JP2010185227A - Solar energy conversion module integrated-type vertically laid exterior structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a solar energy conversion module integrated-type exterior structure. <P>SOLUTION: The solar energy conversion module integrated-type exterior structure is constituted by connecting panel members 1 integrally provided with solar energy conversion modules 10 in a flow direction and a lateral direction, and forming a cable-passing space on the rear face side of a member (a vertical support member 8a) including a drain member 7A or a drain part 21 disposed in the flow direction. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a solar cell conversion module-integrated vertical casing structure.

  Solar power generation, which converts light energy into electrical energy, is expected to be widely used as a means of obtaining clean energy. In recent years, it has been applied to the roofs and walls of buildings, and it is a system that supplements the power required for daily life. Has been put to practical use.

As a method of installing a solar energy conversion module such as a solar cell on a roof, a solar cell is assembled on a side-mounted exterior panel, and many roof structures using this exterior panel have been proposed. There has also been proposed a roof structure in which a solar cell is assembled to a vertical-type exterior panel and the exterior panel is used.
In Patent Document 1, water generated for various reasons on the back surface of a solar cell is discharged from a drain hole and allowed to flow down from a drainage member along the water flow direction.

JP 2007-332774 A

However, in Patent Document 1 and the like, it is easy to connect the cables of the exterior panels adjacent in the flow direction, but there is a problem that the connection can be made only at the end when connecting in the left-right direction. Therefore, the cable wiring work at the time of construction is troublesome, and the work is extremely troublesome when the panel itself is accidentally damaged or periodically replaced.
Accordingly, the present invention provides a solar energy conversion module-integrated exterior structure that does not cause a problem in the above-described conventional method (structure), that is, can easily connect a cable of a lateral exterior panel. Objective.

  The present invention has been proposed in view of the above, and in an exterior structure in which a panel material integrally provided with a solar energy conversion module is connected in the flow direction and the left-right direction, a drainage member or a drainage portion arranged in the flow direction. It is related with the solar energy conversion module integrated structure characterized by forming the space for letting a cable pass in the back surface side of the member provided with.

  Furthermore, in the exterior structure, the present invention has a drainage member or a back part of a member provided with a drainage part, a support part for supporting a member having a drainage member or a drainage part arranged on the upper side, and a fixing part to the base, A solar energy conversion module-integrated exterior structure is also proposed, characterized in that a receiving member having a plurality of locations is provided.

  Moreover, this invention also proposes the solar energy conversion module integrated exterior structure characterized by providing the connection part which fixes a drainage member or the member provided with a drainage part to a seating member in the said exterior structure.

Since the solar energy conversion module-integrated exterior structure of the present invention has formed a space for passing a cable on the back side of a member provided with a drainage member or drainage portion arranged in the flow direction, a member provided with a drainage member or drainage portion Since it does not become a hindrance at the time of wiring a cable, the cable of the solar energy conversion module of the panel material adjacent to the left-right direction can be connected easily.
Therefore, the cable wiring work at the time of construction is extremely easy, and when the panel material itself is accidentally damaged or periodically replaced, the work can be easily performed.

  In particular, in an exterior structure including an exterior structure including a solar cell module and a general exterior structure not including a solar energy conversion module, the joint portion can be accommodated without a special structure.

  Furthermore, on the back surface side of the drainage member or the member provided with the drainage part, a receiving member having a fixing part to the base and a support part for supporting the drainage member or the member provided with the drainage part disposed on the upper side is provided at a plurality of locations. When provided, since the seat member serves as a spacer that forms a space for the cable to pass therethrough, the cable can be passed through the space between the seat members.

  Moreover, when the connection part which fixes the member provided with a drainage member or a drainage part is provided in a receiving member, the shift | offset | difference movement to the flow direction of the member provided with a drainage member or a drainage part will be prevented.

(A) The enlarged front view of the principal part which shows one Example of the exterior structure of this invention, (b) The enlarged side view, (c) The enlarged front view which shows the two types of receiving member used, (d) use It is an enlarged front view which shows a vertical support material provided with the drainage part which was. (A) The enlarged front view of the principal part which shows other one Example of the exterior structure of this invention, (b) The enlarged side view, (c) The enlarged front view which shows the seat member used, (d) Used It is an enlarged front view which shows a drainage member. (A) The front view which shows the exterior structure of FIG. 2, (b) It is the side view. (A) The enlarged front view of the principal part which shows other one Example of the exterior structure of this invention, (b) The enlarged side view, (c) The enlarged front view and enlarged side view which show the seat member used, d) It is an enlarged front view which shows the used drainage member. It is a front view which shows the state which another Example of the exterior structure of this invention adjoins the exterior structure which is not equipped with a solar energy conversion module. It is a side view which shows the state where another Example of the exterior structure of this invention adjoins the exterior structure which is not equipped with a solar energy conversion module.

The panel material applied to the exterior structure of the present invention has a configuration in which a solar energy conversion module (hereinafter referred to as a solar cell) is integrally provided, for example, a solar cell on a face plate portion of a known metal vertical casing material. Even in the case where the two are integrated in a laminated shape, a side edge cap made of a resin molding material or the like is integrated with the periphery of the solar cell that is long in the flow direction as in the illustrated embodiment to be described later, and the periphery is made of a support material or the like. The frame material may be used to surround the frame material, and the configuration and shape thereof are not particularly limited.
As the solar cell, any one such as polycrystalline, single crystal, amorphous, etc. may be used. Generally, a solar cell is composed of a conductive substrate, a back surface reflection layer, a semiconductor layer as a photoelectric conversion member, and a transparent conductive layer. Examples of the conductive substrate include steel plates, copper, titanium, aluminum, stainless steel, and carbon sheets. In addition, a resin film such as polyester, polyimide, polyethylene naphthalide, and epoxy provided with a conductive layer, ceramics, and the like can also be used. The semiconductor layer is not particularly limited, and a compound semiconductor such as an amorphous silicon semiconductor, a polycrystalline silicon semiconductor, a crystalline silicon semiconductor, or copper indium selenide can be used. For example, recently proposed amorphous silicon solar cells having flexibility are preferable because they are extremely thin and lightweight.
The exterior structure of the present invention has the above-mentioned configuration “connecting the panel material in the flow direction and the left-right direction”, and the specific connection method (connection structure) is not particularly limited. .

  Moreover, the drainage member applied to the exterior structure of this invention points out what is distribute | arranged to a flow direction. That is, the members arranged in the left-right direction are distinguished as “running water members”. As a drainage member arranged in the flow direction, a threading material continuous in the flow direction is generally used. However, if drainage can be drained without leaking, a plurality of standard materials are connected in the flow direction. There may be. In addition, the drainage member may be a simple bowl-shaped material, or a configuration that also serves as a vertical support material that holds the side edges of the panel material, that is, a configuration that uses a vertical support material that includes a drainage portion that is continuous in the flow direction. However, the structure which connects the drainage part of a some vertical support material to a flow direction may be sufficient, and the structure and shape in particular are not limited.

And the space for letting a cable pass is formed in the back surface side of the drainage member arranged in the flow direction. Specifically, for example, a receiving member that is a piece material is interposed on the back side of a drainage member (or drainage part) that is a threading material. The seat member is not particularly limited in its configuration and shape as long as it has a fixing portion to the base and a drainage member disposed on the upper side or a support portion that supports a member having the drainage portion. .
In this way, the receiving member only needs to have a height through which the cable passes when combined with the drainage member (or drainage part), but the roof material (exterior surface) to be covered does not include solar cells. When a roof panel is installed, the intrusion water into the drainage member (or drainage part) is smoothed by setting the height of the space to be equal to or higher than the height of the roof material or the roof panel located under the water. Can be discharged onto the lower roofing material or roof panel.

The seat member is preferably provided with a connecting portion for fixing a drainage member or a member having a drainage portion as in the embodiments of FIGS. 1 and 2 described later. In this case, the drainage member is displaced in the flow direction. Movement will be prevented.
Further, as in the embodiment of FIG. 1 described later, a receiving member having a connecting portion and a receiving member not having a connecting portion (hereinafter referred to as simple for convenience) may be used in combination. In this case, the simple seat member not provided with the connection portion can be easily attached to the drainage member or the member provided with the drainage portion as long as the fixing work is not necessary, and the support stability of the member including the drainage member or the drainage portion is stable. The property is improved by the provision of the simple seat member.

  Thus, since the exterior structure of the present invention has formed a space for passing a cable on the back side of a member provided with a drainage member or drainage portion arranged in the flow direction, the member provided with the drainage member or drainage portion is a cable. The cable of the solar energy conversion module of the panel material adjacent in the left-right direction can be easily connected without hindering wiring.

  The panel material 1 used for the exterior structure shown in FIG. 1 is integrally provided with a solar energy conversion module (solar cell) 10, and a substantially U-shaped cap 11 is attached to the edge of the solar cell 10. It has been. A frame material such as a vertical support material 2 and a horizontal support material 3 is disposed around the periphery of the panel material 1.

In FIG. 1A, the connection structure in the left-right direction in this embodiment is shown, but the vertical support member 2 disposed between the left and right side edges of the panel members 1, 1 adjacent in the left-right direction is A panel-like drainage portion 21 located substantially at the center is provided, and a panel support portion 22 that supports the left and right side edges of the panel members 1, 1 is provided above the standing portion that rises from the bottom surface of the drainage portion 21. The connection support part 23 (24 is a fixture) which supports the horizontal support material 3 is provided in the upper end of the side wall which forms the part 21 in a flange shape.
The vertical support material 2 is a threading material continuous in the flow direction, is a substantially symmetric frame material, and is made of, for example, an aluminum extrusion mold material.

Seat members 5A1 and 5A2 are interposed below the vertical support member 2, that is, between the vertical support member 2 and the base 4.
In this illustrated embodiment, two types of seat members 5A1 having a connecting portion 53 and simple seat members 5A2 not provided are used, and both are piece members having a substantially inverted hat shape in cross section. These receiving members 5A1 and 5A2 are common in that a fixing portion 51 (511 in the figure is a fixing tool) to the base 4 is provided in the approximate center as shown in FIG. 1 (c), but the receiving member 5A1 is fixed. Compared to the portion 51, the fixed portion 51 ′ of the simple seat member 5A2 is narrower. Further, the receiving portion 52 of the receiving member 5A1 receives the flange-like connecting support portion 23 of the vertical support member 2 and also serves as the connection portion 53 to which the receiving portion 52 is fixed by the fixture 24. The receiving part 52 ′ of the receiving member 5 A 2 receives and supports the bottom surface of the drainage part 21 of the vertical support member 2.

6 A of cover materials are being fixed so that it may straddle between the panel materials 1 and 1 adjacent to the upper side of the said vertical support material 2, ie, right and left.
The cover material 6A is a threading material that is continuous in the flow direction, like the vertical support material 2, and is a substantially symmetrical frame material. The cover member 6A is fixed to the vertical support material 2 by driving a fixing tool 61 substantially at the center. Yes. A sealing material 62 is filled between the cover material 6A (covering portion 63) and the substantially U-shaped cap 11 at the edge of the solar cell 10 to prevent rainwater from entering.

FIG. 1B shows a connection structure in the flow direction in this embodiment, but the lateral support member 3 disposed between the edges in the flow direction of the panel members 1 and 1 adjacent to each other in the flow direction is shown in FIG. The fitting groove 32 is provided with shallow water-flowing portions 31, 31 extending in the left-right direction, and the side edges in the flow direction of the panel members 1, 1 are fitted above the raised portions protruding from the bottom surface of the flowing water portion 31. A fixing tool 311 is driven into the flowing water portion 31 on the water side to serve as a fixing portion, and an elastic material 33 that supports the bottom surface of the panel material 1 is disposed in the flowing water portion 31 on the water side. ing.
The horizontal support member 3 is a fixed member that is substantially equal to the dimension in the left-right direction of the panel member 1 and is a substantially left-right symmetric frame member made of, for example, an aluminum extrusion mold member.

And the exterior structure of FIG. 1 which consists of each of these members is the structure formed by forming the space for passing the cable which is not shown in figure on the back surface side of the vertical support material 2 provided with the drainage part 21 distribute | arranged to a flow direction. Therefore, since the vertical support member 2 does not hinder the wiring of the cable, it is possible to easily connect the cables of the solar cells 10 of the panel members 1 and 1 adjacent in the left-right direction.
Therefore, the cable wiring work at the time of construction is extremely easy, and when the panel material 1 itself is accidentally damaged or periodically replaced, the work can be easily performed.

  Further, in this illustrated embodiment, on the back surface side of the vertical support member 2, fixing portions 51 and 51 ′ to the base 4 and receiving and supporting portions 52 and 52 ′ for receiving and supporting the vertical support member 2 disposed on the upper side thereof. Since the receiving member 5A1 and the simple receiving member 5A2 are provided at a plurality of locations, the receiving member 5A1 and the simple receiving member 5A2 serve as a spacer for forming a space for passing a cable. The cable can be passed through the interval between the receiving member 5A1 and the simple receiving member 5A2.

  Furthermore, in this illustrated embodiment, since the connecting portion 53 for fixing the vertical support member 2 is provided on the receiving member 5A1, the displacement of the vertical support member 2 in the flow direction is prevented.

  The exterior structure shown in FIGS. 2 and 3 is an example in which the drainage member 7A is used as a separate member from the longitudinal support member 8A instead of using the longitudinal support member 2 having the drainage portion 21. Since the panel material 1 and the lateral support material 3 are the same as those in the embodiment of FIG. 1, the same reference numerals are given to the drawings and the description thereof is omitted.

  The drainage member 7A used in this embodiment is a threading material continuous in the flow direction, and is provided with a raised portion 72 that is raised upward at the approximate center of the bottom surface 71, and is vertically supported on the upper surface side of the top of the raised portion 72. The receiving member 5B is arranged on the lower surface side of the member 8A, and is fixed in series with a fixture 85. In addition, panel support portions 731 and 731 that are folded inwardly are provided at the upper ends of the side surfaces 73 and 73.

  The receiving member 5B arranged on the back surface side of the drainage member 7A is a piece material having a substantially square mountain shape in cross section as shown in FIG. 2 (c), and a seat-like support portion 54 that supports the drainage member 7A. Fixing portions 51 (511 in the figure are fixing tools) to the base 4 are provided on the left and right sides, and a ridge-shaped support portion 55 that fits on the back side of the bulge portion 72 of the drainage member 7A is provided at the approximate center of the support portion 54. ing.

  The vertical support member 8A used in this embodiment is a piece material, and is provided with a substantially U-shaped connecting portion 81 at the substantially center, and the panel materials 1 and 1 above the standing portion rising from the bottom surface of the connecting portion 81. Panel support portions 82 and 82 are provided to support the left and right side edges, and connection support portions 83 and 83 for supporting the lateral support members 3 and 3 below the panel support portions 82 and 82 (831 in the figure is fixed). ) Is provided in a flange shape, and a pair of left and right wedge-shaped connecting portions 84 are provided in the standing portion, and a cover member 6B described later is attached by elastic fitting.

  The cover material 6B is a through material that is continuous in the flow direction, is a substantially bilaterally symmetric frame material, and a connected portion 64 that is elastically fitted to the connecting portion 84 of the vertical support material 8A is provided at the approximate center. Yes.

And the exterior structure of FIG.2 and FIG.3 which consists of each of these members is the structure formed by forming the space for letting the cable which is not shown in figure on the back surface side of the drainage member 7A distribute | arranged to a flow direction, Since the member 7A does not hinder the wiring of the cable, it is possible to easily connect the cables of the solar cells 10 of the panel materials 1 and 1 adjacent in the left-right direction.
Furthermore, also in this embodiment, since the seat member 5B serves as a spacer that forms a space for passing the cable, the cable can be passed through the spacing of the seat member 5B.
Moreover, since the connection part 53 which fixes 7 A of drainage members to the seat member 5B is provided, the shift | offset | difference movement to the flow direction of 7 A of drainage members will be prevented.

  The exterior structure shown in FIG. 4 is also an example in which the drainage member 7B is used as a separate member from the vertical support member 8B, as in the embodiment of FIG. Since the panel material 1 and the lateral support material 3 are the same as those in the embodiment shown in FIGS. 1 and 2, the same reference numerals are given to the drawings and the description thereof is omitted.

  The drainage member 7B used in this embodiment is a through material continuous in the flow direction, and has a simple configuration including a bottom surface 71 and side surfaces 73 and 73 whose upper ends are folded back.

A receiving member 5C is interposed below the drainage member 7B, that is, between the drainage member 7B and the base 4.
As shown in FIG. 4 (c), the seat member 5C is a piece material having a substantially inverted hat shape in the side cross section, and the bottom portion at the substantially center is a fixing portion 51 to the base 4 (511 in the figure is a fixing tool). The flange-shaped portion extending outward in the front-rear direction is a support portion 54 that supports the drainage member 7B, and the left-right direction in a state in which a vertical support member 8B described later is disposed on the left and right ends. And holding portions 56 and 56 for engaging and holding both ends of the supported pieces 85 and 85 extending in the water flow direction in a gripping manner.

  The vertical support material 8B used in this embodiment is a piece material in which four vertical pieces hang down from the horizontal piece, and the left and right side edges of the panel materials 1 and 1 are attached to the left and right shoulder portions of the horizontal piece. Panel support portions 82 and 82 to be supported are provided, and connection support portions 83 and 83 (831 is a fixing tool in the figure) for supporting the lateral support materials 3 and 3 are provided below the panel support portions 82 and 82. Further, supported pieces 85, 85 extending in the outward direction are extended to the lower end of the outermost vertical piece.

  The cover material 6 </ b> C is a threading material that is continuous in the flow direction, is a frame material that is substantially symmetrical, and is connected to the vertical support material 8 </ b> B by a fixing tool 61 with a horizontal piece at the center.

And the exterior structure of FIG. 4 which consists of each of these members is the structure which forms the space for letting the cable which is not illustrated in the back surface side of the drainage member 7B distribute | arranged to a flow direction, Therefore The drainage member 7B Since it does not become a hindrance at the time of wiring a cable, the cable of the solar cell 10 of the panel materials 1 and 1 adjacent in the left-right direction can be connected easily.
Further, also in this embodiment, since the receiving member 5C functions as a spacer for forming a space for passing the cable, the cable can be passed through the arrangement interval of the receiving member 5C.
Moreover, since the connection part 53 which fixes the drainage member 7B to the seat member 5C is provided, the shift | offset | difference movement to the flow direction of the drainage member 7B is prevented.

  The exterior structure shown in FIGS. 5 and 6 is exactly the same as the exterior structure of FIGS. 2 and 3 except that an exterior structure without a solar energy conversion module (hereinafter referred to as a general structure) is adjacent. The same reference numerals are attached to the drawings, and the description is omitted. In the normal exterior structure located on the right side of FIG. 5, the structure on the right side of the vertical support member 8A is used for the attachment. Since it is used as a fixed part, the drawing is identified by reference numeral 86 (fixing tool 861).

As shown in FIG. 5, the general structure is such that the panel material 9 is placed on the base plate 4 on which the discard plate 9 a is laid, and the beam end fitting 9 b is attached to the connection support portion 86 of the vertical support material 8A. A cover member 9c is attached so as to cover the end portions of the girder end fitting 9b and the panel member 9, thereby preventing rainwater from entering. In the figure, reference numeral 90 denotes a fixing tool for fixing the covering material 9c to the girder end fitting 9b.
Thus, the exterior structure in the present invention adjacent to the left and right direction and the general structure can be easily connected via the vertical support member 8A.

Moreover, the exterior structure in the present invention adjacent to the flow direction and the general structure can be easily connected via a lateral support member 3 as shown in FIG.
That is, as described above, since the space for passing the cable is formed on the back surface side of the drainage member 7A, by setting this space as the arrangement position of the water side end of the uppermost panel material 9, The water side of the panel material 9 and the exterior structure provided with the solar energy conversion module can be easily polymerized. The arrangement of the panel members 9 is not limited to the laying procedure, but is arranged such that the lower end of the upper panel member 9 is placed on the surface of the lower panel member 9. Just set up.
Then, the eaves fitting 9d (fixing tool 91) is attached to the flowing water portion 31 of the horizontal support member 3 on the underwater side, and the covering material 9e is attached so as to extend along the surface of the edge of the eaves fitting 9d and the panel material 9 to thereby collect rain Prevent intrusion. In the figure, 92 is a fixture for fixing the covering material 9e to the eaves fitting 9d.

Thus, in the exterior structure in which the exterior structure including the solar cell module and the general structure not included are provided, the joint portion can be accommodated without becoming a special structure.
And in the connection part, even if it does not provide a special water conveyance mechanism, the rain water which flows down drainage member 7A is guide | induced on the surface of the uppermost panel material 9, and the lower-stage side panel material 9 is followed along a flow direction. Flow down.

1 Panel material 10 Solar energy conversion module (solar cell)
DESCRIPTION OF SYMBOLS 11 Cap 2 Vertical support material 21 Drain part 22 Panel support part 23 Connection support part 24 Fixation tool 3 Horizontal support material 31 Flowing water part 32 Fitting groove 33 Elastic material 4 Base 5A1, 5B, 5C Seat member 5A2 Simple seat member 51 , 51 ′ Fixing part 511, 511 ′ Fixing part 52, 52 ′ Supporting part 53 Connection part 54 Support part 55 Raised support part 56 Holding part 6A, 6B, 6C Joint cover material 61 Fixing tool 62 Sealing material 63 Covering part 64 Covered Connection part 7A, 7B Drainage member 71 Bottom surface 72 Raised part 73 Side surface 731 Panel support part 8A, 8B Vertical support member 81 Connection part 82 Panel support part 83 Connection support part 831 Fixing tool 84 Connection part 85 Supported piece 9 Panel material 9b Girder End fitting 9d

Claims (3)

In the exterior structure formed by connecting the panel material integrally provided with the solar energy conversion module in the flow direction and the left-right direction,
A solar energy conversion module-integrated exterior structure, wherein a space for passing a cable is formed on the back side of a drainage member or a drainage member arranged in the flow direction.   On the back side of the drainage member or the member having the drainage part, a receiving member having a fixing part to the base and a support part for supporting the drainage member or the drainage part member disposed on the upper side is provided at a plurality of locations. The solar energy conversion module-integrated exterior structure according to claim 1.   The solar energy conversion module-integrated exterior structure according to claim 2, wherein a fixing portion for fixing a drainage member or a member having a drainage portion is provided on the receiving member.

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