As an effect of (3), if a mirror is manufactured as an application example using a plate glass in which a magnet or a magnetic iron plate is confined inside the plate glass, the magnetic force of the magnet is used on the surface of the mirror. There is an effect that the magnet can be attracted to the magnet, or the magnet can be attracted to a magnetic material such as an iron plate inside a mirror made of the magnetic material.

  As an effect of (4), a manufacturing method for manufacturing a tempered safety glass by putting a wire mesh inside a plate glass is a state in which the raw material of the plate glass is melted to form a planar shape using the float glass manufacturing method. In this case, the wire mesh was submerged inside the raw material of the plate glass having a flat shape, so that it was formed in a sandwich shape around the wire mesh inside the plate glass and the plate glass, but the wire mesh was confined inside the plate glass. It is a manufacturing method. For example, the thickness of a sheet metal with a wire mesh, which is usually sold, is as thick as 6.7 mm. Instead of putting this wire mesh inside the plate glass, as explained above, for example, a circular magnet, or a steel plate with a thickness of 200 μm or more, a round shape with a hole diameter of around 50 mm, or a square shape Or by pressing a picture pattern or any other shape on the surface of the iron plate, several or more, several tens or more, or several hundred or more, or innumerable holes or holes on the entire surface Instead of a wire mesh, use an iron plate that has been punched out by pressing to form the pattern of (hereinafter abbreviated as a hole), or an iron plate that has no holes formed at all. The plate glass is placed on the entire surface of the plate glass between the plate glass and the plate glass, and both sides are plate glass centering on an iron plate in which a hole is formed (hereinafter referred to as an iron plate with a hole for short) or an iron plate in which no hole is formed at all. Sandwich shape, between the plate glass and plate glass If a sheet glass with a hole in the middle or between the sheet glass and the sheet glass is formed with an iron plate with no holes in it, the strength is overwhelming. Strong, strong against wind and snow, can block radio waves, has magnetic properties, is strong against crime prevention, and can be made into a glass that is strong against fire, so it can be used as a building material such as interior materials or exterior materials, or It can be used in place of a shutter, and has the effect of a glass plate that also serves as a shutter.

As the effect of (5), for example, a copper plate made of a non-ferrous metal, for example, a thickness of 50 μm or more, instead of an iron plate having a thickness of 200 μm or less, or 200 μm or more, as described above. Or a copper plate made of a non-ferrous metal (hereinafter abbreviated as a copper plate) such as an aluminum plate or a stainless steel plate, as described above, for example, a hole having a hole diameter of around 50 mm Use copper plate with several or more, tens or more, hundreds or more on the surface of the copper plate, or countless holes on the entire surface, or both sides of the copper plate with no holes formed at all As described above, when sandwiched with a plate glass on the surface, a copper plate with holes formed therein or a copper plate with no holes formed at all inside a plate glass is formed. Strong, strong against wind and snow Because it can block radio waves, it is strong in crime prevention, and it is strong in fire prevention, it can be used as a building material such as interior material or exterior material or as a change of shutter, There is an effect.

  As the effect of (6), the above-described iron plate with holes formed therein, a copper plate made of a non-ferrous metal, an aluminum plate, or a stainless steel plate (hereinafter referred to as an iron plate for short) For example, several or more holes, several tens or more, or several hundred or more holes on the surface of the iron plate, or an iron plate formed with an infinite number of holes are sandwiched between the plate glass and the plate glass to form a hole. If both sides are made into plate glass with the iron plate as the center, the plate glass on both sides passes through the holes formed in the iron plate, the plate glass and plate glass on both sides are melted, and the plate glass and plate glass on both sides are melted. Are combined into a unitary structure and joined together to form a sandwich-shaped plate glass with both sides of the steel plate centered on an iron plate with holes in the steel plate. Dissolved If it is a stage, it is a manufacturing method that confines the iron plate formed with holes in the middle of the plate glass by sinking the iron plate with holes formed in the iron plate inside the raw material where the raw material of the plate glass is dissolved, Since it is not a manufacturing method that bonds plate glass and plate glass, bonding force or adhesive force of glass that has passed through the hole formed in the iron plate by forming a hole in the iron plate without using adhesive etc. Is used to join the plate glass and the plate glass on both sides of the iron plate in which the hole is formed, so the bonding force between the plate glass and the plate glass on both sides or the adhesive force is determined by the area of the hole formed in the iron plate, If it is an iron plate in which holes are formed in an iron plate, it is possible to manufacture a plate glass in which an iron plate in which holes are formed is confined at a very low cost without using an adhesive or the like. effective.

  As an effect of (7), the float glass manufacturing method is used to explain the above in the state where the raw material of the plate glass is in a dissolved shape, for example, the diameter is 1.2 mm. A steel plate made of a magnetic material having a round shape with a thickness of 1.3 mm or a similar round shape (hereinafter abbreviated as a magnet or a steel plate) is used as a raw material for plate glass. When the glass is melted and is in a flat shape, the raw material of the glass or flat glass made of iron or steel is in a flat shape but has not yet been cured, or is melted. When in a state, the magnet or iron plate is submerged inside the flat plate glass so that the magnet or iron plate is completely confined between the plate glass and the plate glass. Manufacturing method So, without using an adhesive, the inside of the glass sheet and the glass sheet intermediate at very low cost, magnets, or the effect of it is able to produce a glass sheet confining an iron plate.

  As an effect of (8), the plate glass is dissolved in the manufacturing process of the float glass manufacturing method described above, and the plate glass raw material is dissolved to form a flat plate shape. With the magnet described above on the surface of the iron plate for the purpose of confining an iron plate (hereinafter, abbreviated as iron plate for short) formed inside the raw material, which is contained in the middle of the plate glass and plate glass For example, the material is alnico, ferrite, or neodymium, a magnet with a diameter of 1.2 mm, a thickness of 1.3 mm, and a magnet on the surface of the iron plate in which holes are formed, and the magnet is adsorbed. In this state, the steel plate is submerged in the flat plate glass raw material in which the raw material of the plate glass is melted, and is adsorbed on the surface of the iron plate, with an iron plate having a hole in the middle between the plate glass and the plate glass Let the magnet , By which can be confined to the inside of the plate-shaped glass sheet of raw materials together at the same time, there is an effect that it is possible to manufacture a steel plate containing a glass sheet capable of confining a magnet on the surface of the glass sheet generates a magnetic field.

  As an effect of (9), the plate glass is dissolved in the plate glass raw material in which the raw material of the plate glass is dissolved in the manufacturing process of the float glass manufacturing method described above, and the plate glass is dissolved. When confining a wire mesh inside the raw material, the magnet is attracted onto the surface of the wire mesh using the magnet's adsorption force on the surface of the wire mesh, and the wire mesh with the magnet attached on the surface of the wire mesh is used. Or by using other means to sink the wire mesh with magnets on the surface of the wire mesh into the flat plate glass raw material in which the plate glass raw material is dissolved. The metal mesh and magnet are submerged together inside the middle, and the magnet is adsorbed on the surface of the metal mesh and the metal mesh in the middle of the plate glass and plate glass, or the magnet is attached on the surface of the metal mesh using other means Wire mesh By confining the wire mesh and magnet together in the middle between the plate glass and the plate glass at the same time, the magnet is confined on the surface of the plate glass without changing the manufacturing process of the conventional wire mesh-containing plate glass. There exists an effect which can produce the sheet glass containing the wire mesh which can be generated.

  As described above, the means for generating a magnetic field on the surface of the gypsum board, the polystyrene foam molded product, the plastic molded product, or the artificial stone plate (hereinafter abbreviated as a gypsum board) is described above. As with the processing means for generating a magnetic field on the surface of the plate glass, the gypsum is a raw material of the gypsum board. Or a magnet made of neodymium, etc., with a diameter of 1.2 mm and a thickness of 1.3 mm, and a gypsum board raw material with a gypsum board raw material dissolved in gypsum board. At the same time as the process of manufacturing a gypsum board by mixing a gypsum and a magnet together, a gypsum board in which the magnets are confined inside the gypsum board is manufactured together, By developing a gypsum board processing means that can generate a magnetic field on the surface of the gypsum board using a magnet trapped inside the gypsum board by confining the magnet inside the part, the following ( There are effects as in 1), (2), (3), and (4).

  The effect of (1) is the stage after the gypsum which is the raw material of the gypsum board is kneaded and dried as a plate, after the gypsum kneaded into a flat plate shape using a roll of a rolling machine Then, for example, a magnet having a round shape with a diameter of 1.2 mm and a thickness of 1.3 mm, or an iron plate is placed on a flat plate shape, and the roll of the rolling machine is again set. When using a magnet placed on a flat plate or an iron plate to form a plaster board with a flat plate shape while replenishing the plaster kneaded together, the magnet or iron plate is placed between the plaster board and the plaster board There is an effect that it is possible to form a gypsum board in the form of a sandwich that contains.

  As the effect of (2), as described above, inside the gypsum board, for example, several tens of holes having a hole diameter of around 50 mm on the iron plate having a thickness of 200 μm or more, or several Use an iron plate that has 100 holes or more, or has many holes on the entire surface, or an iron plate that has no holes at all (hereinafter abbreviated as iron plate), and plasterboard on both sides of the iron plate By forming a sandwich-shaped gypsum board with a plaster board on both sides centered on an iron plate, it is strong, strong against wind and snow, strong against fire, strong against crime, and cut off radio waves Do it. There is an effect that a gypsum board having properties of a magnetic material can be formed.

  As the effect of (3), the above-described iron plate with holes formed, a copper plate made of a non-ferrous metal, an aluminum plate, or a stainless steel plate (hereinafter abbreviated as an iron plate). For example, an iron plate in which holes are formed by sandwiching an iron plate having several dozen or more holes, or several hundred or more holes on the surface of the iron plate, or an infinite number of holes between the gypsum board and the gypsum board. If both sides are made into gypsum board with the center, the gypsum board on both sides passes through the holes formed in the iron plate, and the gypsum board on both sides and the gypsum board are integrally molded and joined, When forming a sandwich-shaped gypsum board centering on an iron plate with holes formed in the iron plate and gypsum board on both sides, if the gypsum board is before drying, paste and paste the gypsum board together But glue Etc. there can be easily effect even without the use of.

  As an effect of (4), as an application example of the processing means for integrally molding an iron plate made of a magnet or a magnetic material inside the plate glass or gypsum board described above, as an application example, high magnification When molding foamed polystyrene resin (hereinafter abbreviated as foamed polystyrene), plastic molded products, artificial stone plates, etc., the above-described magnets or iron plates made of magnetic materials are used as raw materials for chemical products. The above-mentioned properties on the surface of foamed polystyrene, plastic molded products, or artificial stone plates, which have no magnetic properties, are described above by being integrally molded with a magnet or an iron plate inside. Similar to flat glass or gypsum board, there is an effect of changing to a surface having a magnetic property or a surface having a magnetic property.

  In the middle of the manufacturing process of the float glass manufacturing method described above, a wire mesh is put in the middle of a plate glass and a plate glass that are conventionally manufactured, instead of a wire mesh of a wire mesh-containing plate glass, for example, , Iron plate, copper plate, aluminum plate, or stainless steel plate (hereinafter abbreviated as iron plate or copper plate), as (1), without using any processing means such as pressing means, Use in the original state. As (2), an iron plate punched using a processing means such as a press working means is used. The following effects (1), (2), (3), (4), and (2) are the effects when the two types of iron plates are submerged into the middle of the plate glass and sealed and sealed. There are effects as in (5), (6) and (7).

The effect of (1) is that, instead of submerging the wire mesh inside the plate glass and burying it, using an iron plate instead of the wire mesh, a picture pattern on the iron plate or alphabet letters such as ABC , Or Iroha, or characters such as 1, 2, 3 or characters, hieroglyphs, Arabic numerals, or other patterns (hereinafter abbreviated as patterns) such as pressing on the surface of the iron plate If the iron plate punched using processing means is changed into a wire mesh, it is submerged in the middle of the plate glass and the plate glass and confined, for example, if the iron plate on which a pattern such as a picture is buried is buried, In the part where the pattern is formed, the plate glass on the front surface and the glass plate on the back surface on both sides are bonded with the same glass plate, so a pattern such as a large picture is formed on the surface of the iron plate Etc., by the both side surfaces Plate glass and plate glass to firmly bond, brittle glass defect is reinforced. In addition, since the iron plate is confined inside the plate glass, there is a synergistic effect that reinforces the oxidation action that is a defect of the iron plate, so than the case where the metal net is submerged inside the plate glass and the plate glass to be confined and buried However, there is an effect that the use range is further expanded.

  The effect of (2) is that if the surface of the iron plate made of iron is pressed using a processing means and the iron plate punched with a pattern of the picture is confined in the middle between the plate glass and the plate glass, Since it does not oxidize, it can maintain the luster of the iron plate for a long period of time, and the strength becomes a composite material of a strong plate glass and metal material. Or there is an effect which can be used as a material of a roofing material instead of a tile.

  (3) The effect of (3) is to use the copper plate punched out of the pattern of the pattern on the surface of the copper plate instead of the iron plate as it is, or use the copper plate as it is. If a copper plate plated with gold on the surface is confined in the middle between the plate glass and plate glass, it does not oxidize at all, so it can remain in a golden golden state for a long time. In addition, since the strength becomes strong, there is an effect that it can be used as an interior material of a building material, an exterior material, a ceiling material, or a roof material instead of a tile.

  As an effect of (4), on the surface of the iron plate or copper plate, a metal plate such as an iron plate or copper plate in which no holes or patterns are formed at all, and the metal plate as it is, as it is Or a metal plate such as an iron plate or a copper plate that has been subjected to a surface treatment such as silver plating or gold plating on the surface of a metal plate such as an iron plate or a copper plate. If it is submerged and sealed and sealed, it will not oxidize at all for a long time, so a silver or golden gold luster will be formed on the entire surface of a metal plate such as an iron plate or copper plate. Since the composite material of the metal plate and the plate glass is made and the composite material of the plate glass and the metal material is strong, the interior material of the building material, the exterior material, the ceiling material, or the roof material instead of the tile Use as a material for It is effective that can be.

  As an effect of (5), a metal plate such as an iron plate or a copper plate is submerged in an intermediate portion between the plate glass and the plate glass, and is sealed and completely sealed, so that it can be made of a metal material of the plate glass and the metal plate. Composite material that can be made. The temperature when this plate glass is formed into a planar shape is around 650 ° C. At a temperature around 650 ° C., the plate glass that is the raw material of the plate glass is in a soft state in the form of cocoons. When the raw material of this sheet glass is soft and flexible, it is molded into a corrugated plate shape using a press processing means or other processing means into a corrugated sheet shape for the purpose of forming a corrugated sheet roofing material. Then, it is possible to manufacture a corrugated sheet of a roof material using a composite material having a structure in which a metal plate is sealed inside a plate glass and a plate glass. The metal plate that seals the inside of the glass plate that is the prototype of this corrugated plate is a metal plate, but since it does not come into contact with air at all, no rust is generated. However, there is an effect that it is possible to provide a corrugated sheet of roofing material that can be continued for a long period of time.

As the effect of (6), as explained in the above (5), a metal plate such as an iron plate or copper plate in which no hole is formed, or an iron plate or copper plate in which a hole is formed (hereinafter, A composite material made of a metal material of a plate glass and a metal plate, in which the iron plate is completely sealed by confining an iron plate in the middle between the plate glass and the plate glass, is made. The temperature when this plate glass is in a flat state is around 650 ° C. At a temperature of around 650 ° C., the raw material of the plate glass, which is the raw material of the plate glass, is in a soft state in the state of the cocoon. When the plate glass constituting the composite material having a soft and flexible flat plate shape is soft, the Japanese roof tile or the western tile using a press machine in the shape of a Japanese roof tile or a western roof tile. There is an effect that it is possible to form a Japanese roof tile or a Western roof tile by stamping one or one Japanese roof tile or a single western roof tile by pressing the shape of the roof tile.

As an effect of (7), the float glass processing process which manufactures plate glass using the difference in specific gravity when (circle) and glass melt | dissolved demonstrated in said (1) to (6) above. In place of a wire mesh of a sheet glass with a wire mesh, for example, an iron plate with holes, or an iron plate in the shape of a mesh, or nichrome wire is used instead of a wire mesh of a sheet glass with a wire mesh. A wire mesh formed by mixing a nichrome wire inside a wire mesh forming a conventional wire mesh, a nichrome plate having holes, or a nichrome plate having no holes , Or a fabric made of carbon fiber, or steel wool, or other conductive object (hereinafter abbreviated as iron plate) in the final stage of the float glass processing process, in the center of the thickness direction of the glass sheet Set the iron plate on the part As a finished shape, an insulating plate glass is used on both sides centering on the iron plate, and a voltage is applied to the conductive iron plate that has a sandwich structure using two plate glasses. When an electric current is applied, the iron plate becomes a heating element and generates heat. As a method of using a composite plate glass having a laminated plate glass (hereinafter abbreviated as a composite plate glass) structure of an iron plate and a plate glass sealed on both sides using an insulating plate glass around the iron plate of the heating element. , Using interior materials for heating building materials, ceiling materials for heating purposes, flooring materials for heating purposes, or roofing materials such as tiles with snow on the roof as heating elements Building materials that can be used as roofing materials such as roof tiles for the purpose of melting snow that accumulates snow on the roof by generating heat, and building materials that combine heating elements for heating purposes However, it is effective as a heating element for heating purposes.

  The gypsum board (CaSO4 + 2H2O) containing the water crystal | crystallization whose water content is about 20% is made by making the gypsum contain water | moisture content from the gypsum (CaSO4) demonstrated above. For the purpose of giving this gypsum board the property of a magnetic substance, the gypsum board is in a soft state before the gypsum is cured by adding moisture to the gypsum and kneading it in the manufacturing process of forming the gypsum board. At the stage of making a plaster board shape for the purpose of forming a plaster board, the inside of the flat board shape has been explained above. For example, several holes having a thickness of 200 μm or more and a diameter of about 50 mm or more , Or several tens or more, or several hundreds or more holes, the magnetic iron plate is submerged into the raw material of the gypsum board made into a flat shape and buried, and the iron plate with holes formed is the center When the gypsum board with gypsum on both sides is formed around the iron plate with holes formed in the center, the top and bottom surfaces are dried with gypsum. The gypsum board on the surface is combined into a unitary structure Therefore, both sides are made of gypsum with the iron plate with holes formed in the center, and the three layers form a gypsum board that has the properties of a sandwich-like magnetic substance in a strongly bonded state I can do it. Moreover, even if the gypsum board is formed by using the following processing means (1), (2), (3), and (4), the same effect as described above is obtained.

  As the processing means of (1), as described above, an iron plate having a thickness of 200 μm or less or 200 μm or more and having a hole formed therein, or an iron plate not forming a hole (hereinafter abbreviated as an iron plate) Or paste a thick paper on the surface of the copper plate, aluminum plate, or stainless steel plate) using an adhesive, and add water to the gypsum on the upper surface of the thick paper. The gypsum board material is poured into a flat plate shape. It becomes a sandwich shape having a structure in which thick paper is laminated on a flat plate-shaped surface. As for the cross-sectional shape, the upper surface on one side is an iron plate, the lower surface on the other side is thick paper, and the back surface of the iron plate is thick paper. If the gypsum board raw material has a flat plate shape, it has the property of forming a needle-like crystal when the water-containing gypsum board raw material hardens, so the needle-like crystal is inside the thick paper affixed on the surface of the iron plate. As a result of the intrusion, the thick paper and the gypsum board stuck on the surface of the iron plate are firmly bonded. As a result, the iron plate joined to the thick paper is also laminated on the surface of the gypsum board, so that it is possible to form a sandwich-type gypsum board with a magnetic iron plate affixed on the surface of the gypsum board There is. In addition, as an advantage of this manufacturing method, an iron plate is installed on the bottom surface, and the raw material of gypsum board is poured on the thick paper affixed on the surface of the upper surface of the iron plate. Since the gypsum board is formed, the surface accuracy of the iron plate can be increased. Furthermore, gypsum, the raw material of gypsum board, becomes needle-like crystals by drying the gypsum board only by the process of pasting thick paper with glue or adhesive on the surface of the first iron plate. The needle-like portion of the needle-like crystal penetrates into the thick paper and bonds with the thick paper. As a result, the iron plate is firmly bonded to the gypsum board. Moreover, it is a metal plate other than the iron plate made of a magnetic material. For example, a copper plate made of non-ferrous metal as a raw material, a copper plate, or an aluminum plate, or a stainless steel plate (hereinafter abbreviated as a copper plate), a thick paper pasted with glue or an adhesive. Using the processing means described above as a processing means for bonding the copper plate and the gypsum board, when the copper plate and the gypsum board are bonded together, first, a thick paper is placed on the surface of the copper plate. The copper plate and gypsum board can be firmly joined in the work process of pasting. If a very thin copper plate, for example, a copper plate with a thickness of 50 μm or less is pasted on the surface of the finished gypsum board, the surface accuracy on the surface of the finished gypsum board is uneven, and the copper plate is Although it is thin and can be applied in an uneven state, it has the disadvantage that it cannot be applied with high surface accuracy on the surface of the gypsum board. However, it is a paste on the surface of the copper plate, which is the processing means described above. Or the surface of the thick paper where the raw material of the gypsum board in a soft state, which is made by hydrating and plastering the gypsum, is pasted on the surface of the copper plate on which the thick paper is pasted using an adhesive Cast the gypsum board soft raw material onto the surface of the copper plate which, as a result, constitutes the lower surface of the thick paper, and the gypsum board soft gypsum on the copper plate surface When the board is hardened and solidified, it is easily plastered Surface accuracy copper plate on the surface of the over-de is effective it can be to put high. As described above, a metal plate such as a copper plate is bonded on the surface of the gypsum board, the surface is a metal plate, and the back surface is a plaster board metal plate. For example, the front surface is a metal plate such as a copper plate. As a fake application field, the interior material of the building material, the exterior material, the ceiling material, or the roof material instead of the tile, the surface is a copper plate imitating a copper plate, and the back side of the copper plate is affixed with gypsum board There is an effect that it is possible to form a composite material made of a copper plate and a gypsum board which are joined together. Further, by forming a composite material by joining a metal plate such as a copper plate on the surface of the gypsum board, the strength is strong and it is strong against wind and snow, so that it can be used as a roofing material.

  As the processing means of (2), as described above, an iron plate having a thickness of 200 μm or more, or an iron plate in which no hole is formed (hereinafter abbreviated as an iron plate, Or a copper plate, an aluminum plate, or a stainless steel plate) using a thick paper adhesive on both sides of the front and back surfaces, and an iron plate with thick paper pasted on both sides around the iron plate, In the process of manufacturing gypsum board, the raw material of gypsum board in the manufacturing process described above was submerged into a flat plate shape that was made by adding water to the gypsum and kneading it, and was buried in thick paper Centering on the iron plate pasted on both sides, the upper side and the lower side are centered on the iron plate made of gypsum raw material, and both sides are dried in the shape of a gypsum board raw material sandwiched as described above Once the plaster is dry The structure of a magnetic material with an integrated structure in which the iron plate and the gypsum board are firmly bonded by the needle-like crystal that can be made into a crystal by piercing on the surface of the thick paper affixed on the surface of the iron plate There is an effect that can produce a gypsum board having.

  As the processing means of (3), the plaster is formed by adding water to the plaster described above and kneading it into a flat plate shape. For example, the diameter is 1.2 mm, the thickness is 1.3 mm, and the surface material is ferrite. Or a round magnet made of neodymium or the like, or a round iron plate (hereinafter abbreviated as magnet or iron plate) made of a magnetic material of the same shape is a raw material for gypsum board When submerged into a flat plate shape and buried, the magnet or magnet with thick paper pasted on the surface of the iron plate using glue or adhesive on the surface of the iron plate or thick When the iron plate with paper is submerged in the flat plate shape that is the raw material of the gypsum board and buried, the needles of acicular crystals formed when the gypsum hardens pierce the thick paper, or Place where thick paper is not put on the surface of the iron plate Compared with, gypsum board intended to generate a magnetic field on the surface of the gypsum board, because the adhesion of the gypsum board is better when the thick paper is pasted on the surface of the magnet or iron plate There is an effect that can be manufactured. In addition, by using an iron plate instead of a magnet, there is an effect that a gypsum board having magnetic properties can be manufactured.

  As the processing means of (4), as described in the above (3), another means for sinking the magnet into the gypsum board and burying it is as described above, forming a hole. On the surface of the iron plate that has not been formed, or on the surface of the iron plate that has been magnetized on the surface of the iron plate using the magnetic force of the magnet, the iron plate is sunk inside the flat plate shape that is the raw material of the gypsum board When embedded and buried, a magnetic field can be generated on the surface of the gypsum board, and at the same time, a gypsum board having the properties of a magnetic substance can be produced.

  Cut the cut angle of the V-shaped cut on the surface of the rear-view mirror that has a slightly convex lens shape or a concave lens shape with the conventional rear-view mirror for automobiles described above. A groove having a shape, or a plurality of grooves, a washboard shape, a corrugated iron shape, a stepped shape, a stepped field shape, or a concavo-convex shape (hereinafter abbreviated as a groove or a plurality of grooves). Forming a V-shaped groove on the surface of the rearview mirror in the vertical direction and the horizontal direction, which are perpendicular to the direction of travel of the automobile, or chemicals such as hydrofluoric acid When a groove is formed on the surface of the rearview mirror by etching (hereinafter referred to as “etching” for short), the following (1), (2), (3), (4), ( There are effects as in 5), (6) and (7).

  As an effect of (1), when a V-shaped cut groove is formed on the surface of the rearview mirror by using a processing means such as etching using the rearview mirror as a reference point on the surface of the rearview mirror, for example, V-shaped cut angle grooves can be formed on the surface of a flat-shaped rearview mirror, so that grooves with a maximum cut angle of 90 degrees can be formed. If the angle of cut of the vehicle is 90 degrees perpendicular to the surface of the rearview mirror, the driver sees the tires directly behind, directly below, directly above, and behind the car 180 degrees behind the car being driven. There is an effect that can be.

  As an effect of (2), by using a processing means such as an etching process, grooves in the vertical direction or in the vertical and horizontal directions are formed on the surface of the rearview mirror separately on the surface of the rearview mirror. If the vertical and horizontal grooves are formed at the same location on the surface of the rearview mirror, the vertical groove, the horizontal groove, or the shape of the rice field is formed on the rearview mirror surface. Groove is formed. If this vertical groove, horizontal groove, or groove in the shape of a rice field is formed on the surface of the rearview mirror, it will face in the direction of travel of the automobile, in the horizontal direction, or in the vertical direction. Since the field of view within the range of 180 degrees in the horizontal direction and 180 degrees in the vertical direction can be seen at the same time, it is possible to see the tires on the side, right under, right above and rear wheels of the car. .

  The effect of (3) is that, for example, grooves having an area of about 25% of the total area are formed on the surface of the conventional rearview mirror, or grooves are formed on both ends of the rearview mirror, or on the rearview mirror. If a groove is formed in this part or a groove is formed in the lower part of the rearview mirror, there is an effect that a rearview mirror having no blind spot can be formed.

  As the effect of (4), on the surface of the conventional rearview mirror, the groove, the plurality of grooves, the washing board shape, the corrugated iron shape, the step shape, or the terraced field shape described above, Alternatively, an uneven shape (hereinafter abbreviated as a groove or a plurality of grooves) or the like is formed on the surface of the rearview mirror by a etching process using chemicals such as hydrofluoric acid, or a plurality of grooves. If the machining means is compared with machining or the like, there is an effect that a groove or a plurality of grooves can be formed at a very low cost.

  As an effect of (5), a groove on the surface of the rearview mirror after processing the surface of the rearview mirror into a mirror surface state at the stage when the mirror surface processing, which is polishing processing on the surface of the conventional rearview mirror, is finished, Or, for the purpose of forming a plurality of grooves, if a groove or a plurality of grooves are formed on the surface of the rearview mirror described above by etching using hydrofluoric acid or the like, The surface accuracy inside the groove or the plurality of grooves has the effect of being in the same mirror surface state as the mirror surface state.

  As an effect of (6), on the surface of a conventional rearview mirror, a groove, a plurality of grooves, a washboard shape, a corrugated iron shape, a staircase shape, a terraced field shape, an uneven shape, or a fisheye lens shape Or a compound eye lens shape, or a shape similar to an air pack, or a convex lens shape, or a concave lens shape (hereinafter abbreviated as a groove, a plurality of grooves, or an uneven shape) on the surface of a conventional rearview mirror. For example, by forming a plurality of grooves or concavo-convex shapes by etching, it is possible to provide a rearview mirror having no blind spots.

  As an effect of (7), a conventional rearview mirror is used for a conventional passenger car or an automobile rearview mirror similar to a passenger car (hereinafter abbreviated as an automobile rearview mirror or rearview mirror). Use chemicals such as hydrofluoric acid on the surface of the rearview mirror that forms an R-angle in a slightly convex lens shape or a concave lens shape in the longitudinal direction or the lateral direction toward the traveling direction of the car. Using the etching processing means, a V-shaped groove, or a U-shaped groove, or a concave groove, or a prism similar to a prism (hereinafter abbreviated as a groove, Or a plurality of grooves or prisms), or a plurality of grooves are formed on the surface of the rearview mirror, or the vertical grooves and the vertical grooves are overlapped. Rearview mirror shape The surface of the conventional rearview mirror is formed on the surface of the conventional rearview mirror, for example, the area of one part of the total area of the conventional rearview mirror is 25% or less, or 25% or more. By using the properties of the prism, the light dispersion, which is the property of the prism, or the direction change of the image, which is the property of the prism, is the groove formed on the surface of the rearview mirror or a plurality of grooves as the property of the prism. By using it, the driver will be able to see an image with all the view behind the rearview mirror expanded to infinity or reduced, so both wheels next to the car or behind the car You will be able to see the tires of the rear mirror, there is no blind spot at all, the area of one part on the surface of the conventional rearview mirror is improved by using the etching processing means And by not at all present blind spot at a very low cost, safety, there is an effect that can be formed a rearview mirror that a more further enhanced.

  As described above, an extremely thin iron plate, copper plate, aluminum plate, or stainless steel plate (hereinafter abbreviated as iron plate) can be formed on the surface of the gypsum board when the raw material of the gypsum board is solidified. Gypsum board using the property that needle-like crystals penetrate into the inside of thick paper and become needle-like needle-like crystals, so that they combine with the thick paper on the surface of the gypsum board and integrate. An iron plate is laminated on the surface of the gypsum board, and the iron plate is laminated on the surface of the gypsum board using the properties of needle-like crystals. As an application example, it can be used as a processing means for an application example such as the following (1).

  As an application example of (1), it is thick on the surface of the plate glass of plate glass, veneer plate, stone plate, artificial stone plate, cardboard plate, foamed polystyrene, or plastics plate (hereinafter abbreviated as plate glass). Glue the gypsum that is the raw material of the gypsum board and mix the gypsum board raw material on the surface of the plate glass with glue or glue on the surface of the plate glass. The raw material of gypsum board is poured from the top of the thick paper affixed onto it, and the acicular crystals formed when the gypsum hardens inside the thick paper affixed on the surface of the plate glass, and the acicular crystals inside the thick paper If the plate glass and the gypsum board stuck on the surface of the thick paper are firmly bonded together, and the plate glass and the gypsum board are combined and bonded together, the surface Pseudo-out of gypsum board can be. Alternatively, a plaster board with a veneer-like surface can be made. Or you can make a plasterboard whose surface is imitation of a stone board. Alternatively, a gypsum board whose surface is a pseudo artificial stone board can be made. Alternatively, a plasterboard with a corrugated board imitating the surface can be made. Alternatively, a gypsum board whose surface is pseudo-styrofoam is made. Or, as a representative example, the surface of which is a plastic plate, it is possible to manufacture a composite material of gypsum board with plate glass as an application example, so the following (1), (2), and (3) There is an effect like this.

  As an effect of (1), for example, when a plate glass and a gypsum board are bonded and bonded together to be united together, the brittle and brittle nature which is a defect of the plate glass is reinforced. Moreover, even if the plate glass is broken, it does not scatter. Furthermore, since the defect weak against wind and snow, which is a defect of the gypsum board, is reinforced by the plate glass bonded on the surface of the gypsum board, the gypsum board is resistant to wind and snow. Moreover, since it becomes strong against wind and snow, it can be used as a roofing material that changes tiles. Furthermore, as a building material, it can be used as a color and glossy interior material, as an exterior material, or as a ceiling material by coloring a plate glass. Moreover, there exists an effect which can provide a gypsum board with a long service life by sticking plate glass on the surface of a gypsum board.

  As an effect of (2), when the processing means described above is used and the gypsum board is bonded on the surface of the plywood and united together, the gypsum board is very thin. To form a strong plywood. Moreover, the brittle nature of a gypsum board is reinforced by bonding a plywood board and a gypsum board. Further, if the gypsum board has a veneer board pasted on the surface of the gypsum board, there is an effect of using a thumbtack on the surface of the plywood board, for example, a gypsum board on which a picture or the like can be pasted.

  As the effect of (3), the extremely thin iron plate described above when the plywood is laminated for the purpose of giving the properties of the magnetic material on the surface of the veneer plate described above, For example, using an iron plate formed by using a processing means such as pressing a hole in an iron plate having a thickness of 230 μm or less, or using an iron plate in which no hole is formed, a veneer plate and a veneer plate If a sandwich-shaped veneer plate with both sides on both sides is formed in the middle, a veneer plate with the properties of a magnetic material can be formed. For example, a memo paper etc. can be stuck using a magnet. In addition, when the veneer plate is joined to both sides by using an adhesive on the both sides of the iron plate formed with a hole in the very thin iron plate between the plywood plate and the plywood plate, or through the hole of the iron plate forming the hole, or The intervening plywood and plywood are made of the same material wood, so the plywood and plywood are joined directly by the adhesive through the holes in the iron plate, so the holes formed on the surface of the iron plate The larger the area, the better the bonding condition of the adhesive for bonding the plywood and the plywood. Furthermore, the special feature of the veneer plate with the iron plate sandwiched between the veneer plate and the veneer plate is strong and has a strong effect on fire prevention.

  In the manufacturing process of manufacturing the gypsum board described above, the raw material of the gypsum board which is mixed with the water content of the gypsum for the purpose of manufacturing the gypsum board having a high heat-resistant effect is corrugated board (hereinafter abbreviated, When the gypsum which is the raw material of the gypsum board is hardened on the surface of the cardboard board, the gypsum containing water is fixed. When molding, gypsum becomes needle-like crystals, and the needle-like crystals penetrate a large amount into the corrugated paperboard, so the gypsum and corrugated paperboard that are the raw materials for gypsum board use glue or adhesive Even if it does not, gypsum and corrugated paperboard are united and united firmly. Using corrugated paperboard made of a heat-resistant material, which can contain a large amount of air layer, using the property that this gypsum becomes needle-like crystals when solidified, for example, corrugated cardboard Corrugated paperboard and gypsum board by pouring the raw material of gypsum board, which is the raw material of gypsum board on the surface of corrugated paperboard that is laminated in three, four or five stages, and kneaded the gypsum board with water Applying the principle of bonding by the generation of acicular crystals, corrugated paperboard containing a large amount of air layer is applied to the gypsum board surface on one side or on both sides of the gypsum board. When a gypsum board is formed with corrugated paperboard on both sides centered on the board, a large amount of needle-like crystals are formed inside the corrugated paperboard when the gypsum board raw material dries. The properties of the paperboard that constitutes the corrugated paperboard by penetrating the inside of the paperboard and forming the needlelike crystals on the surface of the paperboard or inside the paperboard. However, since the properties of the soft paperboard change completely, the properties of the paperboard change in the opposite direction 180 degrees and harden and harden, for example, a honeycomb structure with a honeycomb-shaped honeycomb structure A moisture-proof material formed with a large amount of air layer, or heat resistance, which reinforces moisture-proof property, which is a drawback of gypsum board by combining cardboard paperboard and gypsum board and combining them together Or, since it is possible to provide a gypsum board made of composite material by firmly combining cardboard paperboard and gypsum board with excellent soundproofing properties, it is possible to provide an interior material or exterior material as a building material, Or ceiling material, or shop There is an effect that it can be used as a building material, such as wood. Also, when the gypsum in a dry state, which is made by adding water to the gypsum and kneading the gypsum together with moisture, is cured on the surface of the thick paper, the gypsum becomes needle-like crystals inside the thick paper or corrugated paperboard. Applying the phenomenon of penetrating into needle-like crystals and becoming hard and hardened has the following effects (1), (2), and (3).

  The effect of (1) is that the corrugated paperboard is soaked in an aqueous solution in which the gypsum is hydrated and kneaded in a muddy state, or the surface of the corrugated paperboard. Apply gypsum kneaded in a muddy state onto the surface of corrugated paperboard, and apply, adhere to, or inhale muddy gypsum on the surface of the cardboard paperboard or inside the cardboard paperboard Let the gypsum dry on the surface of the corrugated paperboard or inside the corrugated paperboard, so that the gypsum becomes acicular crystals when it dries on the surface of the corrugated paperboard or toward the inside of the corrugated paperboard The shape of the corrugated paperboard is changed by changing the softness of the corrugated paperboard to that of the hard corrugated paperboard. Corrugated paperboard with a hard honeycomb structure similar to that of plasterboard, with a honeycomb-shaped honeycomb structure containing a large amount of air layer, which is the structure of corrugated paperboard I can do it. In addition, it has heat resistance, moisture retention, soundproofing, strong strength, extremely low cost, extremely light, and has the characteristics of a honeycomb shape similar to gypsum board. Similar to the light and strong honeycomb structure, the corrugated board is similar to the raw material gypsum board, and has the effect that a corrugated board can be formed.

The effect of (2) is that on the surface of corrugated paperboard, a very thin iron plate, copper plate, aluminum plate, stainless steel plate, plate glass, veneer plate, foamed polystyrene plate, or plastics plate (hereinafter abbreviated). On the surface of the corrugated board, using glue or glue on the surface of the corrugated board, and adhering the gypsum which is the raw material of the gypsum board on the surface of the corrugated board The raw material of gypsum board that has been kneaded together is poured onto the surface of the corrugated paperboard, and the gypsum that has been hydrated on the surface of the corrugated paperboard that is bonded to the iron plate is cured to solidify. When gypsum is cured, gypsum that contains a large amount of water in the needle-like crystals is generated, so that the inside of the corrugated paperboard that is bonded to the iron plate At the same time as the crystal-like crystal penetrates, the needle-like crystal fills the entire surface of the corrugated paperboard, and the needle-like crystal is moistened on the surface of the corrugated paperboard. The needle-shaped crystal that penetrates the entire surface of the corrugated paperboard and fills the entire surface of the corrugated paperboard is also solidified by hardening the water-containing gypsum, and united with the gypsum board. At the same time, the needle-like crystals that have penetrated the inside of the corrugated paperboard are hardened and solidified, so that the properties of the corrugated paperboard are stuck on the surface of the iron board. Similar to honeycomb structure, which is similar to honeycomb structure, with a hardness similar to that of gypsum board. Therefore, mainly the corrugated paperboard affixed on the surface of the iron plate A sandwich-shaped composite material formed by intruding needle-like crystals by sticking thick paper or corrugated paperboard on the surface of the plasterboard, and the surface on one side is iron plate, the other side is gypsum board By forming the structure, it is possible to create a plasterboard that mimics the iron plate made of iron plate on the surface. If a metal plate such as a copper plate, an aluminum plate, or a stainless steel plate, a plate glass, a veneer plate, a foamed polystyrene plate, or a plastic plate is used instead of an iron plate, it is colorful, shiny, and heat resistant. , Moisturizing, soundproof, strong in strength, very cheap, and has the characteristics of a nest-shaped shape similar to a very light gypsum board as an internal structure, Similar to an extremely light and strong honeycomb structure, it is possible to form a corrugated cardboard board made of a corrugated cardboard board and a plaster board made of corrugated cardboard and gypsum.

As an effect of (3), in the manufacturing process of manufacturing corrugated paperboard, for example, an iron plate or a hole having a diameter of about 50 mm is formed on an iron plate having a thickness of 200 μm or less, or 200 μm or more. A non-iron plate (hereinafter abbreviated as iron plate) is sandwiched between the corrugated paperboard and the corrugated paperboard to form a sandwich-shaped corrugated paperboard with both sides of the ironboard as the center, Using corrugated paperboard on both sides of the iron plate as a center, for example, as described above, bonded together on the surface of the gypsum board and united together firmly, Or, by forming, applying, adhering, or sucking gypsum plaster on the surface of corrugated paperboard with both sides of corrugated paperboard centered on an iron plate, or inside corrugated paperboard, There is an effect that can be formed corrugated paperboard, which on the surface of the ball paperboard has the nature of the magnetic material. In addition, gypsum is made into a muddy state by adhering gypsum with water on the surface of the corrugated paperboard with the corrugated paperboard sandwiched on both sides with the corrugated paperboard centered on the iron plate. Gypsum that has been applied, adhered, or soaked in a dipped state, and gypsum is sucked into the corrugated paperboard and dissolved on the surface of the corrugated paperboard or inside the corrugated paperboard using moisture. The needle crystal is formed by utilizing the property of the phenomenon that the gypsum containing moisture becomes a needle crystal when it dries on the surface of the corrugated paper board or toward the inside of the cardboard paper board. When entering the inside of the corrugated paperboard, if entering the inside of the corrugated paperboard with both sides of the corrugated paperboard centering on the iron board, both sides of the corrugated boardboard are centered on the ironboard. By using corrugated cardboard as the paperboard, the honeycomb structure has a higher tensile strength, honeycomb structure, strong, strong, hard, heat resistant, moisture retaining, soundproofing It has strong strength, can be nailed to the ground using nails, etc., is easy to cut, has good workability, and corrugated paperboard and gypsum with iron plate is similar to gypsum board of raw material, The provisional name is effective in forming a corrugated paperboard board containing an iron plate.

  A fish-eye lens, a compound-eye lens, a groove shape, and a prism that is the principle of a Fresnel lens on the surface of a conventional door mirror that forms a slightly convex lens shape or a concave lens shape, inside one of the conventional door mirrors, Forming the upper and lower parts of the door mirror, the left and right ends of the door mirror, or the center part of the door mirror, the driver can move the line of sight from the inside of a single Dora mirror. However, since a blind spot occurs for a very short time, the driver can move up and down in the direction of travel of the car by looking at one door mirror without moving the line of sight from inside one door mirror. Or a door mirror characterized in that no blind spots are generated by being able to see the field of view up and down, right side and back of 180 degrees left and right.

  A conventional inner mirror having a planar shape for automobiles, or a door mirror similar to the planar shape (hereinafter abbreviated as a rearview mirror), forms an R angle in a slightly convex lens shape or concave lens shape. On the surface of the rearview mirror, a groove having a cut shape of a V-shaped cut, or a plurality of grooves, a washing board shape, a stepped shape, a terraced field shape, a convex lens shape, or a concave-convex shape (hereinafter, A groove that is a convex lens shape, a groove, or a plurality of grooves for short) is a V-shaped groove on the surface of the rearview mirror in the vertical direction and the horizontal direction that are perpendicular to the traveling direction of the automobile. Form a groove by machining, or apply heat to the plate glass to form a glass plate that has been softened into a convex lens shape, or use a mold with grooves to form a single piece by press molding , Or etching using chemicals such as hydrofluoric acid (hereinafter, abbreviated to as etching) rearview mirror, or a manufacturing method thereof of at characterized in that the molding grooves on the surface of the rearview mirror.

  Cut the sphere in half on the surface of a passenger rearview mirror or door mirror (hereinafter abbreviated as rearview mirror or door mirror) for passenger cars or passenger cars similar to those used in the past. Convex hemispherical shape, or a hemispherical shape similar to a hemispherical shape, or a convex lens shape similar to a hemispherical shape of a sphere that is cut to less than 1/2, for example, around 2/5 (hereinafter abbreviated convex lens) Shape) is a hemispherical shape, or similar to a hemispherical shape in the center part, one end part, or both end parts, or the upper and lower parts of the interior rearview mirror or door mirror of a passenger car used in the past The projecting shape similar to the convex lens shape of the fish-eye lens or the protruding portion similar to the compound eye lens, or the raised portion, is integrally molded on the surface of the indoor rearview mirror or door mirror of a conventional passenger car. In addition, by providing a convex lens shape on the surface of a conventional rearview mirror or door mirror, it is possible to see the entire view from the left or right or up and down 180 degrees as a field of view, and there is no blind spot at all. Or a door mirror, and a manufacturing method thereof.

  Convex lens shape with a protruding shape similar to a fisheye lens or compound eye lens on the surface of a conventional door mirror that forms a slightly convex lens shape or a concave lens shape (hereinafter abbreviated as a rearview mirror or door mirror). Or a concave lens shape, or a groove, or a plurality of grooves, or a washboard shape, or a prism that is the principle of a Fresnel lens (hereinafter abbreviated as a convex lens shape, a concave lens shape, a groove, or a prism). As a processing means, a mirror surface part manufacturing process for manufacturing a conventional door mirror will be described. As a first processing means, a large plate glass is cut into the size of a rearview mirror. As the second processing step, heat is applied to the plate glass cut to the size of the rearview mirror, and the plate glass is bent slightly into a convex lens shape or a concave lens shape. As a third processing step, a thin film of a metal film such as chromium, copper, or silver is coated on the surface of the plate glass on the surface of the plate glass that is the back surface of the rearview mirror by using a sputtering type vapor deposition machine. Make a mirror. In the second processing step described above, the plate glass is heated to be bent slightly into a convex lens shape or a concave lens shape (hereinafter referred to as a conventional rearview mirror). At the stage of heating the plate glass in the process of manufacturing the rearview mirror and bending it into a convex lens shape or a concave lens shape, the shape of the fisheye lens on the upper and lower end parts, or the center part and both end parts on the surface of the conventional rearview mirror The surface of a plate glass that is heated using a mold that is intended to form a convex lens shape that protrudes like a compound eye lens shape, or a concave concave lens shape or a prism that has a groove shape A convex lens shape, concave lens shape, groove, or prism is integrally molded at the same time as the conventional rearview mirror molding process on the surface of the conventional rearview mirror. Convex lens shape, concave lens shape similar to fisheye lens, compound eye lens, convex lens shape, concave lens shape, at the same time inside the conventional rear-view mirror with the conventional shape slightly convex lens shape The purpose is to provide a groove having a shape similar to a washboard shape, corrugated iron shape, staircase shape, stepped field shape, or the like, or a prism having a groove shape at the same time inside a conventional rearview mirror. A rearview mirror characterized by being integrally molded using the mold described above, and a manufacturing method thereof.

Also, conventionally used mirrors, such as anti-collision mirrors, safety confirmation mirrors, or shoplifting prevention mirrors manufactured and sold by Comy Co., Ltd., located in 1-5-13 Namiki, Kawaguchi City Or as a mirror for rear view confirmation for not being able to look at a PIN number in an ATM, or a baggage confirmation mirror for aircraft, etc., the outer peripheral part of a conventional convex lens shape mirror, or a mirror with a convex lens shape In the center part of the lens, the convex lens shape that has been used in the past is the convex lens shape that has a protruding shape similar to a fisheye lens or compound eye lens, or a concave lens shape, or a Fresnel lens principle, as described above. Convex lens with a protruding shape similar to a fisheye lens or compound eye lens at the outer peripheral part of the mirror or the center part of the convex mirror Or a concave lens shape can be separately provided inside a conventional convex lens-shaped mirror, thereby forming a mirror with a wide-angle field of view that has no blind spots even with a very small mirror. There is an effect that can be done.

  Instead of the wire mesh contained in the conventional plate glass, a wire mesh with a high density of the wire mesh, a fabric made of carbon fiber, a fabric made of extremely thin wire, or a metal plate as thin as possible For example, a central part of a plate glass is formed by punching a shape such as a pattern or a hole into a metal plate of 200 μm or less, or 200 μm or more by a processing means such as press processing, or forming a shape such as a hole. A building material characterized by confining a metal plate, which is a heating element that heats a metal plate for heating purposes by applying a voltage to a conductive metal plate confined in a glass plate, in the central part of the plate glass A certain interior material, exterior material, ceiling material, corrugated roof material, Japanese tile, western tile, and a manufacturing method thereof.

  Instead of the conventional wire mesh placed inside the plate glass, a wire mesh with a high density of the wire mesh, or a fabric made of carbon fiber, or a fabric made of extremely thin wire is used as the central part of the plate glass. An interior material, an exterior material, a ceiling material, or a building material characterized in that the confined plate glass is formed into a corrugated plate shape, a Japanese roof tile, or a western roof tile by means of heating and pressing. Corrugated roof material, Japanese tile, or Western tile, and its manufacturing method.

  Instead of the wire mesh placed inside the conventional plate glass, the carbon fiber has a low specific gravity, so for the purpose of increasing the specific gravity of the carbon fiber, the carbon fiber to sink into the raw material in which the raw material of the plate glass is dissolved For the purpose of increasing the specific gravity of the yarn, a mixed yarn of carbon fiber and wire mixed with carbon fiber and a very thin wire (hereinafter abbreviated as carbon fiber, or between carbon fiber and wire). If the yarn formed by using (mixed twisted) or wire mesh is formed, or the woven fabric formed using carbon fiber with a heavy specific gravity is submerged and confined inside the plate glass, The specific gravity of the fiber formed using carbon fiber mixed with carbon fiber and wire is heavier than the specific gravity of the raw material of the flat glass in which the raw material of the flat glass is dissolved. Of woven flat glass Inside the plate glass, a heating element that heats the fabric for heating purposes by applying a voltage to the fabric made of conductive carbon fibers that are submerged in the glass and confined inside the plate glass Interior materials, exterior materials, ceiling materials, corrugated roof materials, Japanese tiles, western tiles, and methods of manufacturing the same.

The conventional method for producing gypsum board is to make the gypsum board raw material, which has water absorbed into the gypsum board raw material, poured the gypsum board raw material onto the surface of the paper, and when the gypsum hardens the paper The paper and gypsum board are bonded together by intruding into the interior of the paper. In the present invention, gypsum board raw material is applied on the surface of an iron plate that is bonded to the surface of an aluminum, copper plate, stainless steel plate, and iron plate (hereinafter abbreviated as iron plate) using an adhesive or the like. A processing means that grows the needle-shaped crystals that are formed when the gypsum hardens into the interior of the paper in the middle of the iron plate and the gypsum board by pouring into the inside of the paper that has been poured and stuck on the surface of the iron plate The first object is to bond the iron plate on the surface of the gypsum board with high accuracy, using the surface accuracy of the iron plate bonded on the surface of the gypsum board. The second purpose is to form a gypsum board with a magnetic iron plate and use a magnet to attract the gypsum board to the surface of the gypsum board using a magnetic force. The second purpose is to be able to. The third purpose is to form a gypsum board on which a colored iron plate or the like is bonded, and the surface of the gypsum board is an iron plate, an aluminum plate, a copper plate, and a stainless steel plate. The surface of the metal plate is a plaster board imitating a metal plate, and a manufacturing method thereof.

  In the middle of the manufacturing process of the float glass manufacturing method described above, instead of the wire mesh of the sheet glass with wire mesh, a carbon mesh is placed in the middle of the plate glass and the sheet glass that are conventionally manufactured, carbon Aisen Kogyo Co., Ltd., located in 258 Onoda, Hainan City, Wakayama Prefecture, manufactures and sells fibers, nets made of carbon fibers, or fabrics made of carbon fibers, or the location described above. The purpose of this product is to use a special steel made of magnetic material or high-quality iron, which is used for the purpose of removing burns, rust, etc. Float ga for manufacturing sheet glass from steel wool, wire mesh made of steel wool, or fabric made of steel wool (hereinafter abbreviated as carbon fiber or steel wool) In the middle of the manufacturing process of the manufacturing method, carbon fiber or steel wool is placed in the middle between the plate glass and the plate glass instead of the wire mesh placed in the middle between the plate glass and the plate glass that has been conventionally produced. When the glass fiber or steel wool is confined and sealed inside the plate glass, the following effects (1) to (11) are obtained.

  As the effect of (1), since the thermal expansion coefficient of the plate glass and the thermal expansion coefficient of the carbon fiber are substantially the same, the plate glass is not damaged and cracks are not generated due to the difference in the thermal expansion coefficient. .

  As an effect of (2), there is an effect that a sheet glass having high strength can be obtained by putting a net made of carbon-like carbon fiber made of metal or a fabric made of carbon fiber into the inside of the sheet glass.

  The effect of (3) is that the thermal expansion coefficient of steel wool and the thermal expansion coefficient of sheet glass are completely different, but one or one metal forming steel wool is put in the conventional sheet glass. Since it is a much thinner metal than the metal that forms the wire mesh, the stress applied to the plate glass is extremely small, so the plate glass breaks due to the stress generated by the difference in thermal expansion coefficient. And there is an effect that cracks do not occur.

  As an effect of (4), as a raw material of steel wool, when steel wool is confined inside a plate glass made of iron made of a magnetic material, a plate glass having a magnetic property is formed on the surface of the plate glass. Since it can be formed, for example, there is an effect that a magnet can be used to attract the surface of a plate glass using a magnetic force such as a memo paper.

  (5) As an effect other than steel wool, metal wire made of metal such as aluminum, copper, or stainless steel, for example, aluminum wire made of aluminum as thin as possible, or copper When confining a wire mesh or fabric (hereinafter abbreviated as copper wire or nichrome wire for short) made of copper wire or stainless steel wire made of stainless steel or nichrome wire inside the plate glass, For example, when a wire mesh or fabric made of copper wire or nichrome wire is confined in the inside of a sheet glass, the pattern of the pattern is drawn with copper wire or nichrome wire. It has the effect of producing a sheet glass that has a gloss of wire or nichrome wire, is beautiful, strong, and does not break or crack.

  As the effect of (6), the metal wire such as carbon fiber, steel wool, or copper wire, or metal plate (hereinafter abbreviated as carbon fiber, steel wool, wire, or the like described above) The properties of a sheet glass formed by using a metal wire or a metal plate, for example, a net formed using carbon fiber, or a sheet glass in which a woven fabric is confined inside the sheet glass are glossy and the strength is Because it becomes a composite material of a strong flat glass and a carbon fiber, or a metal material such as a metal wire or a metal plate, it is a building material interior material, exterior material, ceiling material, or roof material instead of tiles. There is an effect that can be used as.

  As an effect of (7), wire mesh made of carbon fiber, steel wool, iron wire, nichrome wire, aluminum wire, copper wire, stainless steel wire, or metal wire such as wire, or wire, etc. Fabric made of metal wire, or iron plate, aluminum plate, copper plate, or stainless steel plate (hereinafter abbreviated as carbon fiber, steel wool, nichrome wire, wire, metal wire, or metal plate) And so on), a composite material made of the metal material of the plate glass and the metal plate can be obtained. The temperature when this plate glass is formed into a planar shape is around 650 ° C. At a temperature around 650 ° C., the plate glass that is the raw material of the plate glass is in a soft state in the form of cocoons. When the raw material of this sheet glass is soft and flexible, it is molded into a corrugated plate shape using a press processing means or other processing means into a corrugated sheet shape for the purpose of forming a corrugated sheet roofing material. Then, it is possible to manufacture a corrugated sheet of a roof material using a composite material having a structure in which a metal plate is sealed inside a plate glass and a plate glass. The metal plate that seals the inside of the glass plate that is the prototype of this corrugated plate is a metal plate, but since it does not come into contact with air at all, no rust is generated. However, there is an effect that it is possible to provide a corrugated sheet of roofing material that can be continued for a long period of time.

  As an effect of (8), a wire mesh made of carbon fiber, steel wool, iron wire, nichrome wire, aluminum wire, copper wire, stainless steel wire, or metal wire such as wire, or wire, etc. Fabric made of metal wire, or iron plate, aluminum plate, copper plate, or stainless steel plate (hereinafter abbreviated as carbon fiber, steel wool, nichrome wire, wire, metal wire, or metal plate) And the like.) A composite material made of a metal material of a plate glass and a metal plate, which is formed by confining a metal plate between the plate glass and the plate glass and completely sealing the metal plate, is made. The temperature when this plate glass is in a flat state is around 650 ° C. At a temperature of around 650 ° C., the raw material of the plate glass, which is the raw material of the plate glass, is in a soft state in the state of the cocoon. When the plate glass constituting the composite material having a soft and flexible flat plate shape is soft, the Japanese roof tile or the western tile using a press machine in the shape of a Japanese roof tile or a western roof tile. There is an effect that it is possible to form a Japanese roof tile or a Western roof tile by stamping one or one Japanese roof tile or a single western roof tile by pressing the shape of the roof tile.

  As an effect of (9), the thickness of the nichrome wire or the wire mesh made of wire, for example, the wire made of iron, or the wire thickness of 0.5 mm is conventionally submerged and confined inside the plate glass. Comparing the coefficient of thermal expansion of the wire that makes up the wire mesh made of wire with a thickness of around 1.0 mm and the coefficient of thermal expansion of the sheet glass, the reason why the sheet glass does not break down is When metal is processed into a wire state that is a wire state, even if the metal wire wire has a large coefficient of thermal expansion, the generation of stress that occurs when the wire is thermally expanded is Although it is large as a straight line, the stress generated as a diameter is extremely small, so the plate glass does not break when the plate glass absorbs the stress generated from the diameter of the wire generated from the wire. But I found out. Therefore, the stress generated by the thermal expansion from the wire diameter is extremely small, and the stress generated by the thermal expansion from the wire diameter is the linear length direction of the wire and the lateral stress. Since the stress generated from the diameter of the wire escapes in the length direction and the transverse direction of the wire, it is absorbed in the inside of the plate glass that it is absorbed by the stress in the length direction and the transverse direction of the sheet glass. This is why even if the wire is confined, the plate glass does not break.

  As an effect of (10), using the wire (hereinafter, abbreviated as nichrome wire or wire for short), which has been described above, a thin metal wire made of various kinds of metals, for example, the diameter is 0.2. Using a wire with a thickness of around 0.5 mm or around 0.5 mm, a fabric fabric made of wire is formed in the longitudinal direction or the transverse direction, and the fabric fabric made of this wire is confined inside the glass sheet. Even if sealed, the plate glass will not break or crack due to internal stress. Therefore, as explained above, a woven fabric made of wire that is a metal wire, or a composite of wire mesh and plate glass Since the material is made and it is a composite material of strong plate glass and metal material, it can be used as a building material interior material, exterior material, ceiling material, or roof material instead of tiles. effective. Moreover, when forming into a corrugated plate shape using a press working means or other processing means into a corrugated plate shape for the purpose of forming a corrugated roof material, it is placed in the middle between the flat glass and the flat glass. A corrugated sheet of a roof material using a composite material having a structure in which a metal plate is sealed can be manufactured. Furthermore, a press machine in the shape of a Japanese roof tile or a Western roof tile using the raw material made of a woven fabric, a wire mesh made of wire, or a composite material of a woven fabric and a sheet glass as described above. There is an effect that it is possible to form a Japanese roof tile or a western roof tile by punching it individually and individually by using a Japanese roof tile or a western roof tile, and then stamping one or one roof tile.

  As an effect of (11), in the final stage of producing a plate glass by the float glass production method described in (1) to (10) above, the inside of the plate glass that has been conventionally produced A wire mesh made of steel wire is used to heat the heating element for heating purposes. A building material that uses a heating element to heat a sheet glass with a wire mesh heated by applying a voltage to a conductive wire mesh sealed in the center of the sheet glass. Can be used as In addition, conductive metal plates such as a woven fabric made of carbon fiber, a metal mesh made of nichrome wire, or a wire, an iron plate, or a copper plate, as described in (1) to (10) above. The effect of being able to make the building material described above into a building material with a built-in heating element for the purpose of heating by applying a voltage to a metal plate that has been sunk inside the plate glass to flow current. There is.

  Also, the difference in thermal expansion coefficient between the metal plate and the plate glass in the thickness direction when a very thin metal plate described above, for example, a metal plate of 200 μm or less or 200 μm or more is confined in the middle of the plate glass The difference in stress that occurs due to the difference in the thermal expansion coefficient in the thickness direction between the metal plate and the plate glass is caused by the difference in the thermal expansion coefficient in the thickness direction between the metal plate and the plate glass. Therefore, for example, a metal plate of 100 μm or a metal plate of 50 μm and a thickness of the metal plate are gradually increased rather than a metal plate of a metal plate of 200 μm. The difference in the stress generated by the difference in the thermal expansion coefficient in the thickness direction between the metal plate and the plate glass becomes smaller as the thickness becomes thinner, so that if it is a very thin metal plate inside the plate glass, Even if the metal plate is confined in the middle of the plate glass, Loss, or a crack was a find that not to occur. In addition, damage or cracks due to the difference in stress due to the coefficient of thermal expansion between the length direction of the plate glass and the length direction of the metal plate are strong in the length direction of the plate glass. It was found that the plate glass does not break or crack due to the difference in stress generated due to the difference in expansion coefficient.

Furthermore, the polyvinyl butyral sheet described above (hereinafter abbreviated as PVB) is, for example, an iron plate of 200 μm or less, an iron plate of 200 μm or more, an iron plate in which holes are formed, or an alphabet, or The surface of the iron plate with PVB sheets on both sides of an iron plate, an aluminum plate, an aluminum plate, a copper plate, or a stainless steel plate (hereinafter, abbreviated as an iron plate or a hole-formed iron plate) on which an Arabic numeral or picture pattern is formed When the plate glass was pasted from both sides on the surface of the iron plate pasted on, the plate glass was pasted on both sides around the iron plate, and the sandwich-shaped plate glass was formed on both sides around the iron plate, The following effects (1), (2), (3), (4), (5), (6), and (7) are obtained.

  The effect of (1) is that the steel plate is sandwiched between the plate glass and the glass plate, and the PVB sheet is pasted on both sides of the iron plate around the iron plate, and then the PVB sheet is pasted on the iron plate surface. If a plate glass having a plate glass sandwiched between two plates is formed, the brittle property, which is a drawback of the plate glass, is reinforced by the iron plate to provide a strong plate glass composite material.

  As an effect of (2), since the iron plate bonded on both sides with the plate glass centered on the iron plate is hermetically sealed, it does not come into contact with oxygen in the air, so no rust is generated. Has the effect of not deteriorating.

  As an effect of (3), a sandwich-shaped plate glass centering on a copper plate is formed by bonding plate glass on both sides of a copper plate, an aluminum plate, or a stainless steel plate (hereinafter referred to as a copper plate for short). Then, since the copper plate does not corrode, there is an effect that the gloss of the copper plate can be maintained for a long time.

  As an effect of (4), since the surface of the plate glass having a plate of glass on both sides is centered on an iron plate having the property of a magnetic body, there is a property of the magnetic body. It has the effect that it can be used for adhering memo paper.

  As an effect of (5), in the case of the conventional tempered safety glass, the structure of the conventional tempered safety glass has a sandwich shape in which a polycarbonate sheet is sandwiched between the sheet glass and the sheet glass. Since the polycarbonate sheet has no adhesive effect like the iron plate, the polycarbonate sheet is in the middle, and two PVB sheets are laminated on both sides, and the laminated sheet is in the middle, from both sides It is the conventional safety glass or crime prevention glass that has laminated the plate glass. Instead of this conventional safety glass, or a sheet made of polycarbonate that constitutes a plate glass as crime prevention glass, an iron plate is used, and the plate glass is bonded on both sides centering on the iron plate, so the conventional safety glass or crime prevention Since it is exactly the same as the glass manufacturing method, there is an effect that it is possible to manufacture a composite material having plate glass on both side surfaces centering on an iron plate using a conventional manufacturing factory.

  As an effect of (6), as described above, as a method of using a composite material in which both sides of the steel plate are centered on a steel plate, the interior material such as a house, a building, an exterior material, a ceiling material, There is an effect that can be used as a building material such as a shutter or a roofing material instead of a tile.

  The effect of (7) is different from the tempered glass described above, in which plate glass is bonded to both side surfaces centering on the iron plate, and on both side surfaces centering on the iron plate. It is a structure in which an iron plate is pasted on the surface with a PVB sheet on top, with the PVB sheet as the center, one side is the iron plate, the other side is the plate glass, and the PVB sheet is the center with the iron plate and the plate glass as both sides When a sandwich-shaped composite material is formed, it is used as a building material such as an interior material such as a house or a building, an exterior material, a ceiling material, a shutter, or a roof material instead of a tile, as described above. There is an effect that can be.

  In addition, on both sides, centered on a magnetic iron plate, or a non-ferrous metal copper plate, an aluminum plate, a stainless steel plate (hereinafter abbreviated as an iron plate) between the plate glass and the plate glass described above. As a joining means when laminating a sheet glass and an iron plate to each other, an iron plate in which sheets of polyvinyl butyral (PVB) resin having an adhesive effect are pasted on both sides of the iron plate is used as the joining means of (1). Join the steel plate and plate glass. As the joining means of (2), an iron plate is joined on the surface of the plate glass using a sheet glass in which a sheet made of polyvinyl butyral (PVB) resin having an adhesive effect is pasted on the surface of the plate glass. As the joining means of (3), a three-layer structure in which sheet glass is pasted and bonded on both side surfaces centering on an iron plate using an adhesive, particularly an adhesive that can withstand high temperatures, or a structure of three-layer structure or more As a method of using the obtained plate glass (hereinafter abbreviated as composite plate glass or composite material), the following (1), (2), (3), (4), (5), (6), ( 7), (8), (9), (10), (11), (12), (13), (14), (15), (16), (17), (18), (19) And there exists an effect like (20) and a utilization method.

  As for the effect of (1) and the method of use, the iron plate that is joined to the plate glass that is sandwiched around the iron plate by putting the iron plate between the plate glass and the plate glass around the iron plate does not come into contact with air. Ceases to oxidize and does not generate any rust, so for example, the Japanese government's Ministry of Land, Infrastructure, Transport and Tourism is working on development, which is the goal of durable houses for more than 200 years. There are methods of use as building materials such as interior materials, ceiling materials, and roofing materials. This has the advantage of eliminating the need for building materials that are not durable and easily deteriorated, such as wood and gypsum boards.

  As the effect of (2) and the method of use, the above-described three-layer composite material in which the steel plate is the center and both side surfaces are made of sheet glass, which is centered on an iron plate, has a further multi-stage laminated structure. The outer side is a plate glass, then an iron plate, then a plate glass, then an iron plate, then a plate glass, then an iron plate, then an iron plate, and then a plate glass and repeated to an iron plate and a plate glass, for example, several to several tens Form a composite material in which steel sheets and glass sheets are laminated and joined together to form a 3-year-old corner, 4-year-old corner, or 5-year-old corner pillar, which is the standard for pillars used as residential skeletons, for example As a result, it is possible to form a pillar that is a composite material of an iron plate and a plate glass that can be used as a frame for a house frame without rusting and being deteriorated at all. This has the advantage of eliminating the need for wood based columns.

  As for the effect of (3) and the method of use, the composite plate glass described in (2) above is a composite plate glass in which a steel plate and a plate glass are made of a PVB resin film or a multistage laminated structure using an adhesive. Is heated to 600 ° C or higher, which is the temperature at which the plate glass softens, and the composite plate glass formed by laminating the plate glass and the iron plate is bent into the structure of the pipe, and the structure of the pipe using the composite plate glass It is strong and does not rust at all when forming a structure, folding a composite plate glass into a corrugated structure, folding a composite plate glass into a spiral shape, or forming a square column structure that is a column shape A pillar that can be used as a skeleton that can be used as a frame for a house is durable and does not deteriorate.

  As the effect of (4) and the method of use, the plate glass and the iron plate explained in the above (3) are laminated with the plate glass and the iron plate without using any PVB resin film or adhesive. A laminated structure of plate glass and iron plate (hereinafter abbreviated as composite plate glass or composite material) is heated to 600 ° C or higher, which is the temperature at which the plate glass softens, and is formed by laminating plate glass and iron plate Folding the composite glass sheet into a pipe structure and using the composite glass sheet to form a pipe structure, folding the composite glass sheet into a cocoon structure, or folding the composite glass sheet into a spiral shape, Or, it is folded into a pillar shape of a quadrilateral shape, 3 years old, 4 years old, 5 years old, and a pipe-shaped structure using a composite plate glass, or a bowl-shaped structure, or a spiral Shape structure, Is a square pillar structure, or a plate glass in a soft state at the end of production in a float glass manufacturing method, or a plate glass in a soft state heated to 600 ° C or more, and an electrode A thin and thin iron plate, for example, on the surface of an iron plate having a thickness of 200 μm or less, or 200 μm or more, a concave-convex shape by pressing on the surface of the iron plate for the purpose of improving the adhesion between the iron plate and the plate glass On the surface of the iron plate with good adhesion between the plate glass and the iron plate, a concave-convex shaped iron plate and the plate glass are wound around the surface, and the plate glass is placed on the surface of the iron plate As shown in Fig. 2, press the steel plate and iron plate with a concave-convex shape in a round shape, stack the soft plate glass and the iron plate, and then press it for the purpose of turning the flat plate shape and the iron plate into a flat shape. Processing For example, when a composite sheet glass is formed by laminating a sheet glass and an iron plate similar to the standard of a veneer plate having a width of 1 m and a length of 2 m, a PVB resin sheet or an adhesive having an adhesive effect is formed. (Hereinafter, abbreviated as adhesive) is not used, for example, by forming a structure of a three-layer structure or a composite plate glass of a three-layer structure or more without using an adhesive between a plate glass and an iron plate, Plywood panel made of composite flat glass that can be used as a substitute for a 2x4 plywood panel, or a skeleton that can be used as a frame for a house that is strong, does not rust, is durable and does not deteriorate Can be formed.

  As for the effect of (5) and the method of use, more than one sheet glass and iron plate alternately described in (2), (3) and (4) above, for example, a three-layer structure, or 2 × 4 of wood-based plywood panel used for residential building, composite plywood panel made of iron plate and sheet glass laminated with laminated glass glass and iron plate of several tens of layers structure or more Used as a replacement for plywood panels. This has the advantage of eliminating the need for plywood panels made of wood such as plywood. In addition, as described above, the strength of the composite plate glass in which the plate glass and the iron plate are laminated in a three-layer structure, or several tens of layers of a three-layer structure or more, for example, can not penetrate the bullet, also as a bulletproof panel Can be used.

  The effect of (6) and the method of use are, for example, a three-layer structure in which both sides are centered on an iron plate and a composite material having a three-layer structure or more, for example, a temperature at which the sheet glass becomes soft, 600 Three layers similar to corrugated tin plate, heated to a temperature of over C, softened sheet glass, pressed into a corrugated shape intended for use as a roofing material Alternatives such as tiles that are roofing materials that use structures or composite materials of three or more layers can be formed. This has the advantage of eliminating the need for corrugated plates made of tin plates.

  As for the effect of (7) and the method of use, and when forming a roofing material using a composite material of plate glass and iron plate having a three-layer structure or more, as a structure other than the corrugated plate shape, It can be molded by pressing into the shape of western roof tiles. This has the advantage of eliminating the need for roof tiles that are not durable and easily deteriorated made of conventional clay.

  As for the effect of (8) and the method of use, the surface of the plate glass can be easily made into a mirror by performing metal plating such as silver plating, copper plating, or chrome plating on one side of the plate glass. A mirror can be formed on the surface of the plate glass of the composite plate glass. As a result, building materials such as an outer wall material, an inner wall material, a ceiling material, and a roof material in which the surface of the plate glass has a glossy mirror are completed.

  The effect of (9) and the method of use are as described above. The strength of the composite plate glass in which the iron plate and the plate glass are laminated in a multi-stage shape is the thickness of the iron plate, the thickness of the plate glass, and the iron plate and the plate glass. The strength of the composite plate glass is determined by the number of sheets to be processed. Moreover, the raw materials for iron plates and glass sheets are the most expensive and cheapest raw materials on the planet. However, the disadvantage of the iron plate is that it rusts when it comes into contact with oxygen. By laminating and laminating the disadvantages of this iron plate by laminating and laminating sheet glass and iron plate, the iron plate comes into contact with oxygen and rusts with the aim of solving the disadvantage that the iron plate, which is a defect of the iron plate, rusts. By overcoming the shortcomings, it has been found that there is a wider range of application methods for composite materials in which iron plates and glass sheets are further laminated.

  The effects of (10) and the method of use are as follows: plate glass and iron plate, or copper plate or aluminum plate (hereinafter abbreviated as a copper plate) that has a small electrical resistance and is easy to flow electricity (hereinafter abbreviated as current). ) On the surface of the composite plate glass when a voltage is applied to the copper plate which is made by laminating a metal plate and a plate glass made of different dissimilar metals such as a plate glass and a copper plate, or a copper plate and an iron plate. Is an iron plate made of an iron plate, nichrome wire, or nichrome plate (hereinafter abbreviated as iron plate or nichrome plate), or nichrome, which becomes an efficient heating element or has a large electric resistance and is difficult to flow electricity. When an electric current is applied to an iron plate or a nichrome plate formed by laminating a plate and a plate glass, an efficient heating element is formed on the surface of the composite plate glass. Therefore, the following (a), (b , And the effect, and use methods such as (c). As (a), wall heating, floor heating, ceiling heating, or roof is applied by applying voltage to the composite plate glass that uses the composite plate glass as a wall material, floor material, or ceiling material. A composite plate glass having a synergistic effect can be obtained, which can be a copper plate that can be heated, or a composite plate glass obtained by laminating a metal plate made of different dissimilar metals such as a copper plate and an iron plate, and a plate glass. As (b), a voltage is applied to the composite plate glass that is pressed into a flat plate shape, a corrugated plate shape similar to a corrugated iron plate shape, or a tile shape similar to the shape of a Japanese roof tile or a western roof tile. By forming a roofing material (hereinafter abbreviated as the heating material roofing material) by applying an electric current to a roofing material in a region where heavy snow falls in heavy snowfall, The snow piled up on the roof using the heating element roofing material is heated by applying a voltage to the heating element roofing material, which is made of composite sheet glass, to generate current. Because it can be melted using the roofing material of the body, it is a composite plate glass with a corrugated plate shape or tile shape with a built-in heating element that eliminates the need for snow removal work by manually removing snow from the roof The roofing material of the heating element is made. As for (c), in the extremely cold region, for example, Sweden in the three Baltic countries, the minimum mid-winter temperature is always -20 degrees C or less both day and night. If the temperature of the outside air is below -20 degrees C, the sidewalk where people walk is covered with ice, so it slides well. This ice-filled sidewalk is always covered with small sand so that it does not slip on the surface of the sidewalk. On the surface of this sidewalk, the composite plate glass of the heating element in which the plate glass and the iron plate, the copper plate, or the aluminum plate described above are laminated is laid on the surface of the sidewalk, and a voltage is applied to the composite plate glass that is the heating element. The electric current can be applied to melt the ice on the sidewalk surface.

  As the effect of (11) and the method of use, the composite plate glass in which the plate glass and the iron plate are laminated as described above is different from, for example, a conventionally used wooden plywood board, gypsum board, or exterior material. The advantage is that, for example, by heating the composite plate glass at a temperature of 600 ° C. to 1,000 ° C. or less, the composite plate glass having a curved shape, or the composite plate glass having a circular shape (hereinafter abbreviated, A plate glass having a curved structure).

  As the effect of (12) and the method of use, unlike the processing means described above, as means for forming a composite plate glass in which a plate glass having a curved structure and an iron plate are laminated, plate glass is used. A plate glass formed into a curved shape by pressing, and a composite plate glass having a curved shape structure formed by laminating and laminating an iron plate formed into a curved shape by pressing an iron plate and a plate glass may be formed. .

  As an effect of (13) and a method of using the composite plate glass in which the plate glass having the curved shape described in the above (11) and (12) and the iron plate are laminated, for example, a house, Or when building a building such as a factory (hereinafter abbreviated as a house), the roof and wall are integrated, and the roof and wall are integrated. Semi-circular or semicircular (hereinafter abbreviated A house with an integrated structure of roofs and walls that have a timber-like structure that requires no skeletons such as columns and beams and roofing materials such as tiles to construct a house. Or building a building such as a factory or a factory using a composite plate glass of steel and iron plate that does not rust at a very low cost for a long time and does not rust at all. I can do it.

  As the effect of (14) and the method of use, it is circular using a composite plate glass obtained by laminating a plate glass having a curved shape described in (11), (12) and (13) above and an iron plate. When a roof with a curved surface shape that is a shape or a spherical shape is formed, a dome shape that does not require any roof material such as pillars and beams and roof materials such as tiles, or a circular shape, or a curved surface shape that is a spherical shape Since the roof can be formed, by using a building material that integrates a roof structure such as a pillar and a beam, and a roof material such as a tile, a composite sheet glass having a curved shape by laminating sheet glass and iron sheet is obtained. Since it is used as a roofing material, there is an effect that a roof having a circular shape, for example, a dome shape, which does not require a skeleton such as columns and beams and tiles at all is obtained.

  As the effect of (15) and the method of use, the roof material is a roof made of a composite sheet glass having a curved shape as described in (14) above, for example, a dome-shaped circular roof material. In the case of a conventional house, the shape of a quadrangular or rectangular house is 99% or more, but in the case of a dome-shaped round circular roof, a cylindrical shape similar to the silo shape In the case of a house with a circular shape, the joint part of the dome-shaped round circular roof and the circular cylindrical house is the upper part of the circular cylindrical shape. Since the structure is covered, it is easy to join the round cylindrical shape and the round circular shape roof to form a sealed structure, so that a house with high strength can be constructed with less building materials. As for (1), it was possible to construct a circular cylindrical house, but it was also possible to form a curved plate shape with laminated glass plates and iron plates, or a composite plate glass with a round circular shape. This is an effect that can be achieved. As for (2), by making the house into a circular cylindrical house, the incident light of the sun rays is 50% or 100% compared to the square or rectangular house which is the conventional house shape. There is an effect that the above can be increased. As (3), by making the shape of the house a round cylindrical shape, the incident light of the sun rays is increased by 50% or more than the square shape or the rectangular shape which is the shape of the conventional house, Although it was known that the interior of the house would become brighter, the building materials such as plywood, gypsum board, and wood, which are conventional building materials, can only build straight houses. However, there is a disadvantage that it is impossible to construct a circular cylindrical house. However, by using a composite plate glass made by laminating a plate glass and an iron plate as a building material, it is possible to easily form a composite plate glass having a curved shape or a round cylindrical shape. It is possible to construct a cylindrical housing that is similar to the shape of a silo for the purpose of preserving livestock feed, or a building such as a cylindrical factory at a very low cost. There is an effect that can be done. As for (4), houses made of composite sheet glass made by laminating sheet glass and iron plate as building materials are fire-resistant, and even if they become waste, waste recycling houses, sheet glass and sheet iron Recycling of a house made of composite sheet glass with laminated glass, for example, if the waste material of a house made of composite sheet glass is melted by heating at 1600 ° C or higher, the raw material of the sheet glass and the iron plate are dissolved It is easy to recover the raw material of plate glass and iron plate from the composite plate glass at a ratio of 90% or more by separating the raw material of plate glass and iron plate, so the housing made of composite plate glass is the environment of the earth It is the most friendly and easy to recycle housing. As for (5), a circular cylinder similar to a silo using a dome-shaped roof with a circular shape and a cylindrical plate with a cylindrical shape with a circular cylindrical shape laminated with sheet glass and iron plate. If you build a house with a shape, you can build a house without using any pillars or beams in the interior space, so there is no pillar in the interior space part of the circular cylindrical house There is an effect that a space house can be formed and each individual room that can be freely partitioned and used can be freely formed. As (6), a circular cylindrical house similar to a silo has an effect that can be said to be a house having a strong and strong structure against rain, wind and snow.

  The effect of (16) and the method of use have been described above in order to use electromagnetic waves (radio waves) as a waveguide for the purpose of transmitting electromagnetic waves to long distances efficiently with as little radiation loss as possible. , A composite plate glass formed by laminating a plate glass and an iron plate is used as a raw material, a quadrangular interior is a hollow pipe, or a round interior is a hollow pipe (hereinafter abbreviated as a pipe, or When the inside of a flat glass pipe or a composite pipe is used as a waveguide for transmitting electromagnetic waves, there are the following effects (17) and (18) and usage methods.

  As the effect of (17) and the method of use, the properties of electromagnetic waves are exactly the same as the properties of light. Since electromagnetic waves also refract and reflect when reflected on a mirror like light, to form the composite pipe described in (16) above, the back surface of the plate glass is chrome plated or copper. Mirror plate glass that has been plated, silver plated, or other metal deposited and mirror-finished as mirror mirror plate glass is used as the raw material of the composite pipe, and the inside of the composite pipe that is the hollow part of the composite pipe is used as the mirror plate glass. When a composite pipe is formed, the entire inside of the hollow portion of the composite pipe is made of specular plate glass. Therefore, if electromagnetic waves are transmitted using the inside of the composite pipe made of a mirror made of specular plate glass as a waveguide, the electromagnetic wave is Since the shape of the composite pipe is round and round, and the entire surface of the round circle is a mirror surface, the electromagnetic wave is made of a mirror with the entire surface of the round circle. The interior of the case the pipe would be a straight while repeating reflection and refraction, the effect of long-distance transmission can be because the radiation loss is very small.

  If the effect of (18) and the method of use are to be used as a waveguide for transmitting electromagnetic waves, the inside of the composite pipe described in (17) above, the entire surface of which is a mirror made of mirror-plate glass, is used. For example, about 35% of Japan's nighttime electricity is thrown away without being consumed. For the purpose of transmitting this abandoned nighttime power to the United States, the country of the daytime, on the back of Japan, for example, as (1), from Japan, across the Sea of Japan from the Russian land, Alaska From Canada through the land of Canada, to the United States, a composite pipe made entirely of mirrored glass mirrors was laid, and Japan's abandoned power from Japan was used as an electromagnetic wave from Japan Send power to the United States. Also, if the United States is at night, power that is not consumed in the United States at night is transmitted as electromagnetic waves from the United States to Japan using a composite pipe. As for (2), on the earth, if dams for hydroelectric power generation for the purpose of generating electricity are constructed in undeveloped countries, there are still many dams for hydroelectric power generation. I can do it. However, current technology has the disadvantage that electric power cannot be transported over long distances. The first reason for the disadvantage that this electric power cannot be transported over a long distance is that electric power is transmitted using an electric wire as an alternating current or direct current. The second reason is that it is impossible to oscillate an electromagnetic wave that oscillates only the main vibration having a single wavelength. This issue was invented by Yoshiaki Nagaura, the inventor of the present invention, under the title of `` Spuriousless Single Wavelength Quartz Resonators '' in 2004. Announces that it has succeeded in oscillating only the main vibration at the wavelength. The third reason is that a waveguide having a small radiation loss for transmitting electromagnetic waves has not been developed. As a waveguide for transmitting electromagnetic waves with low radiation loss, by using the inside of a composite pipe made entirely of mirror glass mirrors as a waveguide, for example, the main stream and tributaries of Lake Victoria in Africa A large number of hydroelectric dams were constructed in the country, and electricity was generated by hydroelectric power generation, and the composite power pipes were laid as waveguides from undeveloped areas in Africa to Europe, the consuming area. If the power is transmitted as electromagnetic waves inside the composite pipe, the radiation loss is very small and a large amount of power can be transmitted constantly without being affected by rain, wind and snow in the air. is there. As for (3), when laying a composite pipe as a waveguide, it can be said that laying the composite pipe under the land is cheaper than laying the composite pipe on the ocean floor. However, composite pipes can be laid across the ocean, so hydropower stations can be constructed for power generation from any undeveloped place on the planet and used in undeveloped countries. We have developed a composite pipe that can be used to generate electricity and transmit power to, for example, the countries of developed countries that are the consuming countries of the countries behind the earth. It is an effect. As (4), a composite pipe is formed using raw materials obtained by laminating a copper plate, an iron plate, and a plate glass of different types of metal such as a plate glass and a copper plate, or an aluminum plate (hereinafter referred to as a copper plate for short) and an iron plate. Then, the first inner part, which is the inner part of the hollow part of the composite pipe, is plate glass and the first plate glass is laminated and then the copper plate is laminated and bonded together, and the plate glass is again attached to the third. After laminating and laminating, using a composite pipe made of a raw material in which iron plates and sheet glass are alternately laminated and laminated without using a copper plate as a waveguide, Is refracted on the surface of the plate glass forming the hollow part inside the composite pipe, and laminated and bonded to the plate glass, for example, on the surface of a very thin copper plate having a thickness of 50 μm or less Light of Electromagnetic wave is reflected by. While repeating this refraction and reflection, the electromagnetic wave travels straight inside the waveguide made of the composite pipe. (5) As described above, when a composite pipe is formed using the raw material obtained by laminating a plate glass and a copper plate, the gloss on the surface of the copper plate is used to reflect electromagnetic waves. There is no need to make a mirror on the surface of the plate glass by using a metal such as chrome, copper, or silver on the surface of the glass, or by plating, and to mirror the plate glass to make the plate glass a mirror. It is possible to form a composite pipe that is a waveguide that repeats refraction and reflection at a very low cost. As for (6), the first purpose is to transmit electromagnetic waves efficiently, the second purpose is to efficiently repeat refraction, and the third purpose is plate glass and copper plate, and From all undeveloped areas on the earth by forming composite pipes, which are waveguides aimed at laminating metal such as iron plates and oxidizing the metal and rusting and not corroding, For example, from undeveloped areas of the earth to developed countries, hydropower using hydropower that is not used in undeveloped areas, or heating solar heat to deserts such as the Gobi Desert or Sahara Desert Convert to energy and generate power using solar heat to generate power, or install solar power in the desert to convert solar to power and use solar to generate power Generate electricity and transmit power to consumption areas Also became the Rukoto can, had to be by that developed the composite pipe is a waveguide. As for (7), when laying the composite pipe on the ocean floor, the composite pipe is inserted into the metal pipe for the purpose of protecting the composite pipe from the water pressure of the seabed. There is a need to protect the composite pipe from the water pressure at the ocean floor by placing it inside the pipe made of steel. On land, composite pipes may be laid directly underground, or inserted into metal pipes and the composite pipes inserted into metal pipes. You may lay in the basement underground. As for (8), the greatest advantage of conducting power transmission using electromagnetic waves with the inside of the composite pipe as a conductive tube is, for example, that power transmission can be freely performed without obtaining permission from the Ministry of Internal Affairs and Communications that manages radio waves. The frequency to be used can be determined. This is because the electromagnetic waves to be used do not leak from the inside of the composite pipe to the outside of the composite pipe, so there is no need for permission from the Ministry of Internal Affairs and Communications. As for (9), when conducting power transmission using a conductive pipe inside the composite pipe, as explained in (8), it is out of the jurisdiction of the Radio Control Law. You can use it freely. In addition, the greatest advantage of power transmission using electromagnetic waves inside the composite pipe is that it is not affected by the atmosphere such as rain, wind and snow.

  As the effect of (19) and the method of use, the waveguide described in the above (17) and (18), which transmits electromagnetic waves through the inside of a composite pipe made entirely of mirror-plate glass mirrors. For example, when transmitting electromagnetic waves having a wavelength of around 5.8 GHz through the inside of the composite pipe, oxygen in the air existing inside the composite pipe is converted into plasma, ozone, or potential. Since it erects and breaks down into light and the like, there is a drawback that electromagnetic wave power transmission loss occurs, power transmission amount decreases and power transmission amount decreases. As means for solving this problem, there are solving means described in the following (1), (2), (3), (4), and (5).

  As a solution of (1), the air containing oxygen inside the composite pipe is replaced with nitrogen of an inert gas, and the air containing oxygen is removed from the gas inside the composite pipe. Replace with nitrogen gas.

  As a solution of (2), by using a frequency obtained by reducing the frequency of electromagnetic waves to a frequency around MHz, which is used for power transmission inside the composite pipe, Or the decomposition amount which decomposes | disassembles oxygen can be decreased very small. This is also an advantage that the frequency can be freely determined since there is no conflict with the radio wave management method.

  As a solution of (3), without using the composite pipe as described above as a waveguide, for example, Yoshiaki Nagaura, the inventor of the present invention, explained above, If you use a crystal unit that has succeeded in oscillation of only the main vibration, and extract a multiple wave of 7th order or higher from the fundamental wave, for example, to oscillate electromagnetic waves with a single wavelength of 5 GHz or more, or 10 GHz or more For example, in theory, the wavelength of electromagnetic waves is about 3 cm in the case of 10 GHz, so the inside or outside of a glass tube or ceramic tube (hereinafter abbreviated as glass tube) having a diameter of about 3 cm, or chrome, or Glass tube (hereinafter abbreviated) with the inside of the glass tube mirror-finished by vapor deposition or plating using copper, silver, or gold, etc. The interior of the glass tube), for example, If the electric power transmitting waves, is inside the inner diameter is the diameter of the mirror surface glass tube if about 3 cm, it is possible to power transmitting electromagnetic waves of 10 GHz. As an advantage and effect when the mirror glass tube is used for power transmission of electromagnetic waves of 5 GHz or more, or 10 GHz or more in the mirror glass tube, (1) is, for example, 5 GHz or more, or 10 GHz or more, In the case of an electromagnetic wave of 20 GHz or more, a large-capacity electromagnetic wave can be transmitted as power if the diameter of the inner diameter of the mirror glass tube is about 3 cm. As (2), the smaller the diameter of the mirror glass tube, the lower the manufacturing cost of the mirror glass tube. As for (3), if the diameter of the specular glass tube is reduced, the specular glass tube may be laid in the basement underground. It is also possible to distribute the mirror glass tube to the power pole and transmit power using the inside of the mirror glass tube as an electromagnetic wave. As for (4), Since the amount of air present is reduced, the amount of oxygen is also relatively reduced, and the radiation loss of electromagnetic waves is reduced, so that the efficiency of power transmission using electromagnetic waves is improved. As (5), even if electromagnetic waves are used for power transmission inside the specular glass tube, there is no danger because it is possible to prevent highly dangerous electromagnetic waves from leaking outside the specular glass tube. . In addition, since electromagnetic waves do not leak outside the specular glass tube, there is an advantage that there is no conflict with the jurisdiction of the Radio Control Law.

  As an effect of (20) and its usage, it is a cylindrical housing with a round columnar shape formed by using a composite plate glass in which a plate glass and an iron plate are laminated, and the roof material is also a composite plate glass. Cylindrical houses constructed using a formed circular dome-shaped roof have the first advantage that the structure of the sealed structure can withstand the water pressure of the sealed structure that can withstand the water pressure. It is the structure of a house that can do. The second advantage is that the steel plate does not rust and corrode at all, so it is optimal as a residential structure that is installed on the ocean floor.

In addition, as described above, it is made of a flame retardant foamed urethane or a flame retardant foamed polystyrene having a high heat insulation effect between the composite plate glass and the composite plate glass laminated with the plate glass and the iron plate. A board or a board made of flame-retardant corrugated paperboard (hereinafter abbreviated as corrugated paperboard). For example, corrugated paperboard with a thickness of 20 mm, foamed urethane, or foamed polystyrene, composite glass and composite glass. Sandwiched between, for example, a sandwich-shaped composite sheet glass having a corrugated paperboard as a center and a composite sheet glass on both sides, and a corrugated paperboard made of corrugated paperboard, for example, composite sheet glass + corrugated board + composite sheet glass + Corrugated paperboard + Composite board glass + Corrugated paperboard + Composite board glass and corrugated paperboard with three or more layers An interior material or exterior material having a higher heat insulation effect by confining the air layer by using a corrugated paperboard containing an air layer in the middle between the composite plate glass and the composite plate glass obtained by laminating paper and corrugated paperboard, Or there is an effect that a roofing material can be made.

  Further, as described above, both sides of the plate made of foam concrete between the composite plate glass and the composite plate glass in which the plate glass and the iron plate are laminated, for example, the foam concrete plate having a thickness of 150 mm as the center, are arranged on both sides. Form a round cylindrical shape or a 2x4 building material in which composite plate glass is laminated in a sandwich shape on both sides with a plate made of foamed concrete with composite plate glass on the surface. I can do it.

  In addition, as described above, between the plate glass and the plate glass, for example, the iron plate in which the hole opening area is 50% or more, the hole opening rate is 50% or more, or the copper plate in which the hole is formed Or an aluminum plate with holes, or a stainless steel plate with holes, or a transparent and highly transparent plate glass, or a polycarbonate plate with holes in a transparent and highly transparent polycarbonate resin, or acrylic Acrylic plate with holes formed in an acrylic plate made of resin, a plastics plate with holes formed in a plastics plate made of other resin, or a polyvinyl butyral sheet with holes (hereinafter abbreviated as holes) Or PVB sheet with holes) or (hereinafter abbreviated as iron plate with holes, or polycarbonate with holes) For example, the processing order of (a) is on both sides of the polycarbonate plate in which the hole is formed around the polycarbonate plate in which the hole is formed. Apply adhesive, or paste a PVB sheet without holes on both sides, or a PVB sheet with holes on both sides (hereinafter abbreviated as PVB sheets) After combining the two sheets of glass on both sides of the PVB sheet, and sandwiching the two glass plates from both sides, the sandwich is formed on both sides of the center of the polycarbonate plate on which the holes are formed. In the middle of the plate glass and the plate glass to be bonded, the polycarbonate plate forming the hole is the thickness of the polycarbonate plate sandwiched between the plate glass and the thickness of the polycarbonate plate. An air layer of the total thickness obtained by integrating the thickness of two PVB sheets pasted on both sides of the carbonate plate is formed between the plate glass and the plate glass, and the air is sealed between the plate glass and the plate glass. The air layer to be confined is formed in the middle between the plate glass and the plate glass, or the air layer formed in the middle between the plate glass and the plate glass is removed by removing air from the vacuum layer (hereinafter abbreviated as the air layer). Or a vacuum layer) is formed between the plate glass and the plate glass in the processing order of (a), and the processing order of (b) is on both side surfaces centering on the polycarbonate plate in which holes are formed. Adhesive-coated two glass plates are sandwiched together, or two glass plates with PVB sheets on the surface of the glass plate are on both sides with a polycarbonate plate as a center. The thickness of the polycarbonate plate sandwiched between sandwich plates and forming a hole, and the thickness of the polycarbonate plate sandwiched between the plate glass and the plate glass, and the thickness of the adhesive applied on the surface of the two plate glasses Alternatively, an air layer of the total thickness obtained by integrating the thicknesses of the PVB sheets pasted on the surface of two sheet glasses is formed between the sheet glass and the sheet glass, and the air is sealed between the sheet glass and the sheet glass. The air layer to be confined is formed in the middle between the plate glass and the plate glass, or the air layer formed in the middle between the plate glass and the plate glass is removed by removing the air to form a vacuum layer (hereinafter abbreviated as air (B) is formed in the middle of the plate glass and the plate glass. As described above, the effects of the air layer or the vacuum layer formed in the processing order of (a) and (b) and the usage method are as follows (1) and (2) Effects and usage.

  As an effect of (1) and a method of use, conventionally, for the purpose of enhancing the heat insulation effect of the sheet glass, as a conventional processing means for heat insulation, laminated sheet glass for confining air between the sheet glass and the sheet glass In the conventional structure of (1), an air layer having an area of a sheet glass having the same area as that of one sheet glass for confining air between two sheet glasses of the same size and the sheet glass is formed. . (2) As for the outer peripheral part of the sheet glass of the same dimension of 2 sheets, an outer peripheral part is sealed using an adhesive, or the PVB sheet (henceforth abbreviated, an adhesive, or PVB, or Use PVB sheet) to seal the outer periphery of the glass sheet. What has been described above is the structure of the laminated sheet glass for the purpose of confining the conventional air and enhancing the heat insulating effect. The processing method of the laminated sheet glass for the purpose of enhancing the heat insulation effect of the present invention with respect to this conventional processing method is, for example, sandwiching a polycarbonate plate having holes formed between the sheet glass and the sheet glass on both sides, This is a laminated sheet glass having a structure in which air is sealed and confined only in an air layer of a very small area in the space between the sheet glass and the sheet glass of only the portion of the polycarbonate plate in which holes are formed. As (3), even if a plate glass is used that is very thin and weak in strength, a polycarbonate plate, which is a structure in which a hole is formed between the plate glass and the plate glass, is sandwiched. A laminated sheet glass in which air is confined in the intended air layer can be produced. As for (4), even in a wide area laminated glass, each air layer forms an independent air layer, so even if it is cut into a small area even in a wide area laminated glass, the area of the plate glass Depending on the air layer remains. As for (5), even if the plate glass is very thin, one air layer is formed by sandwiching the polycarbonate plate, which is a structure in which a hole is formed between the plate glass and the plate glass. Therefore, it is structurally easy to extract the air present inside the air layer and to make the inside of the air layer into a vacuum state or a vacuum state to a vacuum state that has a higher heat insulation effect than the air layer. Because it is a structure that can be formed into a building material, it is possible to form a building material that has an optimal heat insulating effect as a shoji, a fence, or an outer wall material, an inner wall material, a floor material, a ceiling material, or a roof material, which is a fitting I can do it.

  As for the effect of (2) and the method of use, what has been described above is a laminate for window glass in which air is confined in an air layer for the purpose of heat insulation of transparent window glass with transparency for window glass. Although the explanation about the plate glass was made, the building material is formed using the iron plate, the copper plate, the aluminum plate, the stainless steel plate, or the plate glass (hereinafter, abbreviated as the iron plate or the plate glass) whose raw material is cheap. A shoji, or a fence, or an outer wall material, or an inner wall board, which is a fitting intended to confine air in the air layer by forming an air layer inside the building material for the purpose of heat insulation in the case of heat insulation In the case of flooring material, ceiling material, or roofing material (hereinafter abbreviated as outer wall material or building material), it is not a transparent and highly transparent material such as polycarbonate board, but a price. When cheap and strong, for example, using an iron plate in which holes are formed in an iron plate having a thickness of 200 μm or less, or 200 μm or more, or using a plate glass having holes in a transparent and highly transparent plate glass, for example, The area of the hole of the iron plate in which the hole is formed in the iron plate, or the area of the opening ratio of the hole area in which the hole is formed in the plate glass is 50% or more, or 60% or more, or 70% or more, or 80% or more, or A steel plate or hole in which a hole with an opening ratio of 90% or more is formed in a steel plate or plate glass, or a steel plate or hole in which holes are not formed from both sides using an adhesive on both sides around the plate glass After pasting a PVB sheet on both sides of an iron plate with holes formed, or an iron plate with holes formed around the plate glass, or a plate glass with holes formed, , Iron plate with holes, or An iron plate with holes formed using the adhesive force of the PVB sheet on both sides of the plate glass formed with, or an iron plate with no holes formed on both sides of the plate glass with holes formed, or no holes are formed By laminating the plate glass, the iron plate, or the part where the hole is formed in the plate glass is the two iron plates and the iron plate not forming the hole pasted on both sides, or the two plate glasses not forming the hole It is sandwiched between the plate glass and a cavity. Since the efficiency of the heat insulation effect is determined by the ratio of the area of the air layer that can confine air inside the cavity formed in the middle of these two plate glasses, there are the following advantages ( 1) As a building material with high thermal insulation effect, it uses two steel plates that do not form holes and two iron plates that do not form holes, or two plate glasses that do not form holes. It is. (2) As an incombustible building material that uses a steel plate with holes and two steel plates without holes, or two glass plates without holes It is. (3) As an iron plate in which holes are formed by using two iron plates, copper plates, aluminum plates, or stainless steel plates in which holes are not formed on both sides centering on the iron plate in which holes are formed Since the steel plate in which the hole is formed is sealed by sandwiching or sandwiching the two steel plates, the steel plate in which the hole is formed can form a building material that does not rust and deteriorate. As (4), either an iron plate with holes and two iron plates without holes are used, or two plate glasses without holes are used to seal and confine air 1 Since each piece forms an independent air layer, it is possible to form a building material with a high sound effect that blocks sound. As (5), pressing is performed using a plate glass in which a hole is formed, or a mold having a concave-convex shape at a stage where the plate glass immediately after forming the plate glass by a processing means of a float glass processing method is soft. Process the glass plate or heat the plate glass to 600 ° C or higher to form a soft plate glass, and then use a mold to form a depression such as a concave shape on the surface of the plate glass by mechanical processing such as pressing. The concave and convex depressions and protrusions on the back surface of the same glass sheet having a concave shape formed on the front surface are simultaneously processed by mechanical processing means on the front and back surfaces of the glass sheet. At the same time, a glass plate forming a concave-convex shape, a glass plate forming a corrugated iron corrugated shape, an iron plate forming a hole, or a concave-convex depression and projection are formed. Iron plate or corrugated iron Two sheets with no holes on both sides centered on a corrugated iron plate (hereinafter abbreviated as plate glass forming a hole, or iron plate forming a hole) The plate glass is bonded using adhesive on both sides centering on the plate glass forming the hole, or on both sides centering on the plate glass forming the hole using the adhesive force of the PVB sheet By laminating and laminating two glass sheets that do not form holes, the plate glass where holes are formed seals and confine air with a high heat insulating effect as described above. Since the air layer is formed for the purpose and the air is sealed and confined, the two glass plates bonded on both sides are extremely thin, but the thickness of the glass plate with the holes is increased. Or the thickness of the iron plate with holes The thickness of the acrylic board in which the holes are formed, the thickness of the polycarbonate board in which the holes are formed, or the thickness of the corrugated paperboard containing the air layer is thick. Or two holes on both sides centered on a honeycomb-shaped structural object (hereinafter abbreviated as plate glass forming a hole) such as pumice that contains an air layer. A thick laminated sheet glass that has a structure that can freely adjust the thickness of the sheet glass in which holes are formed using sheet glass that does not form a layer, and has a higher heat insulation effect for the purpose of heat insulation. Because it can be formed, a very thin laminated glass pane, or a thick laminated glass pane, or a door, or a shoji, or a fence, or an exterior wall, or an interior wall Materials or floor materials, The ceiling material, or such as roofing material can be easily manufactured. (6) As described in (5) above, a plate glass or a hole formed with a hole made conductive by plating a metal film on the surface of the plate glass formed with a hole was formed. Iron plate, copper plate with holes, aluminum plate with holes, stainless steel plate with holes, nichrome wire, or nichrome plate (hereinafter abbreviated, iron plate, iron plate, or nichrome with holes) If a current is applied to a steel plate in which a hole is formed that is particularly conductive and has a large electric resistance and is difficult to flow electricity, the iron plate in which the hole is formed generates heat and becomes a heating element. . Holes are formed by using non-conductive insulating glass that does not allow the passage of electricity that does not form two holes on both sides of the iron plate that has holes that serve as heating elements. Using a sheet of glass that is not sandwiched between sandwiched steel plates as an insulator, a hole is formed as a heating element by applying a voltage to the steel plate forming the hole and applying current to it. The insulation of the iron plate that is used is insulated from the electric leakage from both sides using two sheet glass, so as a heating element for the purpose of safe heating, the heat generation of the window glass, or the door that is a fitting Or heat generated from a shoji, or heat from a fence, or heat from an outer wall material, or heat from an inner wall material, or heat from a floor material, or heat from a ceiling material, or heat from a roof material, or A heating element for heating inside buildings When to use efficiently the room of the house, or building interior can be heated. Further, when a roof is formed using a roof material of a heating element that can generate heat, the snow that has accumulated on the roof can be melted using the roof of the heating element. Furthermore, in the case of plate glass in which holes are formed, since it is non-conductive, chromium is deposited on the surface of the plate glass in which holes have been formed by using vapor deposition processing means or plating processing means on the surface of the plate glass in which holes have been formed. , Or iron, copper, silver, or other metal plating, and a plate glass with a non-conductive hole formed by metal plating the area of one part on the surface of the plate glass in which holes are formed, or the whole area of all parts Since a plate glass with a hole made of a conductive property that allows current to flow by applying voltage on the surface of the glass can be used, it can be used as a heating element for heating purposes for heating the window glass, Laminate that can be used as a conductive window glass sandwiched by sandwiching two glass sheets that do not have two holes on both sides of a sheet glass that has holes in the heating element. Glass can be.

  In addition, in the float glass manufacturing method, the name is a manufacturing method for manufacturing plate glass using the difference between the specific gravity of tin in which tin is dissolved and the specific gravity in which the raw material of the plate glass is dissolved. As for 1), the temperature when the raw material of the plate glass is melted is about 1600 ° C. As for (2), the temperature when pulling up a flat glass plate from the surface of tin where tin is dissolved is a temperature within 600 to 1000 degrees C. A plate glass having a surface accuracy of a horizontal plane is continuously pulled up from the surface to produce a plate glass. (3) As described above, the processing step (2) is completed, or at the middle stage of the processing step (2), the properties of the plate glass are highly heat-insulating and transparent, particularly heat-insulating. For the purpose of forming a highly effective plate glass, the processing step (2) explained above is completed, or the plate glass is still soft with high-temperature plate glass while being in the middle of the processing step (2). In this case, compressed air is injected from the tip of a very small nozzle into the soft plate glass by using a plurality of nozzles, and infinite number of compressed air bubbles are injected into the plate glass. Because it is possible to confine countless bubbles that are countless air bubbles inside the plate glass, it is easy to make transparent plate glass while confining countless bubbles with high heat insulation effect There is an effect that can be formed.

In addition, the titles of the authors Yoshiaki Nagaura, who explained the above, were published in the paper "Spuriousless Single Wavelength Quartz Resonators", and the US Patent patented by the author Yoshiaki Nagaura. NO: US6, 952, 074, B2 entitled “Piezoelectric Device and Acousto-Electric Transducer and Method For Manufacturing The Same” and the crystal resonator (oscillator) processing means described in the above paper When processing a crystal resonator using a solid-state oscillator, for example, a raw material using an AT-cut crystal, a single-wave oscillator with only a main vibration of 700 MHz or more at the fundamental wave A certain crystal unit can be manufactured. If it is an oscillator of 700MHz or more with a single wavelength only for this main vibration, even if it oscillates overtone (multiple wave) of odd multiple of 3rd order, 5th order, or 7th order, it is extremely single. Since it is possible to oscillate electromagnetic waves close to the wavelength, for example, when the fundamental wave is 750 MHz, when a 7th-order multiple wave is oscillated, it becomes 5,250 MHz (5.25 GHz). Using the features of a single wavelength electromagnetic wave with this ultra-high frequency 5.25 GHz electromagnetic wave, the following (1), (2), (3), (4), (5), (6), and (7 ) Effect and usage.

  The effect of (1) and how to use it are, for example, when water molecules are irradiated with a high frequency of 5.25 GHz or higher, and H2O constituting water molecules (H2O) is heated and passes the heating stage. It has been found that the phenomenon of decomposition into hydrogen (H2) and oxygen (O), or proton and electron plasma occurs. This phenomenon is that the electromagnetic wave to irradiate has a single wavelength of only the main vibration, and the higher the frequency of the electromagnetic wave is, for example, 10 GHz or 20 GHz than 5 GHz, the higher the electromagnetic wave is H2O, which is a water molecule (H2O). It was found that the efficiency of decomposition into hydrogen (H2) and oxygen (O) increases. Hereinafter, the phenomenon in which the electromagnetic wave directly decomposes water molecules (H2O) is referred to as water radiolysis, electromagnetic decomposition, or electromagnetic decomposition for short.

  As the effect and the utilization method of (2), the utilization method of electromagnetic decomposition of water described above is a solution means for solving the energy problem on the earth. For example, water electrolysis using water resources that are not used in undeveloped areas of the earth, either for hydroelectric power generation, or using solar cells to generate power using solar radiation The water is efficiently decomposed into hydrogen (H2) and oxygen (O), separated into hydrogen (H2) and oxygen (O), liquid hydrogen (H2), and liquid oxygen (O ) And can be used as an energy source in developed countries by transporting them to energy consuming areas in developed countries.

  As for the effect of (3) and the method of using water, the electromagnetic decomposition method of water irradiates water molecules (H2O) with electromagnetic waves inside the sealed container sealed with an electromagnetic wave oscillation device and moisture to remove moisture (H2 ) And oxygen using electromagnetic waves for decomposition, water can be electrolyzed with an extremely simple device, so it is easy to make ultra-large electrolysis devices from very small ultra-small electrolysis devices. There is an effect that can be done.

  As described in (3) above, the effect of (4) and the method of use are as described in (3) above. As a change of gasoline combustion of a gasoline engine, which is a reciprocating engine using a piston, hydrogen (H2) and oxygen (O) obtained by electromagnetic decomposition of water can be directly used as gasoline engine combustion. For example, if an automobile is equipped with a device that electromagnetically decomposes water and a battery (storage battery) that is a power source used for electromagnetic decomposition, the automobile that uses a conventional gasoline engine does not emit carbon dioxide. There is an effect that can be done. An automobile using a fuel cell that generates power using hydrogen and oxygen as a power source can also be used as a power source for an automobile using electromagnetic decomposition as described above.

  As an effect of (5) and usage, water (H2O) can be efficiently decomposed into hydrogen (H2) and oxygen (O) using electromagnetic decomposition, and water can be directly decomposed using electromagnetic waves. The biggest advantage (1) is that, unlike the electrolysis of water, no anode and cathode electrodes are required. (2) As for the position of the potential of the electron where the electron of hydrogen (H2) and the electron of oxygen (O) are combined using electromagnetic waves, the electrons are erected using the electrons of electromagnetic waves. The electromagnetic state is used to separate the bonding state between the hydrogen (H2) electrons and the oxygen (O) electrons using electromagnetic waves. It has the effect of being able to decompose into (H2) and oxygen (O).

  As for the effect of (6) and how to use it, the principle of electromagnetic decomposition of water using electromagnetic waves explained above is that water (H2O) is converted to hydrogen ions (H +) in an aqueous solution. It is always weakly decomposed into hydroxide ion (OH-). When water (H2O) is electromagnetically decomposed by irradiating water with electromagnetic waves, hydrogen ions (H +) are converted to hydrogen (H +) that have been erected from the electromagnetic waves by irradiation with electromagnetic waves (e-). Ion (H +) is received and becomes a hydrogen atom which is active hydrogen (H) and becomes a hydrogen molecule (H2). Similarly, the hydroxide ion (OH−) erected from the electromagnetic wave has an electron (e−) with a high energy ranking, and becomes an active oxygen (O), and oxygen (O2), which is an oxygen molecule. Become.

  As for the effect of (7) and the method of use, in order to efficiently perform electromagnetic decomposition of water using electromagnetic waves as described above, electromagnetic waves are irradiated to the inside of an aqueous solution containing water. However, in order to efficiently decompose water into hydrogen (H2) and oxygen (O), water can be heated to a water vapor state, or water in a mist state. Water vapor, which is a molecule of water with the smallest possible molecule, or an electron (e-) that generates water molecules from electromagnetic waves by irradiating water vapor or mist with electromagnetic waves inside a sealed container generating fog Decomposing into hydrogen (H2) and oxygen (O) using ultra-high energy of this has the effect of more efficiently decomposing water (H2O) into hydrogen (H2) and oxygen (O). .

Further, a motorcycle, a forklift, including a passenger car, a commercial vehicle, a light vehicle, or a light truck, or a light truck, or a light truck, or a medium truck, a heavy truck, or a bus, or a trailer, or a motorcycle or a scooter described above. Or back tractors, backhoes, heavy machinery such as bulldozers or excavators, or other special vehicles, military tanks, military vehicles such as armored vehicles, airplanes, bicycles, or elderly battery cars An automobile door mirror of a vehicle that requires a vehicle (hereinafter, abbreviated as a passenger car or an automobile similar to an automobile), or a door mirror having a slightly convex lens shape or a planar shape having a concave lens shape, Or a plane shape mirror, or a bonnet mirror provided on the bonnet, or A fisheye convex lens shape or a compound-eye convex lens shape (hereinafter abbreviated as compound eye lens) on the surface of an inner mirror or a planar mirror (hereinafter abbreviated as plane shape mirror) having a surface shape. A compound eye lens (hereinafter abbreviated as compound eye lens or groove shape) in which a convex lens-shaped object is formed in parallel on the surface of a planar mirror in the vertical and horizontal directions, or several to several tens are formed in series. ) And the planar mirror, for example, a door mirror on the driver's seat side or the passenger seat side, such as a door mirror on the right side of the plane mirror or a door mirror on the left side On the surface of the upper and lower ends of the planar mirror in the upper part of the plane shape mirror, for example, the diameter, for example, the center part, the right inner part, the left inner part, the lower part, or the upper part 10mm or more fisheye lens with a height of 10.0mm or more on the surface of the flat mirror, 10 or more in the vertical direction, 1 row, 2 rows, or 3 or more fisheye lenses of several to several tens or more If you form a compound eye lens similar to a compound eye lens (hereinafter abbreviated as a planar mirror with compound eyes), you can see all the fields of view 180 degrees up and down and 180 degrees left and right at the same time without changing your line of sight The following (1), (2), (3), (4), (5), (6), (7), (8), (9), (10), (11) And effects such as (12) and fields of use.

  As for the effect of (1) and the application field, the planar mirror with a compound eye lens is, for example, the outermost door mirror when viewed from the driver, the right side of the planar mirror, or the outer part on the left side, or Ten fish-eye lenses with a diameter of 10 mm and a height of 10.0 mm are vertically arranged on the surface of the planar mirror at the left and right ends of the planar mirror, or the upper and lower ends of the planar mirror, which is the inner part. When the fisheye lens is provided in the first row, the second row, and the third row in the vertical direction, for example, 10 fisheye lenses formed in the first row closest to the driver have a diameter of 5.0 mm, The height is 5.0 mm. The distance between the first row and the second row is 5.0 mm. Next, the vertical fisheye lens formed in the second row has a diameter of 10.0 mm and a height of 10.0 mm. The distance between the second row and the third row is 5.0 mm, and then the vertical fisheye lens formed in the third row has a diameter of 15.0 mm and a height of 15.0 mm. By forming three or more rows on the surface of the planar mirror on the surface of the planar mirror, the fisheye lens that increases stepwise toward the outside is formed on the surface of the planar mirror. The wide field of view 180 degrees to the left and right will be visible without changing the line of sight. There is an application field in which a planar mirror with a compound eye lens can be used as a means. The contents described above may be as follows. As described above, for example, the vertical fisheye lens formed in the first row closest to the driver has a diameter of 15.0 mm and a height of 15.0 mm. Next, the vertical fisheye lens formed in the second row has a diameter of 10.0 mm and a height of 10.0 mm. Next, the fish-eye lens formed in the third row has a diameter of 5.0 mm and a height of 5.0 mm. By forming the above plurality of rows on the surface of the planar mirror, there is a synergistic effect that the field of view 180 degrees wider and wider and 180 degrees further left and right is further visible without changing the line of sight.

  As for the effect of (2) and the application field, as a planar mirror with a compound eye lens for the purpose of eliminating the blind spot of the front wheel when the driver looks at the front wheel, for example, when viewed from the driver, A fisheye lens with a diameter of 10.0 mm is flat on the surface of the planar mirror that is the uppermost part of the planar mirror, or the uppermost part of the planar mirror, or the uppermost part of the planar mirror that is the uppermost part of the ground. When 20 fisheye lenses are installed in the horizontal direction on the surface of the shape mirror in the horizontal direction parallel to the ground, the first row, the second row, and the third row, for example, the first row closest to the ground The 20 fisheye lenses in the lateral direction forming the eyes have a diameter of 15.0 mm and a height of 15.0 mm, which is higher than the height of the outer periphery of the exterior body to which the door mirror is attached. The first and second rows that are closest to the ground are spaced 5.0 mm apart, and are located next to the second highest point from the ground. The horizontal fisheye lens has a diameter of 10.0 mm and a height of 10.0 mm. The distance between the 2nd row and the 3rd row is 5.0 mm, and the horizontal fisheye lens formed in the 3rd row is located at the third highest position from the ground, A fisheye lens with a diameter of 5.0 mm and a height of 5.0 mm, which has been lowered gradually from the ground to the upper direction and lowered, is arranged in three rows in the horizontal direction, or more than three rows in a plane. By forming on the surface of the shape mirror, the driver of an automobile or an automobile-like automobile can check the front wheel by looking at the front wheel, so a plane with a compound eye as a means for eliminating the blind spot of the front wheel There are fields of application where shape mirrors can be used. The contents described above may be as follows. As explained above, for example, the bottom part of the door mirror when viewed from the driver, or the top part that is the highest part above the ground, the bottom part closest to the ground of the planar mirror, or the ground For example, 20 horizontal fish-eye lenses formed in the first row closest to the ground in the uppermost part from the ground have a diameter of 5.0 mm and a height of 5.0 mm. Next, the horizontal fisheye lens formed in the second row, which is positioned second highest from the ground, has a diameter of 10.0 mm and a height of 10.0 mm. Next, the horizontal fisheye lens in the third row, which is located at the third highest position from the ground, has a diameter of 15.0 mm and a height of 15.0 mm. By forming three or more rows on the surface of the planar mirror in the horizontal direction, fisheye lenses that are gradually raised toward the There is a synergistic effect that can confirm the front wheel.

As the effect of (3) and the field of use, a plurality of fisheye lenses having a convex lens shape are formed on a part of the outer peripheral part of the peripheral part that is the edge of the planar mirror, or on the entire outer peripheral part, or on the central part of the planar mirror. Provide 1 row, 2 rows, or 3 or more rows. For example, a fisheye lens having a diameter of 10.0 mm and a height of 10.0 mm at the periphery of the outer periphery of the planar mirror, or a portion of the outer periphery, or the entire area of the outer periphery, or a planar shape Several tens to several in the peripheral part of the outer peripheral part of the planar mirror, or the central part of the planar mirror formed in parallel, parallel, or series in one, two, or three or more rows in the central part of the mirror When a planar mirror with a fisheye lens is formed by integrally molding 100 or more fisheye lenses in the outer peripheral part of the planar mirror or in the center part of the planar mirror, the outer peripheral part of the planar mirror and the planar mirror, or Due to the synergistic effect of the fisheye lens and the planar mirror provided in the central part of the planar shape, the images projected on the multiple fisheye lenses are transferred to the planar mirror. By forming a planar mirror with a compound eye lens, which is characterized by arranging fisheye lenses in parallel, parallel, and in series with no blind spots 180 degrees to the left or right, or forward, several tens From the synergistic effect of several hundred fisheye lenses and planar mirrors, there is a synergistic effect that can create a compound mirror with no blind spots.

  As the effect of (4) and the application field, the height of the fisheye lens formed on the surface of the planar mirror with compound eyes described in (1), (2) and (3) above. For example, a fisheye lens having the same height of 10.0 mm is formed on the surface of the planar mirror in the form of several to several tens in the vertical and horizontal directions. However, it is possible to see well the field of view 180 degrees up and down, 180 degrees left and right, which is the same effect as described above. In addition, the height of the fisheye lens formed on the surface of the flat mirror is high and low fisheye lens of Random, the fisheye lens is high on the surface of one flat mirror, and the fisheye lens is low Even if a fisheye lens in which several to several tens of lenses are mixed is formed on the surface of a planar mirror, there is a synergistic effect that allows the field of view 180 degrees up and down and 180 degrees left and right to be seen well.

  As the effect of (5) and the field of use, it is a conventional flat mirror with a compound eye as described above, and a conventional door mirror having a slightly convex lens shape or a concave lens shape (hereinafter abbreviated as a planar shape). A rectangular shape that is the peripheral part of the edge of a mirror or a conventional planar shape mirror, a rectangular shape, or an elliptical shape (hereinafter abbreviated as a rectangular shape), and a conventional rectangular shape. On the surface of the mirror, the raw material of the planar mirror is heated to use a processing means such as press working or machining, or a processing means such as polishing, or a chemical such as hydrofluoric acid. Using a chemical etching processing means chemically using a fish-eye lens that is a convex lens shape, or a washing plate shape, a corrugated iron shape that is a corrugated plate shape, a staircase shape, or a terraced field shape , Or Camaboko barracks shape, Camaboko shape, or groove shape, or a groove such as a Fresnel lens (hereinafter abbreviated as groove, groove shape, convex lens shape, or fisheye lens) into a conventional planar mirror When forming, if the total area of the conventional planar mirror is 100, the total area of the planar mirror is 100, the ratio of fisheye lens, groove, groove shape, step shape, or terraced field shape that is convex lens shape to 100 Is 5% or more, or 10% or more, or 15% or more, or 20% or more, or 25% or more, or 30% or more, or 35% or more, or 40% or more, or 45% or more, or 50% or more, Or a fisheye lens or groove having a convex lens shape with an area of 55% or more, or 60% or more, or 65% or more, or 70% or more, or 75% or more, or 80% or more, 85% or more, or 90% or more The shape is formed on the surface of a conventional planar mirror and up and down 180 degrees Left and right 180 degrees backwards, and providing a blind spot less mirror blind spot side has the shape of a planar shape mirror is a door mirror no.

  As for the effect of (6) and the field of use, it is manufactured by S Sangyo Co., Ltd., where the head office is located in Fukuoka City, as described above. Protected with air trapped in polyethylene filth for sale, and moisturizing material, the product name is similar to air pack, one, one is a triangle, triangle pillar, or square For the purpose of forming a quadrangular column, a rectangular shape, a round shape, a cylindrical shape, or a convex lens shape (hereinafter abbreviated as a groove, a groove shape, or a convex lens shape), for example, a hook When chemical etching is performed using acid, etc., after mirror polishing the planar mirror, gold is deposited on the surface of the planar mirror using a mask, and on the surface of the planar mirror. Gold plated After that, even if a chemical etching process is performed by dipping in a solution such as hydrofluoric acid to form a groove on the surface of the planar mirror, the roughness of the surface accuracy inside the groove formed inside the planar mirror is The characteristic of the chemical etching process is that the surface accuracy can be maintained when the planar mirror is mirror-polished before the chemical etching process. In addition, as a feature of chemical etching processing, when forming one groove on the surface of a planar mirror, when forming several tens of grooves, several hundred grooves, or a plurality of 4 In the case of forming a square shape, a plurality of round shapes, a cylindrical shape, or a plurality of convex lens shapes, the manufacturing cost is completely the same.

The effect of (7) and the field of use are the groove, groove shape, or convex lens shape described above, for example, the convex lens shape, the triangular shape, the triangular prism, the washboard shape, or the wave. Plate shape, or staircase shape, terraced field shape, kamaboko barracks shape, kamaboko shape, groove shape, Fresnel lens, or prism (hereinafter abbreviated, kamaboko shape, corrugated iron shape, or triangle shape, Or a triangular prism) is formed at the ends of both ends of the planar mirror, the central part of the planar mirror, or the upper and lower parts of the planar mirror, or a regular triangle or a plurality of rows similar to a triangle In order to achieve this, for example, a kamaboko shape, a washing plate shape, a corrugated iron plate shape, or a triangular shape (hereinafter abbreviated as a regular triangle shape, a triangular shape, or a triangular column, Is a washboard shape or corrugated iron shape), and the bottom part of the valley is one or two lines in the vertical direction toward the direction of travel of the car at both ends of the planar mirror Or, form three or more rows in the vertical direction at the ends of the planar mirror, or at the center of the planar mirror, or at the top and bottom of the planar mirror toward the horizon. In the horizontal direction that is parallel to each other, the upper and lower parts of the planar mirror have a regular triangle-shaped raised part and the bottom part of the valley, and one or two rows laterally above and below the planar mirror. Or, if you form multiple rows of 3 rows in the upper and lower parts of the planar mirror in the horizontal direction, the part of the equilateral triangle that is the part of the rising triangle and the part of the equilateral triangle that is the bottom part of the valley The angle of inclination with the base is a regular triangle Inclination angle of 45 degrees in relation to the base, regular triangle shape, or one row similar to triangle shape, or two rows, or multiple rows of 3 rows or more (hereinafter abbreviated as regular triangle shape or triangular shape, Alternatively, a triangular shape similar to a washing plate shape or a corrugated iron shape is obtained. By forming the shape of a washing plate or corrugated iron similar to this triangular shape on both ends of the planar mirror, the central portion of the planar mirror, or the upper and lower portions of the planar mirror, the planar mirror The field of view and the field of view are 15 degrees in the left and right or up and down, and the field of view and field of view are 30 degrees or more in the direction of the direction of the car. There is an effect that the visual field and the visual field are widened to a narrow angle, an acute angle, or a wide angle. In addition, when forming the triangular shape formed on the surface of the planar mirror in multiple rows, one row, two rows, or three rows or more, the triangle height is two steps of high and low, or high, medium and low And change the height to three or more levels to form a triangular shape with a high triangular shape and a triangular shape with a medium triangular shape and a low triangular shape, or When forming a triangular shape with two high and low steps, three high and low steps, or three or more high and low height differences on a flat mirror, 1 is attached to the first end of both ends of the flat mirror. Form the tallest triangle, then the second highest triangle inside the planar mirror, and the third lowest triangle inside the second tall triangle Or a triangle-shaped high, medium, low and high in the opposite direction to what is described above. Form a triangular shape with the lowest triangular shape at the first end of both ends of the planar mirror, then the second highest triangular shape inside the planar mirror, and then the third The highest triangular shape may be formed. In addition, a high triangle shape with a height difference between high, middle and low, a middle triangle shape, or a triangle shape with a low height is randomly selected at both ends, the center portion, or the upper and lower portions of the planar mirror. Or from the ends of the two ends of the planar mirror, or from the center to the left or right, up or down, from the top to the bottom, or from the bottom In the direction, the angle of inclination is the slope of the ascending slope on the surface of the planar mirror so that the washing board shape similar to the triangle shape, or the corrugated iron shape rises upward like the staircase shape. The surface of the planar mirror is formed with a slope angle that is a slope of a downhill so as to form a washboard shape that is similar to a triangle shape, or a corrugated iron shape that descends downward in a similar manner to a vineyard shape. Form one row, two rows, or more than three rows on top A washboard shape or wave similar to a triangular shape with an inclination angle that is a slope of an uphill or a slope of a downhill slope in the longitudinal direction at both ends or the center of the flat mirror with respect to the ground Forms a plate shape or is the slope of an ascending slope from the upper and lower directions in the horizontal direction parallel to the uppermost part of the planar mirror or the lowermost part with respect to the ground When forming an inclination angle or an inclination angle that is a slope of a downhill, both ends of the planar mirror using a washboard shape similar to a triangle shape or a corrugated iron shape on the surface of the planar shape mirror Or a convex lens shape on the surface of the planar mirror, or a concave lens shape on the surface of the planar mirror using the shape of a washboard similar to a triangle shape on the upper part or the lower part of the planar mirror Recess-similar to a concave-convex similar washboard to a triangular shape It can be formed using a shape or corrugated tin shape, so that the field of view and the field of view are narrower or sharper in the lateral direction just beside the front wheel, rear wheel tire, or car just below the car. There is an effect that it looks wide or wide. In addition, when forming a washboard shape or corrugated iron shape similar to a triangle shape on the surface of the planar mirror, the triangle formed on the surface of the planar mirror with the surface of the planar mirror as the planar shape Although the inclination angle of the shape has been described above, and the inclination angle has been described as an equilateral triangle angle of 45 degrees, for example, 60 degrees, 90 degrees, 120 degrees, and 160 degrees are arbitrary Either a triangular shape of the angle, or a washboard shape similar to the Kamaboko barracks, or a corrugated iron shape is formed in the vertical direction with respect to the ground at the ends of the conventional planar mirror, or the center of the planar mirror Form the part vertically to the ground, or form the central part of the planar mirror transverse to the ground, or transverse to the upper part or the lower part of the planar mirror. In the shape of a triangle, or the shape of a barrack barracks, A concave-convex lens shape (hereinafter abbreviated as a triangle, or a kamaboko barracks shape), or a washboard shape, corrugated iron shape, or a side wall bellows made so that it can be freely expanded and contracted with a camera For example, a triangular shape, a kamaboko barracks shape, or a corrugated iron shape (hereinafter abbreviated as a corrugated iron shape). The height difference between the high place and the low place is 3.0 mm or more, or 5.0 mm or more, or 10.0 mm or more, or 15.0 mm or more, or 20.0 mm or more, or 25.0 mm or more, or 30.0 mm or more, or 40.0 mm or more, or 50.0. Triangular shape with a height difference of higher than or less than mm, or a kamaboko barracks shape, or a undulating shape similar to a corrugated iron shape, a conventional slightly slightly convex lens shape, and a concave lens For example, when a corrugated iron pattern is formed on the surface of a conventional planar mirror in the vertical direction or the horizontal direction, for example, if a corrugated iron shape is formed in the vertical direction or the horizontal direction on the surface of the conventional planar mirror, the wave Convex lens shape similar to the convex lens shape is high in the rugged portion of the plate tin shape, for example, several tens and many convex lens shapes are continuously connected continuously in the vertical direction or in the horizontal direction. Thus, the effect is exactly the same as in the state where the convex lens shape is formed. In addition, the concave portion of the corrugated iron shape where the undulation is low has a concave lens shape similar to the concave lens shape.For example, several tens and many concave lens shapes are continuously connected in the vertical direction or the horizontal direction. The rear side of the car is like the bellows of the side wall that is made to be able to freely expand and contract the rear view of the car with a camera by having exactly the same effect as the state where the concave lens shape is formed continuously in series. A vertical corrugated plate shape similar to a corrugated tin shape, or a concave-convex lens shape similar to an undulating shape similar to a bellows (hereinafter abbreviated corrugated tin shape or concave-convex lens shape). If it is formed in the direction, if the view behind the automobile is the vertical direction, the view in the longitudinal direction is placed inside the corrugated tongue shape or the concave-convex lens-like undulation shape. Compressed viewing Can. In addition, when a corrugated iron shape or a concave-convex lens-shaped undulation shape is formed in the horizontal direction, the field of view behind the car can be compressed in the horizontal direction, so that the conventional The angle of the rear outer angle is 15 degrees or more toward the rear outer side of the car and the angle of the inner angle to the rear inner side of the car is 15 degrees or more than the flat mirror having the convex lens shape and the concave lens shape. Since the field of view inside the rear side direction expands, for example, to form a planar mirror that has no blind spot of 10 degrees that is the angle between the main road of the expressway and the approach road that is the approach path when entering the expressway I can do it. In addition, since the rear field of view with an inner angle of 15 degrees or more toward the inner side in the rear side direction of the automobile widens toward the inner side in the rear side direction of the automobile, a two-wheeled vehicle passing right next to the automobile, for example, an automobile A two-wheeled vehicle passing through a distance of 60 cm can be confirmed from a distance, and a planar mirror with no blind spots can be formed. In addition, as described above, as a change of the shape other than the triangular shape, a fish-eye lens shape, a compound eye lens shape, a washing plate shape, a stair shape, a corrugated plate shape, a corrugated iron shape, or a stepped field shape, Alternatively, it may be in the shape of a kamaboko barracks shape, a kamaboko shape, a groove shape, a Fresnel lens shape, or a prism shape (hereinafter abbreviated as a triangular shape or a triangular column). In addition, the shape of the shape object formed on the surface of the planar mirror described above may be any shape other than a triangular shape or a shape other than a triangular prism. The shape of an object having an inclination angle of may be used.

  As for the effect of (8) and the field of use, the use of expensive electronic equipment such as a CCD camera has been developed by developing the planar mirror with compound eyes described in (1) and (2) above. The driver can further improve safety by forming a flat mirror with a compound eye that is a door mirror that has no blind spots in the front, rear, and side directions of the car at a very low cost. There is a field of use as a door mirror.

  As the effect of (9) and the application field, the automobile door mirror described above using a polycarbonate or acrylic resin (hereinafter abbreviated as polycarbonate) may be molded. Or it can be used as a mirror used in an aircraft. For example, for aircraft in-flight, the material is a polycarbonate, or Fresnel lens shape molded from resin such as acrylic, or a planar mirror with a compound eye, or a laminated mirror with a compound eye, a dome mirror with a compound eye, or a half dome with a compound eye A mirror, or a mirror such as a quarter-dome mirror with a compound eye (hereinafter abbreviated as a planar mirror with a compound eye), is placed inside the baggage compartment (referred to as "BIN / bin" in the aviation industry) of an aircraft. When attached, there is no blind spot inside the bottle, and there is a method of use as a means for expanding the field of view and preventing passengers from forgetting baggage. In addition, as a material for forming the compound eye planar mirror, there is a case where a glass plate having a high optical system purity is heated and molded.

As an effect of (10) and a field of use, when a mirror for a medical device, for example, a planar mirror with a compound eye is used inside an operation site (operating room), a blind spot is eliminated for a plurality of people at the operation site. There is a utilization method as a means for this.

  The effects of (11) and the fields of use are as ATM mirrors, as vehicle exit mirrors, as elevator interior mirrors, as wheelchair mirrors, as interior mirrors in buildings, or inside hospitals As a mirror for shoplifting, as a mirror for shoplifting prevention at supermarkets, convenience stores, etc., or as a mirror for factories, warehouses, or as a household mirror, a flat-view mirror with a compound eye widens the field of view and at the same time has a convex lens function or a concave lens function. The enlargement function, which is a feature, is generated. For example, the inside of the nose can be enlarged, so that there is a usage method that means for cutting nose hair becomes easy.

  As for the effect of (12) and the field of use, the picture of the painter Picasso is Cubism. Cubism is the simultaneous expression of the front and back sides. The expression that is very close to the expression of Cubism can be made by forming several to tens of fish-eye lenses in the form of convex lenses in parallel or in series on the surface of the planar mirror. When a compound eye lens similar to a compound eye lens is formed on the surface of the lens, all of the back, left, right, and left 180 degrees are all combined due to the synergistic effect of combining a planar mirror and several to several tens of fish-eye lenses. A blind spotless mirror with no blind spots where the field of view can be seen is completed. From this, the name of the planar mirror with a compound eye in which a compound eye lens similar to a compound eye lens is formed on the surface of the planar mirror and a plurality of fisheye lenses are formed on the surface of the planar mirror is a blind spotless mirror, or Nagaura I decided to name it as a mirror, a door mirror of Nagaura, a blind spotless mirror of Nagaura, a Cubism mirror, or a Picasso mirror.

  Also, in order to eliminate the blind spot on the back side of the car, a door mirror with a camera equipped with a CCD camera on the door mirror has been developed. For example, it is disclosed as JP 2000-16181 or JP 2001-130325. However, in both applications, the rear side is imaged with a camera-equipped door mirror attached to the door mirror, and the image is projected on the monitor in the passenger compartment, thereby confirming the field of view as the blind spot behind the automobile. There are drawbacks such as the following (1), (2), and (3).

  The disadvantage of (1) is that moving the line of sight by looking at the door mirror and looking at the monitor in the automobile interior itself causes a blind spot due to the time difference of the moment when the line of sight is moved. On the other hand, the door mirror of the present invention has an effect that the confirmation of the rear side can be confirmed inside one door mirror without moving the line of sight.

  As a disadvantage of (2), a door mirror with a camera having a CCD camera on the door mirror is expensive. On the other hand, the manufacturing cost of the door mirror of the present invention has an effect of completing a door mirror that can be confirmed on the rear side at substantially the same manufacturing cost as that of a normal door mirror.

  As a drawback of (3), a door mirror with a camera provided with a CCD camera in the door mirror is expensive, and therefore has a drawback of being stolen due to theft. On the other hand, the door mirror of the present invention is not expensive and has the effect of being stolen due to theft.

  Moreover, the raw material of the conventional door mirror for automobiles described above uses a glass of an optical system to manufacture a conventional planar door mirror. However, using a polycarbonate or an acrylic resin (hereinafter abbreviated as polycarbonate), the above-described conventional planar door mirror having a slightly slightly convex lens shape (hereinafter abbreviated as abbreviation, Triangular shape, Kamaboko barracks shape, washboard shape, or corrugated plate as described above at both ends, upper and lower portions, or center portion of the flat shape mirror or flat shape door mirror) Tongue shape, or shape similar to bellows, or concave-convex lens shape, or groove shape, or multiple groove shapes, or Fresnel lens shape, or prism shape (hereinafter, abbreviated corrugated tongue shape, groove shape, or As a raw material for forming a planar mirror with a part of the surface of a conventional planar mirror, or a planar mirror with the entire surface of the conventional planar mirror, As for the planar door mirror described in the above, for the sake of convenience, it has been explained that the glass door of the optical system is used as a raw material to form the planar door mirror. However, the corrugated plate is provided inside the planar door mirror described above. If a complex shape such as a tin shape, groove shape, Fresnel lens shape, prism shape, etc. is to be partly or wholly placed inside a conventional planar door mirror, resin such as polycarbonate is used as gold. When molding is performed using a mold, a complicated shape such as a corrugated iron shape or a Fresnel lens shape (hereinafter abbreviated as a planar mirror or a planar door mirror) can be easily molded. After molding the prototype of a flat door mirror using a resin such as polycarbonate, a corrugated tin or groove, or a metal such as chromium, copper, or silver, which is the same processing step as the raw material glass, Alternatively, a resin such as polycarbonate can be obtained by forming a Fresnel lens shape on the surface, or by vapor deposition from the surface and mirroring the surface of the corrugated sheet shape, groove shape, or Fresnel lens shape. It is easy to form a car with a complicated shape such as a corrugated iron shape or Fresnel lens shape as a raw material, and other planar confirmation door mirrors and inner mirrors. There are effects as in 1) and (2).

  As an effect of (1), as described above, an optical material is used as a raw material for forming an automobile or other rear confirmation door mirror and an inner mirror (hereinafter, abbreviated as a planar mirror). When a planar mirror is formed using a polycarbonate or an acrylic resin (hereinafter abbreviated as polycarbonate) without using a glass of system or other glass (hereinafter abbreviated as glass) as a raw material, Complex fish-eye lens shape, compound eye lens shape, triangle shape similar to washboard shape, staircase shape, corrugated plate shape, corrugated iron tongue shape, terraced field shape, kamaboko barracks shape, or kamaboko shape Or a groove shape, a Fresnel lens shape, a prism shape, or a triangle shape (hereinafter, abbreviated corrugated iron shape, or Fresnel label). Even if a planar mirror with a complicated shape is formed, such as a polycarbonate, a corrugated iron shape or a Fresnel lens shape can be formed by molding a resin such as polycarbonate. Unlike the case where glass is a raw material, it is easy to mold using a mold. Compared to the case where glass is a raw material, when a planar mirror is formed using a resin such as polycarbonate, the glass is more than the case where the glass is a raw material. Can also be cheap. However, the planar mirror described above may be formed using glass as a raw material.

  As an effect of (2), a triangular shape similar to a washing board shape, a corrugated iron tongue shape, or a Fresnel lens shape (hereinafter abbreviated as a groove shape or a plurality of groove shapes) is used as the back surface of the planar mirror. By forming a planar mirror, the shape on the surface of the planar mirror is a planar shape, or the shape on the surface of the planar mirror is a slightly concave-convex lens shape. Since the surface of the shape mirror is not formed with a plurality of groove shapes such as corrugated tin and Fresnel lens shape, the surface of the surface shape mirror has the same shape as that of the conventional shape mirror. Therefore, when forming a flat mirror shape that does not accumulate dust or dust on the surface of the flat mirror, a resin such as polycarbonate is used rather than using glass as a raw material. However, there is an advantage that the glass can be made cheaper than the raw material, but a planar mirror may be formed using the glass as a raw material. In addition, with respect to mirror surface processing for making the surface of the mirror, in the case of polycarbonate, acrylic resin, etc., glass is exactly the same as the raw material, and is formed on the surface of the planar mirror or on the back surface. A planar mirror is obtained by performing plating using a metal such as chromium, copper, or silver on a groove-shaped surface such as a corrugated tin shape or a Fresnel lens shape, or mirror-finishing by metal deposition.

  In addition, optical glass or other glass raw material (hereinafter abbreviated as glass), glass as a raw material, automotive rearview mirror, or automotive door mirror (hereinafter abbreviated as planar mirror) A triangular shape similar to a washboard shape, or a shape similar to a corrugated iron shape, or a shape similar to a staircase shape, or both ends on the surface of a plane-shaped mirror, or a central portion, or a portion of the upper and lower portions, or Shape similar to terraced field shape, shape similar to groove shape, shape similar to concave-convex lens shape, shape similar to kamaboko barracks shape, shape similar to triangle shape, shape similar to Fresnel lens shape , Or a shape similar to a prism lens, or a shape similar to a spherical fisheye lens of one arc of a sphere, or a shape similar to a fisheye lens with an aspherical lens shape, or similar to a compound eye lens When forming a planar mirror with a shape (hereinafter, abbreviated corrugated iron shape or cylindrical barrack shape), for example, glass that is melted by heating the glass raw material to 1600 degrees C or higher Is injected into the inside of the mold having the shape of a planar mirror, and only one portion of the corrugated iron shape or Kamaboko barracks shape is placed on the surface of the planar mirror. Mold the flat mirror that is attached together, or heat the glass raw material to, for example, 600 ° C or higher, and change the shape of the flat mirror to glass with the glass raw material in a viscous state. A plane that is placed inside the mold, and has a corrugated iron shape or a kamaboko barracks shape on the surface of the planar mirror together with only one part inside the surface of the conventional planar mirror Vacuum shape mirror A piece of glass plate that is molded or manufactured by a float glass manufacturing method, for example, a plate glass heated to 600 ° C. or more is placed inside the mold, and one part is placed on the surface of a conventional planar mirror. When the flat shape mirror that has the corrugated iron shape or the kamaboko barracks shape on the surface of the flat mirror is vacuum-formed, the surface accuracy on the surface of the flat mirror is the surface processing accuracy of the mold. There is an effect that it is possible to form a mirror with a mirror shape in the same polished state. Further, if the corrugated iron shape or the cylindrical barrack shape is a spherical shape of a spherical surface of one arc of the sphere, or the corrugated corrugated iron shape or the scallop barrack shape is an aspherical spherical shape, the field of view is further widened. effective.

  Further, the above-described plate glass or glass plate made of heat-resistant glass, or plate glass made of optical system glass (hereinafter abbreviated as plate glass) is made of wire mesh or nichrome wire. Seal the inside of the sheet glass with a wire mesh, a coil made of nichrome wire, an iron plate with holes, or an iron plate with no holes (hereinafter abbreviated as wire mesh or iron plate). As a means to do, after sandwiching a wire mesh or an iron plate between two sheet glasses, for example, by heating at a temperature of 650 ° C. or more, the upper and lower two sheets around the wire mesh or the iron plate A metal mesh or a hole was formed by fusing and fusing the two upper and lower plate glasses together by applying pressure and applying pressure while heating the upper and lower two plate glasses with the properties of clay in the clay state. If a plate or an iron plate with no holes formed is sealed inside the plate glass and made into a sheet metal on the both sides of the steel plate or the iron plate, for example, it can be made of a wire mesh made of nichrome wire or nichrome wire. By forming a composite plate glass in which the coil is sealed inside the plate glass, a voltage is applied to the composite plate glass so that a current is applied and a terminal for wiring for the purpose of generating heat using the composite plate glass as a heating element is attached. Since there is an effect that can be easily performed, there are utilization methods such as the following (1) and (2).

  As for the usage method of (1), since the heating element has a structure in which a wire mesh made of nichrome wire or a coil made of nichrome wire is sealed inside a plate glass, there is no leakage and there is no change over time and it is safe heat generation. Since it is a body, there is a method of using it as a heating element for domestic heating appliances such as interior materials, floor materials, and kotatsu for the purpose of indoor heating.

  As a method of using (2), there is a method of using as a roof tile of Western tile, Japanese tile, or other shape that has a built-in heating element for melting snow accumulated on the roof of the snowy area. .

  Also, the interior of conventional western roof tiles, or clay, which is the raw material of Japanese roof tiles, or red roof tiles, or Japanese roof tiles (hereinafter abbreviated as clay or roof tiles) made of cement or plaster. Wire, wire mesh, wire mesh made of nichrome wire, coil made of nichrome wire, iron plate with holes, or iron plate with no holes (hereinafter abbreviated, wire or wire mesh, (Or iron plate) is placed in the center of the clay that is the raw material forming the tile, and the tile is molded into the shape of the tile, for example, heated at a high temperature of 1500 ° C or higher, and placed inside the tile By forming a wire, a wire mesh, or a roof tile formed with an iron plate, the following effects (1), (2), and (3) are obtained.

  As an effect of (1), there is an effect that the strength of the roof tile is strengthened by forming a roof tile made of clay, a wire, a wire net, or a steel plate.

  As an effect of (2), there is an effect that it is easy to firmly fix the roof tile by forming a wire, a wire mesh, or a roof tile sealed with an iron plate inside the roof tile.

  The effect of (3) is that the roof tile is formed by forming a sealed roof with a nichrome wire sealed inside the tile, a wire mesh made of nichrome wire, or an iron plate made of nichrome wire. Applying a voltage to the roof tiles with built-in heating elements and applying current to the roof tiles to generate heat by applying a voltage to the roof tiles. There is an effect that the snow accumulated on the roof tile is heated by the heating element built in the roof tile to melt the snow accumulated on the roof tile.

  In addition, as described above, glass of an optical system conventionally used for forming a planar mirror, or polycarbonate or acrylic resin (hereinafter abbreviated as polycarbonate or plastics) as a raw material other than glass. Using a molding machine such as an injection molding machine or a hollow molding machine on the surface of a flat mirror that has been formed from glass as a raw material and has a slightly concave-convex lens shape. A triangular shape similar to a washing board shape, a corrugated iron shape, a stepped field shape, a staircase shape, or a Fresnel lens shape, at both end portions, or a central portion, or upper and lower portions (hereinafter referred to as both end portions for short) Or prism shape, triangle shape, groove shape, multiple groove shape, concave-convex lens shape, fisheye lens shape, compound eye lens shape (hereinafter abbreviated) Even when forming a complicated shape such as a corrugated iron shape or Fresnel lens shape on both ends of the surface of a conventional planar mirror, injection molding is performed using a resin such as polycarbonate or plastics as a raw material. Machine, hollow molding machine, or other molding means to form a complicated shape, for example, a complex shape of corrugated iron or Fresnel lens on both ends of a conventional flat mirror Even when the shape is separately formed in the area of one part on the surface of the conventional planar mirror, for example, the area of the planar shape of the conventional planar mirror with respect to the total area of the planar mirror is 60 %, And the remaining 40% of the area is complicated by forming a corrugated iron shape or Fresnel lens shape on both ends, the center, or the top and bottom of the planar mirror. Even in the shape of a flat mirror with a shape, the advantage is that it can be molded easily with a mirror finish with a surface finish on the surface of the flat mirror that is ultra-high-precision, such as polycarbonate or acrylic resin. Using plastic as a raw material has the advantage that it is possible to easily mold a planar mirror with a complicated shape when plastics are used as raw materials. This is a difference from the case where glass is used as a raw material. At the same time, when compared with the case where glass is used as the raw material, even in the complicated shape of the planar mirror having the following shapes (1), (2), (3), and (4), polycarbonate or If plastics resin such as acrylic resin is molded, there is an effect that it can be molded easily at low cost. However, it is possible to form a planar mirror having a complicated shape by using a glass made of an optical system or other glass as a raw material. Comparing the case where a planar mirror with a complicated shape is formed using glass and a plane mirror formed using plastics resin such as polycarbonate or acrylic resin, it is formed using glass. Although the flat shape mirror does not change with time, the flat shape door mirror formed using plastics resin has a drawback that the white color changes to yellow due to change with time.

  As an effect of (1), on the front surface or the back surface of the planar mirror at the same time, for example, a triangular shape similar to a groove shape or a washing plate shape, or a corrugated iron shape, or a triangular shape, or a triangular prism, Alternatively, a lens shape similar to that of a sea urchin barracks, or a fish-eye lens, or a compound eye lens can be simultaneously molded on the front surface or the back surface of a planar mirror.

  The effect of (2) is the shape of a prism, a sheet lens, or a Fresnel lens on the surface or back surface of a planar mirror, for example, the inside angle of a circular shape is 90 degrees vertical and the outside Even with a Fresnel lens with an angle of 45 degrees or other complicated groove-shaped lens with an inclined angle, a precise mold is used to mold simultaneously on the surface of the planar mirror or on the back surface. I can do it.

  As an effect of (3), for example, by forming a complex plane shape mirror using plastics or plastics such as acrylic resin as a raw material, for example, a triangular shape similar to a washboard shape, or a corrugated iron shape, or Triangular shape, groove shape, or Fresnel lens shape (hereinafter, abbreviated corrugated iron shape, triangular shape, or Fresnel lens shape) in the traveling direction of the vehicle on both ends or upper and lower portions of the planar mirror Parallel to, or perpendicular to, or longitudinal, or transverse, e.g. a triangle shape similar to a washboard shape perpendicular to a planar mirror, or a corrugated tin shape, or a triangular shape, or a Fresnel By forming the lens shape, it is possible to form a planar mirror that can see the front and rear tires of an automobile. This is also a 3D structure that is a complicated shape that can be seen in a 3D world view that is completely different from the conventional flat shape mirror, which has a complicated shape using plastics as a raw material. The planar mirror can be formed, and a planar mirror that can easily and inexpensively see the field of view of the three-dimensional world can be formed by molding plastics as a raw material.

  As an effect of (4), on the surface of a planar mirror having a complicated shape made by molding plastics described in (1), (2), and (3) above, or For the purpose of making the mirror on the back surface into a mirror surface, it is extremely inexpensive by mirror processing using plating processing means or vapor deposition processing means with a metal such as chromium, copper, silver, or gold. Unlike the case where glass is used as a raw material, a blind spotless mirror, which is a planar mirror having no complicated blind spot, can be easily formed by using plastics.

  Moreover, the glass plate (henceforth abbreviated as plate glass for short) manufactured using the heat glass which resists high temperature using the float glass manufacturing method demonstrated above, or the raw material of other plate glass is manufactured. Wire made of nichrome made of wire or nickel or chromium alloy in the process, nichrome wire with high electrical resistance, wire mesh made of nichrome wire, or made of nichrome wire and ordinary iron A wire mesh made by mixing wires, an iron plate with holes formed in an iron plate made of nichrome, or an iron plate with holes made in an iron plate made of nichrome, or the material made of nichrome An iron plate with no holes formed in the iron plate (hereinafter abbreviated as a wire mesh or iron plate) is submerged in the central portion in the thickness direction of the plate glass, and the plate glass with the wire mesh or iron plate is contained. When a sheet metal is formed and a conductive wire mesh that is confined and sealed inside the plate glass that is an insulator, or when an electric current is applied to the iron plate and a current is applied, the wire mesh or the plate glass that confines the iron plate generates heat. Since there is no intended leakage and the heater of the heating element is safe, there are utilization methods and effects such as the following (1) and (2).

  As a method of using (1) and the effect, as a window glass, a metal mesh inside a plate glass or a steel plate enclosed in a steel plate and sealed, or a glass plate inside the plate glass or a plate glass in which an electric current is applied to the iron plate is passed. When used, the window glass can be used as a window glass for heating purposes. Further, it is possible to provide a window glass that can prevent the window glass from freezing and fogging.

  As a utilization method and effect of (2), the plate glass used as a heater of a heating element for heat generation by confining a metal mesh or an iron plate inside the plate glass and sealing it has a drawback that it is weak in strength and weak. For the purpose of reinforcing this weak and weak defect, a PVB sheet having an adhesive effect as described above, or an adhesive (hereinafter abbreviated as a PVB sheet) is used, such as polycarbonate or acrylic. A plate made of resin (hereinafter abbreviated as a plastics plate), or a metal plate such as plate glass or iron plate, and a metal mesh or iron plate enclosed in the plate glass and sealed for the purpose of generating heat. When a plate glass and plastics plate as a heater for a heating element and a metal plate such as a sheet glass or an iron plate are laminated with, for example, three layers or three or more layers to form a composite plate glass for heat generation, the heating element This is because the plate glass is a strong and strong composite plate glass that is sealed by enclosing the heater in the plate glass. The purpose of melting snow using a composite plate glass with a built-in heater, which is a building material for heating purposes, or an interior material, an exterior material, a floor material, a ceiling material, or a snow material that has accumulated on a roof Roofing materials such as tiles can be provided. Moreover, it can be set as the building material aiming at the panel for 2x4.

  Furthermore, the purpose of firmly fixing the roof material (hereinafter, abbreviated as tile), such as western tile, Japanese tile, or sheet glass or corrugated glass, as described above, and the inside of the tile The following methods (1), (2), and (3) may be used for the purpose of generating heat by incorporating a heating element.

  As a method of (1), for example, a hole having a diameter of about 5 mm is formed parallel to the direction in which rain flows, or in the lateral direction in the direction in which rain flows, inside the tile, plate glass, or corrugated glass. Forming roof tiles, sheet glass, or corrugated sheet glass, forming holes in the construction stage, wire, or nichrome wire inside holes formed in sheet glass, corrugated sheet glass In order to fix the roof tile, sheet glass, or corrugated glass by inserting a coil made of nichrome wire, and for the purpose of generating heat, it is formed inside the roof tile, sheet glass, or corrugated sheet glass. Use the hole that is.

  As a method of (2), a glass tube having an inner diameter of about 5 mm, for example, in parallel to the direction in which rain flows inside the roof tile, plate glass, or corrugated glass, or in the lateral direction in the direction in which rain flows. Or roof tile or iron pipe (hereinafter abbreviated as iron pipe) tile or sheet glass or corrugated sheet glass built in, and tile or sheet glass with iron pipe built in the construction stage Or the purpose of fixing a roof tile, sheet glass, or corrugated sheet glass by inserting a wire, a nichrome wire, or a coil made of nichrome wire into the hole of an iron pipe built in the corrugated sheet glass In order to generate heat, tiles, plate glass, or holes inside iron pipes built into corrugated sheet glass are used.

  As a method of (3), for example, a hole of about 5 mm is formed in the middle portion where two sheets of glass or two sheets of corrugated glass are faced to form a plywood, or two sheets of glass, or 2 For example, a glass tube with an inner diameter of around 5 mm, or a steel tube, or an iron tube with two sheets of glass or two sheets of corrugated glass, Use two sheets of glass sandwiched between the two, or two corrugated glass facing each other to form a hole in the center of the plywood, or use a glass tube, or a steel tube, or an iron tube with two sheets of glass, or Insert a coil made of wire, nichrome wire, or nichrome wire into the hole of an iron pipe, etc., sandwiched between the central parts of two corrugated glass plates, and put two flat glass plates or two corrugated glass plates together. Plywood sheet glass or two corrugated sheets And purpose for fixing the corrugated plate glasses plywood together lath, flat glass was aimed to cause the heat generation, or to form a corrugated plate glass used.

  In addition, Fig. 1 shows that the sheet glass (a) is used on both sides of the iron plate (b) centered on the iron plate (b) using the sheet made of polyvinyl butyral resin (c), and the iron plate (b) Is a building material intended to be used as an outer wall material and a roof material in which sheet glass (a) is bonded and bonded on both sides of an iron plate. FIG. 1 is a longitudinal sectional view, in which the symbol (a) is a sheet glass, the symbol (b) is an iron plate, and the symbol (c) is a polyvinyl butyral resin sheet (PVB).

  Furthermore, FIG. 2 shows that the sheet glass (a) is made of a sheet of polyvinyl butyral resin (c) on both sides of the sheet (b) with the sheet (b) as the center, and the sheet (b). The building material has a structure in which sheet glass (a) is bonded to both sides of the iron plate centering on the plate, and the solar cell (d) is placed only on the surface of one side of the iron plate (b). A structure in which the solar cell (d) is sealed in the middle between the glass plate (a) and the solar cell (d) is sealed in the middle between the steel plate (b) and the glass plate (a) using a polyvinyl butyral resin sheet (c). It is a building material intended to be used as a solar cell panel that is an outer wall material incorporating a building-integrated solar cell (d), or a solar cell panel that is a roof material incorporating a solar cell (d). Fig. 2 is a longitudinal sectional view. Reference numeral (a) in the figure is a sheet glass, reference numeral (b) in the figure is an iron plate, reference numeral (c) in the figure is a sheet made of polyvinyl butyral resin (PVB), and reference numeral in the figure. (D) is a solar cell.

Moreover, what is shown in FIG. 3 is an iron plate (b) using a sheet (c) made of polyvinyl butyral resin on both sides of the iron plate (b) centering on the iron plate (b). The building material has a structure in which sheet glass (a) is bonded to both sides of the iron plate (b) with the center in the center, and the sun with through holes (e) formed only on the surface of one side of the iron plate (b) The solar cell (d) in which the battery (d) is encapsulated in the middle between the iron plate (b) and the glass plate (a) and the through hole (e) is formed on the steel plate using the polyvinyl butyral resin sheet (c) A solar cell panel or solar cell (d), which is an outer wall material incorporating a building material-integrated solar cell (d) that has a structure in which it is enclosed and bonded in the middle between (b) and plate glass (a) It is a building material intended for use as a solar cell panel that is a built-in roofing material. FIG. 3 is a longitudinal sectional view, in which a symbol (a) is a sheet glass, a symbol (b) is a steel plate, a symbol (c) is a polyvinyl butyral resin sheet (PVB), and a symbol in the figure. (D) is a solar cell, and symbol (e) in the figure is a through hole formed in the solar cell (d).

  Further, FIG. 4 shows a plan view of the solar cell (d). Reference numeral (e) in the figure is a through hole formed in the solar cell (d).

  Moreover, as shown in FIG. 3 and FIG. 4, PVB (c) is used on the surface of the iron plate (b) and the solar cell (d) in which the through hole (e) is formed in the solar cell (d). Then, when the three pieces of the iron plate (b), the solar cell (d), and the plate glass (a) are joined and bonded together, as shown in FIG. 3, the through hole (e) formed in the solar cell (d) ) PVB (c) is exposed at the joint part of the solar cell (d) that is bonded and bonded with the adhesive PVB (c) on the surface of the iron plate (b) The PVB (c) exposed on the surface is bonded and bonded to the surface of the iron plate (b) with the plate glass (a) via the through hole (e). By forming a through hole (e) on the surface of d), the three members, iron plate (b), solar cell (d) and plate glass (a), are joined using one PVB (c). Can be pasted together. Further, as shown in FIG. 3, the advantage of this method is that the solar cell (d) and the plate glass have no adhesive layer interposed at the junction between the solar cell (d) and the plate glass (a). Since (a) is directly bonded, solar rays are absorbed by PVB (c), which is an adhesive layer, or other adhesive layers such as adhesives. There is an advantage that the incident light does not become weak. Further, by forming a through hole (e) on the surface of the solar cell (d), a single PVB (c) is used to make an iron plate (b), a solar cell (d), and a plate glass (a) 3 There is also an advantage that the sheets can be bonded and bonded together.

  Further, FIG. 5 shows that a corrugated plate-like height difference is formed on the surface of the iron plate (b) so that the sun rays (f) are sunlit from the direction of the arrow. FIG. 5 shows a state in which the incident light is irregularly reflected by the incident light of the sunlight (f) hitting the inclined surface where the corrugated plate of the iron plate (b) is inclined. FIG. 5 is a longitudinal sectional view, in which the symbol (b) in the figure indicates the iron plate, and the symbol (f) in the diagram indicates the direction of the incident light of the sunlight.

  Moreover, what is shown in FIG. 6 is that the difference in height of the corrugated plate having a washing plate shape similar to the washing plate is formed on the surface of the iron plate (b), so that the sunlight (f) is from the direction of the arrow, Fig. 6 shows the incident light of sunlight (f) being diffusely reflected by the incident light of sunlight (f) hitting the inclined surface where the corrugated plate of the iron plate (b) is inclined. Show. FIG. 6 is a longitudinal sectional view, in which the symbol (b) in the drawing indicates the iron plate, and the symbol (f) in the drawing indicates the direction of the incident light of the sunlight.

Furthermore, what is shown in FIG. 7 is good in the passage of sunlight similar to a plate glass made of plate glass, polycarbonate or acrylic on both sides of the iron plate (b) with the iron plate (b) as the center. , A resin-made flat plate made of a resin that transmits sunlight, a corrugated plate having a corrugated plate shape, or a corrugated plate having a wash plate shape (hereinafter, abbreviated as plate glass or polycarbonate plate). Using a sheet made of polyvinyl butyral resin (c), the building material has a structure in which sheet glass (a) is bonded to both sides of the iron plate (b) around the iron plate (b). b) Enclose the solar cell (d) only on one side of the surface between the steel plate (b) and the plate glass (a), and use the polyvinyl butyral resin sheet (c) for the solar cell (d). Inside the iron plate (b) and plate glass (a) Purpose of use as a solar cell panel that is a building material-integrated solar cell (d) that has been sealed and bonded together, or a solar cell panel that is a roof material that incorporates a solar cell (d) Building materials. FIG. 7 is a longitudinal sectional view, in which the symbol (a) is a sheet glass, the symbol (b) is a steel plate, the symbol (c) is a polyvinyl butyral resin sheet (PVB), and the symbol in the figure. (D) is a solar cell.

Moreover, what is shown in FIG. 8 is good in the passage of solar rays similar to a plate glass made of plate glass, polycarbonate or acrylic on both sides of the iron plate (b) with the iron plate (b) as the center. , A resin-made flat plate made of a resin that transmits sunlight, a corrugated plate having a corrugated plate shape, or a corrugated plate having a wash plate shape (hereinafter, abbreviated as plate glass or polycarbonate plate). Using a sheet made of polyvinyl butyral resin (c), the building material has a structure in which sheet glass (a) is bonded to both sides of the iron plate (b) around the iron plate (b). b) Enclose the solar cell (d) only on one side of the surface between the steel plate (b) and the plate glass (a), and use the polyvinyl butyral resin sheet (c) for the solar cell (d). Between steel plate (b) and plate glass (a) It is intended to be used as a solar panel that is a solar cell panel that is an exterior wall material incorporating a solar cell (d) with a built-in construction material that is enclosed and bonded together, or a solar cell panel that is a roof material incorporating a solar cell (d). Building material. FIG. 8 is a longitudinal sectional view, in which a symbol (a) is a sheet glass, a symbol (b) is a steel plate, a symbol (c) is a polyvinyl butyral resin sheet (PVB), and a symbol in the figure. (D) is a solar cell.

In addition, corrugated sheets made of iron, stainless steel, copper, aluminum, polycarbonate corrugated, polycarbonate corrugated, vinyl chloride, acrylic, or other resin, or other materials (below) On the surface of the iron plate or corrugated plate), a corrugated plate shape similar to the tin plate as shown in FIG. 5, or a washing plate as shown in FIG. An ultra-thin solar cell of about 50 μm on the surface of the iron plate formed on the surface of the iron plate with a height difference that is similar to the shape of the uneven surface, as shown in FIG. 4, a sheet made of polyvinyl butyral resin (Hereinafter abbreviated as PVB), a structure in which both sides are flat glass with a steel plate as the center, and a solar cell is embedded and enclosed between the steel plate and the glass on one side that receives sunlight. The sun When the pond panel is formed, a difference in height is formed on the surface of the iron plate, which is a corrugated or washing plate-shaped unevenness as shown in FIGS. 5 and 6 on the surface of the iron plate. As a result, the rate at which the solar rays penetrate the inside of the solar cell is increased, so that the power generation efficiency of the solar cell is increased. Moreover, since the rate at which solar rays diffusely reflect through the solar cell increases, the power generation efficiency of the solar cell increases.

Corrugated plates made of iron, stainless steel, copper, aluminum, polycarbonate corrugated, polyvinyl chloride, acrylic corrugated or other resins, or other materials (hereinafter referred to as corrugated plates) On the surface of the iron plate), similar to the corrugated plate shape as shown in FIG. 5 or similar to the washboard shape as shown in FIG. As shown in FIG. 7 and FIG. 8, a sheet made of polyvinyl butyral resin is used to form a very thin solar cell of about 50 μm on the surface of the iron plate, which is formed on the surface of the iron plate with a level difference that is a rough shape. (Hereinafter abbreviated as PVB), using a corrugated polycarbonate corrugated sheet on both sides with an iron plate as the center, a solar cell is placed between the iron plate on one side and the polycarbonate corrugated plate against which the sun rays shine. Use PVB When a solar cell panel having a sealed structure is installed and sealed, the shape of the solar cell as shown in FIG. 7 and FIG. 8 is changed to the corrugated plate shape or the shape of the solar cell on the surface of the iron plate. Compared with flat plate shaped glass plate or flat plate shaped polycarbonate corrugated plate, by forming the difference in height on the surface of the iron plate, which is uneven in the shape of a washing plate, Since the installation area of the solar cell per area is increased, there is an advantage that the power generation efficiency of the solar cell is increased.

Furthermore, FIG. 9 shows a corrugated sheet made of iron plate (b), a corrugated sheet made of sheet glass (b), or a corrugated sheet made of polycarbonate (b), or acrylic (b ), Corrugated sheet made of vinyl chloride (b), or corrugated sheet made of other resin (hereinafter abbreviated as iron sheet, sheet glass, or polycarbonate). A sheet made of polyvinyl butyral resin (hereinafter abbreviated as PVB) on the surface of a corrugated sheet made of (b), a corrugated sheet made of sheet glass (b), or a corrugated sheet made of polycarbonate (b). Or PVB sheet) or other adhesive material on the surface of solar cell (d), corrugated iron plate (b), or corrugated sheet glass (b) And corrugated plate shape exactly the same as iron plate (b) or glass plate (b) After bonding the solar cell (d) with the PVB sheet (c) on the surface of the steel plate (b) or the plate glass (b), the plate glass (a) on the surface of the solar cell (d) Using a corrugated sheet made of polycarbonate or polycarbonate (a), one side of the solar cell (d) is the iron plate (b) or sheet glass (b), and the other side of the sunbeams One building material that has a structure in which the opposite side of the incident side has good solar ray transmission, and is made of glass (a) or polycarbonate (a) that is bonded and sealed around the solar cell (d). A building material intended for use as a solar cell panel which is an outer wall material incorporating a body-shaped solar cell (d) or a solar cell panel which is a roof material incorporating a solar cell (d). FIG. 9 is a longitudinal sectional view, in which a symbol (a) is a sheet glass, a symbol (b) is a steel plate, a symbol (c) is a polyvinyl butyral resin sheet (PVB), and a symbol in the figure. (D) is a solar cell, and symbol (f) in the figure indicates the direction of incident light of sunlight.

Further, FIG. 10 is different from the drawing shown in FIG. 9 in that the solar cell (d) having a corrugated plate shape is enclosed and sealed by making the cross-sections of both side surfaces into a flat plate shape. FIG. 10 is different from the drawing shown in FIG. 9 in that (d) is made easy to attach to the building.

Further, FIG. 11 differs from the drawing shown in FIG. 9 only in that the through hole (e) is formed in the solar cell (d). The purpose of forming the through-hole (e) in the solar cell (d) is to paste one PVB sheet (c) on the back surface of the solar cell (d), so that the plate glass (a) on the surface of the solar cell (d), Alternatively, the first object is to seal the polycarbonate (a) and the iron plate (b) on the back side or the plate glass (b) by using one PVB sheet (c). The second purpose is to provide a through hole (e) in the solar cell (d), so that the solar cell (d) can be easily struck against the building using nails or wood screws. Building materials intended to be fixed. FIG. 11 is a longitudinal sectional view, in which the symbol (a) is a sheet glass, the symbol (b) is an iron plate, the symbol (c) is a polyvinyl butyral resin sheet (PVB), and the symbol in the figure. (D) is a solar cell, and symbol (e) in the figure is a through hole formed in the solar cell (d).

Further, FIG. 12 differs from the drawing shown in FIG. 11 in that the cross section of both side surfaces that contain and seal the corrugated solar cell (d) is made flat as in FIG. Thus, the difference between FIG. 12 and the drawing shown in FIG. 11 is that the solar cell (d) can be easily attached to the building.

Furthermore, as shown in FIGS. 9, 10, 11, and 12, the solar cell is corrugated in the shape of a corrugated plate, or the solar cell is in the shape of a washing plate. By forming on the surface, the installation area of the solar cell is larger than the flat plate-shaped glass plate or the flat plate-shaped polycarbonate corrugated plate. There is an advantage that the power generation efficiency of the battery is increased.

In addition, as described above, the steel plate is mirror-polished, or the iron plate is metal-plated on the surface of the iron plate using a metal such as gold, silver, copper, chrome, etc. Even if PVB is incorporated and contained, the power generation efficiency of the solar cell is increased because the rate of sunlight penetrating through the inside of the solar cell and irregular reflection increases.

Furthermore, PVB is used between the iron plate and the plate glass, or the polycarbonate corrugated plate only on one side where the sunlight hits, which is configured as a plate glass or polycarbonate corrugated plate on both sides of the iron plate with the iron plate at the center. By incorporating, sealing, and sealing, the iron plate does not come into contact with air, and the iron plate does not oxidize.

Further, since the solar cell does not oxidize, the solar cell does not deteriorate. By enclosing this solar cell using an iron plate and plate glass, or a polycarbonate plate and sealing it, it is a building material that constitutes a house that is a house, an outer wall material that constitutes a building, and a roof material. However, it is a building material that also has a solar cell panel that can generate power using solar rays.

Furthermore, for example, an iron plate with a thickness of around 200 μm, a polycarbonate corrugated plate with a thickness of around 30 μm, an acrylic corrugated plate with a thickness of around 100 μm, a vinyl chloride corrugated plate with a thickness of around 100 μm, or other resin A sheet made of polyvinyl butyral resin (PVB) with adhesive on the both sides of the iron plate as a sheet glass or polycarbonate plate centering on the corrugated plate (hereinafter abbreviated as iron plate or corrugated plate) In the industry's largest manufacturing company of solar cells, for example, with the aim of enabling solar power generation between the steel plate and plate glass or polycarbonate corrugated plate of building materials that are joined and pressure-bonded A solar cell with a thickness of 50μm, which was researched and developed by a German company Q-Cells, was enclosed between an iron plate and a glass plate or a polycarbonate corrugated plate, and the solar cell was made transparent. It is a building material that also serves as a solar cell panel that enables solar power generation by sealing and sealing between an iron plate and a sheet glass or a polycarbonate corrugated sheet using a polyvinyl butyral resin sheet (PVB) A building material-integrated solar battery panel can be produced. The purpose of using solar panels, which are building materials integrated with building materials incorporating solar cells, is a roof material for shops and houses where the roof is made of ultra-thin solar cells and the roof has low strength. Or building materials-integrated building materials that contain solar cells that can generate solar power using solar rays as the outer wall material, so that power is generated using solar rays as the roofing material A building material integrated solar cell panel that is a building material that can be made.

  The present invention provides a fish-eye lens, or compound-eye lens, or a groove shape, a triangular shape similar to a washboard shape, or a corrugated iron shape, or a stepped shape, or a terraced field shape, or a kamaboko barracks shape on the surface of a conventional door mirror, Or a prism is formed and a door mirror without a blind spot is formed.

  In addition, as (1), a sheet woven glass or carbon fiber woven sheet inside a sheet glass, or an iron sheet in which a picture pattern or a hole is formed in an iron sheet, is confined in the middle of the sheet glass, and a sheet glass with a conventional wire mesh is inserted. A plate glass having a stronger strength is formed. As (2), a plate glass and an iron plate are laminated to form a composite plate glass.

  Furthermore, an iron plate is bonded to the surface of the gypsum board with high accuracy to form a gypsum board having the properties of a magnetic material on the surface of the gypsum board.

Moreover, the building material which joined and bonded the plate glass on the both sides | surfaces of an iron plate centering on an iron plate is provided.

Furthermore, it is a building material in which both sides of the steel plate are joined and bonded to each other with the steel plate as the center, but between the iron plate and the plate glass, or the polycarbonate corrugated plate only on one side where the sunlight hits. A solar cell that can convert the energy of solar rays into electric power is used on both sides of the iron plate, centering on the iron plate, using an adhesive that is adhesive between the iron plate and plate glass or polycarbonate corrugated plate. An outer wall material also serving as a solar cell panel in which a plate glass or a polycarbonate corrugated plate is arranged and a solar cell is bonded and bonded to the middle of an iron plate and a plate glass or a polycarbonate corrugated plate only on one side on both sides thereof And building materials such as roofing materials.

Claims (14)

For the purpose of efficiently transmitting power transmission, the inside, or the outside of an iron tube, ceramic tube, or glass tube (hereinafter referred to as a glass tube) or a noble metal such as gold, silver, or copper is used. The inside of a glass tube that has been vapor-deposited or plated is straight, directive, and when power is transmitted using a sine wave of a single wavelength, the radiation loss of the electromagnetic wave is extremely small. An electric power transmission characterized by being able to efficiently transmit electric power over a long distance from Japan to the United States, and a manufacturing method thereof. For example, an adhesive polyvinyl butyral resin sheet (PVB) is used, with an iron plate with the same curvature in between the curved glass plate with the same curvature as the curved glass plate. By forming a building material that is joined by pressure welding with both sides as plate glass centered on an iron plate, it is possible to form a dome-shaped roof with a camaboko-shaped or cylindrical building, Although it is a cheap building with few building materials, it will be a durable building with an extremely few pillars, and it will be a bright indoor building with more than 50% more sunlight. The building material characterized by being able to form, and its manufacturing method. A fish-eye lens, compound-eye lens, groove, groove shape, and prism that is the principle of Fresnel lens on the surface of a conventional door mirror that forms a slightly convex lens shape or a concave lens shape. In addition, the door mirror is formed on the upper and lower parts of the door mirror, the left and right ends of the door mirror, or the center part of the door mirror, so that the driver does not move the line of sight from the inside of the single Dora mirror. The door mirror characterized in that no blind spots are generated by being able to see the field of view up and down, right and left 180 degrees up and down, right next to the direction of travel of the automobile, and rear Production method. A conventional inner mirror having a planar shape for automobiles, or a door mirror similar to the planar shape (hereinafter abbreviated as a rearview mirror), forms an R angle in a slightly convex lens shape or concave lens shape. On the surface of the rearview mirror, a groove that is a cut shape of a V-shaped cut angle, or a plurality of grooves, a washing plate shape, a corrugated plate shape, a tin plate shape, a staircase shape, or a terraced field shape, Alternatively, a mirror having a convex lens shape or a concavo-convex shape (hereinafter, abbreviated as a convex lens shape, a groove, or a plurality of grooves) is rear-mirrored in a vertical direction and a horizontal direction that are perpendicular to the traveling direction of the automobile. Form a groove with a V shape on the surface of the plate by machining, or apply heat to the plate glass to make the plate glass soft, using a convex lens shape, or a mold with grooves formed Grooves are formed on the surface of the rearview mirror by integral molding with less molding process or by etching process (hereinafter abbreviated as etching process) using chemicals such as hydrofluoric acid. And a manufacturing method thereof. Cut the sphere in half on the surface of a passenger rearview mirror or door mirror (hereinafter abbreviated as rearview mirror or door mirror) for passenger cars or passenger cars similar to those used in the past. Convex hemispherical shape, or a hemispherical shape similar to a hemispherical shape, or a convex lens shape similar to a hemispherical shape of a sphere that is cut to less than 1/2, for example, around 2/5 (hereinafter abbreviated convex lens) Shape) is a hemispherical shape, or similar to a hemispherical shape in the center part, one end part, or both end parts, or the upper and lower parts of the interior rearview mirror or door mirror of a passenger car used in the past The projecting shape similar to the convex lens shape of the fish-eye lens or the protruding portion similar to the compound eye lens, or the raised portion, is integrally molded on the surface of the indoor rearview mirror or door mirror of a conventional passenger car. In addition, by providing a convex lens shape on the surface of a conventional rearview mirror or door mirror, it is possible to see the entire view from the left or right or up and down 180 degrees as a field of view, and there is no blind spot at all. Or a door mirror, and a manufacturing method thereof. Convex lens shape with a protruding shape similar to a fisheye lens or compound eye lens on the surface of a conventional door mirror that forms a slightly convex lens shape or a concave lens shape (hereinafter abbreviated as a rearview mirror or door mirror). As a processing means for forming a concave lens shape or a prism (hereinafter abbreviated as a convex lens shape, a concave lens shape, or a prism) which is the principle of a Fresnel lens, a mirror surface part manufacturing a conventional door mirror is manufactured. Explaining the process, as a first processing means, a large plate glass is cut into the size of the rearview mirror. As the second processing step, heat is applied to the plate glass cut to the size of the rearview mirror, and the plate glass is bent slightly into a convex lens shape or a concave lens shape. As a third processing step, a mirror is made by coating a thin film of a metal film such as chrome or silver on the surface of the plate glass on the surface of the plate glass as the back surface of the rearview mirror using a sputtering type vapor deposition machine. . In the second processing step described above, the plate glass is heated to be bent slightly into a convex lens shape or a concave lens shape (hereinafter referred to as a conventional rearview mirror). Similar to fisheye lens shape or compound eye lens shape on the top and bottom or both ends of the conventional rearview mirror surface at the stage of heating and bending the glass plate in the process of manufacturing the rearview mirror into a convex lens shape or concave lens shape Convex lens shape that protrudes from the surface of the glass sheet that is heated using a mold that is intended to form a convex lens shape that protrudes or a concave concave lens shape or a prism that has a groove shape, or a concave lens Shape or prism is integrally molded at the same time as the conventional rearview mirror molding process, similar to fisheye lens or compound eye lens on the surface of conventional rearview mirror Convex lens shape, concave lens shape, or prism in a conventional rear-view mirror with a conventional slightly slightly convex lens shape, and a convex lens shape, concave lens shape, or groove-shaped prism at the same time A rearview mirror characterized by being integrally molded using a mold intended to be provided inside a conventional rearview mirror, and a method for manufacturing the rearview mirror. Instead of the wire mesh contained in the conventional plate glass, a wire mesh with a high density of the wire mesh, a fabric made of carbon fiber, a fabric made of extremely thin wire, or a metal plate as thin as possible For example, a metal plate having a shape such as a picture pattern or a hole punched out on a metal plate of 200 μm or less by a processing means such as press processing is confined in the central portion of the plate glass. Interior materials, exterior materials, ceiling materials, corrugated roof materials, Japanese tiles, western tiles, and methods of manufacturing the same. Instead of the conventional wire mesh placed inside the plate glass, a wire mesh with a high density of the wire mesh, or a fabric made of carbon fiber, or a fabric made of extremely thin wire is used as the central part of the plate glass. An interior material, an exterior material, a ceiling material, or a building material characterized in that the confined plate glass is formed into a corrugated plate shape, a Japanese roof tile, or a western roof tile by means of heating and pressing. Corrugated roofing material, Japanese tile, or Western tile, and a method for manufacturing the same. Instead of the wire mesh placed inside the conventional plate glass, the carbon fiber has a low specific gravity, so for the purpose of increasing the specific gravity of the carbon fiber, the carbon fiber to sink into the raw material in which the raw material of the plate glass is dissolved For the purpose of increasing the specific gravity of the yarn, a mixed yarn of carbon fiber and wire mixed with carbon fiber and a very thin wire (hereinafter abbreviated as carbon fiber, or between carbon fiber and wire). If the yarn formed by using (mixed twisted) or wire mesh is formed, or the woven fabric formed using carbon fiber with a heavy specific gravity is submerged and confined inside the plate glass, The specific gravity of the fiber formed using carbon fiber mixed with carbon fiber and wire is heavier than the specific gravity of the raw material of the flat glass in which the raw material of the flat glass is dissolved. Of woven flat glass And sunk in part interior material is a building material, characterized in that trapped inside of the glass sheet, the exterior material, a ceiling material, a roof material of corrugated shape, Japan roof tiles, western tiles, and their preparation methods. The conventional method for producing gypsum board is to make the gypsum board raw material, which has water absorbed into the gypsum board raw material, poured the gypsum board raw material onto the surface of the paper, and when the gypsum hardens the paper The paper and gypsum board are bonded together by intruding into the interior of the paper. In the present invention, gypsum board raw material is applied on the surface of an iron plate that is bonded to the surface of an aluminum, copper plate, stainless steel plate, and iron plate (hereinafter abbreviated as iron plate) using an adhesive or the like. A processing means that grows the needle-shaped crystals that are formed when the gypsum hardens into the interior of the paper in the middle of the iron plate and the gypsum board by pouring into the inside of the paper that has been poured and stuck on the surface of the iron plate The first object is to bond the iron plate on the surface of the gypsum board with high accuracy, using the surface accuracy of the iron plate bonded on the surface of the gypsum board. The second purpose is to form a gypsum board on which a magnetic iron plate is bonded, and to adsorb, for example, a memo paper, etc. on the surface of the gypsum board by magnetic force using a magnet. The second purpose is to be able to. The third purpose is to form a gypsum board on which a colored iron plate or the like is bonded, and the surface of the gypsum board is an iron plate, an aluminum plate, a copper plate, and a stainless steel plate. And the like, and a manufacturing method thereof. A sheet made of polyvinyl butyral (hereinafter abbreviated as PVB), for example, an iron plate of 200 μm or more, or an iron plate in which holes are formed, or an iron plate in which alphabets, Arabic numerals, or a pattern is formed, or an aluminum plate, Or both sides of the iron plate centered on the steel plate with the PVB sheet affixed on the surface of the iron plate on both sides of the copper plate or stainless steel plate (hereinafter abbreviated as iron plate) Both sides of a metal plate such as an iron plate, an aluminum plate, a copper plate, or a stainless steel plate, characterized by forming a sandwich-shaped plate glass having a plate glass as a center and a plate glass on both sides. A tempered glass, a building material, and a manufacturing method thereof, in which a plate glass is bonded on a surface. Using sheet glass on both sides of the iron plate centering on the iron plate, using a sheet made of polyvinyl butyral resin, using the glass sheet as the center of the iron plate and bonding the plate glass on both sides of the iron plate, and used as a roofing material Building materials for the purpose of. Building materials that have a structure in which sheet glass is laminated on both sides of the iron plate, centering on the iron plate, using sheet made of polyvinyl butyral resin on both sides of the iron plate, centering on the iron plate, The solar cell is sealed and sealed between the iron plate and the plate glass only on one surface, and the solar cell is sealed between the iron plate and the plate glass using a polyvinyl butyral resin sheet. A building material intended for use as a solar cell panel, which is an outer wall material containing a built-in building material-integrated solar cell, or a roof material, which is a roof material incorporating a solar cell. Building materials that have a structure in which sheet glass made of polyvinyl butyral resin is used on both sides of the iron plate centering on the iron plate, and sheet glass is laminated on both sides of the iron plate around the iron plate, and one side of the iron plate Solar cells with through-holes formed only on the surface of the steel plate are sealed between the steel plate and plate glass and sealed, and the solar cells with through-holes are made of steel and plate glass using a polyvinyl butyral resin sheet. It is a solar cell panel that is an exterior wall material that contains a built-in type solar cell that has a structure in which it is sealed in between and sealed, and the solar cell is incorporated and bonded together, or a roof material that incorporates solar cells. A building material intended for use as a solar panel.

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