JP2010071046A - Photovoltaic power generating system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable easy and quick construction, and to obtain excellent watertightness. <P>SOLUTION: A photovoltaic power generating system comprises a photovoltaic power generating unit A where a photovoltaic power generating array 11 made by concentrating transparent or translucent plate-like photovoltaic power generating cells 11a is accommodated in a frame body 2 forming a square frame with both stiles 21, 22 and both rails 23, 24, a long gutter material 5 where mounting side portions 52, 52 are installed on both sides of a gutter-shaped portion 51 in the width direction, and a joint material 6 forming rising edges 62, 62 from both sides of a main plate 61. Both ends of the joint material 6 are mounted on the gutter-shaped portions 51 of the gutter materials 5 inclined and installed approximately parallel to each other so that the joint material 6 is approximately orthogonal to the gutter-shaped portions 51, and the opposed stiles 21, 22 of adjacent photovoltaic power generating units A are mounted on the gutter-shaped portion 51. A long vertical joiner material 7 is placed between the opposed stiles 21, 22, and a horizontal joiner material 8 is placed between the upstream side and the downstream side of the photovoltaic power generating unit A. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a photovoltaic power generation apparatus that can be easily and quickly constructed and has excellent water tightness.

Conventionally, there has been a photovoltaic power generation apparatus provided on a roof or a wall of a structure using a transparent or translucent photovoltaic module body. For example, it is possible to cope with 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 had an extreme problem like the rain performance of Ashiya. 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

  In each of Patent Documents 1 to 3, although structurally complicated, the rain closing structure is complicated, but it is highly possible that the rain closing is incomplete. 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.

  In view of this, the inventor has intensively and researched to solve the above-mentioned problems. As a result, the invention of claim 1 can be made transparent or semi-transparent on a frame body in which a rectangular frame is formed with both vertical and horizontal ribs. A photovoltaic power generation unit in which a photovoltaic power generation array in which flat photovoltaic cells are assembled is housed, and a gutter material that is long in the longitudinal direction and provided with side portions for attachment on both sides in the width direction of the bowl-shaped portion The joint material is formed with a rising edge from both sides of the flat plate portion. The adjacent vertical solar panels of the adjacent solar power generation units are placed, and a longitudinal joiner material that is long in the longitudinal direction is further provided between the opposing vertical power generators. Horizontal joiner material between the water upper side and water lower side It is by having a solar power generation apparatus characterized by comprising interposed, has solved the problems.

  The invention according to claim 2 is the invention according to claim 1, wherein only a height of a horizontal ridge on the water side of the photovoltaic power generation unit is formed low, and a difference in height between the horizontal joiner material between the water upper side and the water lower side is determined. The above-mentioned problem is solved by using a solar power generation device characterized in that is formed. According to a third aspect of the present invention, in the first or second aspect, an elastic cushioning material is interposed between each of the vertical rods and the horizontal rods of the photovoltaic power generation unit and the gutter material and the joint material. By solving the above-described problem, the solar power generation apparatus is provided. The solar power generation device according to claim 4, wherein the solar power generation panel can be fitted in a watertight manner on both the vertical shaft and the horizontal rail. Thus, the above-mentioned problem is solved.

  The invention of claim 5 can be watertightly fitted with a transparent or translucent flat plate-like lower glass as the second stage on the lower side of the solar power generation unit in claim 1, 2, 3 or 4. The above-mentioned problem was solved by using a solar power generation device characterized in that According to a sixth aspect of the present invention, in the first, second, third, fourth, or fifth aspect, a transparent or translucent flat plate-like glass can be fitted in a watertight manner on the upper side of the photovoltaic power generation unit. The above-described problem has been solved by using the characteristic photovoltaic power generation apparatus.

  The invention of claim 7 is characterized in that, in claim 1, 2, 3, 4, 5 or 6, the flange-like portion of the gutter material is formed such that the rising side portion and the mounting portion are opposed to each other. By solving the above problem, the above-mentioned problem was solved. An invention according to claim 8 is the photovoltaic power generation according to claim 1, 2, 3, 4, 5, 6 or 7, wherein the longitudinal joiner material and the transverse joiner material are formed in a substantially π-shaped cross section. By using the apparatus, the above-mentioned problems are solved. The invention of claim 9 is the invention according to claim 1, 2, 3, 4, 5, 6, 7 or 8, wherein both ends of the horizontal joiner material are formed to be equal to the inclination of the vertical joiner material. The above-described problems are solved by using the solar power generation device characterized by this.

  In invention of Claim 1, while being able to perform simple and quick construction, the solar power generation device excellent in watertightness can be provided. In particular, in the present invention, there is the greatest advantage that the photovoltaic power generation unit can be installed extremely easily and quickly, by arranging the photovoltaic power generation unit on the gutter material and the joint material, and interposing the vertical joiner material and the horizontal joiner material. In claims 2 and 3, the same effect as in claim 1 is obtained. In the invention of claim 3, it is possible to further improve the rain finish. Further, the fourth aspect can be the same as the third aspect.

  According to the fifth aspect, the lower glass can be provided on the lower side to form a double structure, and the heat insulation performance can be increased. In particular, since the upper side is a photovoltaic power generation unit, power generation efficiency can be improved. In this invention of Claim 6, although it is an upper side of a photovoltaic power generation unit, it is transparent or semi-transparent, it is glass, it can be made into the double structure which does not interfere with power generation efficiency, and can improve heat insulation performance. In the invention of claim 7, the overflowing rainwater can be satisfactorily treated by rain through the hook-shaped portion. The invention of claim 8 has the same effect as that of the invention of claim 1. In the invention of claim 9, there is an advantage that it is possible to provide a solar power generation device with better rain performance.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings. A flat, transparent or translucent photovoltaic power generation unit A includes a photovoltaic power generation panel 1 and a frame as shown in FIGS. 2 is combined. The photovoltaic power generation panel 1 includes a large number of transparent or translucent 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 aggregated. Has been. 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 about 1 m square.

  As shown in FIG. 2 (B), the frame body 2 forms a rectangular frame with both vertical rods 21 and 22 and both horizontal rods 23 and 24. Since the downside 21 and downside 22 are opposite to each other, only the downside 21 will be described with reference to FIGS. The vertical rod 21 is provided with a hanging piece 212 from a horizontal lower side piece of the U-shaped portion 211, a lower U-shaped portion 213 is formed from the lower end of the hanging piece 212, and the lower-side U-shaped portion 213. A step-like rising piece 214 is provided on the open side of the step, and an L-shaped piece 215 is formed on the open side of the lower U-shaped portion 213 from an intermediate position of the step-like rising piece 214. Further, a vertical lower part edge 216 is formed which is inclined downward from the end of the horizontal lower side piece on the open side of the lower side U-shaped part 213. These are integrally formed as a mold material with a metal material.

  As shown in FIGS. 5 and 7, the U-shaped portion 211 of the vertical shaft 21 is watertight on one side of the photovoltaic power generation panel 1 through a gasket material 217, an inner gasket material 218, and a caulking material 219. It is comprised so that it may clamp. In order to prevent the gasket material 217 from coming off, projections 211a and 211a are formed facing the open side of the U-shaped portion 211, and grooves 217a and 217a are formed in the gasket material 217 corresponding to the projections 211a and 211a. ing. The vertical rod 22 is not described because it is bilaterally symmetrical, but has the same name portion (such as the U-shaped portion 221) as the portion of the vertical rod 21 (such as the U-shaped portion 211).

  As shown in FIGS. 6 and 8, the horizontal reed 23 and the horizontal reed 24 are almost left and right, and the major difference between them is the underwater position U-shaped portion 231 and the overwater position U-shaped portion 241. is there. Specifically, the height difference and the presence or absence of protrusions and support pieces. That is, the underwater position U-shaped portion 231 is formed in the same shape as the U-shaped portion 211 of the vertical rod 21 or the U-shaped portion 221 of the vertical rod 22, and of course, the protrusions 231a and 231a are formed. Has been. And, the water position U-shaped portion 241 of the reed 24 is formed lower than the height of the water position U-shaped portion 231, and at the same time, no protrusions are formed on the water position U-shaped portion 241. Is not formed, and a support piece 241a is formed on the outer side.

  A drooping piece 232 is provided from a horizontal lower side piece of the underwater position U-shaped portion 231 of the horizontal bar 23, and an F-shaped portion 233 is formed as a cross section from the lower end of the drooping piece 232. A support receiving piece 233a and a support receiving piece 233b are provided from the tip of the upper side piece of the F-shaped portion 233. The hanging piece 242 and the F-shaped portion 243 of the horizontal bar 24 are the same as the horizontal bar 23. That is, the horizontal reed 23 and the horizontal reed 24 are almost left and right, and the underwater position U-shaped portion 231 and the underwater position U-shaped portion 241 are the difference in height and the presence or absence of protrusions. In particular, an inner cushion material 249 is provided to the water position U-shaped portion 241 having a low height while an inner gasket material 248 is fitted to ensure water tightness.

  As shown in FIGS. 1 to 3 and the like, the gutter material 5 is long or has an appropriate length in the longitudinal direction, and the mounting side portions 52, 52 are provided on both sides in the width direction of the bowl-shaped portion 51. Is provided. The hook-like part 51 formed in a U-shaped cross section is composed of a bottom part 511 and compatible ascending side parts 512 and 512. And the mounting part 513,513 is formed in the upper end of the compatible up side part 512,512 of the said bowl-shaped part 51, and this mounting part 513,513 is on the said bottom part 511 from the inner end of horizontal piece 513a, 513a. Inclined end edges 513b and 513b that are appropriately inclined toward the surface are formed. On both sides of the hook-shaped portion 51, mounting side portions 52, 52 having an L-shaped cross section are integrally formed from a mounting bottom portion 521 and a rising end portion 522. In particular, in the embodiment, the metal plate material is formed by bending, but it may be formed by extrusion.

  The joint material 6 has a length corresponding to the length between the adjacent gutter materials 5, 5, and the cross section is provided with rising edges 62 on both sides of the main plate 61. In particular, bent ends 61 a and 61 a are formed at both ends in the longitudinal direction of the joint material 6 so as to be able to fit into the placing portions 513 and 513 of the gutter material 5. The vertical joiner material 7 and the horizontal joiner material 8 are provided between the adjacent solar power generation units. More specifically, it is the vertical joiner material 7 that blocks between the adjacent vertical rods 21 and 22, and the horizontal joiner material 8 that blocks between the adjacent horizontal rods 23 and 24.

  As shown in FIGS. 5 and 7, the vertical joiner material 7 is a member that is long in the longitudinal direction, and fitting leg pieces 72, 72 are formed on both sides in the middle in the width direction of the top portion 71. At the lower ends of 72 and 72, bowl-shaped edges 72a and 72a are formed. The fitting leg pieces 72 and 72 have the same length, and the entire cross section is substantially π-shaped and formed symmetrically. More specifically, as shown in FIGS. 5 and 7, the top portion 71 and the fitting leg pieces 72, 72 are integrally formed by extrusion molding, but the metal plate is appropriately bent. In some cases, it may be elongated in the longitudinal direction. In particular, the top 71 has a flat shape.

  Further, as shown in FIGS. 6 and 8, the lateral joiner material 8 is a member having an appropriate length in the longitudinal direction, and fitting leg pieces 82 and 83 are formed on both sides in the middle in the width direction of the stepped top portion 81. The fitting leg pieces 82 and 83 are formed with bowl-shaped end edges 82a and 83a at the lower ends thereof. The lengths of the fitting leg pieces 82 and 83 are different, and the entire cross section is substantially π-shaped and formed asymmetrical to the left and right. More specifically, as shown in FIGS. 6 and 8, the stepped top 81 and the fitting leg pieces 82 and 82 are integrally formed by extrusion molding, but the metal plate is appropriately formed. It may be formed by bending.

  The base portion 9 is composed of a structural material 91 such as lip groove steel, H-shape steel, or I-shape steel, a base material 92 such as a heat insulating plate, and the like. When the base portion 9 is composed only of the structural material 91, it is fixed on the structural material 91 with a fixing tool 93 such as a drill screw, as shown in FIGS. 5 and 6. Moreover, depending on the case, it may adhere by welding means.

  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. An inclination angle with respect to the grant G (ground surface) is defined as θ (see FIG. 6). First, it is a case where the foundation | substrate part 9 is comprised only from the structural material 91, Comprising: Structural materials 91, such as a purlin, are attached side by side with the predetermined space | interval in parallel with the ridge direction. The gutter materials 5, 5,... Are fixed by the fixing tool 93 in a parallel state at a predetermined interval (an interval corresponding to the lateral width of the photovoltaic power generation unit A).

  Next, the joint material 6 is attached between the adjacent gutter materials 5 and 5. Specifically, the bending pieces 61 a and 61 a at both ends in the longitudinal direction of the joint material 6 are locked to the placement portions 513 and 513 of the gutter material 5 and fixed by the fixing tool 63. The parallel interval of the joint material 6 is an interval corresponding to the vertical width of the photovoltaic power generation unit A.

  And the solar power generation unit A is attached to the water upper side and water lower side of the said gutter material 5 through the adhesive agent of the cushion material 3, as shown in FIG.3 (C). At that time, the photovoltaic power generation unit A of the present invention is attached to the water side and the water side between the adjacent gutter materials 5 and 5 on the left and right sides. In this way, a large number of photovoltaic power generation units A are orderly attached in the Y direction and the X direction.

  Finally, between each of the photovoltaic power generation units A and A in the ridge direction (ridge direction), a long vertical joiner material 7 is inserted, and the hook-shaped edge 72a of the fitting leg piece 72 is connected to the vertical hook 21, It fits in the jaw part of 22 U-shaped part 211,221 (refer FIG. 5). Further, a horizontal joiner material 8 having a predetermined length is inserted between the solar power generation units A and A on the water upper side and the water lower side, and the hook-shaped end edge 82a of the fitting leg piece 82 24 is fitted to the jaws of the U-shaped portions 221 and 241 (see FIG. 6), and if necessary, in order to improve the water tightness of the attachment portions of the vertical joiner material 7 and the horizontal joiner material 8, It may be covered with some kind of plate.

  Further, as shown in FIGS. 5 and 6, the lower side U-shaped portions 213 and 223 of the vertical rods 21 and 22 and the tips of the L-shaped pieces 215 and 225, or the F of the horizontal rods 23 and 24, respectively. At the tip of the upper horizontal piece of the character-shaped part 233, the lower glass 4 having the same size as the photovoltaic panel 1 is fitted in a watertight manner through the gasket material 217. Further, drainage holes may be formed in the stepped rising pieces 214 and 224 and the lower U-shaped portions 213 and 223, respectively.

  In particular, in the present invention, at the connecting portions, the opposing horizontal ribs 23 and 24 are formed so as to have only a lower height of the U-shaped portion 241 on the lower side, and as shown in FIG. The horizontal joiner material 8 is fitted. Moreover, although not shown in figure, on the said photovoltaic power generation panel 1, the flat glass which carried out the watertight process may be provided with appropriate space.

It is a partial perspective view of the solar power generation device of the present invention. (A) is the perspective view which decomposed | disassembled the photovoltaic power generation panel, (B) is the perspective view of the whole frame. (A) is a partial perspective view of a structure constructed by using an assembly of photovoltaic power generation panels as a roof, and (B) is a schematic plan view in which a vertical joiner material and a horizontal joiner material are removed from the roof of (A). . It is a partial perspective view in the middle of the assembly of the solar power generation device of this invention. FIG. 3 is an enlarged sectional view taken along the line PP in FIG. 2B (with a vertical joiner material). It is the QQ arrow expanded sectional view of FIG. 2 (B) (with a horizontal joiner material). (A) and (B) are cross-sectional views of the vertical fence, (C) is a cross-sectional view of the photovoltaic power generation panel other than the waterside, (D) is a cross-sectional view of the vertical joiner material, and (E) is a cross-sectional view of the gutter material. It is. (A) And (B) is a cross-sectional view of a reed, (C) is a cross-sectional view on the water side of a photovoltaic power generation panel, and (D) is a cross-sectional view of a horizontal joiner material.

Explanation of symbols

A ... solar power generation unit, 1 ... solar power generation panel, 11 ... solar power generation array,
11a ... photovoltaic power generation cell, 2 ... frame, 21 ... vertical gutter, 22 ... side gutter, 3 ... cushion material,
4 ... lower side glass, 5 ... gutter material, 51 ... bowl-shaped part, 52 ... side part for attachment,
512 ... Rise side portion, 513 ... Placement portion, 6 ... Joint material, 61 ... Main plate,
62 ... Rising edge, 7 ... Vertical joiner material, 8 ... Horizontal joiner material.

Claims (9)

  A photovoltaic power generation unit in which a photovoltaic power generation array in which a flat photovoltaic power generation cell is assembled in a frame body in which a rectangular frame is formed by both vertical fences and both horizontal fences; It is composed of a gutter material that is long in the longitudinal direction provided with mounting side portions on both sides in the width direction of the shape portion, and a joint material that forms rising edges from both sides of the flat plate portion, and is provided substantially in parallel while being inclined. On both sides of the gutter material, both ends thereof are placed while the direction of the joint material is substantially orthogonal, and opposed vertical gutters of the adjacent photovoltaic power generation units are placed, A solar device characterized in that a longitudinal joiner material that is long in the longitudinal direction is disposed between opposing vertical fences, and a lateral joiner material is further interposed between the water upper side and the water lower side of the photovoltaic power generation unit. Photovoltaic generator.   In Claim 1, only the height of the reed on the water side of the said photovoltaic power generation unit is formed low, and a height difference is formed in the horizontal joiner material between the said water upper side and a water lower side. A featured solar power generator.   3. The sun according to claim 1 or 2, wherein an elastic cushioning material is interposed between each of the vertical and horizontal beams of the photovoltaic power generation unit, the gutter material, and the joint material. Photovoltaic generator.   4. The solar power generation device according to claim 1, 2 or 3, wherein the solar power generation module can be fitted in a watertight manner on the both vertical shafts and the horizontal rails.   In Claim 1, 2, 3 or 4, The lower side glass of transparent or semi-transparent as a 2nd step | paragraph under the said photovoltaic power generation module can be fitted watertightly, It is characterized by the above-mentioned. Solar power generator.   6. The photovoltaic power generation apparatus according to claim 1, wherein a transparent or translucent flat plate-like glass can be fitted in a watertight manner on the upper side of the photovoltaic power generation module. .   7. The solar power generation device according to claim 1, wherein the saddle-like portion of the gutter material is formed so that a rising side portion and a mounting portion are opposed to each other.   8. The photovoltaic power generator according to claim 1, wherein the vertical joiner material and the horizontal joiner material are formed in a substantially π-shaped cross section.   The solar light according to claim 1, 2, 3, 4, 5, 6, 7 or 8, wherein both ends of the horizontal joiner material are formed to be equal to an inclination of the vertical joiner material. Power generation device.

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