JP2011054690A - Solar power generator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To achieve easy and speedy construction and to obtain superior water-tightness. <P>SOLUTION: A solar power generator includes: a structure material 3; a solar power generation unit A provided to both longitudinal frames 21 and 22, a lateral underwater frame, and a lateral overwater frame; and a longitudinal watershoot material 4 having a longitudinal watershoot part 41 formed. Both the longitudinal frames have longitudinal frame watershoot parts 213a and 223a formed, the lateral underwater frame has a horizontal part 233 formed outside, and the lateral overwater frame has a lateral watershoot part 244 formed. A plurality of longitudinal watershoot materials 4 are inclined and fixed among a plurality of structure materials 3 disposed together, longitudinal frames of adjacent solar power generation units are mutually mounted and fixed on the longitudinal watershoot materials 4, and the lateral underwater frame and lateral overwater frame of the solar power generation unit A face each other in the same direction as the longitudinal direction of the longitudinal watershoot material 4. The outer end of a horizontal part 233 is disposed on the inside of the lateral watershoot part 244 in contact with an intermediate part of the lateral overwater frame, both ends in the longitudinal direction are disposed in the longitudinal watershoot part 41, and a cover part 234 of the lateral underwater frame 23 is connected while covering a peak piece 242a of the lateral overwater frame 24. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a photovoltaic power generation apparatus having a simple configuration and capable of rapid construction and having excellent water tightness.

2. Description of the Related Art Conventionally, there is a solar power generation device provided on a roof or a wall of a structure using a solar power generation module body. For example, it is possible to cope with the case of an inclined roof or wall, but there are drawbacks such as a complicated structure and high price. There was also a problem that the rain was not good. In particular, in Patent Document 1, the content of the specification complicates the structure while providing a sash. In patent document 2, it is the structure attached to a sash, However As a concrete structure, the structure for making the rain performance of a roof favorable was complicated, and there existed a problem extremely. Furthermore, in patent document 3, it was the structure considered that it was difficult to make rain performance favorable, attaching a solar power generation module body to a sash.
Japanese Patent No. 2939238 Japanese Patent No. 2857581 JP 2001-298205 A JP 2000-234425 A JP 2001-65119 A

  In each of Patent Documents 1 to 3, the rain performance structure is complicated in terms of structure, but there is a high possibility that the rain performance is incomplete. In particular, although Patent Document 4 has a simple configuration, there is a serious drawback that a good rain performance cannot be expected. In Patent Document 5, the rotation stopper cannot be operated satisfactorily. For this reason, the problem (technical problem or purpose, etc.) to be solved by the present invention is to realize a solar power generation apparatus that can be easily and quickly constructed and has good water tightness.

  Therefore, as a result of intensive researches to solve the above problems, the inventor has made the invention of claim 1 a rectangular frame by using a structural material as a horizontal beam, both vertical frames, horizontal water frames, and horizontal water frames. A photovoltaic power generation unit in which a photovoltaic power generation array in which flat photovoltaic power generation cells are assembled in a formed frame body is housed, and a mounting ridge portion at a substantially center of a vertical rod-shaped portion composed of a flat portion and a rising portion And a longitudinal frame hook-shaped portion is formed on the lower outer side of the vertical frame, and the horizontal submerged frame has a height from the middle in the height direction. A horizontal portion is formed on the outer side, and a wide horizontal hook-shaped portion is bent on the outer side of the lower portion of the horizontal water frame, and a plurality of vertical hook materials are provided at predetermined intervals between the plurality of the structural members arranged side by side. Fixed in the direction of inclination and adjacent to the direction perpendicular to the vertical fence The vertical frames of the solar power generation unit are mounted and fixed to the mounting protrusions in the vertical rod-shaped portion of the vertical rod material, and the longitudinal ends of the vertical frame hook-shaped portions are disposed in the vertical rod-shaped portion. The horizontal water frame and the horizontal water frame of the photovoltaic power generation unit face each other in the same direction as the longitudinal direction of the vertical dredger, and the horizontal outer end of the horizontal water frame is the height of the horizontal water frame. The horizontal portion of the horizontal water frame and the entire lower side of the support rising portion are disposed on the horizontal rod-shaped portion, and a cover portion formed at the upper end of the horizontal water frame is a horizontal water frame. The solar power generation apparatus is characterized in that it is connected so as to cover the top piece of each other, and both ends in the longitudinal direction of the horizontal hook-shaped portion are arranged in the vertical hook-shaped portion. .

  The invention according to claim 2 is the solar power generation device according to claim 1, wherein the rising support portion of the horizontal water frame is located in the middle of the horizontal hook-shaped portion of the horizontal water frame. The above-mentioned problem has been solved. According to a third aspect of the present invention, in the first or second aspect, an end drooping edge formed at an outer end of the horizontal portion of the horizontal water frame is in contact with a vertical portion of a support rising portion of the horizontal water frame. By solving the above problem, the above-described problem was solved. According to the invention of claim 4, in any one of claims 1, 2, or 3, a locking piece is formed at the top portion of either one of the vertical frames, and a fitting protrusion is formed on the other side, respectively. A long joiner material having an insertion groove on one side in the width direction and a fitting portion on the other side is inserted between the vertical frames, and the insertion groove is locked to the locking piece. The above-mentioned problem has been solved by providing a solar power generation device characterized in that the fitting portion is fitted to the fitting protrusion.

  In the invention of claim 5, in any one of claims 1, 2, 3 or 4, the mounting protrusion of the vertical rod has a cross-sectional gate shape, and a groove is formed at the center of the top, The support plate portion is formed with an appropriate gap, the rotary piece is fixed to the lower end of the screw portion, and the rotary piece of the fixture having the nut and the holding piece is placed on the support plate portion via the groove portion. The solar light unit is inserted and fixed in rotation, and the vertical frames of the adjacent photovoltaic power generation units are mounted and fixed on the mounting protrusions in the vertical rod-shaped portion of the vertical rod material. By using a power generation device, the above problems have been solved. The invention according to claim 6 is the photovoltaic power generation apparatus according to any one of claims 1, 2, 3, 4 or 5, wherein the photovoltaic power generation cell is configured to be transparent or translucent. As a result, the above problems have been solved. The invention of claim 7 is the L-shaped side portion of the vertical saddle member adjacent to the lower side of the photovoltaic power generation panel according to any one of claims 1, 2, 3, 4, 5, or 6. The solar power generation apparatus is characterized in that a flat plate-shaped lower side daylighting plate is attached in a watertight manner between the rising portions.

  In invention of Claim 1, while being able to perform a quick construction with a simple structure, the solar power generation device excellent in watertightness can be provided. In particular, in the present invention, an extremely simple structure can be achieved with three members of a cross beam, a vertical rod member, and a photovoltaic power generation unit. Furthermore, there is a maximum advantage that the solar power generation units can be constructed extremely simply and quickly by laying the solar power generation unit on the vertical fence material. There is an effect that it is possible to carry out simple, accurate and orderly construction by constructing so that they are in contact with each other in the water or water direction. Furthermore, the presence of the cover part can improve the rain. In the invention of claim 2, rainwater treatment can be made better. In the invention of claim 3, it is possible to further improve the rain finish.

  In the invention of claim 4, the presence of the joiner material makes it possible to obtain a further excellent rain closing structure. In the invention of claim 5, there is an advantage that the installation work can be performed more quickly and reliably. In invention of Claim 6, a lower side lighting board can be provided and it can be made into a double structure, and heat insulation performance can be raised. In particular, since the upper side is a photovoltaic power generation unit, power generation efficiency can be improved. In invention of Claim 6, since a photovoltaic power generation panel is transparent or translucent, it also has a function as a skylight. In invention of Claim 7, it can be set as the double structure which does not interfere with electric power generation efficiency, and can improve heat insulation performance.

It is a partial perspective view of the solar power generation device of the present invention. It is a principal part expansion perspective view of the solar power generation device of this invention. (A) is a partial perspective view of the structure constructed with the aggregate of photovoltaic power generation panels as a roof, and (B) is a partially schematic plan view of (A). FIG. 4 is an enlarged plan view in which a part of (a) part of FIG. 3A is an enlarged cross-sectional view taken along the line PP in FIG. 3B, FIG. 3B is an enlarged view of the main part, FIG. 3C is an exploded perspective view of the joiner material and the filler, and FIG. It is an attachment state figure of a joiner material. (A) is a principal part state diagram in which the adjacent photovoltaic power generation panel is fixed by a fixing tool, (B) is a principal part sectional view in a state of fixing the adjacent photovoltaic power generation panel by the fixing tool, (C ) Is a partial perspective view of the fixture, and FIGS. 9D to 9F are state diagrams of the process of attaching the fixture to the attachment protrusion. (A) is the QQ arrow expanded sectional view of FIG. 3 (B), (B) is the principal part expansion perspective view of the flow state of the rainwater in (A) location. (A) is the perspective view which decomposed | disassembled the photovoltaic power generation unit, (B) is the perspective view which partially cut away the photovoltaic power generation unit, (C) is the (i) part expansion perspective view of (B). (A) And (B) is an expanded sectional view of a vertical frame, (C) is a perspective view of a joiner material, (D) is an expanded sectional view of a vertical rod material. (A) is an enlarged cross-sectional view of the horizontal water frame, (B) is an enlarged cross-sectional view of the horizontal water frame, and (C) is an enlarged cross-sectional view in which the horizontal water frame and the horizontal frame are connected.

  Hereinafter, the embodiment of the present invention will be described with reference to the drawings. In the flat photovoltaic power generation unit A, as shown in FIGS. 1 and 8, the photovoltaic power generation panel 1 and the frame 2 are combined. Is. The photovoltaic power generation panel 1 includes a large number of photovoltaic power generation cells 11a, 11a,... To constitute a photovoltaic power generation array 11, and a plurality of the photovoltaic power generation arrays 11 are assembled. Specifically, for example, the photovoltaic cell 11a is several cm square, and the photovoltaic array 11 is about 30 cm square. The photovoltaic power generation panel 1 is a square or rectangle (about 1 m × about 1.5 m) inside and outside about 1 m.

  As shown in FIG. 7A, the frame 2 forms a rectangular frame with both vertical frames 21 and 22 and both horizontal and underwater frames 23 and 24. The horizontal water frame 23 and the horizontal water frame 24 may be collectively referred to simply as a “horizontal frame”. The vertical frame 21 and the vertical frame 22 are almost opposite to each other. First, as shown in FIG. 9A, the vertical frame 21 is configured by providing a U-shaped groove portion 212 for inserting and supporting one side of the photovoltaic power generation panel 1 on the upper side of the vertical piece of the L-shaped portion 211. Has been. A flat plate-like shape that protrudes on the opposite side of the U-shaped groove portion 212 at a position above the L-shaped portion 211 in which a vertical frame hook-shaped portion 211 a having a U-shaped cross section is formed on the lower side of the L-shaped portion 211. A locking piece 213 is provided.

  Further, as shown in FIG. 9B, the vertical frame 22 is also formed with an L-shaped portion 221 and a U-shaped groove portion 222 having the same shape as the vertical frame 22, and a vertical frame hook-shaped portion 211a. Has been. In particular, a fitting protrusion 223 for fitting a fitting portion 6c of a joiner material 6 to be described later is bulged and formed outward of the upper position of the L-shaped portion 221. The section of the fitting protrusion 223 has a triangular shape, but is not limited thereto. The U-shaped groove portions 212 and 222 are formed by top pieces 212a and 222a, a lower piece, and a vertical portion. In particular, protrusions that prevent the top pieces 212a and 222a from coming off are formed.

  Further, as shown in FIGS. 10A and 10B, the horizontal water frame 23 and the horizontal water frame 24 are formed asymmetrically in the left-right direction. First, the horizontal water frame 23 will be described. The horizontal water frame 23 is formed with a U-shaped groove portion 232 at an upper position of a support rising portion 231 having a six-square cross section. A top piece 232 a is formed above the U-shaped groove 232. A horizontal portion 233 is provided at an intermediate position on the outer surface of the support rising portion 231. At the outer end of the horizontal portion 233, an end hanging edge 233a is formed. Furthermore, a cover portion 234 formed integrally with the top piece 232a, which is bent upward with one end raised to become horizontal and the outer end hanging, is integrally provided.

  Further, as shown in FIG. 10B, the horizontal water frame 24 has a U-shaped groove 242 formed at a position above the support rising portion 241 having a 6-shaped square section, and above the U-shaped groove 242. A top piece 242a is formed. A horizontal portion 233 is provided at an intermediate position of the support rising portion 241. Furthermore, a wide horizontal flange 244 is formed on the outer surface side from the lower end of the support rising portion 241. Further, an L-shaped portion 245 is bent and formed inside the lower end of the support rising portion 241. In this way, the photovoltaic power generation unit A is configured. Although the electric wire etc. are comprised so that it may protrude suitably, it abbreviate | omits here.

  3 is a structural material such as a cross beam. The structural material 3 is made of lip groove steel, H-shape steel, I-shape steel, or the like, and is provided with a base material such as a heat insulating plate as necessary. 1, 2, 9 (D) and the like, 4 is a metal vertical rod having a long or appropriate length in the longitudinal direction, and includes a flat portion 411 and a rising portion 412. A mounting protrusion 42 is formed at substantially the center of the vertical hook-shaped portion 41, and L-shaped side portions 43, 43 are integrally formed on both outer sides of the vertical hook-shaped portion 41. A horizontal edge 412 a is bent at the tip of the rising portion 412. The mounting protrusion 42 has a gate shape in cross section, and a groove portion 421 having an appropriate width is formed in the center of the upper side over the entire length. In addition, an appropriate gap 422 is provided under the groove 421, and a support plate 423 is provided thereunder. The mounting top surface 424, which is the upper surface of the mounting ridge 42, has a flat shape and is formed slightly wider as shown in FIGS. 2 and 9D, or FIGS. 6A and 6B. As shown in FIG. 2, it may be formed on the same surface as the side portion. In the embodiment, the vertical bar 4 is made of aluminum and formed by extrusion. However, a metal plate may be formed by bending.

  Further, as shown in FIGS. 9A and 9B, the vertical frames 21 and 22 of the photovoltaic power generation unit A are provided with vertical frame hooks 211a and 221a, respectively. 211a and 221a are formed in the length equivalent to the vertical direction length of the panel frame 12 which comprises the external shape of the said photovoltaic power generation panel 1. As shown in FIG. Furthermore, a part of the cross section of the vertical frame hooks 211 a and 221 a is arranged so as to be located in the vertical hook 41 of the vertical hook 4. Reference numeral 5 denotes a fixture, and the center of the rotary piece 5b is fixed to the lower end of the screw portion 5a, and a nut 5c is screwed between the screw portions 5a. The upper piece is penetrated. A knob portion may be provided at the upper end of the screw portion 5a. The vertical frames 21 and 22 of the photovoltaic power generation unit A are fixed to the vertical rod member 4 by the fixing tool 5.

  If comprised in this way, as shown to FIG. 3 (A), as shown in FIG. 3 (B) or FIG. 7 (B), the rainwater which flowed down in the vertical frame hook-shaped part 211a, 221a used as the inclination | tilt angle (theta). The rainwater that enters the gap adjacent in the X direction is configured to flow down into the vertical rod-shaped portion 41. Rainwater that enters the gap adjacent to the Y direction in FIG. 3 (B) or FIG. 7 (B) flows down to the vertical hook 41 of the vertical hook 4 through the horizontal hook 244 of the photovoltaic power generation unit A. And it can rain well.

  Reference numeral 6 denotes a joiner material, which is provided so as to close gaps adjacent to each other in the X direction of the adjacent solar power generation units A, and performs rain at the intervals. As shown in FIG. 1, FIG. 4, FIG. 5 and FIG. 9C, the vertical joiner material 6 is made of a synthetic resin or metal having a long or appropriate length in the longitudinal direction, and is flat. An insertion groove 6b is formed on one side in the width direction of the main plate 6a and a fitting portion 6c is formed on the other side. While the joiner material 6 is inserted between the vertical frames 21 and 22, the insertion groove 6b is locked to the locking piece 213 via a filler 6p for maintaining watertightness, and the fitting is performed. The joint portion 6c is configured to be fitted to the fitting protrusion 223.

  The construction order and the constructed photovoltaic power generation apparatus will be described. This solar power generation device is an example constructed as a roof of a structure as shown in FIG. The Y direction is the roof inclination direction, and the X direction is the roof ridge direction. The inclination angle is θ. First, in the case of only the structural material 3, the structural material 3 such as a purlin is provided side by side with a predetermined interval in parallel to the ridge direction. Then, the vertical rod members 4, 4,... Are placed in a parallel state at a predetermined interval (equivalent to the horizontal width of the photovoltaic power generation unit A) via a vertical rod suspension 81 and a fastener 82 such as a bolt. To be fixed. Moreover, depending on the case, it may adhere by welding means.

  Next, as shown in FIG. 1 and FIG. 3 (B), the photovoltaic power generation unit A moves from the underwater side (the front side in FIG. 1) to the upper side (the other side in FIG. 1) of the vertical fence 4. Are attached sequentially. At that time, the horizontal water frame 23 of the solar power generation unit A and the horizontal water frame 24 of the adjacent solar power generation unit A are attached and installed so as to have the configuration shown in FIG. Furthermore, the adjacent photovoltaic power generation units A and A as shown in FIG. 7B are fixed to the attachment protrusion 42 of the vertical rod member 4 via the fixture 5 as shown in FIG. In this way, a large number of photovoltaic power generation units A are orderly attached in the Y direction and the X direction shown in FIGS. 3 (A) and 3 (B). Finally, a long joiner material 6 is inserted and fixed between the photovoltaic power generation units A and A in the ridge direction (ridge direction: X direction) (see FIGS. 1 and 5). Further, if necessary, some filler may be interposed in the periphery of the joiner material 6 and the upper cover part 234 in order to improve water tightness.

  Furthermore, as shown in FIG. 5 (A), between the L-shaped side portions 43, 43 between the adjacent vertical gutters 4, 4, a transparent or translucent shape having the same size as that of the photovoltaic power generation panel 1 is provided. The lower side lighting plate 71 may be fitted and installed in a watertight manner via the plate-like frame 72. In addition, drainage holes may be appropriately formed at appropriate positions of the vertical frames 21 and 22 and the lateral and underwater frames 23 and 24 described above. Furthermore, if the photovoltaic power generation panel 1 of the photovoltaic power generation unit A is configured to be transparent or translucent, there is an advantage that it can be provided as a lighting part such as a roof.

A ... solar power generation unit, 11 ... solar power generation array, 11a ... solar power generation cell,
2 ... Frame body, 21, 22 ... Vertical frame, 211a, 221a ... Vertical frame bowl-shaped part,
213 ... locking piece, 223 ... fitting protrusion, 233a ... end portion hanging edge,
23 ... Horizontal water frame, 231 ... Support rising part, 233 ... Horizontal part,
234 ... Cover part, 24 ... Horizontal water frame, 242a ... Top piece, 244 ... Recumbent-shaped part,
3 ... structural material, 4 ... vertical rod material, 41 ... vertical rod-shaped portion, 411 ... flat portion, 412 ... rising portion,
42 ... mounting protrusion, 421 ... groove, 422 ... gap, 423 ... support plate,
43 ... L-shaped side part, 5 ... Fixing tool, 5a ... Screw part, 5b ... Rotating piece, 5c ... Nut,
5d ... Presser piece, 6 ... Joiner material, 6b ... Insertion groove, 6c ... Fitting part.

Claims (7)

  Sunlight in which a photovoltaic power generation array in which flat solar power generation cells are assembled in a frame that forms a rectangular frame with both vertical frame, horizontal horizontal frame, horizontal horizontal frame and a structural material as a horizontal beam A power generation unit, and a longitudinal longitudinal member having a mounting protrusion formed in the approximate center of a longitudinal portion composed of a flat portion and a rising portion. A frame hook-shaped portion is formed, a horizontal portion is formed outside the middle of the horizontal direction in the horizontal water frame, and a wide horizontal hook-shaped portion is bent outside the lower portion of the horizontal water frame. The vertical frame of the photovoltaic power generation unit adjacent to the vertical cross member in a direction orthogonal to the vertical cross member, wherein a plurality of vertical cross members are fixed in an inclined direction between the structural members arranged in parallel. Mutually placed on the mounting ridges in the vertical rod-shaped portion of the vertical rod material The longitudinal end of the vertical frame hook-shaped portion is disposed in the vertical hook-shaped portion, and the horizontal underwater frame and the horizontal overwater frame of the photovoltaic power generation unit are disposed in the same direction as the longitudinal direction of the vertical hook material. The horizontal ends of the horizontal water frames are opposed to each other and the horizontal end of the horizontal water frame is in contact with the middle in the height direction of the horizontal water frame. A cover part formed at the upper end of the horizontal water frame is connected so as to cover the top piece of the horizontal water frame, and both ends in the longitudinal direction of the horizontal wall part are inside the vertical wall part. A solar power generation device, characterized by being arranged in   2. The photovoltaic power generation apparatus according to claim 1, wherein the rising support portion of the horizontal water frame is located in the middle of the horizontal hook-shaped portion of the horizontal water frame.   3. The sun according to claim 1, wherein an end drooping edge formed at an outer end of the horizontal portion of the horizontal water frame 2 is in contact with a vertical portion of a support rising portion of the horizontal water frame. Photovoltaic generator.   4. The method according to claim 1, wherein a locking piece is formed at a top portion of either one of the vertical frames and a fitting protrusion is formed at the other side, and is inserted into one side in the width direction. A long joiner material having a groove formed on the other side is inserted between the vertical frames, and the insertion groove is locked to the locking piece, while the fitting portion is A photovoltaic power generation device characterized by being fitted to a fitting protrusion.   5. The mounting protrusion of the vertical saddle member has a gate shape in cross section, a groove is formed at the center of the top, and has an appropriate gap. A support plate portion is formed, a rotating piece is fixed to the lower end of the screw portion, and a rotating piece of a fixing tool having a nut and a pressing piece is inserted on the support plate portion via the groove portion and is rotationally fixed. Thus, the vertical frames of the adjacent photovoltaic power generation units are mounted and fixed on the mounting protrusions in the vertical rod-shaped portion of the vertical rod material.   6. The photovoltaic power generation apparatus according to claim 1, wherein the photovoltaic power generation cell is configured to be transparent or translucent.   In any one of Claims 1, 2, 3, 4, 5, or 6, it is a lower side of the said photovoltaic power generation panel, Comprising: Between the rising parts of the L-shaped side part of the said vertical saddle member adjacent, transparent Or the solar power generation device characterized by water-tightly attaching a translucent flat plate-shaped lower side lighting board.

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