JP2013204225A - Method for attaching corrugated sheet-shaped galvanized plate, and machining method for the galvanized plate - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a galvanized plate which forms a solar battery on a surface of a corrugated sheet-shaped galvanized plate, and a machining method for the galvanized plate.SOLUTION: A corrugated sheet-shaped galvanized plate 2, in which a nut 6 is fixed on the surface of the corrugated sheet-shaped galvanized plate 2 by forming an arc-welded portion 13 or a metallic adhesive portion 13, is formed so as to attach a solar battery 1 onto the surface of the corrugated sheet-shaped galvanized plate 2.

Description

The present invention provides a process for forming a thin-film solar cell (1) on the surface of a corrugated corrugated iron plate (2) (hereinafter simply referred to as a corrugated steel plate or a corrugated steel plate). It is about the method.

Further, the present invention relates to a rafter (3) or a wall constituting a roof of a house made of a corrugated corrugated steel plate or a corrugated corrugated steel plate (hereinafter referred to simply as a corrugated steel plate). The present invention relates to attaching a corrugated steel plate (2) or a steel plate (8) made of a flat plate to the rafter (3) that is constructed from the back side.

In order to install the solar cell (1), for example, a structure for installing the solar cell (1) on the surface of the roof of the house is formed, and the structure formed on the surface of the roof of the house is formed. The present condition is attaching the solar cell (1).

Moreover, after forming the solar cell (1) on the surface of the corrugated steel plate (2), the corrugated steel plate (2) is used as the rafter (3) constituting the roof of the house. The nail (4) is used to form the solar cell (1) on the surface of the rafter (3), and the corrugated steel plate (2) is attached to the rafter (3). When it is used and struck, rainwater enters from the portion where the rafter (3) is struck by the corrugated steel plate (2) using the nail (4), and the corrugated steel plate ( The solar cell (1) formed on the surface of 2) has a defect that the solar cell (1) is peeled off. The solar cell (1) is formed on the surface of the conventional corrugated iron plate (2). It is a solar cell.

Furthermore, when attaching the corrugated steel plate (2) to the rafter (3) constituting the roof of the house, the surface of the corrugated steel plate (2) using nails (4) Using a nail (4), a corrugated steel plate (2) is used to form a corrugated steel plate (2) on the rafter (3) of the roof constituting the house. Using the nail (4) from the surface of 2), the corrugated steel plate (2) using the nail (4) to the rafter (3) is hit against the rafter (3).

The rafter (3) constituting the roof of the house on the back surface of the corrugated iron plate (2) is attached to the nail (4), the bolt (5), the nut (6), the hook (7), or Pad eye (7) or long eye (7) or open pad eye (7) or eye strap (7) or UK turnbuckle (7) (hereinafter abbreviated as nut, hook or eye) )
Or, use other means to attach the rafter (3) to the back surface of the corrugated iron plate (2) and fix it on the surface of the corrugated steel plate (2). On the surface of the corrugated corrugated steel plate (2) by using the corrugated corrugated steel sheet (2) on which the battery (1) is formed as a roofing material for the house and directly as the roof of the house. The rainwater enters from the surface of the corrugated steel plate (2) formed by the solar cell (1), and the solar cell from the surface of the corrugated steel plate (2). The purpose is to prevent (1) from peeling off.

Moreover, when the corrugated iron plate (2) is used as a roof material constituting a house, the corrugated steel plate (2) is used as a rafter (3) constituting the house. When the nail (4) is used from the surface of the shaped tin plate (2) to the rafter (3) constituting the house, the corrugated tin plate (2) is turned into the rafter (3). Using the nail (4) to prevent the corrugated steel plate (2) from rusting due to rainwater entering from the hole where the nail (4) is struck against the rafter (3). With the goal.

After attaching the rafter (3) constituting the house to the back surface of the corrugated iron plate (2) and fixing the solar cell (1 The solution means is to use the corrugated iron plate (2) formed as a roofing material for a house.

Moreover, by attaching the rafter (3) constituting the roofing material of the house from the back side to the corrugated steel plate (2), the corrugated steel plate (2) is completely damaged on the surface. The solution means is to attach and fix the corrugated iron plate (2) to the rafter (3) constituting the roof material of the house without doing so.

The rafter (3) constituting the roof of the house on the back surface of the corrugated iron plate (2) is attached to the nail (4), the bolt (5), the nut (6), the hook (7), or Pad eye (7), or long eye (7), or open pad eye (7), or eye strap (7), or UK turnbuckle (7), or L bar with nut (hereinafter abbreviated as nut, or Corrugated steel plate after fixing rafter (3) to the back of corrugated steel plate (2) using hook or eye) or other means The corrugated iron plate (2) having the solar cell (1) formed on the surface of (2) is used as a roofing material for a house and directly as a roof for a house, thereby forming a corrugated sheet shape. Solar cell (1) formed on the surface of the tin plate (2) It is possible to prevent the rainwater from entering from the surface of the corrugated stainless steel plate (2) and the solar cell (1) from peeling off from the surface of the corrugated steel plate (2). There is an effect that can be done.

In addition, the corrugated plate shape described above for the spherical silicon solar cell module whose product name is manufactured and sold by Clean Venture 21 Co., Ltd., located in Kamikoba Taichocho 35, Minami-ku, Kyoto, Japan The solar cell (2) or the corrugated steel plate (2) having a higher power generation efficiency by forming on the surface of the flat plate (2) or the flat plate (8). Alternatively, there is an effect that it can be formed on the surface of the flat-plate-like tin plate (8).

Furthermore, the corrugated iron plate (2) described above, or the tin plate (8) made of a flat plate (hereinafter, abbreviated as a tin plate or an iron plate) is constructed. A tin plate which is an iron plate inside a plating tank in which a base material of an alloy of aluminum (Al) 55% + zinc (Zn) 43.4% + silicon (Si) 1.6% is melted on the surface of the iron plate Waves that have been soaked and plated, with the name galvalume-plated (hereinafter abbreviated as "galvastar" or "ZG" as the product name manufactured and sold by Galva Steel or Nisshin Steel) On the surface on which the solar cell (1) is formed on the surface of the tin plate, on which the solar cell (1) is formed on the surface of the platinum plate (2) having a plate shape or on the surface of the tin plate (8) made of a flat plate Using nails (4) to rafters (3) that make up the roof of the house from A corrugated steel plate (2) forming a solar cell (1) in contact, or a tin plate (8) made of a flat plate using a nail (4) to a rafter (3) Even if it is struck from above, the tin plate made of galva steel plate is highly corrosion resistant and resistant to corrosion, so the solar cell (1) formed on the surface of the tin plate made of galva steel plate and corrugated plate Since the progress of peeling from the shaped tin plate (2) or the tin plate (8) made of a flat plate can be most reduced, the corrugated tin plate made of galvanized steel plate (2 The solar cell (1) is formed on the surface of). Or, if the steel plate (1) is formed on the surface of the steel plate (8) made of a flat plate, the roof of the house is constructed from the surface of the steel plate using nails (4). The rafter (3) is effective in that the tin plate can be driven directly onto the rafter (3) using the nail (4) from the surface on the surface of the tin plate.

Also, corrugated tin plate (2) suitable for uses in poultry houses, pig houses, cattle houses, and compost houses, or a corrugated steel board (8) made of flat plates (hereinafter referred to as the tin plate). For example, Nisshin Steel Co., Ltd. manufactures and sells zinc (Zn) 91% + aluminum (Al) which is excellent in ammonia resistance and wet resistance. 6% + magnesium (Mg) 1% metal on the surface of a corrugated steel plate made of corrugated plate using ZAM steel plate that has been subjected to double-bake plating in the inside of the plating tank in which the metal is melted A solar cell (1) is formed. Alternatively, when the solar cell (1) is formed on the surface of the platinum plate (8) made of a flat plate, there is an effect excellent in ammonia resistance and wet resistance.

Further, the corrugated stainless steel plate (2) is replaced with a bolt (5), a nut (6), a hook (7), a pad eye (7), a long eye (7), or an open pad eye (7). ), Or eye strap (7), or UK turnbuckle (7), or L bar with nut (hereinafter abbreviated as nut, hook or eye), or other means, By attaching the rafter (3) to the rafter (3) from the back side of the corrugated steel plate (2) to the rafter (3) constituting the roof, a nail ( 4) From the back to the rafter (3), the corrugated iron plate (2) is formed on the rafter (3) of the roofing material that constitutes the house without damaging the wounds generated by hitting. Because it is installed and fixed, corrugated tin Since the corrugated stainless steel plate (2) can be used as a roofing material without generating any scratches on the surface of (2), for example, the product name described above is the Galvaster (ZG) Steel sheet or ZAM steel sheet is used to form corrugated stainless steel sheet (2). Is made of corrugated corrugated iron plate (2) and flat plate that does not corrode at all for 30 to 50 years, which is 3 to 5 times the warranty period of 10 years. There is an effect that the tin plate (8) can be formed.

On the surface of a corrugated tin plate (2) or a tin plate (8) made of a flat plate (hereinafter abbreviated corrugated tin plate or tin plate), a solar cell ( An adhesive layer (10) is formed using an adhesive (10) in the middle between 1) and corrugated stainless steel plate (2), and solar cell (1) and corrugated steel plate The use effect of the solar cell (1) integrated by joining (2) will be described in the following (1) to (17).

As a utilization effect of (1), if the solar cell (1) is bonded and integrated using the adhesive layer (10) on the surface of the corrugated iron plate (2), the house is When it is used as a roof of a roof material that is configured, there is an effect that there is no need to form any structure necessary to attach the solar cell (1).

As a utilization effect of (2), the solar cell (1) integrated with the adhesive layer (10) interposed on the surface of the corrugated iron plate (2) has a corrugated shape. The back surface of the tin plate (2) is an air layer, and the solar cell (1) can be cooled by circulating or connecting the air in the air layer to the outside air. There is a utilization effect capable of suppressing a decrease in electrical conversion rate due to an increase in surface temperature.

As a utilization effect of (3), a solar cell integrated with the corrugated steel plate (2) by interposing an adhesive layer (10) on the surface of the corrugated steel plate (2). If it is (1), anyone who has constructed a corrugated iron plate (2) having a conventional corrugated shape, for example, a carpenter or other experienced person, can attach the solar cell (1) to a house. There is a utilization effect that can be constructed as a roof that constitutes.

As a utilization effect of (4), a solar cell integrated with a corrugated steel plate (2) by interposing an adhesive layer (10) on the surface of the corrugated steel plate (2). In the case of (1), the solar cell (1) can be constructed as a roof of a house roof material without requiring any structure necessary for constructing the solar cell (1). Therefore, the solar battery (1) can be used as a roof of a house at a very low cost. In addition, there is an effect that electric wiring is easy.

As a utilization effect of (5), the solar cell integrated with the corrugated steel plate (2) by interposing the adhesive layer (10) on the surface of the corrugated steel plate (2). When (1) is used as a roof of a roof material constituting a house, the sun integrated on the surface of a corrugated iron plate (2), which is the main purpose of the present invention When the battery (1) is constructed as a roof of a roof material, for example, a solar cell (2) is formed on the back surface of the corrugated steel plate (2) and on the surface of the corrugated steel plate (2). 1) As a pre-process before joining and integrating with an adhesive layer (10), for example, a pad eye (7) or a nut ( 7), or bolts (7), hooks (7), etc. were made into corrugated plates using arc welding etc For example, the corrugated iron plate (2) attached to the back surface of the tongue plate (2) using a pad eye (7) or the like is used as a rafter (3) of a member constituting the house. Since corrugated iron plate (2) is installed from the back side of corrugated steel plate (2), it is compared with the conventional corrugated steel plate (2). If this is done, the corrugated stainless steel plate (2) will not be damaged at all by using nails or the like on the surface of the corrugated steel plate (2). There is no use effect.

The effect of using (6) is, in particular, the corrugated plate shape made by using Nisshin Steel Co., Ltd., which is manufactured and sold by the company, and the product name is Galvaster or ZAM. If the corrugated iron plate (2) is installed without damaging it using nails to attach the corrugated steel plate (2), it will take 30 to 50 years. The corrugated stainless steel plate (2) has a utilization effect that does not corrode.

As a utilization effect of (7), a solar cell (1) having the same shape as the corrugated steel plate (2) is formed on the surface of the corrugated steel plate (2). Since (1) is pasted, the appearance is very glossy, and there is a use effect that can make a beautiful roof.

As an effect of using (8), the solar cell (1) is formed on the surface of the corrugated iron plate (2) by using the adhesive layer (10) or other joining means, thereby forming the corrugated plate shape. The corrugated steel plate (2) forming the solar cell (1) on the surface of the steel plate (2) is connected to the rafter (3), which is a member constituting the house, with the bolt (5), And the nut (6), it is a construction means that is attached from the back side of the corrugated iron plate (2). It can be used as a roof.

As a utilization effect of (9), for the purpose of attaching the solar cell (1) on the surface of the corrugated tin plate (2), a nut ( 6) formed an arc welded part (13) or a metal adhesive part (13), and a nut (6) was fixed on the surface of the corrugated iron plate (2) to form a corrugated sheet By forming the tin plate (2), for example, a spherical silicon solar cell module (output 115W) manufactured and sold by Clean Venture 21 Co., Ltd., located in Kagami Toba Daimoncho 35, Minami-ku, Kyoto, As shown in FIG. 37, a spherical silicon solar cell module (output 115W) is used by using a nut (6) that is fixed on the surface of a corrugated tin plate (2). Corrugated iron plate (2 It is the use effect of the on the surface easily firmly attached it is possible.

The effect of using (10) is that, for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2), a nut ( 6) Arc welding part (13) or metal adhesive part (13) is formed, and after fixing nut (6) on the surface of corrugated iron plate (2), corrugated sheet An arc welded part (13) or a metal adhesive part (13) is formed on the back surface of the shaped tin plate (2), and a pad eye (7), a long eye (7), or an open pad eye ( 7), or eye strap (7) (hereinafter abbreviated as pad eye), and the rafter (3) constituting the house from the back surface of the corrugated steel plate (2), The solar cell (1) is formed on the surface of the corrugated iron plate (2). A solar cell is formed on the surface of the corrugated steel plate (2) by attaching it to the rafter (3) constituting the house from the back surface of the corrugated steel plate (2). Even if (1) is formed, there is no need to form a special structure to attach the solar cell (1).

The effect of using (11) is that, for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2), a nut ( 6) After forming the arc welding part (13) or the metal adhesive part (13) and fixing the nut (6) on the corrugated iron plate (2) surface, Centered on the foamed polystyrene board, which is made of a foamed polystyrene board and aluminum, with an adhesive layer (10) formed on both side surfaces, in the middle between the stainless steel plate (2) and the solar cell (1). For example, products that are manufactured and sold by JSP Co., Ltd., whose location is in 3-4-2 Marunouchi (Nisseki Building), Chiyoda-ku, Tokyo. The name is Mirapane Ace (hereinafter abbreviated as Mirapane Ace) The plywood that is made of that), hereinafter referred to as Mirapaneesu plywood (20). A corrugated iron plate (2) and a solar cell (1) interposing adhesive layers (10) formed on both sides of a plywood (20) made of this Mirapane ace plywood (20) Laminated. Further, an arc welded part (13) or a metal adhesive part (13) is formed on the back surface of the corrugated tin plate (2) to form a pad eye (7), a long eye (7), or an open. Corrugated tin with pad eye (7) or eye strap (7) (hereinafter abbreviated as pad eye) formed on the back surface of corrugated corrugated tin plate (2) With the formation of the plate (2), even if a human freely walks on the surface of the solar cell (1) formed on the surface of the corrugated iron plate (2), it can withstand the weight of the human. It becomes the structure of the solar cell (1) that can be used. It also has a soundproofing effect. Furthermore, the solar cell (1) is laid on the surface of the corrugated iron plate (2), which has a heat resistance effect. The solar cell (1) is laid on the corrugated steel plate (2). However, no special structure is required at all, and the solar cell (in the same work process as the work process of laying the corrugated iron plate (2) as the roof of the roofing material) 1) There is a utilization effect that can be laid.

As a utilization effect of (12), for the purpose of attaching the solar cell (1) on the surface of the corrugated tin plate (2), a nut ( 6) After forming the arc welding part (13) or the metal adhesive part (13) and fixing the nut (6) on the corrugated iron plate (2) surface, Adhesive layers (10) formed on both sides of a Mirapane Ace plywood (20) made of a polystyrene foam plate and an aluminum plate, between the made tin plate (2) and the solar cell (1). ) Interposing a corrugated steel plate (2) and a solar cell (1), and fixing the corrugated steel plate (2) with a nut (6) and a bolt ( 5) and corrugated tin plate (2) and Mirapane Ace plywood ( 0) and corrugated tin plate (2) are combined to form an arc welded portion (13) or metal adhesive portion (13) on the back surface of corrugated tin plate (2). Then, using a pad eye (7), a long eye (7), an open pad eye (7), or an eye strap (7) (hereinafter referred to as a pad eye for short), a corrugated plate shape was formed. Corrugated corrugated sheet (2) by forming corrugated corrugated sheet (2) that can be attached to rafters (3) constituting the house from the back of corrugated sheet (2) Even if a human walks freely on the surface of the solar cell (1) formed on the surface of the solar cell (1), the structure of the solar cell (1) can withstand the weight of the human. It also has a soundproofing effect. Further, the solar cell (1) is formed on the surface of the corrugated iron plate (2) having a heat resistance effect. The solar cell (1) is installed because it is the corrugated steel plate (2). However, there is no need for any special structure, and the solar cell (with the same work process as the work process of installing the corrugated iron plate (2) as the roof of the roofing material) 1) There is a utilization effect that can be laid.

As a utilization effect of (13), when the corrugated steel plate (2) is used as the roof of a house and the corrugated steel plate (2) is currently used, The corrugated steel plate (2) in which the solar cell (1) is formed on the surface of the corrugated steel plate (2) described above is currently used as a roof of a house. A corrugated steel plate (2) is formed by forming a hole in the corrugated steel plate (2) constituting the roof of the house from the surface of the steel plate (2) having a plate shape. In order to firmly fix the corrugated iron plate (2) formed on the surface of the solar cell (1) to the rafter (3) constituting the house through the corrugated plate, Pad eye (7), long eye (7), or open pad attached to the back of the tin plate (2) Using the eye (7) or eye strap (7) (hereinafter abbreviated as pad eye), bolt (5), nut (6), or L rod with nut, When the corrugated steel plate (2) forming the solar cell (1) is overlapped and overlapped from the surface of the corrugated steel plate (2) used as a roof There is an effect that the solar cell (1) can be attached more easily.

The effect of (14) is conventionally made of a tile roof as a roof material of a house, a roof of a slate roof material made of cement, or a roof of a roof material made of other artificial thin plates. The roof of the house (hereinafter abbreviated as a tiled roof) has a corrugated shape in which the solar cell (1) is formed on the surface of the corrugated iron plate (2) described above. When installing the tin plate (2), similar to the contents explained above, a house is constructed by forming a hole in the tile roof tile that constitutes the roof of the house and penetrating the tile. In order to fix the corrugated steel plate (2) on which the solar cell (1) is formed on the surface of the rafter (3), the back surface of the corrugated steel plate (2) Pad eye (7), long eye (7), or open pad eye (7) , Or eye strap (7) (hereinafter abbreviated as pad eye), bolt (5), nut (6), or L rod with nut, etc. The tiled roof or slate currently used for the corrugated iron plate (2) forming the solar cell (1) from the surface used as the tiled roof or slate roof. When the installation is done by firmly overlapping and fixing on the roof surface made of the above, the corrugated steel plate (2) currently used as the roof of the house as described above ), The solar cell (1) is more easily arranged on the surface of the roof tile, similarly to the case where the corrugated iron plate (2) forming the solar cell (1) is installed on the surface of the roof tile, Or firmly fix it on the surface of the roof made of slate. It may use effect that can be.

The effect of using (15) is that, for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2), a nut ( 6) After forming the arc welding part (13) or the metal adhesive part (13) and fixing the nut (6) on the corrugated iron plate (2) surface, A plywood (20) made of a polystyrene foam plate and a plate made of aluminum is formed between the made tin plate (2) and the solar cell (1) with an adhesive layer (10) interposed. Then, after the lamination, an arc welded portion (13) or a metal adhesive portion (13) is further formed on the back surface of the corrugated iron plate (2) to form a pad eye (7), or Long eye (7) or open pad eye (7) or eye strap ( ) (Hereinafter abbreviated as pad eye), the roof of the house is attached to the rafter (3) constituting the house on the back surface of the corrugated steel board (2). A hole (22) is formed in the constituting roof tile (21), and a pad eye (7) attached on the back surface of the corrugated steel plate (2) and an n-shaped nut at the tip portion Using the L-shaped rod (14) with a nut having an n-shaped tip, the L-shaped rod (14) is passed through the hole (22) formed in the roof tile (21). The rafter (3) is composed of a solar cell (1) on the surface of the corrugated tin plate (2) and a soundproofing effect on the back surface of the corrugated tin plate (2). Or, for the purpose of improving the heat insulation effect or the adhesion to the roof tile (21), both sides are flat, or one side is flat. A corrugated steel plate (2), with one side of the sheet being used as a roof tile tile, a styrofoam plate (11) having a shape similar to the shape of the tile intervening in the middle of the sandwich shape (2 The corrugated iron plate (2) forming the solar cell (1) on the surface of) is firmly attached to the rafters (3) constituting the house and is made of roof tiles (21). On the surface of the roof, there is a utilization effect capable of forming the corrugated steel plate (2) forming the solar cell (1) on the surface of the corrugated steel plate (2). .

The effect of using (16) is that, for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2), a nut ( 6) After forming the arc welding part (13) or the metal adhesive part (13) and fixing the nut (6) on the corrugated iron plate (2) surface, A plywood (20) made of a polystyrene foam plate and a plate made of aluminum is formed between the made tin plate (2) and the solar cell (1) with an adhesive layer (10) interposed. Then, after the lamination, an arc welded portion (13) or a metal adhesive portion (13) is further formed on the back surface of the corrugated iron plate (2) to form a pad eye (7), or Long eye (7) or open pad eye (7) or eye strap ( ) (Hereinafter abbreviated as pad eye), the roof of the house is attached to the rafter (3) constituting the house on the back surface of the corrugated steel board (2). A hole (22) is formed in the constituting roof tile (21), and a pad eye (7) attached on the back surface of the corrugated steel plate (2) and an n-shaped nut at the tip portion Using the L-shaped rod (14) with a nut having an n-shaped tip, the L-shaped rod (14) is passed through the hole (22) formed in the roof tile (21). The rafter (3) is composed of a solar cell (1) on the surface of the corrugated tin plate (2) and a soundproofing effect on the back surface of the corrugated tin plate (2). Or, for the purpose of improving the heat insulation effect or the adhesion to the roof tile (21), one side is corrugated and the other side is flat. Alternatively, the surface of the corrugated steel plate (2) that is used as a roof tile tile, sandwiching a polystyrene foam plate (9) with a shape similar to that of the tile in the middle of the sandwich shape The surface of the roof made of tiles (21) with the corrugated iron plate (2) forming the solar cell (1) on it firmly attached to the rafters (3) constituting the house On top of this, there is a utilization effect capable of forming the corrugated tin plate (2) forming the solar cell (1) on the surface of the corrugated tin plate (2).

The effect of (17) is that, for the purpose of mounting the solar cell (1) on the surface of the flat plate (8) made of a flat plate, a nut ( 6) After forming the arc welding part (13) or metal adhesive part (13) and fixing the nut (6) on the surface of the flat plate (8) made of flat plate, A plywood plate (20) made of a polystyrene foam plate and a plate made of aluminum is formed between an aluminum plate (8) and a solar cell (1) with an adhesive layer (10) interposed therebetween. Then, after laminating, an arc welded portion (13) or a metal adhesive portion (13) is formed on the back surface of the flat plate (8) made of a flat plate, and a pad eye (7), or Long eye (7) or open pad eye (7) or ice Using a wrap (7) (hereinafter abbreviated as pad eye), the rafter (3) constituting the house is mounted on the back surface of the flat board (8) made of flat plate. A hole (22) is formed in the tile (21) constituting the roof, and the pad eye (7) attached on the back surface of the flat plate (8) made of a flat plate and the tip portion are n-shaped. Using the L-shaped rod (14) with a nut, the inside of the hole (22) formed in the roof tile (21) is passed through the nut (14) with a nut, and the tip is n-shaped. The rafters (3) constituting the house, the solar cell (1) on the surface of the steel plate (8) made of a flat plate, and the back surface of the steel plate (8) made of a flat plate For the purpose of enhancing the soundproofing effect, the heat insulating effect, or the adhesion to the roof tile (21), both side surfaces are flat plate shapes or pieces. Is a flat plate shape, and the other side is used as a roof tile tile. A styrofoam plate (11) having a shape similar to the tile shape is interposed in the middle of the sandwich shape, and the flat plate shape is changed. The tin plate (8) made of a flat plate, which forms the solar cell (1) on the surface of the made tin plate (8), is firmly attached to the rafter (3) constituting the house and the roof tile (21 ) On the surface of the roof made of flat plate, and on the surface of the steel plate made of flat plate (8) forming the solar cell (1) on the surface of the flat plate made of flat plate (8). There is an advantage that the tin plate (8) made of the flat plate forming the battery (1) can be formed.

FIG. 1 shows that a corrugated tin plate (2) having a solar cell (1) directly attached is formed on the surface of a corrugated tin plate (2) to form a solar plate. The surface of the corrugated steel plate (2) again for the purpose of attaching the solar cell (1) directly to the rafters (3) of the roof material that constitutes the roof of the house. Above, corrugated iron plate (2) directly forming solar cell (1), solar cell (1) directly on rafters (3) constituting the roofing material of the house directly The rafters (3) and nails (4) are used on the corrugated tin plate (2) for the purpose of directly using the solar cell (1) as the roof constituting the house. After attaching rafters (3) using nails (4) to the back of corrugated steel plates, corrugated steel plates On the surface of the corrugated plate (2), a solar cell (1) having the same shape as the corrugated tin plate (2) is bonded to the surface of the corrugated tin plate (2) with an adhesive ( 10) is used for pasting and joining, or the solar cell (1) is joined on the surface of the corrugated iron plate (2) using other means, and then the house is constructed again. FIG. 1 shows a longitudinal sectional view in which a rafter (3) is attached to a corrugated tin plate (2) for the purpose of reattaching to the rafter (3) of the roofing material. FIG. 2 shows that a corrugated tin plate (2) having a solar cell (1) directly attached is formed on the surface of a corrugated corrugated tin plate (2). The surface of the corrugated steel plate (2) again for the purpose of attaching the solar cell (1) directly to the rafters (3) of the roof material that constitutes the roof of the house. Above, corrugated iron plate (2) directly forming solar cell (1), solar cell (1) directly on rafters (3) constituting the roofing material of the house directly The rafters (3) are bolts (5) and nuts to the corrugated steel plate (2) for the purpose of directly using the solar cell (1) as the roof constituting the house. Using (6), use the bolt (5) and nut (6) on the back of the corrugated tin plate After attaching the tree (3), on the surface of the corrugated tin plate (2), the solar cell (1) having the same shape as the corrugated tin plate (2) Attached to the surface of the galvanized steel plate (2) by using an adhesive (10) or bonded to the surface of the corrugated steel plate (2) using other means. After joining the battery (1), the rafter (3) is attached to the corrugated iron plate (2) for the purpose of reattaching it to the rafter (3) of the roof material constituting the house. A longitudinal sectional view is shown in FIG. FIG. 3 shows that a corrugated tin plate (2) in which a solar cell (1) is directly attached is formed on the surface of a corrugated tin plate (2) to form a solar plate. The surface of the corrugated steel plate (2) again for the purpose of attaching the solar cell (1) directly to the rafters (3) of the roof material that constitutes the roof of the house. Above, corrugated iron plate (2) directly forming solar cell (1), solar cell (1) directly on rafters (3) constituting the roofing material of the house directly The rafters (3) and nails (4) are used on the corrugated tin plate (2) for the purpose of directly using the solar cell (1) as the roof constituting the house. After attaching the rafter (3) using the nail (4) to the back of the corrugated tin plate, On the surface of the corrugated plate (2), a solar cell (1) having the same shape as the corrugated tin plate (2) is bonded to the surface of the corrugated tin plate (2) with an adhesive ( 10) is used for pasting and joining, or the solar cell (1) is joined on the surface of the corrugated iron plate (2) using other means, and then the house is constructed again. FIG. 3 shows a longitudinal sectional view of the rafter (3) attached to the corrugated tin plate (2) for the purpose of reattaching to the rafter (3) of the roofing material. FIG. 4 shows that a corrugated tin plate (2) with a solar cell (1) directly attached is formed on the surface of a corrugated corrugated tin plate (2), The surface of the corrugated steel plate (2) again for the purpose of attaching the solar cell (1) directly to the rafters (3) of the roof material that constitutes the roof of the house. Above, corrugated iron plate (2) directly forming solar cell (1), solar cell (1) directly on rafters (3) constituting the roofing material of the house directly The rafters (3) are bolts (5) and nuts to the corrugated steel plate (2) for the purpose of directly using the solar cell (1) as the roof constituting the house. Using (6), use bolt (5) and nut (6) on the back of corrugated tin plate After attaching the tree (3), on the surface of the corrugated tin plate (2), the solar cell (1) having the same shape as the corrugated tin plate (2) Attached to the surface of the galvanized steel plate (2) by using an adhesive (10) or bonded to the surface of the corrugated steel plate (2) using other means. After joining the battery (1), the rafter (3) is attached to the corrugated iron plate (2) for the purpose of reattaching it to the rafter (3) of the roof material constituting the house. FIG. 4 shows a vertical sectional view. FIG. 5 shows that a corrugated tin plate (2) with a solar cell (1) directly attached is formed on the surface of a corrugated tin plate (2) to form a solar plate The surface of the corrugated steel plate (2) again for the purpose of attaching the solar cell (1) directly to the rafters (3) of the roof material that constitutes the roof of the house. Above, corrugated iron plate (2) directly forming solar cell (1), solar cell (1) directly on rafters (3) constituting the roofing material of the house directly The rafters (3) are bolts (5) and nuts to the corrugated steel plate (2) for the purpose of directly using the solar cell (1) as the roof constituting the house. Using (6), use bolt (5) and nut (6) on the back of corrugated tin plate After attaching the tree (3), on the surface of the corrugated tin plate (2), the solar cell (1) having the same shape as the corrugated tin plate (2) Attached to the surface of the galvanized steel plate (2) by using an adhesive (10) or bonded to the surface of the corrugated steel plate (2) using other means. After joining the battery (1), the rafter (3) is attached to the corrugated iron plate (2) for the purpose of reattaching it to the rafter (3) of the roof material constituting the house. FIG. 5 shows a longitudinal sectional view. FIG. 6 shows that a corrugated tin plate (2) with a solar cell (1) directly attached is formed on the surface of a corrugated tin plate (2) to form a solar plate. The surface of the corrugated steel plate (2) again for the purpose of attaching the solar cell (1) directly to the rafters (3) of the roof material that constitutes the roof of the house. Above, corrugated iron plate (2) directly forming solar cell (1), solar cell (1) directly on rafters (3) constituting the roofing material of the house directly In order to use the solar cell (1) directly as the roof constituting the house, the corrugated corrugated tin plate (2) is formed on the corrugated corrugated corrugated sheet (2). The solar cell (1) having the same shape as 2) is bonded to the surface of the corrugated iron plate (2) with an adhesive ), Or after joining the solar cell (1) on the corrugated iron plate (2) surface using other means, the house is constructed again. Corrugated tin for the purpose of attaching corrugated corrugated steel plate (2) from the back using bolts (5) and nuts (6) on rafters (3) of the roofing material FIG. 6 shows a longitudinal sectional view of the bolt (5) attached to the back surface of the plate (2). FIG. 7 shows that a corrugated tin plate (2) in which a solar cell (1) is directly attached is formed on the surface of a corrugated tin plate (2) to form a solar plate. The surface of the corrugated steel plate (2) again for the purpose of attaching the solar cell (1) directly to the rafters (3) of the roof material that constitutes the roof of the house. Above, corrugated iron plate (2) directly forming solar cell (1), solar cell (1) directly on rafters (3) constituting the roofing material of the house directly In order to use the solar cell (1) directly as the roof constituting the house, the corrugated corrugated tin plate (2) is formed on the corrugated corrugated corrugated sheet (2). The solar cell (1) having the same shape as 2) is bonded to the surface of the corrugated iron plate (2) with an adhesive (1 ), Or after joining the solar cell (1) on the corrugated iron plate (2) surface using other means, the house is constructed again. Corrugated tin for the purpose of attaching corrugated corrugated steel plate (2) from the back using bolts (5) and nuts (6) on rafters (3) of the roofing material FIG. 7 shows a longitudinal sectional view of the nut (6) attached to the back surface of the plate (2). FIG. 8 shows that a corrugated tin plate (2) with a solar cell (1) directly attached is formed on the surface of a corrugated corrugated tin plate (2). The surface of the corrugated steel plate (2) again for the purpose of attaching the solar cell (1) directly to the rafters (3) of the roof material that constitutes the roof of the house. Above, corrugated iron plate (2) directly forming solar cell (1), solar cell (1) directly on rafters (3) constituting the roofing material of the house directly In order to use the solar cell (1) directly as the roof constituting the house, the corrugated corrugated tin plate (2) is formed on the corrugated corrugated corrugated sheet (2). The solar cell (1) having the same shape as 2) is bonded to the surface of the corrugated iron plate (2) with an adhesive (1 ), Or after joining the solar cell (1) on the corrugated iron plate (2) surface using other means, the house is constructed again. Back surface of corrugated steel plate (2) for the purpose of attaching corrugated steel plate (2) from the back surface using hook (7) to rafters (3) of the roofing material FIG. 8 shows a longitudinal sectional view of the hook (7) attached to the hook. FIG. 9 shows that a corrugated tin plate (2) with a solar cell (1) attached directly on the surface of a corrugated corrugated tin plate (2), The surface of the corrugated steel plate (2) again for the purpose of attaching the solar cell (1) directly to the rafters (3) of the roof material that constitutes the roof of the house. Above, corrugated iron plate (2) directly forming solar cell (1), solar cell (1) directly on rafters (3) constituting the roofing material of the house directly In order to use the solar cell (1) directly as the roof constituting the house, the flat plate made of a flat plate (8) on the surface of the flat plate (8) made of a flat plate ( The solar cell (1) having the same shape as 8) is bonded to the surface of the flat plate (8) made of flat plate. Use (10) to attach and join, or use other means to join the solar cell (1) on the surface of the flat plate (8) made of flat plate, It is made of a flat plate for the purpose of attaching a steel plate (8) made of a flat plate from the back using bolts (5) and nuts (6) on a rafter (3) of the constituting roofing material. The longitudinal cross-sectional view which has attached the volt | bolt (5) to the back surface of the iron plate (8) which is installed is shown in FIG. FIG. 10 shows that a corrugated tin plate (2) with a solar cell (1) directly attached is formed on the surface of a corrugated corrugated tin plate (2), The surface of the corrugated steel plate (2) again for the purpose of attaching the solar cell (1) directly to the rafters (3) of the roof material that constitutes the roof of the house. Above, corrugated iron plate (2) directly forming solar cell (1), solar cell (1) directly on rafters (3) constituting the roofing material of the house directly In order to use the solar cell (1) directly as the roof constituting the house, the flat plate made of a flat plate (8) on the surface of the flat plate (8) made of a flat plate ( A solar cell (1) having the same shape as 8) is placed on the surface of a flat plate (8) made of flat plate. After bonding the solar cell (1) on the surface of the tin plate (8) made of a flat plate using other means, or pasting using the agent (10), the house is again formed. It is made of a flat plate for the purpose of attaching a flat plate made of flat plate (8) from the back using bolts (5) and nuts (6) on the rafters (3) of the roofing material comprising The longitudinal cross-sectional view which has attached the nut (6) to the back surface of the iron plate (8) which is attached is shown in FIG. FIG. 11 shows that a corrugated tin plate (2) with a solar cell (1) directly attached is formed on the surface of a corrugated corrugated tin plate (2). The surface of the corrugated steel plate (2) again for the purpose of attaching the solar cell (1) directly to the rafters (3) of the roof material that constitutes the roof of the house. Above, corrugated iron plate (2) directly forming solar cell (1), solar cell (1) directly on rafters (3) constituting the roofing material of the house directly In order to use the solar cell (1) directly as the roof constituting the house, the flat plate made of a flat plate (8) on the surface of the flat plate (8) made of a flat plate ( A solar cell (1) having the same shape as that of 8) is placed on the surface of a steel plate (8) made of a flat plate. After bonding the solar cell (1) on the surface of the tin plate (8) made of a flat plate using other means, or pasting using the agent (10), the house is again formed. For the purpose of attaching the steel plate (8) made of a flat plate from the back using a hook (7) to the rafter (3) of the roof material constituting the steel plate (8) 11 is a longitudinal sectional view of the hook (7) attached to the back surface of FIG. FIG. 12 shows a rafter on the back surface of the corrugated steel plate (2) for the purpose of forming the solar cell (1) on the surface of the corrugated steel plate (2). Corrugated steel plate (2) using nails (4) and corrugated steel plate (2) using rafters (3) and nails (4) on the back of corrugated steel plate (2) After fixing the rafter (3) to the back surface of the corrugated sheet, the corrugated sheet shape is exactly the same as the corrugated corrugated sheet board (2) on the corrugated corrugated sheet board (2). The adhesive layer (9) between the plate (9) (hereinafter abbreviated as foamed polystyrene plate for short) and the corrugated tin plate (2) made of a polystyrene foam plate on the other side. 10) to form an adhesive layer (10) on the surface of the polystyrene foam plate (9) on the surface of the corrugated stainless steel plate (2) Interposed therebetween, a longitudinal cross-sectional view forming a solar cell (1) adhered by bonding a solar cell (1), is shown in FIG. 12. FIG. 13 shows a rafter on the back surface of the corrugated steel plate (2) for the purpose of forming the solar cell (1) on the surface of the corrugated steel plate (2). For the purpose of fixing (3), the back surface of corrugated stainless steel plate (2) with bolt (5) welded or using metal adhesive to fix bolt (5) After the rafter (3) is fixed to the back surface of the corrugated steel plate (2) using the nut (6), the rafter (3) is fixed to the corrugated steel plate (2). A plate (9) (hereinafter abbreviated as a corrugated sheet having the same shape as the corrugated iron plate (2) on one side and a flat plate on the other side (9) An adhesive layer (10) is formed between the corrugated steel plate (2) and the corrugated stainless steel plate (2). An adhesive layer (10) is interposed on the surface of the polystyrene foam plate (9) on the surface of the shaped tin plate (2), and the solar cell (1) is joined and bonded to form the solar cell (1). FIG. 13 shows a longitudinal sectional view formed. FIG. 14 shows the formation of irregularities on the corrugated tin plate (2) for the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2). The rafter (3) is attached to the back surface of the corrugated steel plate (2) by using the nail (4) with the rafter (3) in the parallel direction along the direction of the convex shape. Corrugated sheet with exactly the same shape as corrugated sheet (2) on the surface of corrugated corrugated sheet (2) after fixing rafter (3) Adhesion between the plate (9) (hereinafter abbreviated as a polystyrene foam plate) and a corrugated tin plate (2) made of foamed polystyrene with the other side having a flat plate shape. A layer (10) is formed on the surface of a corrugated steel plate (2) and on the surface of a polystyrene foam plate (9). Adhesive layer (10) interposed therebetween, and the longitudinal cross-sectional view of forming a solar cell (1) adhered by bonding a solar cell (1), is shown in FIG. 14. FIG. 15 shows a rafter on the back surface of the corrugated steel plate (2) for the purpose of forming the solar cell (1) on the surface of the corrugated steel plate (2). For the purpose of fixing (3), the bolt (5) is welded, or the bolt (5) is attached to the back surface of the corrugated stainless steel plate (2) using a metal adhesive. Using a rafter (3) and a bolt (5) and a nut (6) in a parallel direction along the concave shape on the concave back surface forming the irregularities, a corrugated steel plate ( After attaching rafters (3) to the back of 2) and fixing them, the corrugated steel plate (2) has the same shape as the corrugated steel plate (2) on the surface of the corrugated steel plate (2). Corrugated plate (9) (hereinafter abbreviated as Styrofoam) made of Styrofoam with a corrugated plate and the other side of a flat plate An adhesive layer (10) is formed between the corrugated steel plate (2) and the corrugated steel plate (2), and a polystyrene foam plate (2) is formed on the corrugated steel plate (2). FIG. 15 shows a longitudinal sectional view of the solar cell (1) formed by bonding and bonding the solar cell (1) with the adhesive layer (10) interposed on the surface of 9). FIG. 16 shows a rafter on the back surface of the corrugated steel plate (2) for the purpose of forming the solar cell (1) on the surface of the corrugated steel plate (2). For the purpose of fixing (3), the nut (6) is welded to the back surface of the corrugated iron plate (2), or the nut (6) is fixed using a metal adhesive. The rafter (3) was fixed to the back surface of the corrugated steel plate (2) by using the bolt (5) on the back surface of the corrugated steel plate (2). Styrofoam with a corrugated plate shape that is exactly the same as the corrugated steel plate (2) on the surface of the corrugated steel plate (2), and the flat plate shape on the other side (9) (hereinafter abbreviated as polystyrene foam plate) and corrugated steel plate (2) An adhesive layer (10) is formed in the middle of the sheet, and an adhesive layer (10) is interposed on the surface of the polystyrene foam plate (9) on the surface of the corrugated stainless steel plate (2). FIG. 16 shows a longitudinal sectional view of the solar cell (1) formed by bonding and bonding 1). FIG. 17 shows a rafter on the back surface of the corrugated steel plate (2) for the purpose of forming the solar cell (1) on the surface of the corrugated steel plate (2). For the purpose of fixing (3), after welding bolt (5) or using metal adhesive to fix bolt (5) to the back of corrugated stainless steel plate (2) The corrugated steel plate (2) has a corrugated plate shape that is exactly the same as the corrugated steel plate (2) on the surface of the corrugated steel plate (2), and the other surface is a styrofoam made of a flat plate. An adhesive layer (10) is formed between the finished plate (9) (hereinafter, abbreviated as a polystyrene foam plate) and a corrugated tin plate (2) to form a corrugated plate. An adhesive layer (10) is interposed on the surface of the polystyrene foam plate (9) on the surface of the tin plate (2), The longitudinal cross-sectional view forming a solar cell (1) adhered by bonding solar cell of (1), it is shown in Figure 17. FIG. 18 shows a rafter on the back surface of the corrugated steel plate (2) for the purpose of forming the solar cell (1) on the surface of the corrugated steel plate (2). For the purpose of fixing (3), the nut (6) is welded to the back surface of the corrugated iron plate (2), or the nut (6) is corrugated using a metal adhesive. FIG. 18 shows a longitudinal sectional view of the solar cell (1) formed on the surface of the corrugated iron plate (2) after being fixed to the back surface of the iron plate (2). . FIG. 19 shows a rafter on the back surface of the corrugated steel plate (2) for the purpose of forming the solar cell (1) on the surface of the corrugated steel plate (2). For the purpose of fixing (3), the hook (7) is welded to the back surface of the corrugated steel plate (2) or the hook (7) is corrugated using a metal adhesive. Corrugated plate with exactly the same shape as the corrugated corrugated steel plate (2) on the surface of the corrugated corrugated steel plate (2) after being fixed to the back surface of the corrugated corrugated steel plate (2) In the middle of the plate (9) (hereinafter abbreviated as a foamed polystyrene plate for short) made of foamed polystyrene having the other side of the other side and the corrugated stainless steel plate (2). (10) is formed on the surface of the corrugated stainless steel plate (2) of the polystyrene foam plate (9). Adhesive layer (10) is interposed on the surface, a longitudinal cross-sectional view forming a solar cell (1) adhered by bonding a solar cell (1), is shown in Figure 19. FIG. 20 shows a rafter on the back surface of the flat plate (8) made of flat plate for the purpose of forming the solar cell (1) on the surface of the flat plate (8) made of flat plate. (3) For the purpose of attaching etc., the surface of the tin plate (8) made of flat plate after the bolt (5) is welded or the bolt (5) is fixed using a metal adhesive A plate (9) (hereinafter abbreviated as polystyrene foam) made of foamed polystyrene having the same shape as the corrugated stainless steel plate (2) having the same shape on one side and the flat plate on the other side. An adhesive layer (10) is formed between the corrugated steel plate (2) and the corrugated steel plate (2), and a polystyrene foam plate (9) is formed on the corrugated steel plate (2). The solar cell (1) is bonded and pasted with the adhesive layer (10) interposed on the surface of The longitudinal cross-sectional view forming a solar cell (1) combined, is shown in Figure 20. FIG. 21 shows a rafter on the back surface of the steel plate (8) made of flat plate for the purpose of forming the solar cell (1) on the surface of the flat plate (8) made of flat plate. (3) The surface of the steel plate (8) made of a flat plate after the nut (6) is welded or the nut (6) is fixed using a metal adhesive for the purpose of attaching etc. A plate (11) (hereinafter abbreviated as a foamed polystyrene plate for short) made of foamed polystyrene having both sides flat on the upper side, a steel plate (8) made of a flat plate, and a solar cell (1). On the surface of the flat plate (8) made of a flat plate by attaching and bonding the solar cell (1) to the flat plate (8) made of a flat plate with an adhesive layer (10) interposed therebetween. FIG. 21 shows a longitudinal sectional view forming the solar cell (1). For the purpose of forming the solar cell (1) on the surface of the steel plate (8) made of flat plate, FIG. 22 shows a rafter on the back surface of the steel plate (8) made of flat plate. (3) For the purpose of attaching etc., the surface of the steel plate (8) made of flat plate after the hook (7) is welded or the hook (7) is fixed using a metal adhesive A plate (11) (hereinafter abbreviated as a foamed polystyrene plate for short) made of foamed polystyrene having both sides flat on the upper side, a steel plate (8) made of a flat plate, and a solar cell (1). On the surface of the flat plate (8) made of a flat plate by attaching and bonding the solar cell (1) to the flat plate (8) made of a flat plate with an adhesive layer (10) interposed therebetween. FIG. 22 shows a longitudinal sectional view forming the solar cell (1). FIG. 23 shows a corrugated tin plate (2) and a solar cell for the purpose of directly attaching the solar cell (1) onto the surface of the corrugated tin plate (2). Packing for preventing penetration of rainwater and leakage of solar cell (1) on the surface of corrugated iron plate (2) by forming through holes in module forming battery (1) (12) is interposed, the corrugated iron plate (2) and the solar cell (1) are joined using bolts (5) and nuts (6) to further constitute a house. Using rafters (3), which are roofing materials, using bolts (5) and nuts (6), the corrugated stainless steel plate (2) and solar cell (1) are joined together. The corrugated iron plate (2) and the solar cell (1) are housed in the rafter (3) constituting the house. Configured and have bolts from the back side of the roof (5), and a longitudinal cross-sectional view is attached using nut (6), shown in Figure 23 has the. FIG. 24 shows a corrugated tin plate (2) and a solar cell (1) for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2). In the middle of the foamed polystyrene plate (9), one side made of foamed polystyrene plate (9) is corrugated and the other side made of flat plate shape (9) is a corrugated steel plate (9). 2) and a solar cell (1) between the solar cell (1), a through hole is formed in the module, and the solar cell (1) enters the rainwater on the surface of the corrugated iron plate (2), and The corrugated stainless steel plate (2) and the solar cell (1) are joined using the bolt (5) and the nut (6) with the packing (12) for preventing water leakage interposed. In addition, the rafter (3), which is the roofing material constituting the house, is bolted (5) and nuts. (6) is used to join the corrugated steel plate (2) and the solar cell (1) to form a corrugated steel plate (2), and the solar cell (1). FIG. 24 shows a longitudinal cross-sectional view in which the rafter (3) constituting the house is attached from the back surface of the roof constituting the house using the bolt (5) and the nut (6). Yes. FIG. 25 shows a corrugated tin plate (2) and a solar cell (1) for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2). ), A foamed polystyrene plate (11) made of a foamed polystyrene plate (11) on both sides in a flat plate shape, a corrugated tin plate (2) and a solar cell (1) A through hole is formed in the module interposed between the solar cell (1) and the solar cell (1) on the surface of the corrugated steel plate (2) to prevent rainwater from entering and leakage (12) ), The corrugated iron plate (2) and the solar cell (1) are joined using bolts (5) and nuts (6), and the house is further constructed. Using bolts (5) and nuts (6) on the rafters (3), which is the roofing material, A rafter (2) constituting a corrugated steel plate (2) and a solar cell (1) in which a corrugated steel plate (2) and a solar cell (1) are joined to form a house. FIG. 25 shows a longitudinal sectional view in which the bolt (5) and the nut (6) are attached from the back of the roof constituting the house in 3). FIG. 26 shows a corrugated tin plate (2) and a solar cell (1) for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2). ), A foamed polystyrene plate (11) made of a foamed polystyrene plate (11) on both sides in a flat plate shape, a corrugated tin plate (2) and a solar cell (1) Bolts (5) and nuts (6) that are welded on the surface of corrugated stainless steel plate (2) or joined using metal adhesive are used. Then, a foamed polystyrene plate (11) having both sides made of a polystyrene foam plate (11) is formed in the middle, and a solar cell (11) is placed on the surface of the foamed polystyrene plate (11). 1) After bonding the adhesive layer (10) The corrugated steel plate (2) and the solar cell (1), which are formed by joining the corrugated steel plate (2) and the solar cell (1) together, constitute a house. FIG. 26 shows a longitudinal sectional view in which the hook (7) is attached to the rafter (3) from the back surface of the roof constituting the house. FIG. 27 shows a corrugated tin plate (2) and a solar cell (1) for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2). ), A foamed polystyrene plate (11) made of a foamed polystyrene plate (11) on both sides in a flat plate shape, a corrugated tin plate (2) and a solar cell (1) Bolt (5) in which a module interposed in between is joined on the surface of corrugated iron plate (2) using welded part (13) or metal adhesive part (13) , And a nut (6), and a polystyrene foam plate (11) having both sides made of a polystyrene foam plate (11) having a flat plate shape is interposed in between. The solar cell (1) and the adhesive layer (10) on the surface of Then, after attaching the solar cell (1) to the corrugated iron plate (2) using the bolt (5) and the nut (6), the corrugated plate shape is The pad eye (7) is formed on the back surface of the iron plate (2), and the welded portion (13) or the metal adhesive portion (13) is formed on the back surface of the corrugated steel plate (2). FIG. 27 shows a longitudinal sectional view to which 7) is attached. FIG. 28 shows a corrugated tin plate (2) and a solar cell (1) for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2). ), A foamed polystyrene plate (11) made of a foamed polystyrene plate (11) on both sides in a flat plate shape, a corrugated tin plate (2) and a solar cell (1) Bolt (5) in which a module interposed in between is joined on the surface of corrugated iron plate (2) using welded part (13) or metal adhesive part (13) , And a nut (6), and a polystyrene foam plate (11) having both sides made of a polystyrene foam plate (11) having a flat plate shape is interposed in between. The solar cell (1) and the adhesive layer (10) on the surface of Then, after attaching the solar cell (1) to the corrugated iron plate (2) using the bolt (5) and the nut (6), the corrugated plate shape is The pad eye (7) is formed on the back surface of the iron plate (2), and the welded portion (13) or the metal adhesive portion (13) is formed on the back surface of the corrugated steel plate (2). 7) After attaching the pad eye (7) to the rafter (3) constituting the house, using the L rod (14) with an n-shaped nut (6) at the tip of the pad eye (7) A corrugated plate shape is formed on a rafter (3) constituting a house by using a module formed with a solar cell (1) joined with a shaped tin plate (2) and a polystyrene foam plate (11) interposed therebetween. The rafters (3) that make up the house from the back of the iron plate (2) The longitudinal cross-sectional view is installed using Jo was nuts (6) with L rod (14) is shown in Figure 28. FIG. 29 shows a hook (7), a pad eye (7), a long eye (7), an open pad eye (7) on the back surface of a corrugated iron plate (2), or Eye strap (7), UK turnbuckle (7), or L bar with nut (hereinafter abbreviated to pad eye), pad eye (7) is welded part (13), or metal adhesive part FIG. 29 shows a longitudinal sectional view in which (13) is formed and the pad eye (7) is attached to the back surface of the corrugated iron plate (2). FIG. 30 shows a hook plate (7), a pad eye (7), a long eye (7), an open pad eye (7) on the back surface of a corrugated iron plate (2), or Eye strap (7), UK turnbuckle (7), or L bar with nut (hereinafter abbreviated to pad eye), pad eye (7) is welded part (13), or metal adhesive part An L-rod (14) with a nut (6) having a tip-shaped n-shape is formed on the pad eye (7) attached to the back surface of the corrugated iron plate (2). Using the corrugated iron plate (2) to the rafters (3) of the roof material constituting the house, the corrugated iron plate (2) from the back of the corrugated steel plate (2) to the rafters (3) A corrugated L-plate with nuts with an n-shaped tip and a corrugated steel plate (2) Using the pad eye (7) attached to the shaped tin plate (2), the longitudinal sectional view attached to the rafter (3) from the back surface of the corrugated tin plate (2) 30. FIG. 31 shows a hook plate (7), a pad eye (7), a long eye (7), an open pad eye (7) on the back surface of a corrugated tin plate (2), or Eye strap (7), UK turnbuckle (7), or L rod with nut (hereinafter abbreviated as pad eye), using paddle (15), pad eye (7), corrugated plate FIG. 31 shows a longitudinal sectional view attached to the shaped tin plate (2). FIG. 32 shows a hook plate (7), a pad eye (7), a long eye (7), an open pad eye (7) on the back surface of the corrugated iron plate (2), or Eye strap (7), UK turnbuckle (7), or L rod with nut (hereinafter abbreviated as pad eye), using paddle (15), pad eye (7), corrugated plate After attaching to the shaped tin plate (2), the pad eye (7) attached to the back surface of the corrugated tin plate (2) uses an L rod with a nut whose tip is n-shaped. Then, the corrugated iron plate (2) is applied to the rafters (3) of the roof material constituting the house, and the corrugated plate (2) from the back surface of the corrugated steel plate (2) to the rafters (3). Shaped iron plate (2) with an N-shaped L-bar with a tip and a corrugated plate FIG. 32 is a longitudinal sectional view attached to the rafter (3) from the back surface of the corrugated iron plate (2) using the pad eye (7) attached to the iron plate (2). It shows. FIG. 33 shows a corrugated tin plate (2) and a solar cell (1) for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2). ), A foamed polystyrene plate (11) made of a foamed polystyrene plate (11) on both sides in a flat plate shape, a corrugated tin plate (2) and a solar cell (1) Bolt (5) in which a module interposed in between is joined on the surface of corrugated iron plate (2) using welded part (13) or metal adhesive part (13) , And a nut (6), and a polystyrene foam plate (11) having both sides made of a polystyrene foam plate (11) having a flat plate shape is interposed in between. The solar cell (1) and the adhesive layer (10) on the surface of Then, after attaching the solar cell (1) to the corrugated iron plate (2) using the bolt (5) and the nut (6), the corrugated plate shape is Hook (7), pad eye (7), long eye (7), open pad eye (7), eye strap (7), or UK turnbuckle (7) Or after attaching the pad eye (7) to the corrugated stainless steel plate (2) using a hook (15), an L rod with a nut (hereinafter referred to as pad eye for short) Corrugated steel plate (2) using an L-shaped rod with a nut whose tip is n-shaped on the pad eye (7) attached to the back surface of the corrugated steel plate (2) The corrugated sheet of rafter (3) of the roofing material that makes up the house A corrugated tin plate (2) is attached to the rafter (3) from the back surface of the plate (2) to an L rod with a nut having an n-shaped tip and a corrugated tin plate (2). FIG. 33 shows a longitudinal sectional view attached to the rafter (3) from the back surface of the corrugated iron plate (2) using the pad eye (7). FIG. 34 shows a corrugated corrugated steel plate (2), for example, a corrugated corrugated steel plate manufactured by Nisshin Steel Co., Ltd. using a ZAM steel plate. On the surface of (2), a concentrating solar cell (1) consisting of approximately 1 mm spherical solar cell surface (16), tempered glass (18) and reflecting mirror (17) is installed, and the solar cell is overheated. In order to suppress, the concentrating solar cell (1) characterized in that the lower portion (19) of the solar cell is brought into close contact with the peak portion of the corrugated iron plate (2) to dissipate heat from the tin plate (2). FIG. 34 shows a longitudinal sectional view of the iron plate (2). FIG. 35 shows a corrugated corrugated steel plate (2), for example, a corrugated corrugated steel plate manufactured by Nisshin Steel Co., Ltd. using a ZAM steel plate. Concentrating solar cell (1) consisting of approximately 1 cm cylindrical solar cell surface (16) pn junction, tempered glass (18) and reflecting mirror (17) negative electrode with (2) as reflector (17) In order to suppress the temperature overheating of the solar cell, the solar cell (1) and the corrugated plate shape with the solar cell lower part (19) as a negative electrode FIG. 35 shows a longitudinal sectional view in which the iron plates are integrated. FIG. 36 shows a corrugated corrugated steel plate (2), for example, a corrugated corrugated steel plate manufactured by Nisshin Steel Co., Ltd. using a ZAM steel plate. (2) is a reflecting mirror (17), and the corrugated iron plate (2) is made of a copper pipe of about 1 cm at the top of the convex shape that is the concave and convex shape, about 1 cm Cylindrical solar cell surface (16) pn junction (hereinafter abbreviated as solar cell (1) or concentrating solar cell (1)), convex portion of corrugated iron plate (2) In order to suppress the overheating of the solar cell by integrally forming the solar cell (1) attached to the apex of the solar cell, the reflecting mirror (17), and the concentrating solar cell (1) composed of the negative electrode, A solar cell (19) having a negative electrode at the lower part (19) of the solar cell ) And a longitudinal section that integrates galvanized iron plate having a corrugated plate shape, is shown in Figure 36. FIG. 37 shows a nut (2) on the surface of the corrugated steel plate (2) for the purpose of mounting the solar cell (1) on the corrugated steel plate (2). 6) formed an arc welded part (13) or a metal adhesive part (13), and a nut (6) was fixed on the surface of the corrugated iron plate (2) to form a corrugated sheet A longitudinal sectional view of the tin plate (2) is shown in FIG. FIG. 38 shows a nut on the surface of the corrugated tin plate (2) for the purpose of mounting the solar cell (1) on the corrugated tin plate (2). 6) Arc welding part (13) or metal adhesive part (13) is formed, and after fixing nut (6) on the surface of corrugated iron plate (2), corrugated sheet An arc welded part (13) or a metal adhesive part (13) is formed on the back surface of the shaped tin plate (2), and a pad eye (7), a long eye (7), or an open pad eye ( 7), or eye strap (7) (hereinafter abbreviated as pad eye), and the rafter (3) constituting the house from the back surface of the corrugated steel plate (2), The wave forming the solar cell (1) on the surface of the corrugated iron plate (2) The longitudinal cross-sectional view that tin plate having a corrugated plate shape rafter (3) constituting the house (2) attached from the back surface of the galvanized iron plate in the form (2), is shown in Figure 38. FIG. 39 shows a nut (on the surface of the corrugated steel plate (2) for the purpose of mounting the solar cell (1) on the corrugated steel plate (2). 6) After forming the arc welding part (13) or the metal adhesive part (13) and fixing the nut (6) on the corrugated iron plate (2) surface, A plywood (20) made of a polystyrene foam plate and a plate made of aluminum is formed between the made tin plate (2) and the solar cell (1) with an adhesive layer (10) interposed. Then, after the lamination, an arc welded portion (13) or a metal adhesive portion (13) is further formed on the back surface of the corrugated iron plate (2) to form a pad eye (7), or Long eye (7) or open pad eye (7) or eye strap (7) Hereinafter, short, pad eye to), the longitudinal cross-sectional view, a back surface on the formation of the tin plate having a corrugated shape (2), it is shown in Figure 39. FIG. 40 shows a nut (on the surface of the corrugated steel plate (2) for the purpose of mounting the solar cell (1) on the corrugated steel plate (2). 6) After forming the arc welding part (13) or the metal adhesive part (13) and fixing the nut (6) on the corrugated iron plate (2) surface, A plywood (20) made of a polystyrene foam plate and a plate made of aluminum is formed between the made tin plate (2) and the solar cell (1) with an adhesive layer (10) interposed. Then, after the lamination, an arc welded portion (13) or a metal adhesive portion (13) is further formed on the back surface of the corrugated iron plate (2) to form a pad eye (7), or Long eye (7) or open pad eye (7) or eye strap (7) Hereinafter, the corrugated tin is attached to the rafter (3) constituting the house on the back surface of the corrugated corrugated steel plate (2) using a pad eye for short. A longitudinal sectional view of the plate (2) is shown in FIG. In FIG. 41, for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2), a nut ( 6) After forming the arc welding part (13) or the metal adhesive part (13) and fixing the nut (6) on the corrugated iron plate (2) surface, A plywood (20) made of a polystyrene foam plate and a plate made of aluminum is formed between the made tin plate (2) and the solar cell (1) with an adhesive layer (10) interposed. Then, after the lamination, an arc welded portion (13) or a metal adhesive portion (13) is further formed on the back surface of the corrugated iron plate (2) to form a pad eye (7), or Long eye (7) or open pad eye (7) or eye strap (7) The roof of the house is constructed to attach the rafters (3) constituting the house on the back surface of the corrugated steel board (2) using a pad eye). A hole (22) is formed in the roof tile (21), and a pad eye (7) attached on the back surface of the corrugated iron plate (2) and a nut with a nut whose tip is n-shaped. The bar (14) is made to penetrate the inside of the hole (22) formed in the roof tile (21), and the house is constructed using the L rod (14) with a nut having an n-shaped tip. The rafter (3), the solar cell (1) on the surface of the corrugated tin plate (2), and the sound insulation effect or heat insulation on the back surface of the corrugated tin plate (2). For the purpose of improving the effect or the adhesion to the roof tile (21), the polystyrene foam plate (11 The house is made of corrugated corrugated steel plate (2), with solar cell (1) formed on the surface of corrugated corrugated corrugated sheet (2), with a sandwich in the middle. The solar cell (1) is formed on the surface of the corrugated iron plate (2) on the surface of the roof made of tiles (21) that are firmly attached to the rafters (3). FIG. 41 shows a longitudinal sectional view of the corrugated tin plate (2). FIG. 42 shows a nut (on the surface of the corrugated tin plate (2) for the purpose of mounting the solar cell (1) on the corrugated tin plate (2). 6) After forming the arc welding part (13) or the metal adhesive part (13) and fixing the nut (6) on the corrugated iron plate (2) surface, A plywood (20) made of a polystyrene foam plate and a plate made of aluminum is formed between the made tin plate (2) and the solar cell (1) with an adhesive layer (10) interposed. Then, after the lamination, an arc welded portion (13) or a metal adhesive portion (13) is further formed on the back surface of the corrugated iron plate (2) to form a pad eye (7), or Long eye (7) or open pad eye (7) or eye strap (7) The roof of the house is constructed to attach the rafters (3) constituting the house on the back surface of the corrugated steel board (2) using a pad eye). A hole (22) is formed in the roof tile (21), and a pad eye (7) attached on the back surface of the corrugated iron plate (2) and a nut with a nut whose tip is n-shaped. The bar (14) is made to penetrate the inside of the hole (22) formed in the roof tile (21), and the house is constructed using the L rod (14) with a nut having an n-shaped tip. The rafter (3), the solar cell (1) on the surface of the corrugated tin plate (2), and the sound insulation effect or heat insulation on the back surface of the corrugated tin plate (2). For the purpose of improving the effect or adhesion to the roof tile (21), one side is corrugated and the other side is flat. Corrugated corrugated steel plate (9) having a solar cell (1) formed on the surface of corrugated corrugated steel plate (2) with a polystyrene foam plate (9) interposed in the middle. 2) is firmly attached to the rafter (3) constituting the house, and the solar cell (1) is formed on the surface of the corrugated iron plate (2) on the surface of the roof made of tiles (21). FIG. 42 shows a longitudinal sectional view of the corrugated tin plate (2) forming a). In FIG. 43, for the purpose of attaching the solar cell (1) on the surface of the flat plate (8) made of a flat plate, a nut ( 6) Form the arc welded part (13) or metal adhesive part (13) and fix the nut (6) on the surface of the corrugated stainless steel plate (2). A plywood plate (20) made of a polystyrene foam plate and a plate made of aluminum is formed between an aluminum plate (8) and a solar cell (1) with an adhesive layer (10) interposed therebetween. Then, after laminating, an arc welded portion (13) or a metal adhesive portion (13) is formed on the back surface of the flat plate (8) made of a flat plate, and a pad eye (7), or Long eye (7), or open pad eye (7), or ice trap (7) To attach the rafters (3) constituting the house on the back surface of the steel plate (8) made of a flat plate (hereinafter referred to as pad eye for short) A hole (22) is formed in the tile (21) constituting the roof, and the pad eye (7) attached on the back surface of the flat plate (8) made of a flat plate and the tip portion are n-shaped. The L-shaped rod with nut (14) is made to pass through the inside of the hole (22) formed in the roof tile (21), and the L-shaped rod with nut (14) whose tip portion is n-shaped is used. The rafters (3) that make up the house, the solar cell (1) on the surface of the steel plate (8) made of flat plate, and the soundproofing on the back surface of the steel plate (8) made of flat plate For the purpose of improving the effect, the heat insulation effect, or the adhesion to the roof tile (21), both sides have a flat plate shape. A steel plate (11) made of a flat plate (11) is formed on the surface of a flat plate-like tin plate (8) with a steel plate (11) interposed in the middle. 8) is firmly attached to the rafters (3) constituting the house, on the surface of the roof made of tiles (21), on the surface of the tin plate (8) made of flat plates (1) 43 is a longitudinal sectional view of the tin plate (8) made of a flat plate forming the solar cell (1) on the surface of the flat plate (8) made of a flat plate forming a). ing. FIG. 44 shows a corrugated tin plate (2) and a solar cell (1) for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2). In between, a plywood (20) (hereinafter abbreviated as Mirapane Ace 20) and a solar cell (1) made of a polystyrene foam plate and a plate made of aluminum, and an adhesive layer (10) In addition, the one side is corrugated and the other side is flat between the Mirapane Ace (20) and the corrugated iron plate (2) and the Mirapane Ace (20). After bonding the laminated polystyrene sheet (9) to the corrugated steel plate (2) with the adhesive layer (10) interposed, the corrugated steel plate (2) ) Arc welded part (13) or gold on the back Nut (7) or pad eye (7) or long eye (7) or open pad eye (7) or eye strap (7) (hereinafter abbreviated as nut) by forming an adhesive part (13) The roof tile of the house is attached to the rafter (3) constituting the house on the back surface of the corrugated iron plate (2) using the pad eye) A hole (22) is formed in (21), and a pad eye (7) attached on the back surface of the corrugated stainless steel plate (2) and an L rod with nut (14) having an n-shaped tip. ) Through the inside of the hole (22) formed in the roof tile (21) and using an L-shaped rod (14) with a nut having an n-shaped tip, the rafter constituting the house In (3), on the surface of the corrugated iron plate (2), the solar cell (1) and For the purpose of improving the soundproofing effect, the heat insulating effect, or the adhesion to the roof tile (21) on the back surface of the corrugated iron plate (2), one side is corrugated and the other side is flat. The shaped polystyrene foam plate (9) is sandwiched in the middle to form a solar cell (1) on the surface of the corrugated iron plate (2). The tin plate (2) is firmly attached to the rafter (3) constituting the house, and the sun is placed on the surface of the corrugated tin plate (2) on the surface of the roof made of tiles (21). FIG. 44 shows a longitudinal sectional view of the corrugated iron plate (2) forming the battery (1). FIG. 45 shows a corrugated tin plate (2) and a solar cell (1) for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2). In between, a polystyrene foam plate (9) having a corrugated plate shape on one side and a flat plate shape on the other surface is joined to a corrugated steel plate (2) with an adhesive layer (10) interposed therebetween. After the lamination, the arc welded portion (13) or the metal adhesive portion (13) is further formed on the back surface of the corrugated tin plate (2) to form the nut (7) or the pad eye. (7) or long eye (7) or open pad eye (7) or eye strap (7) (hereinafter, abbreviated as nut or pad eye) Attach the rafters (3) that make up the house on the back of the board (2) In addition, a hole (22) is formed in the tile (21) constituting the roof of the house, and the pad eye (7) attached to the back surface of the corrugated iron plate (2) and the tip portion are An L-shaped rod with nut (14) having an n-shape is passed through a hole (22) formed in the roof tile (21), and an L-shaped rod with nut (14) having an n-shaped tip is formed. Using the rafters (3) constituting the house, the solar cell (1) on the surface of the corrugated steel plate (2), and the corrugated steel plate (2) For the purpose of enhancing the soundproofing effect, the heat insulating effect, or the adhesion to the roof tile (21) on the back side, a polystyrene foam plate (9) having a corrugated shape on one side and a flat shape on the other side is sandwiched. The solar cell (1) is formed on the surface of the corrugated iron plate (2) with the intervening in the middle The corrugated corrugated steel plate (2) is firmly attached to the rafter (3) constituting the house, and the corrugated corrugated corrugated steel plate is formed on the roof surface made of tiles (21). The longitudinal cross-sectional view of the corrugated iron plate (2) which forms the solar cell (1) on the surface of (2) is shown in FIG. FIG. 46 shows a corrugated tin plate (2) and a solar cell (1) for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2). In between, a plywood (20) (hereinafter abbreviated as Mirapane Ace 20) and a solar cell (1) made of a polystyrene foam plate and a plate made of aluminum, and an adhesive layer (10) In addition, the one side is corrugated and the other side is flat between the Mirapane Ace (20) and the corrugated iron plate (2) and the Mirapane Ace (20). Surface of corrugated corrugated steel plate (2) in which a styrofoam sheet (9) shaped is joined and laminated to corrugated corrugated steel sheet (2) with adhesive layer (10) interposed A corrugated sheet with a solar cell (1) formed on it An arc welded portion (13) or a metal adhesive portion (13) is formed on the back surface of the plate (2) to form a nut (7), a pad eye (7), a long eye (7), or an open pad eye (7) or eye strap (7) (hereinafter abbreviated as nut or pad eye) attached on the back surface of corrugated corrugated steel plate (2), corrugated corrugated steel plate The longitudinal cross-sectional view of the corrugated iron plate (2) in which the solar cell (1) is formed on the surface of (2) is shown in FIG. FIG. 47 shows a corrugated tin plate (2) and a solar cell (1) for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2). In between, a polystyrene foam plate (9) having a corrugated plate shape on one side and a flat plate shape on the other surface is joined to a corrugated steel plate (2) with an adhesive layer (10) interposed therebetween. After the lamination, the arc welded portion (13) or the metal adhesive portion (13) is further formed on the back surface of the corrugated tin plate (2) to form the nut (7) or the pad eye. (7), or long eye (7), or open pad eye (7), or eye strap (7) (hereinafter, abbreviated as a nut or pad eye) attached corrugated steel plate A corrugated plate with a solar cell (1) formed on the surface of (2) A longitudinal section of the end plate (2), is shown in Figure 47. FIG. 48 shows a corrugated tin plate (2) and a solar cell (1) for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2). In between, a plywood (20) (hereinafter abbreviated as Mirapane Ace 20) and a solar cell (1) made of a polystyrene foam plate and a plate made of aluminum, and an adhesive layer (10) In addition, the one side is corrugated and the other side is flat between the Mirapane Ace (20) and the corrugated iron plate (2) and the Mirapane Ace (20). After bonding the laminated polystyrene sheet (9) to the corrugated steel plate (2) with the adhesive layer (10) interposed, the corrugated steel plate (2) ) Arc welded part (13) or gold on the back Nut (7) or pad eye (7) or long eye (7) or open pad eye (7) or eye strap (7) (hereinafter abbreviated as nut) by forming an adhesive part (13) In addition, for the purpose of enhancing the soundproofing effect, the heat insulating effect, or the adhesion with the roof tile (21) on the back surface of the corrugated stainless steel plate (2) after attaching the pad eye) Surface of corrugated corrugated steel plate (2) by sandwiching a foamed polystyrene plate (9) with a corrugated plate on one side and a flat plate on the other surface with an adhesive layer (10) in the middle FIG. 48 shows a longitudinal sectional view on which the solar cell (1) is formed. FIG. 49 shows a corrugated tin plate (2) and a solar cell (1) for the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2). In between, a polystyrene foam plate (9) having a corrugated plate shape on one side and a flat plate shape on the other surface is joined to a corrugated steel plate (2) with an adhesive layer (10) interposed therebetween. After the lamination, the arc welded portion (13) or the metal adhesive portion (13) is further formed on the back surface of the corrugated tin plate (2) to form the nut (7) or the pad eye. (7) or long eye (7) or open pad eye (7) or eye strap (7) (hereinafter abbreviated as nut or pad eye) The soundproofing effect or heat insulation effect on the back side of the galvanized iron plate (2), For the purpose of improving the adhesion to the roof tile (21), a styrofoam plate (9) having a corrugated shape on one side and a flat shape on the other side is sandwiched with an adhesive layer (10) in the middle. FIG. 49 shows a longitudinal sectional view in which the solar cell (1) is formed on the surface of the corrugated iron plate (2).

The solar cell (1) is formed on the surface of the corrugated iron plate (2), and the solar cell (1) is formed as a roofing material for a house without damaging the surface of the solar cell (1). The rafter (3) on the back surface of the corrugated corrugated iron plate (2), the nail (4), the bolt (5), the nut (6), the hook (7), or the pad eye (7 ), Or long eye (7), or open pad eye (7), or eye strap (7), or UK turnbuckle (7), or L-rod with nut (hereinafter abbreviated as nut or hook, or By attaching to the rafters (3) from the back of the corrugated steel plate (2) using the rafters (3) constituting the roof of the house using other means, Solar cell formed on the surface of a plate-shaped platinum plate (2) 1) The without damaging any, since the solar cell (1) can be attached as a roof material of a house, it can be use as a roofing material of a house without any damage to the solar cells (1).

Corrugated stainless steel plate (2) is bolt (5), nut (6), hook (7), pad eye (7), long eye (7), or open pad eye (7), Or the roof of a house using an eye strap (7), or a UK turnbuckle (7), or an L-bar with a nut (hereinafter abbreviated as nut, hook or eye), or other means The nail (4) on the surface of the corrugated steel plate (2) by attaching it to the rafter (3) from the back surface of the corrugated steel plate (2) Attach the corrugated iron plate (2) to the rafters (3) from the back side without damaging the wounds generated by hitting the Because it is fixed, corrugated tin plate (2) Tin plate having a corrugated shape without causing the wound at all on the surface (2) can be used as a roofing material.

For the purpose of forming the solar cell (1) on the corrugated steel plate (2), the rafter (3) and the nail (4) are attached to the back surface of the corrugated steel plate (2). Use rafters (3) on the back of corrugated tin plate (2) and nail (4) to fix rafters (3) on the back of corrugated tin plate (2) After that, the iron plate (2) in which the solar cell (1) is formed on the surface of the corrugated iron plate (2) is referred to as Example 1.

For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2) and for the purpose of fixing the rafter (3) to the back surface of the corrugated tin plate (2). The rafters (3) are nuts (6) on the back surface of the corrugated steel plate (2) to which the bolts (5) are welded or the bolts (5) are fixed using a metal adhesive. ) Is used to form the solar cell (1) on the corrugated steel plate (2) surface after the rafter (3) is fixed to the back surface of the corrugated steel plate (2). The obtained tin plate (2) is referred to as Example 2.

For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2), the concave shape or the convex shape forming irregularities on the corrugated tin plate (2) The rafters (3) are attached to the back surface of the corrugated steel plate (2) by using the nails (4) with the rafters (3) in the direction parallel to the concave or convex direction. Example 3 is a tin plate (2) in which a solar cell (1) is formed on the surface of a corrugated tin plate (2) after the rafter (3) is fixed by nailing.

For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2) and for the purpose of fixing the rafter (3) to the back surface of the corrugated tin plate (2). In addition, the concave shape forming the corrugations of the corrugated plate on the back surface of the corrugated steel plate (2) which is welded with the bolt (5) or using a metal adhesive to form the corrugated bolt (5), Alternatively, a corrugated tin plate using a rafter (3) and a bolt (5) and a nut (6) in a parallel direction along the concave or convex direction on the back surface of the convex shape ( After the rafter (3) was attached to the back surface of 2) and fixed, the tin plate (2) in which the solar cell (1) was formed on the surface of the corrugated tin plate (2) was formed as in Example 4. To do.

For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2) and for the purpose of fixing the rafter (3) to the back surface of the corrugated tin plate (2). The corrugated steel plate (2) is welded with a nut (6) to the back surface of the corrugated steel plate (2), or the nut (6) is fixed using a metal adhesive ( Corrugated iron after fixing rafter (3) to the back of corrugated steel plate (2) using rafter (3) bolt (5) on the back of 2) A tin plate (2) in which the solar cell (1) is formed on the surface of the plate (2) is referred to as Example 5.

For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2) and for the purpose of fixing the rafter (3) to the back surface of the corrugated tin plate (2). Next, the corrugated steel plate after the bolt (5) is welded or the bolt (5) is fixed to the back surface of the corrugated steel plate (2) using a metal adhesive. A tin plate (2) in which the solar cell (1) is formed on the surface of (2) is referred to as Example 6.

For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2) and for the purpose of fixing the rafter (3) to the back surface of the corrugated tin plate (2). Next, the nut (6) is welded to the back surface of the corrugated steel plate (2), or the nut (6) is welded to the back surface of the corrugated steel plate (2) using a metal adhesive. Example 7 is a tin plate (2) in which a solar cell (1) is formed on the surface of a corrugated tin plate (2) after fixing.

For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2) and for the purpose of fixing the rafter (3) to the back surface of the corrugated tin plate (2). The hook (7) is welded to the back surface of the corrugated steel plate (2), or the hook (7) is attached to the back surface of the corrugated steel plate (2) using a metal adhesive. Example 8 is a tin plate (2) in which a solar cell (1) is formed on the surface of a corrugated tin plate (2) after being fixed.

For the purpose of forming solar cells (1) on the surface of a tin plate (8) made of flat plate, for the purpose of attaching rafters (3) etc. to the back surface of the tin plate (8) made of flat plate Next, the solar cell (1) is formed on the surface of the steel plate (8) made of a flat plate after the bolt (5) is welded or the bolt (5) is fixed using a metal adhesive. The obtained tin plate (8) is referred to as Example 9.

For the purpose of forming solar cells (1) on the surface of a tin plate (8) made of flat plate, for the purpose of attaching rafters (3) etc. to the back surface of the tin plate (8) made of flat plate Next, the solar cell (1) is formed on the surface of the flat plate (8) after welding the nut (6) or fixing the nut (6) using a metal adhesive. The obtained tin plate (8) is referred to as Example 10.

For the purpose of forming solar cells (1) on the surface of a tin plate (8) made of flat plate, for the purpose of attaching rafters (3) etc. to the back surface of the tin plate (8) made of flat plate Next, the solar cell (1) is formed on the surface of the flat plate (8) made of a flat plate after the hook (7) is welded or the hook (7) is fixed using a metal adhesive. The obtained tin plate (8) is referred to as Example 11.

A hook plate (7), a pad eye (7), a long eye (7), or an open pad eye (7) on the back surface of a corrugated tin plate (2) or a flat plate (8) made of a flat plate ), Or eye strap (7), or UK turnbuckle (7), or L rod with nut (hereinafter abbreviated as nut, hook, or eye), or rafter (3) A spherical silicon solar cell with higher power generation efficiency that can collect sunlight from many directions on the surface of the corrugated iron plate (2) or the flat plate (8) made of a flat plate. A corrugated iron plate (2) having a module formed thereon, or a tin plate (8) formed of a flat plate on the surface of the steel plate (1) to constitute the roof of the house. Rafters (3) or wall To the rafters (3), from the back of the roof of the house, or from the back of the wall constituting the house, the corrugated steel plate (2), or the steel plate (8) made of flat plate A solar cell (1) forming the solar cell (3) on the surface is attached and fixed as Example 12.

Aluminum (Al) on the surface of the iron plate constituting the corrugated tin plate (2) or the tin plate (8) made of a flat plate (hereinafter referred to simply as the tin plate or iron plate). 55% + zinc (Zn) 43.4% + silicon (Si) 1.6% alloy base metal is melted in the plating tank, and the iron plate is immersed in the plating plate. Corrugated tin plate (2) subjected to galvalume plating (hereinafter, abbreviated as Galva Steel, or Nisshin Steel Co., Ltd., the product name of which is manufactured and sold by Galbuster or ZG) The solar cell (1) is formed on the surface of the tin plate (8) made of a flat plate, and the roof of the house is constructed from the surface on which the solar cell (1) is formed on the surface of the tin plate. Using the nail (4) to the rafter (3), directly form the solar cell (1) Even if the corrugated steel plate (2) or the steel plate (8) made of flat plate is nailed from the top of the steel plate to the rafter (3) using the nail (4), it can be made of galva steel plate. Since the corrugated iron plate is highly corrosion resistant and resistant to corrosion, the solar cell (1) formed on the surface of the corrugated steel plate made of galva steel plate and the corrugated tin plate (2), or Since the progress of peeling with the flat plate made of flat plate (8) can be most reduced, the solar cell (1) is formed on the surface of the corrugated plate made of galvanized steel plate (2). Form. Or, if the steel plate (1) is formed on the surface of the steel plate (8) made of a flat plate, the roof of the house is constructed from the surface of the steel plate using nails (4). It is assumed in Example 13 that the tin plate can be applied to the rafter (3) directly from the surface on the surface of the tin plate using the nail (4).

Corrugated corrugated steel plate (2) suitable for uses in poultry houses, pig houses, cattle houses, and compost houses, or the surface of the corrugated steel board (8), which is made of flat plate For example, zinc (Zn) 91% + aluminum (Al) 6%, which is excellent in ammonia resistance and wet resistance manufactured and sold by Nisshin Steel Co., Ltd. + A solar cell on the surface of a corrugated tin plate using ZAM steel plate, which has been subjected to double-bake plating in a plating tank in which a metal made of 1% magnesium (Mg) is melting Form (1). Alternatively, Example 14 is to form the solar cell (1) on the surface of the flat plate (8) made of a flat plate.

The solar cell (1) is formed on the surface of the corrugated iron plate (2), and the solar cell (1) is formed as a roofing material for a house without damaging the surface of the solar cell (1). The rafter (3) on the back surface of the corrugated corrugated iron plate (2), the nail (4), the bolt (5), the nut (6), the hook (7), or the pad eye (7 ), Or long eye (7), or open pad eye (7), or eye strap (7), or UK turnbuckle (7), or L-rod with nut (hereinafter abbreviated as nut or hook, or By attaching to the rafters (3) from the back of the corrugated steel plate (2) using the rafters (3) constituting the roof of the house using other means, Solar cell formed on the surface of a plate-shaped platinum plate (2) Since the solar cell (1) can be attached as a roof material of a house without damaging 1) at all, it is used as a roof material of a house without damaging the solar cell (1) at all. And

For the purpose of attaching the solar cell (1) on the surface of the corrugated tin plate (2), a polystyrene foam plate is placed between the corrugated tin plate (2) and the solar cell (1). A module in which a foamed polystyrene plate (11) made of (11) on both sides is formed in a flat plate shape is interposed between a corrugated steel plate (2) and a solar cell (1). Using bolts (5) and nuts (6) joined on the surface of corrugated stainless steel plate (2) using welded part (13) or metal adhesive part (13) Then, a foamed polystyrene plate (11) having both sides made of a polystyrene foam plate (11) is formed in the middle, and a solar cell (1) is placed on the surface of the foamed polystyrene plate (11). After forming the adhesive layer (10) and bonding Furthermore, after attaching the solar cell (1) to the corrugated steel plate (2) using the bolt (5) and the nut (6), on the back surface of the corrugated steel plate (2) Hook (7) or pad eye (7) or long eye (7) or open pad eye (7) or eye strap (7) or UK turnbuckle (7) or L rod with nut , Abbreviated as pad eye) is attached to the corrugated tin plate (2), and then the tip of the pad eye (7) attached to the back surface of the corrugated tin plate (2) Corrugated iron plate (2) using corrugated iron plate (2) using r-bar with nut with n-shaped part on roof rafter (3) constituting the house 2) From the back side of rafter (3) to corrugated sheet (2) The corrugated tongue plate (2) is formed by using an L rod with a nut having an n-shaped end and a pad eye (7) attached to the corrugated tongue plate (2). Attaching to the rafter (3) from the back side is referred to as Example 16.

On the surface of corrugated stainless steel plate (2), for example, the name of a product manufactured and sold by Nisshin Steel Co., Ltd. 1 mm spherical silicon pn junction solar cell surface (16) of Clean Venture 21, Inc., tempered glass with a conductive antireflection film (18) Concentrating solar cell (1) comprising negative electrode and reflector (17) In order to suppress overheating of the solar cell, the lower part (19) of the positive electrode is brought into close contact with the peak portion of the corrugated steel plate (2), and the tin plate (2) It is assumed that Example 17 is attached to a corrugated stainless steel plate on which a solar cell (1) characterized in that it also dissipates heat.

Corrugated steel plate (2), for example, Nisshin Steel Co., Ltd. manufactured and sold a corrugated steel plate using a ZAM steel plate as a reflector (17), A concentrating solar cell (1) composed of a cylindrical silicon pn-junction solar cell surface (16) having an outer diameter of 1 cm, a tempered glass (18), and a reflecting mirror (17) positive electrode is formed integrally. In order to suppress temperature overheating, heat is dissipated from the tin plate (2), and the solar cell (1) having the solar cell lower part (19) as a positive electrode and the corrugated tin plate are integrated. Example 18 was carried out. Example 18 shows that hot water is also obtained when water is allowed to flow inside the cylindrical solar cell surface (16) or heat is dissipated as a heat pipe.

For the purpose of mounting the solar cell (1) on the corrugated tin plate (2) surface,
A hook (7), a pad eye (7), a long eye (7), an open pad eye (7), an eye strap (7), or a UK turn After attaching a buckle (7) or an L bar with a nut (hereinafter abbreviated as pad eye) to the back surface of the corrugated steel plate (2), the corrugated steel plate (2 After the solar cell (1) is bonded on the surface of the adhesive plate (10) with the adhesive layer (10) interposed, the tip portion is attached to the pad eye (7) attached to the back surface of the corrugated iron plate (2). The corrugated iron plate (2) using the n-shaped L-rod with a nut, and the corrugated steel plate (2) to the rafter (3) of the roof material constituting the house (2) ) To the rafter (3) from the back side of the corrugated steel plate (2) Using the L-shaped nut-attached L bar and the pad eye (7) attached to the corrugated tin plate (2), the rafters (from the back of the corrugated tin plate (2) ( The solution is to attach to 3).
In addition, by attaching the corrugated iron plate (2) to the rafter (3) constituting the roofing material of the house from the back, the corrugated corrugated steel plate (2) is completely damaged. It is assumed that the corrugated iron plate (2) is attached to the rafter (3) constituting the roofing material of the house and fixed, without fixing.

Conventionally, a corrugated steel plate (2) having the same shape is used by forming the solar cell (1) on the surface of the corrugated steel plate (2). For example, a chicken hut Solar cell (1) on the surface of corrugated corrugated steel plate (2) by replacing it with corrugated corrugated steel plate that has the same vertical and horizontal dimensions. The corrugated steel plate having the power generation function can be easily replaced without forming a structure for attaching the solar cell by replacing the corrugated steel plate with the power generation function (2). (2) can be replaced.
In Japan, the corrugated tin plate described above is used only on the roof of a chicken hut. But in Southeast Asia, the equatorial zone of the hottest and the poorest countries in the world, Southeast Asia, sub-Saharan Africa, southern China, and Central and South America sub-Mexico, main house roofing materials Is a corrugated tin plate. There are also many homes living without electricity infrastructure. The main roofing material of the houses inhabited by people who have no electrical infrastructure is corrugated corrugated tin. Replacing corrugated corrugated steel plate, which is the roofing material of houses where people without this infrastructure reside, and corrugated corrugated steel plate (2) with the same power generation function with the same shape and dimensions. Thus, electricity can be easily supplied.
Further, the corrugated stainless steel plate (2) is replaced with a bolt (5), a nut (6), a hook (7), a pad eye (7), a long eye (7), or an open pad eye (7). ), Or eye strap (7), or UK turnbuckle (7), or L bar with nut (hereinafter abbreviated as nut, hook or eye), or other means, A rafter (3) is attached to the rafters (3) constituting the roof of the corrugated iron plate (2) from the back surface of the corrugated steel plate (2), so that a nail ( 4) From the back to the rafter (3), the corrugated iron plate (2) is formed on the rafter (3) of the roofing material that constitutes the house without damaging the wounds generated by hitting. Because it is installed and fixed, corrugated tin Since the corrugated stainless steel plate (2) can be used as a roofing material without generating any scratches on the surface of (2), for example, the product name described above is the Galvaster (ZG) Steel sheet or ZAM steel sheet is used to form corrugated stainless steel sheet (2), and the service life is Nisshin Steel Sheet Co., Ltd., which manufactures and sells Galvaster (ZG) steel sheet or ZAM steel sheet Is made of corrugated corrugated iron plate (2) and flat plate that does not corrode at all for 30 to 50 years, which is 3 to 5 times the warranty period of 10 years. A tin plate (8) can be formed.

1. A solar cell (hereinafter abbreviated as a solar cell) is formed on the surface of a corrugated iron plate or a slate corrugated plate (hereinafter abbreviated as a tin plate) made of cement. ing.
2 Corrugated steel plate 3 Rafter 4 Nail 5 Bolt 6 Nut 7 Nut, hook, pad eye, long eye, open pad eye, eye strap, UK turnbuckle, or L bar with nut (Hereafter, abbreviated as nut, hook or eye)
8 Steel plate made of flat plate 9 One side made of foamed polystyrene, foamed polystyrene, foamed urethane, or other foamed object is corrugated, and the other side is flat, or used as roof tile tile A foamed object made of a shape similar to the shape of a roof tile (hereinafter abbreviated foamed polystyrene board)
10 Adhesive or adhesive layer (hereinafter abbreviated as adhesive layer)
11 Tile that is made of expanded polystyrene, expanded polystyrene, expanded urethane, or other foamed objects, both sides are flat, or one side is flat, and the other is used as a roof tile Foamed object made of a shape similar to the shape (hereinafter abbreviated as a flat polystyrene foam plate)
12 Packing for the purpose of preventing rainwater from entering and leaking (hereinafter abbreviated as packing)
13 Parts where bolts (5) and pad eyes are joined using welding or metal adhesive (hereinafter abbreviated as welding parts or metal adhesive parts)
14 L-shaped rod with nut 15 whose tip is n-shaped 15 A part where two steel plates are joined using a rivet (rivet) or an eyelet (hereinafter abbreviated as heel) 16 Copper pipe Solar cell surface (hereinafter abbreviated as solar cell surface)
17 Reflective mirror 18 Tempered glass 19 Lower part of solar cell 20 Foamed object in which both side surfaces made of expanded polystyrene, expanded polystyrene, expanded urethane, or other expanded objects are formed in a flat plate shape (hereinafter abbreviated as a flat plate shape) The thickness of the sheet made of expanded polystyrene or expanded polystyrene is, for example, expanded polystyrene or expanded polystyrene having a thickness of about 5 mm. For example, a plate made of aluminum having a thickness of about 0.1 mm is formed on both sides of the plate, and a polystyrene foam is used by using an adhesive on both sides of the plate made of polystyrene foam or polystyrene. Or, a plate made of aluminum is pasted on both sides, centering on a plate made of polystyrene foam. Plywood made of polystyrene foam and aluminum (hereinafter abbreviated as Mirapane Ace (20))
21 Tile, or slate or corrugated iron plate (2), flat plate made of flat plate (8), or other thin plate roofing material (hereinafter abbreviated as tile)
22 Holes (hereinafter abbreviated) formed in roofing materials made of roof tiles made of roof tiles (2) made of roof tiles (2), flat plates made of roof tiles, slate, or corrugated plates, or other thin plates And a hole formed in the roof tile)

Claims (33)

For the purpose of forming the solar cell (1) on the corrugated steel plate (2), the rafter (3) and the nail (4) are attached to the back surface of the corrugated steel plate (2). Use rafters (3) on the back of corrugated tin plate (2) and nail (4) to fix rafters (3) on the back of corrugated tin plate (2) After that, the solar cell (1) is formed on the surface of the tin plate (2), which is characterized in that the solar cell (1) is formed on the surface of the corrugated tin plate (2). A tin plate and its processing method. For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2) and for the purpose of fixing the rafter (3) to the back surface of the corrugated tin plate (2). The rafters (3) are nuts (6) on the back surface of the corrugated steel plate (2) to which the bolts (5) are welded or the bolts (5) are fixed using a metal adhesive. ) Is used to form the solar cell (1) on the corrugated steel plate (2) surface after the rafter (3) is fixed to the back surface of the corrugated steel plate (2). The tin plate which has formed the solar cell (1) on the surface of the tin plate (2) characterized by having performed, and its processing method. For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2), the concave shape or the convex shape forming irregularities on the corrugated tin plate (2) The rafters (3) are attached to the back surface of the corrugated steel plate (2) by using the nails (4) with the rafters (3) in the direction parallel to the concave or convex direction. On the surface of the tin plate (2), wherein the solar cell (1) is formed on the surface of the corrugated steel plate (2) after the rafter (3) is fixed by nailing A tin plate forming the solar cell (1) and a processing method thereof. For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2) and for the purpose of fixing the rafter (3) to the back surface of the corrugated tin plate (2). In addition, the concave shape forming the corrugations of the corrugated plate on the back surface of the corrugated steel plate (2) which is welded with the bolt (5) or using a metal adhesive to form the corrugated bolt (5), Alternatively, a corrugated steel plate (2) using a rafter (3) and bolts (5) and nuts (6) in parallel with the concave or convex direction on the convex back surface (2) Of the tin plate (2) characterized in that the solar cell (1) is formed on the surface of the corrugated tin plate (2) after the rafter (3) is attached and fixed to the back surface of A tin plate on which the solar cell (1) is formed on the surface, and a processing method thereof. For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2) and for the purpose of fixing the rafter (3) to the back surface of the corrugated tin plate (2). The corrugated steel plate (2) is welded with a nut (6) to the back surface of the corrugated steel plate (2), or the nut (6) is fixed using a metal adhesive ( Corrugated iron after fixing rafter (3) to the back of corrugated steel plate (2) using rafter (3) bolt (5) on the back of 2) A tin plate characterized in that a solar cell (1) is formed on the surface of a tin plate (2), wherein the solar cell (1) is formed on the surface of the plate (2), and a processing method thereof . For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2) and for the purpose of fixing the rafter (3) to the back surface of the corrugated tin plate (2). Next, the corrugated steel plate after the bolt (5) is welded or the bolt (5) is fixed to the back surface of the corrugated steel plate (2) using a metal adhesive. A tin plate in which the solar cell (1) is formed on the surface of the tin plate (2), wherein the solar cell (1) is formed on the surface of (2), and a processing method thereof. For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2) and for the purpose of fixing the rafter (3) to the back surface of the corrugated tin plate (2). Next, the nut (6) is welded to the back surface of the corrugated steel plate (2), or the nut (6) is welded to the back surface of the corrugated steel plate (2) using a metal adhesive. The solar cell (1) is formed on the surface of the tin plate (2), wherein the solar cell (1) is formed on the surface of the corrugated tin plate (2) after being fixed. Iron plate and processing method thereof. For the purpose of forming the solar cell (1) on the surface of the corrugated tin plate (2) and for the purpose of fixing the rafter (3) to the back surface of the corrugated tin plate (2). The hook (7) is welded to the back surface of the corrugated steel plate (2), or the hook (7) is attached to the back surface of the corrugated steel plate (2) using a metal adhesive. The solar cell (1) is formed on the surface of the tin plate (2), wherein the solar cell (1) is formed on the surface of the corrugated tin plate (2) after being fixed. Iron plate and processing method thereof. For the purpose of forming solar cells (1) on the surface of a tin plate (8) made of flat plate, for the purpose of attaching rafters (3) etc. to the back surface of the tin plate (8) made of flat plate Next, the solar cell (1) is formed on the surface of the steel plate (8) made of a flat plate after the bolt (5) is welded or the bolt (5) is fixed using a metal adhesive. The tin plate which has formed the solar cell (1) on the surface of the tin plate (2) characterized by having performed, and its processing method. For the purpose of forming solar cells (1) on the surface of a tin plate (8) made of flat plate, for the purpose of attaching rafters (3) etc. to the back surface of the tin plate (8) made of flat plate Next, the solar cell (1) is formed on the surface of the flat plate (8) after welding the nut (6) or fixing the nut (6) using a metal adhesive. The tin plate which has formed the solar cell (1) on the surface of the tin plate (2) characterized by having performed, and its processing method. For the purpose of forming solar cells (1) on the surface of a tin plate (8) made of flat plate, for the purpose of attaching rafters (3) etc. to the back surface of the tin plate (8) made of flat plate Next, the solar cell (1) is formed on the surface of the flat plate (8) made of a flat plate after the hook (7) is welded or the hook (7) is fixed using a metal adhesive. The tin plate which has formed the solar cell (1) on the surface of the tin plate (2) characterized by having performed, and its processing method. A hook plate (7), a pad eye (7), a long eye (7), or an open pad eye (7) on the back surface of a corrugated tin plate (2) or a flat plate (8) made of a flat plate ), Or eye strap (7), or UK turnbuckle (7) (hereinafter abbreviated as a nut, hook, or eye) or a rafter (3) The wave which formed the spherical silicon solar cell module which can condense a solar ray from many directions and has much higher electric power generation efficiency on the surface of the made tin plate (2) or the tin plate (8) made of a flat plate A rafter (3) that constitutes a roof of a house made of a steel plate (2), or a steel plate (8) that forms a solar cell (1) on the surface of a steel plate (8) made of a flat plate Or rafters that make up the wall ( ) From the back surface of the roof of the house or the back surface of the wall constituting the house, the solar cell (2), or the surface of the tin plate (8) made of a flat plate (8) 1), a corrugated iron plate (2) or solar cell (1) having a solar cell (1) formed by attaching and fixing the solar cell (1). A tin plate (8) made of the formed flat plate and a processing method thereof. Aluminum (Al) on the surface of the iron plate constituting the corrugated tin plate (2) or the tin plate (8) made of a flat plate (hereinafter referred to simply as the tin plate or iron plate). 55% + zinc (Zn) 43.4% + silicon (Si) 1.6% alloy base metal is melted in the plating tank, and the iron plate is immersed in the plating plate. Corrugated tin plate (2) subjected to galvalume plating (hereinafter, abbreviated as Galva Steel, or Nisshin Steel Co., Ltd., the product name of which is manufactured and sold by Galbuster or ZG) The solar cell (1) is formed on the surface of the tin plate (8) made of a flat plate, and the roof of the house is constructed from the surface on which the solar cell (1) is formed on the surface of the tin plate. Using the nail (4) to the rafter (3), directly form the solar cell (1) Even if the corrugated steel plate (2) or the steel plate (8) made of flat plate is nailed from the top of the steel plate to the rafter (3) using the nail (4), it can be made of galva steel plate. Since the corrugated iron plate is highly corrosion resistant and resistant to corrosion, the solar cell (1) formed on the surface of the corrugated steel plate made of galva steel plate and the corrugated tin plate (2), or Since the progress of peeling with the flat plate made of flat plate (8) can be most reduced, the solar cell (1) is formed on the surface of the corrugated plate made of galvanized steel plate (2). Form. Or, if the steel plate (1) is formed on the surface of the steel plate (8) made of a flat plate, the roof of the house is constructed from the surface of the steel plate using nails (4). The solar cell (1) characterized in that the rafter (3) can be directly struck onto the rafter (3) using the nail (4) from the surface on the surface of the tin plate. A corrugated iron plate (2), or a tin plate (8) made of a flat plate on which a solar cell (1) is formed, and a processing method thereof. Plated on the surface of a corrugated steel plate (2) suitable for use in cattle barns and compost houses, or a steel plate (8) made of flat plate (hereinafter abbreviated as a steel plate). For processing, for example, zinc (Zn) 91% + aluminum (Al) 6% + magnesium (Nisshin Steel Co., Ltd.) manufactured and sold with excellent ammonia resistance and wet resistance. (Mg) 1% solar cell on the surface of corrugated tin plate using ZAM steel plate, which has been subjected to double-bake plating inside the plating tank in which the metal made of 1% is melting Form. Alternatively, a corrugated tin plate (2) formed with a solar cell (1), wherein the solar cell (1) is formed on the surface of a flat plate (8) made of a flat plate, or the sun A tin plate (8) made of a flat plate on which the battery (1) is formed, and a processing method thereof. Corrugated corrugated iron plate (2) is damaged from the corrugated corrugated steel plate (2) by attaching rafters (3) constituting the roofing material of the house from the back side. Corrugated iron plate (2) or flat plate characterized by attaching and fixing corrugated steel plate (2) to rafter (3) constituting the roofing material of the house A tin plate (8) made of the above and its processing method. For the purpose of attaching the solar cell (1) on the surface of the corrugated tin plate (2), a polystyrene foam plate is placed between the corrugated tin plate (2) and the solar cell (1). A module in which a foamed polystyrene plate (11) made of (11) on both sides is formed in a flat plate shape is interposed between a corrugated steel plate (2) and a solar cell (1). Using bolts (5) and nuts (6) joined on the surface of corrugated stainless steel plate (2) using welded part (13) or metal adhesive part (13) Then, a foamed polystyrene plate (11) having both sides made of a polystyrene foam plate (11) is formed in the middle, and a solar cell (1) is placed on the surface of the foamed polystyrene plate (11). After forming the adhesive layer (10) and bonding Furthermore, after attaching the solar cell (1) to the corrugated steel plate (2) using the bolt (5) and the nut (6), on the back surface of the corrugated steel plate (2) Hook (7) or pad eye (7) or long eye (7) or open pad eye (7) or eye strap (7) or UK turnbuckle (7) or L rod with nut , Abbreviated as pad eye) is attached to the corrugated tin plate (2), and then the tip of the pad eye (7) attached to the back surface of the corrugated tin plate (2) Corrugated iron plate (2) using corrugated iron plate (2) using r-bar with nut with n-shaped part on roof rafter (3) constituting the house 2) From the back side of rafter (3) to corrugated sheet (2) The corrugated tongue plate (2) is formed by using an L rod with a nut having an n-shaped end and a pad eye (7) attached to the corrugated tongue plate (2). A corrugated tin plate (2) or a tin plate (8) made of a flat plate, characterized by being attached to the rafter (3) from the back, and a processing method thereof. On the surface of corrugated stainless steel plate (2), for example, the product name manufactured and sold by Nisshin Steel Co., Ltd. is spherical on the surface of corrugated steel plate (2) using ZAM steel plate. In order to suppress the temperature overheating of the solar cell by installing the concentrating solar cell (1) composed of the Si solar cell surface (16), the tempered glass (18) and the reflecting mirror (17), the lower part of the solar cell (19 ) In close contact with the peak portion of the corrugated iron plate (2) and dissipating heat from the corrugated steel plate (2). 2) and its processing method. The upper surface of the corrugated stainless steel plate (2) is used as a reflecting mirror (17), and a concentrating solar comprising a cylindrical solar cell surface (16), a tempered glass with a conductive thin film (18), and a reflecting mirror (17). The cylindrical solar cell surface (1) is characterized by radiating heat from the tin plate (2) in order to integrally form the battery (1) and suppress temperature overheating of the solar cell surface (16). A corrugated stainless steel plate (2) formed thereon and a processing method thereof. For the purpose of mounting the solar cell (1) on the corrugated tin plate (2) surface,
A hook (7), a pad eye (7), a long eye (7), an open pad eye (7), an eye strap (7), or a UK turn After attaching a buckle (7) or an L bar with a nut (hereinafter abbreviated as pad eye) to the back surface of the corrugated steel plate (2), the corrugated steel plate (2 After the solar cell (1) is bonded on the surface of the adhesive plate (10) with the adhesive layer (10) interposed, the tip portion is attached to the pad eye (7) attached to the back surface of the corrugated iron plate (2). The corrugated iron plate (2) using the n-shaped L-rod with a nut, and the corrugated steel plate (2) to the rafter (3) of the roof material constituting the house (2) ) To the rafter (3) from the back side of the corrugated steel plate (2) Using the L-shaped nut-attached L bar and the pad eye (7) attached to the corrugated tin plate (2), the rafters (from the back of the corrugated tin plate (2) ( 3) A corrugated iron plate (2) having a solar cell (1) formed on the surface thereof, and a processing method thereof. For the purpose of mounting the solar cell (1) on the surface of the corrugated stainless steel plate (2), the nut (6) is arc welded on the surface of the corrugated steel plate (2) (13). Or forming a corrugated tin plate (2) by forming a metal adhesive portion (13) and fixing a nut (6) on the surface of the corrugated corrugated steel plate (2). Thus, for example, as shown in FIG. 37, a spherical silicon solar cell module (output 115W) manufactured and sold by Clean Venture 21 Co., Ltd., located at Kamitoba Daichocho 35, Minami-ku, Kyoto, Using a spherical silicon solar cell module (output 115W) using a nut (6) attached and fixed on the surface of a corrugated tin plate (2), the corrugated tin Easily and firmly mounted on the surface of the plate (2) Galvanized iron plate has a corrugated shape which is formed on the surface and the solar cell (1), characterized in that it can be attached (2), and its processing method. For the purpose of mounting the solar cell (1) on the surface of the corrugated stainless steel plate (2), the nut (6) is arc welded on the surface of the corrugated steel plate (2) (13). Alternatively, a metal adhesive portion (13) is formed and a nut (6) is fixed on the surface of the corrugated stainless steel plate (2), and then the corrugated steel plate (2) and solar cell In the middle of (1), although it is a board made of foamed polystyrene and aluminum, an adhesive layer (10) is formed on both sides, and on both sides of the foamed polystyrene board, both sides are made of aluminum. For example, the name of the company that is located in 3-4-2 Marunouchi, Chiyoda-ku, Tokyo (Nipponishi Building) and the name of the product that JSP Co., Ltd. manufactures and sells is Mirapane Ace (hereinafter, Plywood made of Mirapane Ace) , And Mirapaneesu plywood (20). A corrugated iron plate (2) and a solar cell (1) interposing adhesive layers (10) formed on both sides of a plywood (20) made of this Mirapane ace plywood (20) Laminated. Further, an arc welded part (13) or a metal adhesive part (13) is formed on the back surface of the corrugated tin plate (2) to form a pad eye (7), a long eye (7), or an open. Corrugated tin with pad eye (7) or eye strap (7) (hereinafter abbreviated as pad eye) formed on the back surface of corrugated corrugated tin plate (2) With the formation of the plate (2), even if a human freely walks on the surface of the solar cell (1) formed on the surface of the corrugated iron plate (2), it can withstand the weight of the human. It becomes the structure of the solar cell (1) that can be used. It also has a soundproofing effect. Furthermore, the solar cell (1) is laid on the surface of the corrugated iron plate (2), which has a heat resistance effect. The solar cell (1) is laid on the corrugated steel plate (2). However, no special structure is required at all, and the solar cell (in the same work process as the work process of laying the corrugated iron plate (2) as the roof of the roofing material) 1) A corrugated iron plate (2) having a solar cell (1) formed on the surface thereof, and a processing method thereof. Conventionally, when the corrugated steel plate (2) is used as the roof of a house and the corrugated steel plate (2) is currently used, the corrugated plate shape described above is used. The corrugated steel plate (2) which uses the corrugated steel plate (2) having the solar cell (1) formed on the surface of the corrugated steel plate (2) as a roof of a house at present (2) A hole is formed in the corrugated steel plate (2) constituting the roof of the house from above the surface, and the corrugated steel plate (2) is penetrated to constitute the house. In order to firmly fix the corrugated steel plate (2) formed on the surface of the solar cell (1) to the rafter (3), the back surface of the corrugated steel plate (2) Pad eye (7), long eye (7), or open pad eye (7), or ice tiger (7) (hereinafter abbreviated as pad eye), bolt (5), nut (6), or L rod with nut, etc. If the corrugated iron plate (2) forming the solar cell (1) is overlapped and overlapped from the surface of the plate-shaped tin plate (2), the solar cell will be more simplified. (1) A corrugated iron plate (2) having a solar cell (1) formed on the surface thereof, and a processing method thereof. Conventionally, a roof of a house made of a tile roof as a roof material of a house, a roof of a slate roof material made of cement, or a roof of a roof material made of other artificial thin plate (hereinafter abbreviated, When installing the corrugated steel plate (2) in which the solar cell (1) is formed on the surface of the corrugated steel plate (2) described above. In the same manner as described above, a hole is formed in the tile roof tile that constitutes the roof of the house, and the roof tile is penetrated to the rafter (3) constituting the house. A pad eye (7) attached to the back surface of the corrugated steel plate (2) for fixing the corrugated steel plate (2) on which the battery (1) is formed. Or long eye (7) or open pad eye (7) or eye strap (7) Hereinafter, abbreviated pad eye), or a tile roof or slate roof currently used as a roof of a house using a bolt (5), a nut (6), or an L bar with a nut, etc. On the surface of the roof made of slate or the tile roof that is currently using the corrugated iron plate (2) forming the solar cell (1) from the surface used as When the solar cell is placed on the surface of the corrugated iron plate (2), which is currently used as a roof of a house, as described above, when it is installed firmly and overlapped with each other and fixed. Similar to the case where the corrugated iron plate (2) forming (1) is installed, the solar cell (1) is more easily arranged on the surface of the roof tile or on the roof made of slate. It can be firmly fixed on the surface. Solar cell (1) galvanized iron plate having a corrugated shape which is formed on the surface (2), and its processing method. For the purpose of mounting the solar cell (1) on the surface of the corrugated stainless steel plate (2), the nut (6) is arc welded on the surface of the corrugated steel plate (2) (13). Alternatively, a metal adhesive portion (13) is formed and a nut (6) is fixed on the surface of the corrugated stainless steel plate (2), and then the corrugated steel plate (2) and solar cell In the middle of (1), a plywood plate (20) made of a polystyrene foam plate and a plate made of aluminum is formed with an adhesive layer (10) interposed, and then laminated. An arc welded part (13) or a metal adhesive part (13) is formed on the back surface of the corrugated stainless steel plate (2) to form a pad eye (7), a long eye (7), or an open pad Eye (7) or eye strap (7) (hereinafter abbreviated as pad To the roof tiles (21) constituting the roof of the house to attach the rafters (3) constituting the house on the back surface of the corrugated iron plate (2). A hole (22) is formed, and a pad eye (7) attached on the back surface of the corrugated iron plate (2) and an L rod (14) with a nut having an n-shaped tip are tiled ( 21) Use the L-shaped bar with nut (14) that penetrates the inside of the hole (22) formed in 21) and the tip part is n-shaped, to the rafter (3) that constitutes the house The solar cell (1) on the surface of the corrugated tin plate (2), and further, the soundproofing effect, the heat insulating effect, or the roof tile (21) on the back surface of the corrugated tin plate (2) For the purpose of improving the adhesion to the inside, the polystyrene foam plate (11) having both sides flattened in a sandwich shape The rafters constituting the house with the corrugated steel plate (2) forming the solar cell (1) on the surface of the corrugated steel plate (2) 3) A corrugated plate forming a solar cell (1) on the surface of a corrugated iron plate (2) on the surface of a roof made of tiles (21) firmly attached to 3) A corrugated tin plate (2) in which a solar cell (1) is formed on the surface, and a processing method thereof. For the purpose of mounting the solar cell (1) on the surface of the corrugated stainless steel plate (2), the nut (6) is arc welded on the surface of the corrugated steel plate (2) (13). Alternatively, a metal adhesive portion (13) is formed and a nut (6) is fixed on the surface of the corrugated stainless steel plate (2), and then the corrugated steel plate (2) and solar cell In the middle of (1), a plywood plate (20) made of a polystyrene foam plate and a plate made of aluminum is formed with an adhesive layer (10) interposed, and then laminated. An arc welded part (13) or a metal adhesive part (13) is formed on the back surface of the corrugated stainless steel plate (2) to form a pad eye (7), a long eye (7), or an open pad Eye (7) or eye strap (7) (hereinafter abbreviated as pad To the roof tiles (21) constituting the roof of the house to attach the rafters (3) constituting the house on the back surface of the corrugated iron plate (2). A hole (22) is formed, and a pad eye (7) attached on the back surface of the corrugated iron plate (2) and an L rod (14) with a nut having an n-shaped tip are tiled ( 21) Use the L-shaped bar with nut (14) that penetrates the inside of the hole (22) formed in 21) and the tip part is n-shaped, to the rafter (3) that constitutes the house The solar cell (1) on the surface of the corrugated iron plate (2), and further, the soundproofing effect, the heat insulating effect, or the roof tile (21) on the back surface of the corrugated steel plate (2). For the purpose of improving the adhesion with the other side, use one side as a corrugated plate and the other side as a flat plate or roof tile. The solar cell (1) is formed on the surface of the corrugated iron plate (2) by interposing a polystyrene foam plate (9) having a shape similar to the shape of the tile in the middle of the sandwich shape. The corrugated iron plate (2) is firmly attached to the rafter (3) constituting the house, and the corrugated corrugated steel plate (2) is formed on the roof surface made of tiles (21). The solar cell (1) is formed on the surface of the plate (2), and the corrugated iron plate (2) forming the solar cell (1) can be formed on the surface of the plate (2). Corrugated stainless steel plate (2) and its processing method. For the purpose of attaching the solar cell (1) on the surface of the flat plate (8) made of flat plate, the nut (6) is arc-welded (13) on the surface of the flat plate (8) made of flat plate. Or a metal adhesive portion (13), and after fixing a nut (6) on the surface of a flat plate (8) made of a flat plate, the flat plate (8) made of a flat plate and a solar cell In the middle of (1), a plywood plate (20) made of a polystyrene foam plate and a plate made of aluminum is formed with an adhesive layer (10) interposed, and then laminated. A pad eye (7), a long eye (7), or an open pad by forming an arc welded part (13) or a metal adhesive part (13) on the back surface of a flat plate (8) made of a flat plate Eye (7) or eye strap (7) (hereinafter abbreviated The roof tile of the house (21) is used to attach the rafter (3) constituting the house on the back surface of the steel plate (8) made of flat plate using the pad eye) ) With a hole (22) and a pad eye (7) attached on the back side of the flat plate (8) made of a flat plate and an L rod (14) with a nut having an n-shaped tip. The rafters (3) that make up the house using an L-shaped rod (14) with a nut that penetrates the inside of the hole (22) formed in the roof tile (21) and has an n-shaped tip. ), The solar cell (1) on the surface of the flat plate (8) made of a flat plate, and the soundproofing effect, the heat insulating effect, or the roof tile (8) on the back surface of the flat plate (8) made of a flat plate. 21) For the purpose of improving the adhesion with 21), both sides are flat or one side is flat and the other piece On the surface of a flat steel plate (8) that is used as a roof tile, with a polystyrene foam plate (11) having a shape similar to that of the tile in the middle of the sandwich shape. On the surface of the roof made of tiles (21) by firmly attaching the flat plate (8) made of flat plate to the rafter (3) constituting the house In addition, a solar cell (8) made of a flat plate forming a solar cell (1) on the surface of a flat plate (8) made of a flat plate can be formed. Corrugated iron plate (2) formed on the surface of 1) and a processing method thereof. There are two types of corrugated tin plate (2), a small wave and a large wave. The dimensions of the small wave are 0.35 × 793 × 1800 (thickness × width × length), the unit is mm, the weight is 2.69 kg, the distance between the peaks is 31 mm, and the working width is 695 mm. The dimensions of the large wave are 0.4 × 914 × 1800 (thickness × width × length), the weight is 3.5 kg, the distance between the peaks is 63.6 mm, and the working width is 685 mm. The standard product of the two corrugated stainless steel plates (2) is the global standard for corrugated steel plates (2). In order to reinforce the strength of the corrugated steel plate (2) by attaching the solar cell (1) on the surface of the corrugated steel plate (2), the corrugated steel plate On the back surface of the plate (2), for the purpose of reinforcing the strength of the corrugated tin plate (2), the Mirapane Ace (20), or the corrugated polystyrene foam plate (9), or a flat plate shape was used. A corrugated stainless steel plate (2) characterized in that a foamed polystyrene plate is bonded and bonded with an adhesive layer (10) interposed therebetween, and a processing method thereof. For the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2), a polystyrene foam plate is placed between the corrugated tin plate (2) and the solar cell (1). After joining a plywood plate (20) (hereinafter abbreviated as Mirapane Ace 20) made of aluminum and a solar cell (1) with an adhesive layer (10) interposed therebetween. In addition, a polystyrene foam plate (9) having a corrugated plate shape on one side and a flat plate shape on the other surface is placed between the Mirapane Ace 20 and the corrugated steel plate (2) and the Mirapane Ace 20 in an adhesive layer ( 10) is interposed and laminated on the corrugated stainless steel plate (2) and laminated, and then the arc welded portion (13) on the back surface of the corrugated steel plate (2), or Form metal adhesive part (13) (7) or pad eye (7) or long eye (7) or open pad eye (7) or eye strap (7) (hereinafter abbreviated as nut or pad eye) In order to attach the rafters (3) constituting the house on the back surface of the corrugated iron plate (2), a hole (22) is formed in the tile (21) constituting the roof of the house. Then, a pad eye (7) attached on the back surface of the corrugated iron plate (2) and an L rod (14) with a nut having an n-shaped tip are formed on the roof tile (21). The rafter (3) constituting the house was made into a corrugated plate shape using an L-shaped rod (14) with a nut having an n-shaped tip, penetrating the inside of the hole (22). A solar cell (1) on the surface of the tin plate (2), and a corrugated tin plate (2) For the purpose of enhancing the soundproofing effect, the heat insulating effect, or the adhesion to the roof tile (21) on the back side, a polystyrene foam plate (9) having a corrugated shape on one side and a flat shape on the other side is sandwiched. In the middle, the solar cell (1) is formed on the surface of the corrugated steel plate (2), and the corrugated steel plate (2) constitutes the house. A corrugated shape in which a solar cell (1) is formed on the surface of a corrugated iron plate (2) on the surface of a roof made of tiles (21) firmly attached to a rafter (3) A corrugated iron plate (2) having a solar cell (1) formed on the surface thereof, and a processing method thereof. For the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2), one side is corrugated between the corrugated tin plate (2) and the solar cell (1). After forming and laminating a foamed polystyrene plate (9) having a flat plate shape on the other side by joining the corrugated steel plate (2) with an adhesive layer (10) interposed therebetween, An arc welded portion (13) or a metal adhesive portion (13) is formed on the back surface of the corrugated stainless steel plate (2) to form a nut (7), a pad eye (7), or a long eye (7 ), Or an open pad eye (7) or eye strap (7) (hereinafter abbreviated as a nut or pad eye), and a house on the back surface of the corrugated steel plate (2). The roof of the house is constructed to attach the rafters (3) A hole (22) is formed in the roof tile (21), and a pad eye (7) attached on the back surface of the corrugated iron plate (2) and an L rod with a nut whose tip is n-shaped. (14) is made to penetrate the inside of the hole (22) formed in the roof tile (21), and the L-shaped rod (14) with a nut whose tip portion is n-shaped is used to configure the house. The rafter (3) has a solar cell (1) on the surface of the corrugated iron plate (2) and a soundproofing effect or a heat insulating effect on the back surface of the corrugated steel plate (2). For the purpose of improving the adhesion to the roof tile (21), a foamed polystyrene plate (9) having a corrugated plate shape on one side and a flat plate on the other surface is interposed in the middle of the sandwich shape. The solar cell (1) is formed on the surface of the plate-shaped tin plate (2), and the corrugated plate shape is formed. The tongue plate (2) is firmly attached to the rafter (3) constituting the house, and the sun is placed on the surface of the corrugated tongue plate (2) on the surface of the roof made of tiles (21). Corrugated iron plate (1) formed on the surface of the solar cell (1), characterized in that the corrugated steel plate (2) forming the battery (1) can be formed. 2) and its processing method. For the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2), a polystyrene foam plate is placed between the corrugated tin plate (2) and the solar cell (1). After joining a plywood plate (20) (hereinafter abbreviated as Mirapane Ace 20) made of aluminum and a solar cell (1) with an adhesive layer (10) interposed therebetween. In addition, a polystyrene foam plate (9) having a corrugated plate shape on one side and a flat plate shape on the other surface is placed between the Mirapane Ace 20 and the corrugated steel plate (2) and the Mirapane Ace 20 in an adhesive layer ( The corrugated plate shape in which the solar cell (1) is formed on the surface of the corrugated corrugated steel plate (2), which is bonded to the corrugated corrugated steel plate (2) and laminated. Arc welded part on the back of the stainless steel plate (2) (13), or a metal adhesive portion (13) to form a nut (7), or a pad eye (7), or a long eye (7), or an open pad eye (7), or an eye strap (7) ( In the following, abbreviated as a nut or pad eye) is attached to the back surface of the corrugated stainless steel plate (2), and the solar cell (1 A corrugated tin plate (2) formed on the surface of a solar cell (1), characterized by being capable of forming a corrugated tin plate (2) formed with Processing method. For the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2), one side is corrugated between the corrugated tin plate (2) and the solar cell (1). After forming and laminating a foamed polystyrene plate (9) having a flat plate shape on the other side by joining the corrugated steel plate (2) with an adhesive layer (10) interposed therebetween, An arc welded portion (13) or a metal adhesive portion (13) is formed on the back surface of the corrugated stainless steel plate (2) to form a nut (7), a pad eye (7), or a long eye (7 ), Or an open pad eye (7) or an eye strap (7) (hereinafter abbreviated as a nut or a pad eye), and a solar cell on the surface of a corrugated iron plate (2). A corrugated iron plate (2) formed with (1) is formed. DOO solar cell characterized in that it (1) galvanized iron plate having a corrugated shape which is formed on the surface (2), and its processing method. For the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2), a polystyrene foam plate is placed between the corrugated tin plate (2) and the solar cell (1). After joining a plywood plate (20) (hereinafter abbreviated as Mirapane Ace 20) made of aluminum and a solar cell (1) with an adhesive layer (10) interposed therebetween. In addition, a polystyrene foam plate (9) having a corrugated plate shape on one side and a flat plate shape on the other surface is placed between the Mirapane Ace 20 and the corrugated steel plate (2) and the Mirapane Ace 20 in an adhesive layer ( 10) is interposed and laminated on the corrugated stainless steel plate (2) and laminated, and then the arc welded portion (13) on the back surface of the corrugated steel plate (2), or Form metal adhesive part (13) (7) or pad eye (7) or long eye (7) or open pad eye (7) or eye strap (7) (hereinafter abbreviated as nut or pad eye) Furthermore, for the purpose of improving the soundproofing effect, the heat insulating effect, or the adhesiveness with the roof tile (21) on the back surface of the corrugated iron plate (2), one side is corrugated and the other side A solar cell (1) is formed on the surface of a corrugated steel plate (2) by interposing an adhesive layer (10) in the middle of a sandwiched polystyrene foam plate (9) having a flat plate shape on one side. Corrugated iron plate (2) characterized by being capable of being processed and its processing method. For the purpose of mounting the solar cell (1) on the surface of the corrugated tin plate (2), one side is corrugated between the corrugated tin plate (2) and the solar cell (1). After forming and laminating a foamed polystyrene plate (9) having a flat plate shape on the other side by joining the corrugated steel plate (2) with an adhesive layer (10) interposed therebetween, An arc welded portion (13) or a metal adhesive portion (13) is formed on the back surface of the corrugated stainless steel plate (2) to form a nut (7), a pad eye (7), or a long eye (7 ), Or open pad eye (7) or eye strap (7) (hereinafter abbreviated as nut or pad eye), and then on the back of corrugated tin plate (2) Soundproofing effect, heat insulation effect, or adhesion to roof tile (21) For this purpose, a corrugated sheet made of a polystyrene foam plate (9) having a corrugated plate shape on one side and a flat plate shape on the other surface with an adhesive layer (10) interposed in the middle of the sandwich shape. A corrugated iron plate (2) characterized in that a solar cell (1) can be formed on the surface of the plate (2), and a processing method thereof.

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