JP7352180B2 - Building material retention structure - Google Patents

Building material retention structure Download PDF

Info

Publication number
JP7352180B2
JP7352180B2 JP2020012949A JP2020012949A JP7352180B2 JP 7352180 B2 JP7352180 B2 JP 7352180B2 JP 2020012949 A JP2020012949 A JP 2020012949A JP 2020012949 A JP2020012949 A JP 2020012949A JP 7352180 B2 JP7352180 B2 JP 7352180B2
Authority
JP
Japan
Prior art keywords
attached
wall
solar cell
holding
panel
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
JP2020012949A
Other languages
Japanese (ja)
Other versions
JP2021116666A (en
Inventor
充朗 藤家
亜矢 宮城
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sekisui House Ltd
Original Assignee
Sekisui House Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sekisui House Ltd filed Critical Sekisui House Ltd
Priority to JP2020012949A priority Critical patent/JP7352180B2/en
Publication of JP2021116666A publication Critical patent/JP2021116666A/en
Application granted granted Critical
Publication of JP7352180B2 publication Critical patent/JP7352180B2/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Finishing Walls (AREA)

Description

本発明は、建物の外壁に取り付けられる建材の保持構造、具体的にはガラス、タイル、石材等の建材を建物の外壁に保持するための構造に関する。 The present invention relates to a structure for holding building materials attached to the outer wall of a building, and specifically to a structure for holding building materials such as glass, tiles, and stone to the outer wall of a building.

例えばタイルのような建材を外壁に取り付ける場合、外壁へのタイルの取り付けの容易性及び安定性を確保するために特許文献1のようなタイルの取り付け構造が用いられる。 For example, when attaching building materials such as tiles to an exterior wall, a tile attachment structure such as that disclosed in Patent Document 1 is used to ensure ease and stability of attaching the tiles to the exterior wall.

特許文献1のタイルの取付構造は、一対の係止部が形成されたタイルと、タイルに固定されるタイル取付部材とを備えている。タイル取付部材は、外壁に固定される板部材と、この板部材から立ち上がって一体に形成された一対の係止板と、を有する。一対の係止板の先端部は互いに接近する方向に傾いて形成されており、タイルの一対の係止部がこれら係止板の先端部間に挟まれることによりタイル取付部材がタイルを支持するようになっている。 The tile mounting structure of Patent Document 1 includes a tile in which a pair of locking portions are formed, and a tile mounting member fixed to the tile. The tile attachment member includes a plate member fixed to the outer wall, and a pair of locking plates rising up from the plate member and integrally formed. The tips of the pair of locking plates are formed to be inclined toward each other, and the tile mounting member supports the tile by sandwiching the pair of locking portions of the tile between the tips of the locking plates. It looks like this.

特開平9-13623号公報Japanese Patent Application Publication No. 9-13623

しかしながら、特許文献1のタイルの取付構造では、外壁へのタイルの取り付けの際に、タイル取付部の係止板がタイルを上下方向又は左右方向から狭んでいるにすぎない。そのため、タイルの上下方向又は左右方向への移動を規制することはできるものの、タイルの外壁から離れる方向への移動を十分に規制することはできない。 However, in the tile mounting structure of Patent Document 1, when the tile is mounted on the outer wall, the locking plate of the tile mounting portion only narrows the tile in the vertical or horizontal direction. Therefore, although it is possible to restrict the movement of the tile in the vertical or horizontal direction, it is not possible to sufficiently restrict the movement of the tile in the direction away from the outer wall.

一方、タイルの外壁から離れる方向への移動を規制するためにタイルを外壁に固定してしまうと、メンテナンスの際に、タイルの取り外しができないといった問題が発生する。 On the other hand, if the tiles are fixed to the outer wall in order to restrict their movement away from the outer wall, a problem arises in that the tiles cannot be removed during maintenance.

本発明は、前記従来の問題点に鑑みてなされたものであり、外壁から離れる方向への移動を規制しつつメンテナンス性を向上させた建材の保持構造を提供することを目的とする。 The present invention has been made in view of the above-mentioned conventional problems, and an object of the present invention is to provide a holding structure for building materials that improves maintainability while restricting movement in a direction away from an outer wall.

前記課題を解決するために本発明の一局面に係る建材の保持構造は、外壁と、前記外壁に沿って配置されるパネル状の建材と、前記外壁に取り付けられ前記建材を保持する保持機構と、を備え、前記保持機構は、前記外壁に取り付けられる第1の被取付部と、前記建材の下面を支持する第1の支持部と、を有する支持部材と、前記外壁に取り付けられる第2の被取付部と、前記建材の側面に対向し、前記建材の水平方向への移動を規制する第1の規制部と、前記第1の規制部の前記外壁から遠い側の端部から前記建材に沿って水平方向に延び、前記建材の前記外壁から離れる方向への移動を規制する第2の規制部と、をそれぞれ有し、前記建材の水平方向の両側にそれぞれ設けられる一対の側部規制部材と、を備え、前記支持部材は、前記建材の前記外壁に対向する面と反対側の面よりも前記外壁側に位置し、前記側部規制部材は、前記外壁に着脱可能に取り付けられ、前記建材は、太陽電池パネルと、前記太陽電池パネルの前記外壁に対向する面に設けられた配線部材と、を有する太陽電池モジュールを有し、前記保持機構は、前記外壁に取り付けられる第3の被取付部と、前記太陽電池パネルの上端が前記外壁に対して接近又は離隔するように前記第1の被取付部を回動可能に支持する第2の支持部と、を有するベース部材を更に備えている。
In order to solve the above problem, a structure for holding building materials according to one aspect of the present invention includes an outer wall, a panel-shaped building material arranged along the outer wall, and a holding mechanism attached to the outer wall and holding the building material. , the holding mechanism includes a support member having a first attached part attached to the outer wall, a first support part supporting the lower surface of the building material, and a second support member attached to the outer wall. an attached part; a first regulating part that faces a side surface of the building material and regulates movement of the building material in the horizontal direction; a second regulating portion extending horizontally along the building material and regulating movement of the building material in a direction away from the outer wall, and a pair of side regulating members provided on both sides of the building material in the horizontal direction, respectively; and, the supporting member is located closer to the outer wall than the surface opposite to the surface of the building material facing the outer wall, the side regulating member is removably attached to the outer wall , and The building material includes a solar cell module including a solar cell panel and a wiring member provided on a surface of the solar cell panel facing the outer wall, and the holding mechanism includes a third cover attached to the outer wall. The base member further includes a base member having a mounting part and a second support part that rotatably supports the first mounted part so that the upper end of the solar panel approaches or separates from the outer wall. are .

この構成によれば、前記保持機構は、前記外壁に取り付けられる第1の被取付部と、前記建材の下面を支持する第1の支持部と、を有する支持部材を備えているので、外壁に沿って配置されるパネル状の建材の下面を第1の支持部が支持することにより、建材の下方向への移動を規制することができる。このため、建材が外壁から落下するのを抑制することができる。 According to this configuration, the holding mechanism includes a support member having a first attached part that is attached to the outer wall, and a first support part that supports the lower surface of the building material. By supporting the lower surface of the panel-shaped building material arranged along the panel, the first support part can restrict downward movement of the building material. Therefore, it is possible to prevent building materials from falling from the outer wall.

また、前記支持部材は、前記建材の前記外壁に対向する面と反対側の面よりも前記外壁側に位置するので、建材の外側面への支持部材の露出を抑制することができる。このため、組付け状態において支持部材が隣り合う建材どうしの間から露出することによる外壁の重量感を低減させ、意匠性を向上させることができる。 Moreover, since the supporting member is located closer to the outer wall than the surface of the building material opposite to the surface facing the outer wall, exposure of the supporting member to the outer surface of the building material can be suppressed. Therefore, it is possible to reduce the feeling of weight on the outer wall due to the support member being exposed between adjacent building materials in the assembled state, and to improve the design.

また、前記保持機構は、一対の側部規制部材を備えるので、建材の水平方向への移動を第1の規制部により規制しつつ、外壁から離れる方向への移動を第2の規制部により規制することができる。このため、地震等により建材が外壁から落下するのを効果的に抑制することができる。 Further, since the holding mechanism includes a pair of side regulating members, the movement of the building material in the horizontal direction is regulated by the first regulating part, and the movement in the direction away from the outer wall is regulated by the second regulating part. can do. Therefore, it is possible to effectively prevent building materials from falling from the outer wall due to an earthquake or the like.

しかも、前記側部規制部材は、前記外壁に着脱可能に取り付けられるので、建材のメンテナンス時に建材を外壁から取り外すことができる。このため、建材の外壁から離れる方向への移動を側部規制部材により規制することができるとともに、側部規制部材を外壁から取り外すことができ、メンテナンス性を向上させることができる。 Moreover, since the side regulating member is removably attached to the outer wall, the building material can be removed from the outer wall during maintenance of the building material. Therefore, the movement of the building material in the direction away from the outer wall can be regulated by the side regulating member, and the side regulating member can be removed from the outer wall, making it possible to improve maintainability.

さらに、本発明において、前記建材は、太陽電池パネルと、前記太陽電池パネルの前記外壁に対向する面に設けられた配線部材と、を有する太陽電池モジュールを有する。そのため、太陽電池パネルを外壁に沿って配置することができ、更に太陽電池パネルにより発電した電気を、配線部材によりパワーコンディショナー等に供給することができる。また、配線部材が太陽電池パネルの外壁に対向する面に設けられているので、配線部材を太陽電池パネルと外壁との間に収めて保持機構の意匠性を向上させることができる。
 Furthermore, in the present invention , the building material includes a solar cell module including a solar cell panel and a wiring member provided on a surface of the solar cell panel facing the outer wall. Therefore, the solar panel can be arranged along the outer wall, and the electricity generated by the solar panel can be supplied to a power conditioner or the like through the wiring member. Further, since the wiring member is provided on the surface of the solar cell panel facing the outer wall, the wiring member can be housed between the solar cell panel and the outer wall, thereby improving the design of the holding mechanism.

また、前記保持機構は、前記外壁に取り付けられる第3の被取付部と、前記太陽電池パネルの上端が前記外壁に対して接近又は離隔するように前記第1の被取付部を回動可能に支持する第2の支持部と、を有するベース部材を更に備えている。そのため、メンテナンス作業時においては側部規制部材を外した状態で太陽電池パネルを第1の被取付部を介してベース部材の第2の支持部に支持させた状態で太陽電池パネルの上端を外壁に対して離隔することができる。このため、太陽電池パネルの上端部と外壁との間を通して配線部材等を目視しながら作業を行うことができ、メンテナンス作業効率を更に向上させることができる。 Further, the holding mechanism is configured such that the third attached part attached to the outer wall and the first attached part are rotatable so that the upper end of the solar panel approaches or separates from the outer wall. The apparatus further includes a base member having a second supporting part. Therefore, during maintenance work, the upper end of the solar cell panel is attached to the outer wall while the side regulating member is removed and the solar cell panel is supported by the second support part of the base member via the first mounting part. can be separated from Therefore, it is possible to carry out work while visually observing the wiring members and the like through the space between the upper end of the solar cell panel and the outer wall, and it is possible to further improve maintenance work efficiency.

前記建材の保持構造において、前記保持機構は、前記ベース部材の上方において前記外壁に取り付けられ、前記太陽電池パネルの上端部に係脱可能な係合機構を更に有することが好ましい。 In the holding structure for building materials, it is preferable that the holding mechanism further includes an engagement mechanism that is attached to the outer wall above the base member and that is detachable from the upper end of the solar cell panel.

この構成によれば、前記保持機構は、係合機構を更に有しているので、係合機構を介して太陽電池パネルの上端部を外壁に固定することができる。このため、太陽電池パネルを、その回動を許容しながら外壁へ取り付けることができる。 According to this configuration, since the holding mechanism further includes the engagement mechanism, the upper end portion of the solar cell panel can be fixed to the outer wall via the engagement mechanism. Therefore, the solar cell panel can be attached to the outer wall while allowing its rotation.

また、係合を解除することにより容易に太陽電池パネルの上端部を外壁に対して回動することができ、メンテナンス時の作業効率を向上させることができる。 Further, by releasing the engagement, the upper end of the solar cell panel can be easily rotated relative to the outer wall, and work efficiency during maintenance can be improved.

前記建材の保持構造において、前記係合機構は、前記配線部材の中間部分を保持する配線保持機構を有することが好ましい。 In the building material holding structure, it is preferable that the engagement mechanism includes a wiring holding mechanism that holds an intermediate portion of the wiring member.

この構成によれば、係合機構は、配線部材の中間部分を保持する配線保持機構を有するので、配線部材を所定の位置で保持させることができる。このため、回動時に配線部材を拘束して垂れ下がるのを抑制することができ、配線、結線作業といったメンテナンス作業の効率を更に向上させることができる。 According to this configuration, since the engagement mechanism includes the wire holding mechanism that holds the intermediate portion of the wiring member, the wiring member can be held at a predetermined position. Therefore, the wiring member can be restrained and prevented from hanging during rotation, and the efficiency of maintenance work such as wiring and connection work can be further improved.

前記建材の保持構造において、前記外壁は、複数設けられ、前記保持機構は、一の前記外壁に取り付けられていることが好ましい。 In the building material holding structure, it is preferable that a plurality of the outer walls are provided and the holding mechanism is attached to one of the outer walls.

この構成によれば、保持機構が一の外壁に取り付けられているので、複数の外壁をまたがずに建材を固定することができる。このため、地震などで外壁が変形した際に、建材が外壁の挙動に影響されて外壁から落下するのを抑制することができる。 According to this configuration, since the holding mechanism is attached to one outer wall, the building material can be fixed without spanning multiple outer walls. Therefore, when the outer wall is deformed due to an earthquake or the like, it is possible to prevent building materials from falling from the outer wall due to the influence of the behavior of the outer wall.

以上説明したように、本発明のように構成すれば、外壁から離れる方向への移動を規制しつつメンテナンス性を向上させた建材の保持構造を提供することができる。 As explained above, if configured as in the present invention, it is possible to provide a holding structure for building materials that improves maintainability while restricting movement in the direction away from the outer wall.

本実施形態の建材の保持構造を表す正面図であって、(a)は建材を取り付けた状態を表す図、(b)は建材を取り外した状態を表す図である。It is a front view showing the holding structure of the building material of this embodiment, Comprising: (a) is a figure showing the state where the building material is attached, (b) is a figure showing the state where the building material is removed. 図1(a)のII-II線断面図である。FIG. 2 is a sectional view taken along the line II-II in FIG. 1(a). 図2の第1の係合機構周辺の拡大図である。3 is an enlarged view of the vicinity of the first engagement mechanism in FIG. 2. FIG. 図2の第1のベース部材周辺の拡大図であって、(a)は係合状態を表す図、(b)は係合解除状態を表す図である。FIG. 3 is an enlarged view of the vicinity of the first base member in FIG. 2, in which (a) is a diagram showing an engaged state, and (b) is a diagram showing a disengaged state. 図2の第2の係合機構及び第2のベース部材周辺を表す拡大図である。3 is an enlarged view showing the vicinity of the second engagement mechanism and second base member in FIG. 2. FIG. 前記第1の係合機構の係合状態及び係合解除状態を表す図であって、(a)は正面図、(b)は(a)のVIB-VIB断面図である。FIG. 3 is a diagram showing an engaged state and a disengaged state of the first engagement mechanism, in which (a) is a front view and (b) is a sectional view taken along VIB-VIB in (a). 前記建材の保持構造の配線保持機構を表す斜視図である。It is a perspective view showing the wiring holding mechanism of the holding structure for the building material. 図1(b)のVIII拡大図である。VIII is an enlarged view of FIG. 1(b). 図1(b)のIX拡大図である。It is an IX enlarged view of FIG.1(b). 図1(b)のX拡大図である。It is an X enlarged view of FIG.1(b). 前記建材の保持構造の平面図である。It is a top view of the holding structure of the said building material. 図11のXII-XII断面図である。12 is a sectional view taken along line XII-XII in FIG. 11. FIG. 本発明の建材の保持構造の使用状態を表す側面図であって、(a)は建材の取り付け時における状態を表す図、(b)はメンテナンス作業時における状態を表す図である。FIG. 2 is a side view showing the state in which the holding structure for building materials of the present invention is used, in which (a) is a diagram showing the state when the building material is attached, and (b) is a diagram showing the state during maintenance work.

以下、本発明の実施形態に係る建材の保持構造1について、図面を参照しながら詳細に説明する。建材は、例えば建物の外壁構造2に用いられるものである。 EMBODIMENT OF THE INVENTION Hereinafter, the holding structure 1 for building materials according to an embodiment of the present invention will be described in detail with reference to the drawings. The building material is, for example, one used for the outer wall structure 2 of a building.

なお、本実施形態では、建材として太陽電池モジュール5を用いる場合について説明するが、建材として用いることができるものは太陽電池モジュール5に限られず、タイルや石材など、平板形状のものであれば適宜用いることができる。 In addition, in this embodiment, a case will be described in which the solar cell module 5 is used as a building material, but materials that can be used as a building material are not limited to the solar cell module 5, but any flat plate-shaped material such as tiles or stones can be used as appropriate. Can be used.

保持構造1は、図1及び図2に示すように、外壁構造2に対して単数又は複数設けられている。 As shown in FIGS. 1 and 2, one or more holding structures 1 are provided on the outer wall structure 2.

保持構造1は、太陽電池モジュール5を保持するための構造であり、平面視略四角形状の外壁パネル3(本発明の「外壁」に対応)と、太陽光により発生した電気を外壁パネル3の内側に供給する太陽電池モジュール5と、太陽電池モジュール5を外壁パネル3に保持する保持機構10と、を備える。 The holding structure 1 is a structure for holding the solar cell module 5, and includes an outer wall panel 3 (corresponding to the "outer wall" of the present invention) that is approximately rectangular in plan view, and a structure for transmitting electricity generated by sunlight to the outer wall panel 3. It includes a solar cell module 5 that is supplied to the inside, and a holding mechanism 10 that holds the solar cell module 5 on the outer wall panel 3.

なお、外壁として、本実施形態ではパネル状の外壁パネル3を用いる場合について説明するが、外壁として用いることができるのは本実施形態で説明するような外壁パネル3に限られず、例えば、木造やRC建築の外壁等、種々の外壁を用いることができる。 In this embodiment, a case where a panel-shaped exterior wall panel 3 is used as the exterior wall will be described, but the exterior wall that can be used as the exterior wall is not limited to the exterior wall panel 3 as described in this embodiment, and for example, wooden or Various exterior walls can be used, such as the exterior walls of RC buildings.

外壁パネル3は、本実施形態では隣り合う2枚の外壁パネル3、すなわち左側に設けられる外壁パネル3Aと、右側に設けられる外壁パネル3Bを用いる。以下、外壁パネル3A及び外壁パネル3Bを区別する必要がない場合には両者を総称して外壁パネル3と記載する。 In this embodiment, the exterior wall panel 3 uses two adjacent exterior wall panels 3, that is, an exterior wall panel 3A provided on the left side and an exterior wall panel 3B provided on the right side. Hereinafter, when there is no need to distinguish between the outer wall panel 3A and the outer wall panel 3B, both will be collectively referred to as the outer wall panel 3.

外壁パネル3A,3Bには、図1に示すように、後述する配線部材53を外壁パネル3の内側に引き込むための配線引込口3a,3bがそれぞれ形成されている。配線引込口3a,3bが形成される箇所は適宜設定され、本実施形態では外壁パネル3A、3Bの上部にそれぞれ一箇所形成されている。 As shown in FIG. 1, the outer wall panels 3A and 3B are provided with wiring inlet ports 3a and 3b, respectively, for drawing a wiring member 53, which will be described later, into the inner side of the outer wall panel 3. The locations where the wiring inlet ports 3a and 3b are formed are determined as appropriate, and in this embodiment, one location is formed at each of the upper portions of the outer wall panels 3A and 3B.

太陽電池モジュール5は、外壁パネル3に沿って配置される。太陽電池モジュール5は、図3に示すように、太陽光により電気を発生するための太陽電池パネル51と、太陽電池パネル51で発電した電気をパワーコンディショナー(図略)に供給するための配線部材53と、太陽電池パネル51に配線部材53を接続するための配線接続部52と、太陽電池パネル51を接地するためのアース線56と、により構成される。 The solar cell module 5 is arranged along the outer wall panel 3. As shown in FIG. 3, the solar cell module 5 includes a solar cell panel 51 for generating electricity from sunlight, and a wiring member for supplying the electricity generated by the solar cell panel 51 to a power conditioner (not shown). 53, a wiring connection portion 52 for connecting the wiring member 53 to the solar cell panel 51, and a ground wire 56 for grounding the solar cell panel 51.

太陽電池モジュール5は、図1に示すように1枚の外壁パネル3に対して単数又は複数個設けられる。本実施形態では、外壁パネル3Aに、上下に並ぶ3枚の太陽電池モジュール5の列が水平方向に1列となるように合計3枚の太陽電池モジュール5が設けられる。また、外壁パネル3Bに、上下方向に並ぶ3枚の太陽電池モジュール5の列が水平方向に2列となるように合計6枚の太陽電池モジュール5が設けられる。以下では説明のため、外壁パネル3Aに設けられた太陽電池モジュール5を上から順に太陽電池モジュール5A,5B,5C、外壁パネル3Bの左側から1列目に設けられた太陽電池モジュール5を上から順に太陽電池モジュール5D,5E,5F、外壁パネル3Bの左側から2列目に設けられた太陽電池モジュール5を上から順に太陽電池モジュール5G,5H,5Iと呼ぶことがある。 As shown in FIG. 1, one or more solar cell modules 5 are provided for one outer wall panel 3. In this embodiment, a total of three solar cell modules 5 are provided on the outer wall panel 3A so that three rows of solar cell modules 5 lined up one above the other become one row in the horizontal direction. Further, a total of six solar cell modules 5 are provided on the outer wall panel 3B so that three rows of solar cell modules 5 lined up in the vertical direction become two rows in the horizontal direction. For the sake of explanation, the solar cell modules 5 provided on the outer wall panel 3A are listed in order from above, and the solar cell modules 5 provided in the first row from the left side of the outer wall panel 3B are listed in order from the top. The solar cell modules 5D, 5E, 5F, and the solar cell modules 5 provided in the second row from the left side of the outer wall panel 3B may be referred to as solar cell modules 5G, 5H, and 5I in this order from the top.

太陽電池パネル51は、太陽光により発電するためのものである。太陽電池パネル51としては公知のものを用いる。 The solar panel 51 is for generating electricity using sunlight. As the solar cell panel 51, a known one is used.

ここで、図7は後述する第1の配線保持機構220を表す斜視図である。配線部材53は、図7に示すように配線引込口3aから外壁パネル3の外側に引き出されて一の太陽電池パネル51の配線接続部52に接続される。配線接続部52に接続された配線部材53は後述する第1又は第2の配線保持機構220,240により保持される。このようにして外壁パネル3に設けられたある太陽電池パネル51の配線接続部52に接続された配線部材53は、他の太陽電池パネル51の配線接続部52にも接続され、配線引込口3aを通ってパワーコンディショナー(図略)に接続される。 Here, FIG. 7 is a perspective view showing a first wiring holding mechanism 220, which will be described later. As shown in FIG. 7, the wiring member 53 is pulled out from the wiring inlet 3a to the outside of the outer wall panel 3 and connected to the wiring connection part 52 of one solar cell panel 51. The wiring member 53 connected to the wiring connection part 52 is held by a first or second wiring holding mechanism 220 or 240, which will be described later. The wiring member 53 connected to the wiring connection part 52 of a solar cell panel 51 provided on the outer wall panel 3 in this way is also connected to the wiring connection part 52 of another solar cell panel 51, and the wiring member 53 is connected to the wiring connection part 52 of the other solar cell panel 51, and It is connected to a power conditioner (not shown) through.

配線接続部52は、太陽電池パネル51の内側面(太陽電池パネル51の外壁パネル3に対向する面)に取り付けられる。 The wiring connection portion 52 is attached to the inner surface of the solar cell panel 51 (the surface of the solar cell panel 51 facing the outer wall panel 3).

アース線56の一端部は、配線接続部52に接続される。また、アース線56の他端部には、環状の接続端子56aが取り付けられている。接続端子56aは、後述するアース線取付部227,247に取り付けられるようになっている。 One end of the ground wire 56 is connected to the wiring connection portion 52. Furthermore, an annular connection terminal 56a is attached to the other end of the ground wire 56. The connection terminal 56a is adapted to be attached to ground wire attachment portions 227, 247, which will be described later.

保持機構10は、図1~図5に示すように、太陽電池モジュール5を下面から支持する下側支持部材11(本発明の「支持部材」に対応)と、太陽電池モジュール5の上面に固定される上側支持部材12と、水平方向に延びて下側支持部材11を回動可能に支持する第1,第2のベース部材13,14と、水平方向に延びて上側支持部材12を係脱可能に係止する第1,第2の係合機構21,23と、上下方向に延びて太陽電池モジュール5の水平方向の移動を規制する複数の側部規制部材30と、第1,第2のベース部材13,14及び第1,第2の係合機構21,23と側部規制部材30とを連結する連結部314,324と、を備える。保持機構10は、各太陽電池モジュール5(太陽電池モジュール5A~5I)が取り付けられる位置に対応して設けられる。すなわち、保持機構10は、一枚の外壁パネル3に対して単数又は複数設けられている。 As shown in FIGS. 1 to 5, the holding mechanism 10 includes a lower support member 11 (corresponding to the "support member" of the present invention) that supports the solar cell module 5 from the lower surface, and a lower support member 11 fixed to the upper surface of the solar cell module 5. the upper support member 12 that extends in the horizontal direction and rotatably supports the lower support member 11; First and second engagement mechanisms 21 and 23 that can be locked, a plurality of side regulating members 30 that extend in the vertical direction and regulate horizontal movement of the solar cell module 5, and first and second The connecting portions 314 and 324 that connect the base members 13 and 14 and the first and second engagement mechanisms 21 and 23 to the side regulating member 30 are provided. The holding mechanism 10 is provided corresponding to the position where each solar cell module 5 (solar cell modules 5A to 5I) is attached. That is, one or more holding mechanisms 10 are provided for one outer wall panel 3.

下側支持部材11は、図4に示すように太陽電池パネル51の下面を支持する下側支持部111(本発明の「第1の支持部」に対応)と、第1、第2のベース部材13,14を介して外壁パネル3に取り付けられる支持部側被取付部112(本発明の「第1の被取付部」に対応)と、下側支持部111と支持部側被取付部112とを接続する支持部本体110と、を備えている。 As shown in FIG. 4, the lower support member 11 includes a lower support part 111 (corresponding to the "first support part" of the present invention) that supports the lower surface of the solar cell panel 51, and first and second bases. A support part side attached part 112 (corresponding to the "first attached part" of the present invention) which is attached to the outer wall panel 3 via the members 13 and 14, a lower support part 111 and a support part side attached part 112. and a support main body 110 that connects to the main body 110 .

下側支持部材11としては、アルミニウム等の伝導体を用いる。また、後述のように、第1、第2のベース部材13,14もアルミニウム製のものを用いるので、太陽電池モジュール5の取り付け状態においては、下側支持部材11と第1、第2のベース部材13,14とが電気的に接続される。このため、下側支持部材11を介して太陽電池モジュール5を接地でき、アース線の配置を省略することができる。 As the lower support member 11, a conductor such as aluminum is used. Furthermore, as will be described later, since the first and second base members 13 and 14 are also made of aluminum, when the solar cell module 5 is attached, the lower support member 11 and the first and second base members Members 13 and 14 are electrically connected. Therefore, the solar cell module 5 can be grounded via the lower support member 11, and the arrangement of a ground wire can be omitted.

下側支持部111は、太陽電池パネル51の下面に接着剤を介して接着されている。下側支持部111の内側の端辺には支持部本体110が一体に接続されている。下側支持部材11は、太陽電池モジュール5の装着状態において、太陽電池モジュール5の外壁パネル3に対向する面と反対側の面(外側面)よりも外壁パネル3側に位置するようになっている。言い換えると、下側支持部111の外壁パネル3から離れる方向の長さは、太陽電池パネル51の外壁パネル3から離れる方向の長さよりも小さくなるように設定されている。 The lower support portion 111 is bonded to the lower surface of the solar cell panel 51 via an adhesive. A support body 110 is integrally connected to the inner edge of the lower support portion 111 . When the solar cell module 5 is installed, the lower support member 11 is located closer to the outer wall panel 3 than the surface (outer surface) opposite to the surface of the solar cell module 5 that faces the outer wall panel 3. There is. In other words, the length of the lower support portion 111 in the direction away from the outer wall panel 3 is set to be smaller than the length of the solar cell panel 51 in the direction away from the outer wall panel 3.

支持部本体110には、後述の仮保持状態[図4(b)参照]において第1のベース部材13の回動規制部137と当接する突出部が形成されている。この突出部が回動規制部137に当接することにより、太陽電池パネル51の外壁パネル3から離れる方向への回動が規制される。 The support body 110 is formed with a protrusion that comes into contact with a rotation restriction portion 137 of the first base member 13 in a temporarily held state (see FIG. 4(b)), which will be described later. When this protrusion comes into contact with the rotation restriction portion 137, rotation of the solar cell panel 51 in the direction away from the outer wall panel 3 is restricted.

また、支持部本体110の外側には、太陽電池パネル51の内側面に当接して太陽電池パネル51の下側支持部材11への固定位置を位置決めする位置決め部110aが形成されている。 Further, a positioning portion 110a is formed on the outside of the support portion main body 110, and is in contact with the inner surface of the solar cell panel 51 to determine the fixing position of the solar cell panel 51 to the lower support member 11.

支持部側被取付部112の下端縁には、後述するベース側支持部131に対する摩擦を低減して円滑に回動させるために円形部112aが形成されている。この円形部112aは、後述の溝部135a,145aに嵌合するようになっている。 A circular portion 112a is formed at the lower end edge of the support-side attached portion 112 in order to reduce friction against a base-side support portion 131 (described later) and rotate smoothly. This circular portion 112a is adapted to fit into groove portions 135a and 145a, which will be described later.

上側支持部材12は、図3に示すように、太陽電池パネル51の上面に固定される上側支持部121と、第1、第2の係合機構21,23を介して外壁パネル3に取り付けられる支持部側被取付部122と、上側支持部121と支持部側被取付部122とを接続する支持部本体120と、を備える。 As shown in FIG. 3, the upper support member 12 is attached to the outer wall panel 3 via an upper support part 121 fixed to the upper surface of the solar cell panel 51 and first and second engagement mechanisms 21 and 23. It includes a support part-side attached part 122 and a support part main body 120 that connects the upper support part 121 and the support part-side attached part 122.

上側支持部121は、太陽電池パネル51の上面に接着剤を介して接着されている。上側支持部121の内側の端辺には支持部本体120が一体に接続されている。上側支持部材12は、下側支持部材11と同様に太陽電池パネル51の外側面よりも内側に位置する。 The upper support portion 121 is bonded to the upper surface of the solar cell panel 51 with an adhesive. A support body 120 is integrally connected to the inner edge of the upper support portion 121 . The upper support member 12, like the lower support member 11, is located inside the outer surface of the solar cell panel 51.

支持部本体120の外側には、支持部本体110の位置決め部110aと同様な位置決め部120aが形成されている。 A positioning part 120a similar to the positioning part 110a of the support part main body 110 is formed on the outside of the support part main body 120.

支持部側被取付部122は、後述する第1押さえ金具212と当接部211との間、又は第2の押さえ金具233と固定板232との間に挟まれることにより太陽電池パネル51の上端部を外壁パネル3に取り付けるためのものである。 The support part side attached part 122 is sandwiched between a first holding metal fitting 212 and a contact part 211, which will be described later, or between a second holding metal fitting 233 and a fixing plate 232, so that the upper end of the solar cell panel 51 is fixed. This is for attaching the part to the outer wall panel 3.

第1のベース部材13は、図4に示すように、外壁パネル3に取り付けられるベース側被取付部130(本発明の「第3の被取付部」に対応)と、太陽電池パネル51の上端が外壁パネル3に対して接近又は離隔するように支持部側被取付部112を回動可能に支持するベース側支持部131(本発明の「第2の支持部」に対応)と、ベース側被取付部130の上端部に一体に形成され側部規制部材30を取り付けるための横桟部136とを備える。第1のベース部材13としては、下側支持部材11と同様にアルミニウム等の伝導体を用いる。 As shown in FIG. 4, the first base member 13 includes a base-side attached portion 130 (corresponding to the “third attached portion” of the present invention) attached to the outer wall panel 3, and an upper end of the solar panel 51. A base side support part 131 (corresponding to the "second support part" of the present invention) rotatably supports the support part side attached part 112 so that it approaches or separates from the outer wall panel 3; A horizontal bar portion 136 is integrally formed at the upper end portion of the attached portion 130 and is used to attach the side regulating member 30. As the first base member 13, like the lower support member 11, a conductor such as aluminum is used.

ベース側被取付部130には、ボルト130aが挿通可能なボルト挿通孔が形成されている。このボルト挿通孔にボルト130aが挿通されることにより第1のベース部材13が外壁パネル3に取り付けられる。 A bolt insertion hole through which a bolt 130a can be inserted is formed in the base-side attached portion 130. The first base member 13 is attached to the outer wall panel 3 by inserting the bolt 130a into this bolt insertion hole.

ベース側支持部131は、ベース側被取付部130における下端部にこのベース側被取付部130と一体に形成される。ベース側支持部131は、下側支持部材11の回動を規制する回動規制部137と、下側支持部材11を保持する本保持部135と、本保持部135の内側に設けられ下側支持部材11を仮保持する仮保持部134と、を備える。 The base-side support portion 131 is formed integrally with the base-side attached portion 130 at the lower end of the base-side attached portion 130 . The base side support part 131 includes a rotation restriction part 137 that restricts the rotation of the lower support member 11, a main holding part 135 that holds the lower support member 11, and a lower part provided inside the main holding part 135. A temporary holding part 134 that temporarily holds the support member 11 is provided.

回動規制部137は、外壁パネル3と平行な板状の部分である。回動規制部137は、図4(b)に示すように、下側支持部材11の仮保持状態において、支持部本体110の突出部と当接することにより下側支持部材11の回動を規制する。 The rotation restriction portion 137 is a plate-shaped portion parallel to the outer wall panel 3. As shown in FIG. 4B, the rotation regulating portion 137 restricts the rotation of the lower supporting member 11 by coming into contact with the protruding portion of the supporting portion main body 110 when the lower supporting member 11 is temporarily held. do.

本保持部135の下端部には上方に開口した溝部135aが形成されている。溝部135aは、回動規制部137と対向する板状部と、この板状部と回動規制部137との間に設けられた底部とを有する。また、溝部135aには、下側支持部材11の支持部側被取付部112の円形部112aが嵌合するようになっている。このように、円形部112aが溝部135aに嵌合することにより下側支持部材11がベース側支持部131に回動可能に支持される。 A groove portion 135a that opens upward is formed at the lower end of the main holding portion 135. The groove portion 135a has a plate-shaped portion facing the rotation restriction portion 137, and a bottom portion provided between the plate portion and the rotation restriction portion 137. Further, the circular portion 112a of the support-side attached portion 112 of the lower support member 11 is fitted into the groove portion 135a. In this manner, the lower support member 11 is rotatably supported by the base support portion 131 by fitting the circular portion 112a into the groove portion 135a.

また、本保持部135の両端には後述の側部規制部材30を取り付けることができる。なお、側部規制部材30を取り付けるために、本保持部135の内側の外壁パネル3からの距離は、後述の本保持部145の内側の外壁パネル3からの距離及び当接部211の対向面211aの内側の外壁パネル3からの距離とほぼ同じになるように設定される。 Additionally, side regulating members 30, which will be described later, can be attached to both ends of the main holding portion 135. In addition, in order to attach the side regulating member 30, the distance from the inner outer wall panel 3 of the main holding part 135 is the distance from the inner outer wall panel 3 of the main holding part 145, which will be described later, and the opposing surface of the contact part 211. The distance is set to be approximately the same as the distance from the outer wall panel 3 on the inside of 211a.

仮保持部134は、メンテナンス作業時などに、太陽電池パネル51を外壁パネル3から離れる方向に回動させた状態で係止するための部位である。 The temporary holding portion 134 is a portion for locking the solar cell panel 51 in a state where it is rotated in a direction away from the outer wall panel 3 during maintenance work or the like.

仮保持部134には、その外側端部に上方に開口した溝部134aが形成されている。溝部134aに円形部112aが嵌合することにより下側支持部材11がベース側支持部131に回動可能に支持される。また、仮保持部134は、溝部134aの内側に接続される水平な板状部と、溝部134aの外側から上方に突出する突出部とを有する。仮保持部134の突出部には、斜辺135bが形成されている。斜辺135bは、太陽電池パネル51が仮保持部134に係止される仮保持状態において下側支持部材11の回動を許容するために設けられる。 The temporary holding portion 134 has a groove portion 134a that is open upwardly formed at its outer end. The lower support member 11 is rotatably supported by the base support portion 131 by fitting the circular portion 112a into the groove portion 134a. Moreover, the temporary holding part 134 has a horizontal plate-shaped part connected to the inside of the groove part 134a, and a protrusion part that projects upward from the outside of the groove part 134a. A protruding portion of the temporary holding portion 134 is formed with an oblique side 135b. The oblique side 135b is provided to allow rotation of the lower support member 11 in a temporarily held state in which the solar cell panel 51 is locked by the temporary holding part 134.

横桟部136は、外壁パネル3と対向して水平方向に延びる対向面136aを有する。対向面136aの内側の外壁パネル3からの距離は、後述の右側規制部材31と左側規制部材32との接触を抑制するために、本保持部135の内側の外壁パネル3からの距離よりも小さくなるように設定されている。なお、対向面136aの内側の外壁パネル3からの距離は、側部規制部材30を外壁パネル3に対して平行に取り付けるために、第1、第2の配線保持部221,241の対向面221a,241aの内側の外壁パネル3からの距離と略等しくなるように設定される。 The horizontal beam portion 136 has a facing surface 136a that faces the outer wall panel 3 and extends in the horizontal direction. The distance from the outer wall panel 3 on the inner side of the opposing surface 136a is smaller than the distance from the outer wall panel 3 on the inner side of the main holding part 135 in order to suppress contact between the right side regulating member 31 and the left side regulating member 32, which will be described later. It is set to be. In addition, in order to attach the side regulating member 30 parallel to the outer wall panel 3, the distance from the inner side of the opposing surface 136a to the outer wall panel 3 is determined by the distance from the opposing surface 221a of the first and second wiring holding parts 221, 241. , 241a from the inner outer wall panel 3.

第1の係合機構21は、図3に示すように、後述する係合状態において上側支持部材12と当接する当接部211と、当接部211と協働して上側支持部材12の支持部側被取付部122と係合する第1の押さえ金具212と、当接部211の上端部から外側に延びて第1の押さえ金具212を回動可能に取り付ける取付部214と、第1の押さえ金具212を当接部211に回動可能に支持する回動ビス213と、当接部211の下端部に設けられ第1の係合機構21を外壁パネル3に取り付けるための係合機構取付部215と、係合機構取付部215の下端部に設けられ配線部材53を保持するための第1の配線保持機構220と、当接部211及び第1の配線保持機構220の水平方向に延びて側部規制部材30が取り付けられるレール部216と、を備える。ここで、図11は太陽電池モジュール5の保持構造1の上面図を表し、図12は図11のXII-XII断面図を表す。外壁パネル3Bにおける隣り合う第1の係合機構21どうしは、図11及び図12に示すように、レール部216により連結されている。 As shown in FIG. 3, the first engagement mechanism 21 includes a contact portion 211 that contacts the upper support member 12 in an engaged state, which will be described later, and supports the upper support member 12 in cooperation with the contact portion 211. a first presser metal fitting 212 that engages with the part-side attached portion 122; a mounting portion 214 that extends outward from the upper end of the contact portion 211 and rotatably attaches the first presser metal fitting 212; A rotation screw 213 that rotatably supports the presser metal fitting 212 on the contact part 211 and an engagement mechanism attachment provided at the lower end of the contact part 211 for attaching the first engagement mechanism 21 to the outer wall panel 3 portion 215 , a first wire holding mechanism 220 provided at the lower end of the engagement mechanism mounting portion 215 and for holding the wiring member 53 , and a contact portion 211 and the first wire holding mechanism 220 extending in the horizontal direction. and a rail portion 216 to which the side regulating member 30 is attached. Here, FIG. 11 shows a top view of the holding structure 1 for the solar cell module 5, and FIG. 12 shows a sectional view taken along the line XII-XII in FIG. Adjacent first engagement mechanisms 21 in the outer wall panel 3B are connected by a rail portion 216, as shown in FIGS. 11 and 12.

レール部216は、側部規制部材30を取り付けるための取付部216aを備える。取付部216aは、当接部211と水平方向に連続して一体となるように形成されている。 The rail portion 216 includes a mounting portion 216a for mounting the side regulating member 30. The attachment portion 216a is formed so as to be continuous and integrated with the contact portion 211 in the horizontal direction.

当接部211は、外壁パネル3と対向して水平方向に延びる対向面211aを有する。当接部211の水平方向の端部には側部規制部材30を取り付けることができる。 The contact portion 211 has a facing surface 211a that faces the outer wall panel 3 and extends in the horizontal direction. The side regulating member 30 can be attached to the horizontal end of the contact portion 211 .

取付部214は、第1の押さえ金具212を対向面211aよりも外側上方に支持するために、当接部211の上端部から外側に延びて上方に屈曲した形状を呈する。 The mounting portion 214 has a shape that extends outward from the upper end of the contact portion 211 and is bent upward in order to support the first presser metal fitting 212 outside and above the opposing surface 211a.

第1の押さえ金具212は、取付部214に取り付けられる被取付部212aと、上側支持部材12の支持部側被取付部122を対向面211aとの間で挟むことにより太陽電池パネル51の外壁パネル3から離れる方向への移動を規制する押さえ部212bと、を備える。被取付部212aと押さえ部212bは、押さえ部212bが被取付部212aに対して内側に位置するように接続される。 The first presser metal fitting 212 is attached to the outer wall panel of the solar cell panel 51 by sandwiching the attached portion 212a attached to the attachment portion 214 and the supporting portion side attached portion 122 of the upper support member 12 between the opposing surface 211a. 3, and a presser portion 212b that restricts movement in the direction away from 3. The attached part 212a and the holding part 212b are connected such that the holding part 212b is located inside the attached part 212a.

第1の押さえ金具212は、図6(a)及び図6(b)に示すように、支持部側被取付部122の側方へ移動することにより太陽電池パネル51が外壁パネル3から離れる方向に移動するのを許容する係合解除状態[図6(a)及び(b)のβ]と、支持部側被取付部122を対向面211aとの間で挟むことにより太陽電池パネル51が外壁パネル3から離れる方向に移動するのを規制する係合状態[図6(a)及び(b)のα]と、の間で回動可能に支持されている。 As shown in FIGS. 6(a) and 6(b), the first presser metal fitting 212 is moved in the direction in which the solar panel 51 is separated from the outer wall panel 3 by moving to the side of the support portion-side attached portion 122. When the solar cell panel 51 is placed in the disengaged state [β in FIGS. 6(a) and 6(b)] and the support side mounted portion 122 is sandwiched between the opposing surface 211a, the solar cell panel 51 is moved to the outer wall. It is rotatably supported between an engaged state [α in FIGS. 6(a) and 6(b)] that restricts movement away from the panel 3.

係合機構取付部215は、図3に示すように、水平方向に延びる平面視長尺状の部位であり、その内側面において外壁パネル3と接触する。係合機構取付部215は、ボルト215aを介して外壁パネル3に固定される。 As shown in FIG. 3, the engagement mechanism mounting portion 215 is a long portion extending in the horizontal direction in a plan view, and contacts the outer wall panel 3 on its inner surface. The engagement mechanism mounting portion 215 is fixed to the outer wall panel 3 via bolts 215a.

第1の配線保持機構220は、図7及び図8に示すように、配線部材53を保持するための配線保持部221と、配線部材53を結束する結束部222と、配線部材53を引っ掛けて係止するための係止爪部223と、アース線56が取り付けられるアース線取付部227と、を備える。結束部222は、配線保持部221の左端部に形成され、係止爪部223は結束部222の右側に形成され、アース線取付部227は配線保持部221に右端部に形成される。 As shown in FIGS. 7 and 8, the first wiring holding mechanism 220 includes a wiring holding part 221 for holding the wiring member 53, a binding part 222 for binding the wiring member 53, and a hooking part for hooking the wiring member 53. It includes a locking claw part 223 for locking, and a ground wire attachment part 227 to which the ground wire 56 is attached. The binding part 222 is formed at the left end of the wire holding part 221, the locking claw part 223 is formed at the right side of the binding part 222, and the ground wire attachment part 227 is formed at the right end of the wiring holding part 221.

ここで、前記左右の関係は逆であってもよい。すなわち、図8のように結束部222が配線保持部221の右端部に設けられ、係止爪部223が結束部222の左側に形成され、アース線取付部227が配線保持部221の右端部に形成される配線保持機構224を用いてもよい。 Here, the left and right relationship may be reversed. That is, as shown in FIG. 8, the binding part 222 is provided on the right end of the wire holding part 221, the locking claw part 223 is formed on the left side of the binding part 222, and the ground wire attachment part 227 is provided on the right end of the wiring holding part 221. You may use the wiring holding mechanism 224 formed in .

配線保持部221は、外壁パネル3に対向する対向面221aを有する。対向面221aの内側の外壁パネル3からの距離は、後述の右側規制部材31と左側規制部材32との接触を抑制するために、当接部211の対向面211aの内側の外壁パネル3からの距離よりも小さくなるように設定されている。 The wiring holding portion 221 has a facing surface 221a facing the outer wall panel 3. The distance from the outer wall panel 3 on the inner side of the opposing surface 221a is set such that the distance from the outer wall panel 3 on the inner side of the opposing surface 211a of the abutting portion 211 is determined in order to suppress contact between the right side regulating member 31 and the left side regulating member 32, which will be described later. It is set to be smaller than the distance.

結束部222は、図7に示すように、配線保持部221の外側に突出して設けられている。結束部222には、結束バンド222bが挿通可能な保持孔222aが上下方向に貫通して形成されている。紐や可撓性樹脂等の結束バンド222bを結束部222の保持孔222aに挿通し、配線部材53の中間部分を結束部222とともに結束することにより、配線保持部221に配線部材53を保持することができる。なお、結束バンド222bとしては、例えば『インシュロック』(ヘラマンタイトン株式会社の登録商標)等を用いることができる。 As shown in FIG. 7, the binding portion 222 is provided to protrude outside the wire holding portion 221. A holding hole 222a through which a binding band 222b can be inserted is formed in the binding portion 222 so as to pass through the binding hole 222a in the vertical direction. The wiring member 53 is held in the wiring holding part 221 by inserting a binding band 222b made of string or flexible resin into the holding hole 222a of the binding part 222 and binding the middle part of the wiring member 53 together with the binding part 222. be able to. Note that as the binding band 222b, for example, "Insulok" (registered trademark of Hellaman Titon Co., Ltd.) or the like can be used.

係止爪部223は、配線保持部221の外壁パネル3から離れる方向外側に延びて右側に湾曲する形状を呈する。配線部材53は、係止爪部223に巻き付けられることにより、結束部222に結束される。 The locking claw portion 223 has a shape that extends outward in a direction away from the outer wall panel 3 of the wiring holding portion 221 and curves to the right. The wiring member 53 is tied to the binding part 222 by being wrapped around the locking claw part 223.

アース線取付部227は、アース線56の接続端子56aが上から係止可能となるように、配線保持部221の外壁パネル3から離れる方向外側に突き出して上方に延びる上向き爪形状を呈している。 The ground wire attachment portion 227 has an upward claw shape that protrudes outward in the direction away from the outer wall panel 3 of the wire holding portion 221 and extends upward so that the connection terminal 56a of the ground wire 56 can be locked from above. .

第2のベース部材14は、図5に示すように、太陽電池パネル51の上端が外壁パネル3に対して接近又は離隔するように支持部側被取付部112を回動可能に支持するベース側支持部141(本発明の「第2の支持部」に対応)と、ベース側支持部141を外壁パネル3に取り付けるためのベース側被取付部140と、を備える。第2のベース部材14としては、アルミニウム等の伝導体を用いる。 As shown in FIG. 5, the second base member 14 is a base side that rotatably supports the support side attached portion 112 so that the upper end of the solar panel 51 approaches or separates from the outer wall panel 3. It includes a support part 141 (corresponding to the "second support part" of the present invention) and a base-side attached part 140 for attaching the base-side support part 141 to the outer wall panel 3. As the second base member 14, a conductor such as aluminum is used.

ベース側支持部141は、下側支持部材11を保持する本保持部145と、本保持部145の内側に設けられ下側支持部材11を仮保持する仮保持部144と、を備える。本保持部145の下端部には上方に開口した溝部145aが形成されている。仮保持部144には、その外側の端部に上方に開口した溝部134aが形成されている。また、仮保持部144は、溝部134aの内側に接続される水平な板状部と、溝部134aの外側から上方に突出する突出部と、を有する。仮保持部144の突起部には斜辺145bが形成されている。ベース側支持部141の機能はベース側支持部131の機能と同様である。 The base side support part 141 includes a main holding part 145 that holds the lower support member 11 and a temporary holding part 144 that is provided inside the main holding part 145 and temporarily holds the lower support member 11. A groove portion 145a that opens upward is formed at the lower end of the main holding portion 145. As shown in FIG. The temporary holding portion 144 has a groove portion 134a that is open upwardly formed at its outer end. Moreover, the temporary holding part 144 has a horizontal plate-shaped part connected to the inside of the groove part 134a, and a protrusion part that projects upward from the outside of the groove part 134a. An oblique side 145b is formed on the protrusion of the temporary holding part 144. The function of the base side support part 141 is similar to that of the base side support part 131.

ベース側被取付部140は、ベース側支持部141の下端部に一体に設けられており、ボルト140aを介して外壁パネル3に取り付けられる。なお、ベース側被取付部140は、第2の係合機構23の構成要素としても用いられる。すなわち、ベース側被取付部140は、ベース側支持部141とともに第2のベース部材14を構成し、後述の固定部231、固定板232、第2の押さえ金具233、回動ビス234、第2の配線保持機構240とともに第2の係合機構23を構成する。 The base-side attached portion 140 is integrally provided at the lower end portion of the base-side support portion 141, and is attached to the outer wall panel 3 via bolts 140a. Note that the base-side attached portion 140 is also used as a component of the second engagement mechanism 23. That is, the base-side attached part 140 constitutes the second base member 14 together with the base-side support part 141, and includes a fixing part 231, a fixing plate 232, a second presser metal fitting 233, a rotation screw 234, a second The second engagement mechanism 23 is configured together with the wire holding mechanism 240 .

第2の係合機構23は、係合状態において上側支持部材12と当接する固定板232と、固定板232と協働して上側支持部材12の支持部側被取付部122と係合する第2の押さえ金具233と、第2の押さえ金具233を固定板232に回動可能に取り付ける回動ビス234と、固定板232を取り付けるための固定部231と、配線部材53を保持するための第2の配線保持機構240と、固定部231及び第2の配線保持機構240を外壁パネル3に取り付けるためのベース側被取付部140と、を備える。 The second engagement mechanism 23 includes a fixing plate 232 that contacts the upper support member 12 in the engaged state, and a second engagement mechanism that engages with the support side attached portion 122 of the upper support member 12 in cooperation with the fixing plate 232. a rotation screw 234 for rotatably attaching the second presser fitting 233 to the fixing plate 232, a fixing part 231 for attaching the fixing plate 232, and a second presser fitting 233 for holding the wiring member 53. The second wiring holding mechanism 240 and the base-side attached part 140 for attaching the fixing part 231 and the second wiring holding mechanism 240 to the outer wall panel 3 are provided.

固定板232は、第2の押さえ金具233を固定するための板材であり、その下端部がビス231aを介して固定部231に取り付けられている。固定板232の上端部には外側に突出した凸部が形成されており、この凸部には回動ビス234が挿通可能な回動ビス挿通孔232cが形成されている。 The fixing plate 232 is a plate material for fixing the second presser fitting 233, and its lower end is attached to the fixing part 231 via screws 231a. A convex portion projecting outward is formed at the upper end of the fixed plate 232, and a rotary screw insertion hole 232c into which the rotary screw 234 can be inserted is formed in the convex portion.

第2の押さえ金具233は、その一端部が固定板232に回動ビス234を介して取り付けられ、その他端部が内側に僅かに屈曲した形状を呈する。第2の押さえ金具233は、回動ビス234を中心として回動することにより、第1の押さえ金具212と同様に係合解除状態と、係合状態と、をとることができる。 The second presser metal fitting 233 has one end attached to the fixed plate 232 via a rotation screw 234, and the other end slightly bent inward. The second presser metal fitting 233 can take the disengaged state and the engaged state similarly to the first presser metal fitting 212 by rotating around the rotation screw 234.

固定部231は、ベース側被取付部140の下端部に一体に設けられる。 The fixing part 231 is integrally provided at the lower end of the base-side attached part 140.

第2の配線保持機構240は、図9に示すように、配線部材53を保持するための配線保持部241と、配線部材53を結束する結束部242と、配線部材53を引っ掛けて係止する係止爪部243と、アース線56が取り付けられるアース線取付部247と、を備える。第2の配線保持機構240において結束部242、係止爪部243、アース線取付部247が設けられる位置は、第1の配線保持機構220において結束部222、係止爪部223、アース線取付部227が設けられる位置と同様である。また、配線保持機構224と同様に、結束部242、係止爪部243、アース線取付部247がこの順番で右から左に並んでいる配線保持機構244を用いることもできる。 As shown in FIG. 9, the second wiring holding mechanism 240 includes a wiring holding part 241 for holding the wiring member 53, a binding part 242 for binding the wiring member 53, and a binding part 242 for hooking and locking the wiring member 53. It includes a locking claw part 243 and a ground wire attachment part 247 to which the ground wire 56 is attached. In the second wiring holding mechanism 240, the binding part 242, the locking claw part 243, and the ground wire attachment part 247 are provided at the positions where the binding part 222, the locking claw part 223, and the ground wire attachment part 247 are provided in the first wiring holding mechanism 220. This is the same position as the portion 227 is provided. Further, similarly to the wire holding mechanism 224, a wire holding mechanism 244 in which a binding portion 242, a locking claw portion 243, and a ground wire attachment portion 247 are arranged in this order from right to left can also be used.

結束部242、係止爪部243、アース線取付部247については、結束部222、係止爪部223、アース線取付部227と同様なのでここでは説明を省略する。 The binding part 242, the locking claw part 243, and the ground wire attachment part 247 are the same as the binding part 222, the locking claw part 223, and the ground wire attachment part 227, so a description thereof will be omitted here.

側部規制部材30は、図1(b)及び図8~11に示すように、太陽電池モジュール5の右方向への移動を規制する第1、第2、第3右側規制部材31,33,36と、太陽電池モジュール5の左方向への移動を規制する第1、第2、第3左側規制部材32,34,35と、を備える。 As shown in FIG. 1(b) and FIGS. 8 to 11, the side regulating member 30 includes first, second and third right regulating members 31, 33, which regulate the rightward movement of the solar cell module 5. 36, and first, second, and third left side regulating members 32, 34, and 35 that regulate leftward movement of the solar cell module 5.

なお、本実施形態において、第3左側規制部材35及び第1右側規制部材31が、太陽電池パネル51A,51B,51Cの移動を規制する。また、第1左側規制部材32及び第2右側規制部材33が太陽電池パネル51D,51E,51Fの移動を規制する。さらに、第2左側規制部材34及び第3右側規制部材36が太陽電池パネル51G,51H,51Iの移動を規制する。 In addition, in this embodiment, the third left side regulating member 35 and the first right side regulating member 31 regulate the movement of the solar cell panels 51A, 51B, and 51C. Further, the first left side regulating member 32 and the second right side regulating member 33 regulate the movement of the solar cell panels 51D, 51E, and 51F. Furthermore, the second left side regulating member 34 and the third right side regulating member 36 regulate the movement of the solar cell panels 51G, 51H, and 51I.

第1右側規制部材31は、太陽電池モジュール5A,5B,5Cの右端部に配置される。第1右側規制部材31は、図11に示すように、保持機構10を介して外壁パネル3に取り付けられる被取付部311(本発明の「第2の被取付部」に対応)と、太陽電池パネル51の右側面に対向し太陽電池パネル51の右方向への移動を規制する右方向規制部312(本発明の「第1の規制部」に対応)と、太陽電池パネル51の外壁パネル3から離れる方向への移動を規制する離間方向規制部313(本発明の「第2の規制部」に対応)と、を備える。 The first right side regulating member 31 is arranged at the right end portion of the solar cell modules 5A, 5B, and 5C. As shown in FIG. 11, the first right side regulating member 31 includes an attached part 311 (corresponding to the "second attached part" of the present invention) that is attached to the outer wall panel 3 via the holding mechanism 10, and a solar cell. A rightward regulating part 312 (corresponding to the "first regulating part" of the present invention) that faces the right side of the panel 51 and regulates the rightward movement of the solar panel 51, and an outer wall panel 3 of the solar panel 51. A separating direction regulating section 313 (corresponding to the "second regulating section" of the present invention) that regulates movement in a direction away from the .

被取付部311は、図11に示すように、右方向規制部312の内側の端部に外壁パネル3と平行となるように形成されている。被取付部311は、ビス314a及び連結部314を介して保持機構10に連結される。 As shown in FIG. 11, the attached portion 311 is formed at the inner end of the right direction regulating portion 312 so as to be parallel to the outer wall panel 3. The attached part 311 is connected to the holding mechanism 10 via a screw 314a and a connecting part 314.

右方向規制部312は、被取付部311から外側に向かって延びている。右方向規制部312は、太陽電池パネル51の右側面と当接する当接面312a(図略)を有し、当接面312aと太陽電池パネル51の右側面とが当接することにより太陽電池パネル51の右方向への移動が規制される。 The right direction regulating portion 312 extends outward from the attached portion 311 . The right direction regulating portion 312 has a contact surface 312a (not shown) that contacts the right side surface of the solar cell panel 51, and when the contact surface 312a and the right side surface of the solar cell panel 51 contact, the solar cell panel 51 is restricted from moving to the right.

離間方向規制部313は、右方向規制部312の外側の端部から太陽電池パネル51に沿って左方向に延びるように形成されている。離間方向規制部313は、太陽電池パネル51の右側周縁端部を外側から覆うように形成されている。離間方向規制部313は、太陽電池パネル51の外側面と当接する当接面313a(図略)を有し、当接面313aと太陽電池パネル51の外側面とが当接することにより太陽電池パネル51の外壁パネル3から離れる方向への移動が規制される。 Separation direction regulating section 313 is formed to extend leftward along solar cell panel 51 from the outer end of rightward regulating section 312 . The separation direction regulating portion 313 is formed to cover the right peripheral edge of the solar cell panel 51 from the outside. The separation direction regulating portion 313 has a contact surface 313a (not shown) that contacts the outer surface of the solar cell panel 51, and when the contact surface 313a and the outer surface of the solar cell panel 51 contact, the solar cell panel 51 is restricted from moving away from the outer wall panel 3.

第1左側規制部材32は、太陽電池モジュール5D,5E,5Fの左端部に配置される。第1左側規制部材32は、保持機構10を介して外壁パネル3に取り付けられる被取付部321(本発明の「第2の被取付部」に対応)と、太陽電池パネル51の左側面に対向し太陽電池パネル51の左方向への移動を規制する左方向規制部322(本発明の「第1の規制部」に対応)と、太陽電池パネル51の外壁パネル3から離れる方向への移動を規制する離間方向規制部323(本発明の「第2の規制部」に対応)と、を備える。被取付部321及び離間方向規制部323は、被取付部311及び離間方向規制部313と同様なのでここでは説明を省略する。 The first left side regulating member 32 is arranged at the left end of the solar cell modules 5D, 5E, and 5F. The first left side regulating member 32 faces an attached part 321 (corresponding to the "second attached part" of the present invention) attached to the outer wall panel 3 via the holding mechanism 10 and the left side surface of the solar cell panel 51. A leftward regulating portion 322 (corresponding to the “first regulating portion” of the present invention) that regulates the leftward movement of the solar cell panel 51 and a leftward regulating portion 322 that regulates the movement of the solar cell panel 51 in the direction away from the outer wall panel 3. A separation direction regulating section 323 (corresponding to the "second regulating section" of the present invention) is provided. The attached part 321 and the separation direction regulating part 323 are the same as the attached part 311 and the separating direction regulating part 313, so a description thereof will be omitted here.

左方向規制部322は、被取付部321の外側の端部から太陽電池モジュール5に沿って右方向に延びる部材であり、図11に示すように被取付部321の右端部から外側に延びて左方向に屈曲し、更に外側に屈曲して延びる形状を呈する。また、左方向規制部322の外壁パネル3から離れる方向の長さは、右方向規制部312の外壁パネル3から離れる方向の長さよりも長くなるように設定される。これは、次のような理由に基づくものである。 The left direction regulating portion 322 is a member extending rightward along the solar cell module 5 from the outer end of the attached portion 321, and extends outward from the right end of the attached portion 321 as shown in FIG. It has a shape that bends to the left and then bends and extends outward. Further, the length of the left direction regulating section 322 in the direction away from the outer wall panel 3 is set to be longer than the length of the right direction regulating section 312 in the direction away from the outer wall panel 3. This is based on the following reasons.

すなわち、外壁パネル3Aと外壁パネル3Bとの間の継ぎ目(目地)には、一般的にセメントやモルタル等の素材が用いられるところ、これらの素材は脆く、ビスを打ち込むことはできない。よって、被取付部311及び被取付部321を保持機構10に連結する必要がある。 That is, materials such as cement and mortar are generally used for the joint (joint) between the outer wall panel 3A and the outer wall panel 3B, but these materials are brittle and cannot be driven with screws. Therefore, it is necessary to connect the attached part 311 and the attached part 321 to the holding mechanism 10.

また、左方向規制部322及び右方向規制部312の間からビス314a,324a(後述)を操作するためには、ビス314a,324aが外壁パネル3から離れる方向に重なって干渉し合うのを抑制する必要がある。このため、ビス314a,324aが重なり合うのを抑制するために、被取付部311及び被取付部321の位置を上下方向で異ならせる必要がある。 In addition, in order to operate the screws 314a, 324a (described later) from between the left direction regulating part 322 and the right direction regulating part 312, it is necessary to prevent the screws 314a, 324a from overlapping and interfering with each other in the direction away from the outer wall panel 3. There is a need to. Therefore, in order to prevent the screws 314a and 324a from overlapping each other, it is necessary to make the positions of the attached part 311 and the attached part 321 different in the vertical direction.

また、左方向規制部322及び右方向規制部312の外壁パネル3からの距離を同じにすることも可能である。この場合、第1右側規制部材31及び第1左側規制部材32の接触を避けるため、外壁パネル3Aと外壁パネル3Bとの間の幅を広く取る必要がある。しかし、この場合、ビス314a,324aが水平方向に二列に並ぶこととなり、外壁構造2の見栄えが悪化するという問題がある。このため、左方向規制部322及び右方向規制部312の外壁パネル3からの距離を異ならせる必要がある。 Moreover, it is also possible to make the distances from the outer wall panel 3 of the left direction regulating part 322 and the right direction regulating part 312 the same. In this case, in order to avoid contact between the first right side regulating member 31 and the first left side regulating member 32, it is necessary to increase the width between the outer wall panel 3A and the outer wall panel 3B. However, in this case, there is a problem that the screws 314a and 324a are arranged in two rows in the horizontal direction, which deteriorates the appearance of the outer wall structure 2. Therefore, it is necessary to make the distances from the outer wall panel 3 of the left direction regulating part 322 and the right direction regulating part 312 different.

以上の理由により、左方向規制部322を上述のような構成としている。 For the above reasons, the leftward direction regulating section 322 is configured as described above.

第2右側規制部材33は、太陽電池モジュール5D,5E,5Fの右端部に配置される。第2右側規制部材33は、レール部216を介して外壁パネル3に取り付けられる被取付部330と、被取付部330の左端部から外側に延びて太陽電池モジュール5の右方向への移動を規制する右方向規制部331と、右方向規制部331の外側端部から左方向に延びて太陽電池モジュール5の外壁パネル3から離れる方向への移動を規制する離間方向規制部333と、を備える。 The second right side regulating member 33 is arranged at the right end of the solar cell modules 5D, 5E, and 5F. The second right side regulating member 33 extends outward from the attached portion 330 attached to the outer wall panel 3 via the rail portion 216 and the left end of the attached portion 330, and restricts movement of the solar cell module 5 in the right direction. and a separation direction regulating part 333 that extends leftward from the outer end of the right regulating part 331 and regulates movement of the solar cell module 5 in a direction away from the outer wall panel 3.

被取付部330は、図12のように上下方向に延びる角筒部材である。被取付部330は、ビス330aを介してレール部216に固定される。なお、被取付部330は、第2左側規制部材34の固定部としても用いられている。すなわち、被取付部330は、右方向規制部331及び離間方向規制部333とともに第2右側規制部材33を構成し、後述の左方向規制部341及び離間方向規制部343とともに第2左側規制部材34を構成する。 The attached portion 330 is a rectangular tube member that extends in the vertical direction as shown in FIG. The attached portion 330 is fixed to the rail portion 216 via a screw 330a. Note that the attached portion 330 is also used as a fixing portion of the second left side regulating member 34. That is, the attached part 330 constitutes the second right side regulating member 33 together with the right direction regulating section 331 and the separation direction regulating section 333, and constitutes the second left side regulating member 34 together with the left direction regulating section 341 and the separating direction regulating section 343, which will be described later. Configure.

右方向規制部331、離間方向規制部333、については、右方向規制部312、離間方向規制部313と同様なのでここでは説明を省略する。 The rightward regulating section 331 and the separating direction regulating section 333 are the same as the rightward regulating section 312 and the separating direction regulating section 313, so the description thereof will be omitted here.

第2左側規制部材34は、太陽電池モジュール5G,5H,5Iの左端部に配置される。第2左側規制部材34は、被取付部330と、被取付部330の右端部から外側に延びて太陽電池モジュール5の左方向への移動を規制する左方向規制部341と、左方向規制部341の外側端部から右方向に延びて太陽電池モジュール5の外壁パネル3から離れる方向への移動を規制する離間方向規制部343と、を備える。 The second left side regulating member 34 is arranged at the left end of the solar cell modules 5G, 5H, and 5I. The second left side regulating member 34 includes an attached portion 330, a left direction regulating portion 341 that extends outward from the right end of the attached portion 330 and restricts leftward movement of the solar cell module 5, and a left direction regulating portion. A separating direction regulating part 343 that extends rightward from the outer end of the solar cell module 341 and regulates movement of the solar cell module 5 in a direction away from the outer wall panel 3 is provided.

左方向規制部341、離間方向規制部343は、それぞれ左方向規制部322、離間方向規制部323と同様なのでここでは説明を省略する。 The left direction regulating section 341 and the separation direction regulating section 343 are the same as the left direction regulating section 322 and the separating direction regulating section 323, respectively, so the description thereof will be omitted here.

第3左側規制部材35は、太陽電池モジュール5A,5B,5Cの左端部に配置される。第3左側規制部材35は、保持機構10を介して外壁パネル3に取り付けられる被取付部351と、太陽電池モジュール5の左方向への移動を規制する左方向規制部352と、左方向規制部352の外側端部から右方向に延びて太陽電池モジュール5の外壁パネル3から離れる方向への移動を規制する離間方向規制部353と、を備える。 The third left side regulating member 35 is arranged at the left end of the solar cell modules 5A, 5B, and 5C. The third left side regulating member 35 includes an attached section 351 that is attached to the outer wall panel 3 via the holding mechanism 10, a left direction regulating section 352 that regulates leftward movement of the solar cell module 5, and a left direction regulating section. A separating direction regulating part 353 extending rightward from the outer end of the solar cell module 352 and regulating the movement of the solar cell module 5 in a direction away from the outer wall panel 3 is provided.

被取付部351は、ビス351aを介して横桟部136、配線保持部221,241に取り付けられる。 The attached portion 351 is attached to the horizontal beam portion 136 and the wiring holding portions 221 and 241 via screws 351a.

左方向規制部352、離間方向規制部353は、それぞれ左方向規制部322、離間方向規制部323と同様なのでここでは説明を省略する。 The left direction regulating section 352 and the separating direction regulating section 353 are the same as the left direction regulating section 322 and the separating direction regulating section 323, respectively, so the description thereof will be omitted here.

第3右側規制部材36は、太陽電池モジュール5G,5H,5Iの右端部に配置される。第3右側規制部材36は、第3左側規制部材35に対して面対称である。すなわち、第3右側規制部材36は、保持機構10を介して外壁パネル3に取り付けられる被取付部361と、太陽電池モジュール5の右方向への移動を規制する右方向規制部362と、右方向規制部362の外側端部から左方向に延びて太陽電池モジュール5の外壁パネル3から離れる方向への移動を規制する離間方向規制部363と、を備える。 The third right side regulating member 36 is arranged at the right end of the solar cell modules 5G, 5H, and 5I. The third right side regulating member 36 is symmetrical with respect to the third left side regulating member 35 . That is, the third right regulating member 36 includes an attached portion 361 that is attached to the outer wall panel 3 via the holding mechanism 10, a right regulating portion 362 that regulates the rightward movement of the solar cell module 5, and a rightward regulating member 362 that regulates the rightward movement of the solar cell module 5. A separation direction regulating section 363 is provided that extends leftward from the outer end of the regulating section 362 and regulates movement of the solar cell module 5 in a direction away from the outer wall panel 3 .

被取付部361は、ビス361aを介して横桟部136、配線保持部221,241に取り付けられる。 The attached portion 361 is attached to the horizontal beam portion 136 and the wiring holding portions 221 and 241 via screws 361a.

右方向規制部362、離間方向規制部363は、それぞれ左方向規制部352、離間方向規制部353と同様なのでここでは説明を省略する。 The rightward regulating section 362 and the separating direction regulating section 363 are similar to the leftward regulating section 352 and the separating direction regulating section 353, respectively, so the description thereof will be omitted here.

連結部314は、第1右側規制部材31を保持機構10に連結するための部材である。連結部314は、水平方向に延びるように設置される。連結部314としては、外壁パネル3から離れる方向の曲げ剛性を担保するために、その水平方向に延びる辺が内側に屈曲した形状となっているものを用いる。連結部314は、ビス314aを介して、被取付部311及び第1のベース部材13の本保持部135、ベース側支持部131の本保持部135、当接部211を連結する。 The connecting portion 314 is a member for connecting the first right side regulating member 31 to the holding mechanism 10. The connecting portion 314 is installed to extend in the horizontal direction. As the connecting portion 314, in order to ensure bending rigidity in the direction away from the outer wall panel 3, a portion having a horizontally extending side bent inward is used. The connecting portion 314 connects the attached portion 311 and the book holding portion 135 of the first base member 13, the book holding portion 135 of the base side support portion 131, and the contact portion 211 via the screw 314a.

連結部324は、第1左側規制部材32を保持機構10に連結するための部材である。連結部324は、ビス324aを介して、被取付部311及び横桟部136、配線保持部221、配線保持部241に連結される。連結部324としては、連結部314と同様のものを用いる。 The connecting portion 324 is a member for connecting the first left side regulating member 32 to the holding mechanism 10. The connecting portion 324 is connected to the attached portion 311, the horizontal beam portion 136, the wire holding portion 221, and the wire holding portion 241 via the screw 324a. As the connecting portion 324, the same one as the connecting portion 314 is used.

次に、太陽電池モジュール5の外壁パネル3への取付方法を説明する。 Next, a method for attaching the solar cell module 5 to the outer wall panel 3 will be explained.

まず、太陽電池モジュール5に下側支持部材11を取り付ける。なお図3~図5に示すように、太陽電池モジュール5の下端部は、接着剤により下側支持部111と接着されている。また、太陽電池モジュール5の上端部は、接着剤により上側支持部121と接着されている。 First, the lower support member 11 is attached to the solar cell module 5. Note that, as shown in FIGS. 3 to 5, the lower end portion of the solar cell module 5 is bonded to the lower support portion 111 with an adhesive. Further, the upper end portion of the solar cell module 5 is bonded to the upper support portion 121 with an adhesive.

一方、外壁パネル3に第1、第2のベース部材13,14、及び第1、第2の係合機構21,23、を取り付ける。具体的には、図1、図3、図8に示すように外壁パネル3の太陽電池モジュール5A,5D,5Gに対応する位置に第1の係合機構21を取り付ける。この時、ボルト215aを介して係合機構取付部215を外壁パネル3に取り付ける。同様に、図1、図5、図9に示すように、ボルト140aを介して第2の係合機構23及び第2のベース部材14を外壁パネル3に取り付ける。また、図1、図4、図10に示すように、ボルト130aを介して第1のベース部材13を外壁パネル3に取り付ける。 Meanwhile, the first and second base members 13 and 14 and the first and second engagement mechanisms 21 and 23 are attached to the outer wall panel 3. Specifically, as shown in FIGS. 1, 3, and 8, the first engagement mechanism 21 is attached to the outer wall panel 3 at a position corresponding to the solar cell modules 5A, 5D, and 5G. At this time, the engagement mechanism attachment portion 215 is attached to the outer wall panel 3 via the bolt 215a. Similarly, as shown in FIGS. 1, 5, and 9, the second engagement mechanism 23 and the second base member 14 are attached to the outer wall panel 3 via bolts 140a. Further, as shown in FIGS. 1, 4, and 10, the first base member 13 is attached to the outer wall panel 3 via bolts 130a.

次に、太陽電池パネル51を第1、第2のベース部材13,14の仮保持部134,144に係止した状態で配線部材53を第1、第2の配線保持機構220,240に保持する。 Next, the wiring member 53 is held in the first and second wiring holding mechanisms 220 and 240 while the solar panel 51 is locked in the temporary holding parts 134 and 144 of the first and second base members 13 and 14. do.

具体的には、図4(b)及び図13(b)に示すように下側支持部材11の支持部側被取付部112を第1のベース部材13の溝部134aに嵌合させる。このようにすれば、斜辺135bが支持部側被取付部112に当接することにより、太陽電池モジュール5を所定値まで回動させた状態で配線部材53の保持作業を行うことができる。 Specifically, as shown in FIGS. 4(b) and 13(b), the support-side attached portion 112 of the lower support member 11 is fitted into the groove portion 134a of the first base member 13. In this way, the oblique side 135b comes into contact with the support-side attached portion 112, so that the wiring member 53 can be held while the solar cell module 5 is rotated to a predetermined value.

次に、図7に示すように、アース線56の接続端子56aをアース線取付部227に係止する。また、配線部材53を係止爪部223に係止し、更に結束バンド222bを用いて配線部材53を結束部222の外側で結束する。配線部材53の保持作業が完了したら外壁パネル3の配線引込口3aから配線部材53を引き込んでパワーコンディショナー(図略)に接続する。 Next, as shown in FIG. 7, the connection terminal 56a of the ground wire 56 is locked to the ground wire attachment portion 227. Further, the wiring member 53 is locked to the locking claw portion 223, and further, the wiring member 53 is tied on the outside of the binding portion 222 using the binding band 222b. When the work of holding the wiring member 53 is completed, the wiring member 53 is pulled in through the wiring lead-in port 3a of the outer wall panel 3 and connected to a power conditioner (not shown).

第2の配線保持機構240についても同様の手順で配線部材53の保持作業を行う。 The second wiring holding mechanism 240 also holds the wiring member 53 in the same manner.

次に、太陽電池パネル51を外壁パネル3に取り付ける。すなわち、太陽電池パネル51を第1、第2のベース部材13,14の本保持部135,145に係止し、さらに太陽電池パネル51の上端部を第1、第2の係合機構21,23に取り付ける。 Next, the solar cell panel 51 is attached to the outer wall panel 3. That is, the solar cell panel 51 is locked to the main holding parts 135, 145 of the first and second base members 13, 14, and the upper end of the solar cell panel 51 is locked to the first and second engagement mechanisms 21, Attach it to 23.

具体的には、図13(a)のように下側支持部材11の支持部側被取付部112を第1、第2のベース部材13,14の溝部135a、145aに嵌合させる。 Specifically, as shown in FIG. 13(a), the support-side attached portion 112 of the lower support member 11 is fitted into the grooves 135a, 145a of the first and second base members 13, 14.

更に、上側支持部材12の支持部側被取付部122を当接部211に当接させた状態で第1、第2の押さえ金具212,233を支持部側被取付部122と重なる位置まで回動させ[図6(a)(b)のα参照]、支持部側被取付部122を挟みこむ。このようにすることで、係合状態において上側支持部材12が太陽電池モジュール5の内側に収納され、外壁構造2の意匠性を向上させることができる。 Furthermore, with the support part side attached part 122 of the upper support member 12 in contact with the contact part 211, the first and second presser metal fittings 212, 233 are turned to the position where they overlap with the support part side attached part 122. [see α in FIGS. 6(a) and 6(b)], and sandwich the support-side attached portion 122. By doing so, the upper support member 12 is housed inside the solar cell module 5 in the engaged state, and the design of the outer wall structure 2 can be improved.

このようにして、太陽電池モジュール5A~5Iを外壁パネル3に取り付ける。 In this way, the solar cell modules 5A to 5I are attached to the outer wall panel 3.

次に、側部規制部材30を外壁パネル3に取り付ける。この時、まずは最も左側の第3左側規制部材35及び最も右側の第3右側規制部材36を取り付ける。次に、第1右側規制部材31、第1左側規制部材32、第2右側規制部材33及び第2左側規制部材34を取り付ける。このように取り付けることで、太陽電池パネル51が左右方向に移動するのを第3左側規制部材35及び第3右側規制部材36により抑制した状態で、他の側部規制部材30を取り付けることができる。 Next, the side regulating member 30 is attached to the outer wall panel 3. At this time, first, the leftmost third left regulating member 35 and the rightmost third right regulating member 36 are attached. Next, the first right side regulating member 31, the first left side regulating member 32, the second right side regulating member 33, and the second left side regulating member 34 are attached. By attaching it in this way, the other side regulating member 30 can be attached while the third left regulating member 35 and the third right regulating member 36 suppress movement of the solar cell panel 51 in the left-right direction. .

第3左側規制部材35を取り付ける際、図8~11に示すように、ビス351aを介して第3右側規制部材36の被取付部351を横桟部136、配線保持部221,配線保持部241に固定する。 When attaching the third left regulating member 35, as shown in FIGS. 8 to 11, the attached portion 351 of the third right regulating member 36 is connected to the horizontal bar 136, the wire holding portion 221, the wire holding portion 241 via the screw 351a. Fixed to.

第3左側規制部材36についても同様に、被取付部361を横桟部136、配線保持部221,配線保持部241に固定する。 Regarding the third left side regulating member 36, the attached portion 361 is similarly fixed to the horizontal beam portion 136, the wire holding portion 221, and the wire holding portion 241.

次に、外壁パネル3に第1右側規制部材31を取り付ける。具体的には、図3,5,8~11に示すように、ビス314aを介して連結部314の左端部を本保持部135,145、当接部211の対向面211aのそれぞれの内側に固定する。更に、第1右側規制部材31の被取付部311を、ビス314aを介して連結部314の右端部に固定する。 Next, the first right side regulating member 31 is attached to the outer wall panel 3. Specifically, as shown in FIGS. 3, 5, and 8 to 11, the left end of the connecting portion 314 is attached to the inside of the book holding portions 135, 145 and the opposing surface 211a of the contact portion 211, respectively, via the screw 314a. Fix it. Further, the attached portion 311 of the first right side regulating member 31 is fixed to the right end portion of the connecting portion 314 via the screw 314a.

第1左側規制部材32についても同様に、連結部324の右端部を横桟部136の対向面136a、配線保持部221,配線保持部241の対向面221a,241aのそれぞれの内側に固定し、第1左側規制部材32の被取付部321を連結部324の左端部に固定する。 Similarly, for the first left side regulating member 32, the right end part of the connecting part 324 is fixed to the inside of each of the opposing surface 136a of the horizontal bar part 136, the opposing surfaces 221a and 241a of the wire holding part 221, and the wiring holding part 241, The attached portion 321 of the first left side regulating member 32 is fixed to the left end portion of the connecting portion 324.

なお、ビス351a,341aを挿通するためのビス挿通孔については、各対応する部位にあらかじめ設けられていても良いし、取り付け時に設けても良い。 Note that the screw insertion holes for inserting the screws 351a and 341a may be provided in advance at each corresponding portion, or may be provided at the time of attachment.

被取付部311及び被取付部321を保持機構10に連結しているので、外壁パネル3Aと外壁パネル3Bとの間の継ぎ目(目地)に直接ビスを打ち込むことなく、第1右側規制部材31及び第1左側規制部材32を外壁パネル3に取り付けることができる。 Since the attached part 311 and the attached part 321 are connected to the holding mechanism 10, the first right-side regulating member 31 and The first left side regulating member 32 can be attached to the outer wall panel 3.

また、被取付部311及び被取付部321の位置が上下方向で異なっているので、ビス314aとビス324aとが外壁パネル3から離れる方向に重なるのを抑制できる。よって、ビス314aとビス324aとが干渉し合うのを抑制し、外壁パネル3Aと外壁パネル3Bとの間からビス314a,324aの操作を行うことができる。 Further, since the positions of the attached portion 311 and the attached portion 321 are different in the vertical direction, it is possible to suppress the screws 314a and the screws 324a from overlapping in the direction away from the outer wall panel 3. Therefore, the screws 314a and 324a can be prevented from interfering with each other, and the screws 314a and 324a can be operated from between the outer wall panel 3A and the outer wall panel 3B.

また、被取付部311及び被取付部321の外壁パネル3からの距離が異なっており、左方向規制部322が被取付部321の右端部から外側に延びて左方向に屈曲し、更に外側に屈曲して延びる形状を呈する。このため、第1右側規制部材31及び第1左側規制部材32が接触するのを抑制しつつ、ビス314a,324aを上下方向に一列に配置できる。すなわち、外壁パネル3Aと外壁パネル3Bとの間の幅を一個のビス314a,324aの直径と同程度にすることができ、外壁構造2の見栄えの悪化を抑制できる。 Further, the distances from the outer wall panel 3 of the attached part 311 and the attached part 321 are different, and the left direction regulating part 322 extends outward from the right end of the attached part 321, bends to the left, and further extends outward. It has a curved and elongated shape. For this reason, the screws 314a and 324a can be arranged in a line in the vertical direction while suppressing contact between the first right side regulating member 31 and the first left side regulating member 32. That is, the width between the outer wall panel 3A and the outer wall panel 3B can be made approximately the same as the diameter of each screw 314a, 324a, and deterioration of the appearance of the outer wall structure 2 can be suppressed.

最後に、第2右側規制部材33及び第2左側規制部材34を取り付ける。具体的には、太陽電池モジュール5D,5E,5Fと太陽電池モジュール5G,5H,5Iとの間のレール部216にビス330aが挿通可能なビス挿通孔を開け、図11及び図12に示すようにビス330aを介して第2右側規制部材33及び第2左側規制部材34の被取付部330をレール部216に固定する。 Finally, the second right side regulating member 33 and the second left side regulating member 34 are attached. Specifically, screw insertion holes into which the screws 330a can be inserted are made in the rail portions 216 between the solar cell modules 5D, 5E, 5F and the solar cell modules 5G, 5H, 5I, as shown in FIGS. 11 and 12. Then, the attached portions 330 of the second right side regulating member 33 and the second left side regulating member 34 are fixed to the rail portion 216 via screws 330a.

以上の手順により太陽電池モジュール5を外壁パネル3に取り付けることができる。なお、上記手順は必ずしもこの順番に行う必要はなく、適宜その順番を変更してもよい。 The solar cell module 5 can be attached to the outer wall panel 3 by the above procedure. Note that the above steps do not necessarily have to be performed in this order, and the order may be changed as appropriate.

(作用効果)
以上説明したように、本実施形態に係る太陽電池モジュール5の保持構造1は、外壁パネル3と、外壁パネル3に沿って配置されるパネル状の太陽電池モジュール5と、外壁パネル3に取り付けられ太陽電池モジュール5を保持する保持機構10と、を備えるので、外壁パネル3に取り付けられた保持機構10に太陽電池モジュール5を取り付けることができる。このため、太陽電池モジュール5を安定して外壁パネル3に配置することができる。 (effect)
As explained above, the solar cell module 5 holding structure 1 according to the present embodiment includes the outer wall panel 3, the panel-shaped solar cell module 5 disposed along the outer wall panel 3, and the solar cell module 5 attached to the outer wall panel 3. Since the solar cell module 5 includes a holding mechanism 10 that holds the solar cell module 5, the solar cell module 5 can be attached to the holding mechanism 10 attached to the outer wall panel 3. Therefore, the solar cell module 5 can be stably arranged on the outer wall panel 3.

また、保持機構10は、下側支持部材11を備え、太陽電池モジュール5の下面を支持する下側支持部111と、第1、第2のベース部材13,14を介して外壁パネル3に取り付けられる支持部側被取付部112とにより構成されるので、外壁パネル3に沿って配置されるパネル状の太陽電池モジュール5の下面を下側支持部111が支持することにより、太陽電池モジュール5の下方向への移動を規制することができる。このため、太陽電池モジュール5が外壁パネル3から落下するのを抑制することができる。 The holding mechanism 10 also includes a lower support member 11 and is attached to the outer wall panel 3 via a lower support part 111 that supports the lower surface of the solar cell module 5 and first and second base members 13 and 14. Since the lower support part 111 supports the lower surface of the panel-shaped solar cell module 5 disposed along the outer wall panel 3, the solar cell module 5 is Movement in the downward direction can be restricted. For this reason, falling of the solar cell module 5 from the outer wall panel 3 can be suppressed.

また、下側支持部材11は、太陽電池モジュール5の外壁パネル3に対向する面と反対側の面よりも外壁パネル3側に位置するので、太陽電池モジュール5の外側面への下側支持部材11の露出を抑制することができる。このため、組付け状態において下側支持部材11が隣り合う太陽電池モジュール5どうしの間から露出することによる外壁構造2の重量感を低減させ、意匠性を向上させることができる。 In addition, since the lower support member 11 is located closer to the outer wall panel 3 than the surface opposite to the surface of the solar cell module 5 that faces the outer wall panel 3, the lower support member 11 is provided to the outer surface of the solar cell module 5. 11 can be suppressed from being exposed. Therefore, the weight of the outer wall structure 2 caused by the lower support member 11 being exposed between adjacent solar cell modules 5 in the assembled state can be reduced, and the design can be improved.

また、保持機構10は、一対の側部規制部材30を備えるので、太陽電池モジュール5の水平方向への移動を右方向規制部312,331,362及び左方向規制部322,341,352により規制しつつ、外壁パネル3から離れる方向への移動を離間方向規制部313,323,333,343,353,363により規制することができる。このため、地震等により太陽電池モジュール5が外壁パネル3から落下するのを効果的に抑制することができる。 Furthermore, since the holding mechanism 10 includes a pair of side regulating members 30, the movement of the solar cell module 5 in the horizontal direction is regulated by the rightward regulating portions 312, 331, 362 and the leftward regulating portions 322, 341, 352. At the same time, movement in the direction away from the outer wall panel 3 can be restricted by the separation direction restriction parts 313, 323, 333, 343, 353, and 363. Therefore, it is possible to effectively prevent the solar cell module 5 from falling from the outer wall panel 3 due to an earthquake or the like.

しかも、側部規制部材30は、外壁パネル3に着脱可能に取り付けられるので、太陽電池モジュール5のメンテナンス時に太陽電池パネル51を外壁パネル3から取り外すことができる。このため、太陽電池パネル51の外壁パネル3から離れる方向への移動を規制することができるとともに、側部規制部材30を外壁パネル3から取り外すことができ、メンテナンス性を向上させることができる。 Moreover, since the side regulating member 30 is detachably attached to the outer wall panel 3, the solar cell panel 51 can be removed from the outer wall panel 3 during maintenance of the solar cell module 5. Therefore, movement of the solar cell panel 51 in the direction away from the outer wall panel 3 can be restricted, and the side regulating member 30 can be removed from the outer wall panel 3, making it possible to improve maintainability.

太陽電池モジュール50は、外壁パネル3に取り付けられる平板形状の太陽電池パネル51と、太陽電池パネル51の外壁パネル3に対向する面に設けられ配線接続部52及びパワーコンディショナー(図略)とを接続する配線部材53と、を備える。このため、太陽電池パネル51を外壁パネル3に沿って配置することができ、更に太陽電池パネル51により発電した電気を、配線部材53によりパワーコンディショナー等に供給することができる。また、配線部材53が太陽電池パネル51の外壁パネル3に対向する面に設けられているので、配線部材53を太陽電池パネル51の内側に収納し、外壁パネル3の意匠性を向上させることができる。 The solar cell module 50 connects a flat solar cell panel 51 attached to the outer wall panel 3, a wiring connection portion 52 provided on the surface of the solar cell panel 51 facing the outer wall panel 3, and a power conditioner (not shown). A wiring member 53 is provided. Therefore, the solar panel 51 can be arranged along the outer wall panel 3, and the electricity generated by the solar panel 51 can be supplied to a power conditioner or the like through the wiring member 53. Further, since the wiring member 53 is provided on the surface of the solar panel 51 facing the outer wall panel 3, the wiring member 53 can be stored inside the solar panel 51 and the design of the outer wall panel 3 can be improved. can.

また、保持機構10は、下側支持部材11を回動可能に支持する第1、第2のベース部材13,14を備え、第1、第2のベース部材13,14は、外壁パネル3に取り付けられるベース側被取付部130,140と、太陽電池パネル51の上端が外壁パネル3に対して接近又は離隔するように支持部側被取付部112を回動可能に支持するベース側支持部131,141と、を備えている。このため、メンテナンス作業時においては側部規制部材30を外した状態で、太陽電池パネル51を支持部側被取付部112を介して第1、第2のベース部材13,14のベース側支持部131,141に支持させたまま太陽電池パネル51の上端を外壁パネル3に対して離隔することができる。このため、太陽電池パネル51の上端部と外壁パネル3との間を通じて配線部材53等を目視しながら作業を行うことができ、メンテナンス作業効率を更に向上させることができる。 The holding mechanism 10 also includes first and second base members 13 and 14 that rotatably support the lower support member 11, and the first and second base members 13 and 14 are attached to the outer wall panel 3. The base-side attached parts 130 and 140 to be attached and the base-side support part 131 rotatably supports the support part-side attached part 112 so that the upper end of the solar panel 51 approaches or separates from the outer wall panel 3. , 141. Therefore, during maintenance work, with the side regulating member 30 removed, the solar cell panel 51 is attached to the base side support portions of the first and second base members 13 and 14 via the support side attachment portion 112. The upper end of the solar panel 51 can be separated from the outer wall panel 3 while being supported by the panels 131 and 141. Therefore, the maintenance work can be performed while visually observing the wiring member 53 and the like through the space between the upper end of the solar cell panel 51 and the outer wall panel 3, and the efficiency of maintenance work can be further improved.

また、保持機構10は、第1、第2の係合機構21,23を備えるので、第1、第2の係合機構21,23を介して太陽電池パネル51の上端部を外壁パネル3に固定することができる。このため、太陽電池パネル51を、その回動を許容しながら外壁パネル3に取り付けることができる。 Furthermore, since the holding mechanism 10 includes the first and second engagement mechanisms 21 and 23, the upper end of the solar panel 51 is attached to the outer wall panel 3 via the first and second engagement mechanisms 21 and 23. Can be fixed. Therefore, the solar cell panel 51 can be attached to the outer wall panel 3 while allowing its rotation.

また、係合を解除することにより容易に太陽電池パネル51の上端部を外壁パネル3に対して回動することができ、メンテナンス時の作業効率を向上させることができる。 Further, by releasing the engagement, the upper end portion of the solar cell panel 51 can be easily rotated with respect to the outer wall panel 3, and work efficiency during maintenance can be improved.

また、第1、第2の係合機構21,23は、配線部材53の中間部分を保持する第1、第2の配線保持機構220,240を有するので、配線部材53を係合位置(結束部222,242、係止爪部223,243)で保持させることができる。このため、回動時に配線部材53を拘束して垂れ下がるのを抑制することができ、配線、結線作業といったメンテナンス作業の効率を更に向上させることができる。 Furthermore, since the first and second engagement mechanisms 21 and 23 have first and second wire holding mechanisms 220 and 240 that hold the intermediate portion of the wiring member 53, the wiring member 53 is held in the engagement position (untied position). 222, 242 and locking claws 223, 243). Therefore, the wiring member 53 can be restrained and prevented from sagging during rotation, and the efficiency of maintenance work such as wiring and connection work can be further improved.

また、保持機構10が各外壁パネル3A,3Bをまたがずに取り付けられているので、地震などで外壁構造2が変形した際に、太陽電池モジュール5が外壁パネル3の挙動に影響されて外壁パネル3から落下するのを抑制することができる。 In addition, since the holding mechanism 10 is installed without straddling the outer wall panels 3A and 3B, when the outer wall structure 2 is deformed due to an earthquake or the like, the solar cell module 5 is affected by the behavior of the outer wall panels 3 and is attached to the outer wall. Falling from the panel 3 can be suppressed.

(変形例)
上記実施形態は本発明の好ましい具体例を例示したものに過ぎず、本発明は上記実施形態に限定されない。 (Modified example)
The above embodiments are merely illustrative of preferred specific examples of the present invention, and the present invention is not limited to the above embodiments.

上記実施形態では、外壁パネル3Aに3行1列の計3個、外壁パネル3Bに3行2列の計6個の太陽電池モジュール5を配置したが、太陽電池モジュール5の個数はこれに限られない。例えば、外壁パネル3の大きさを適宜変更して任意の個数の太陽電池モジュール5を配置しても良い。また、外壁パネル3として外壁パネル3A及び外壁パネル3Bを用いたが、外壁パネル3の配置方法はこれに限られず、水平方向や上下方向に複数の外壁パネル3を配置してもよい。 In the above embodiment, a total of 3 solar cell modules 5 arranged in 3 rows and 1 column are arranged on the outer wall panel 3A, and a total of 6 solar cell modules 5 arranged in 3 rows and 2 columns on the outer wall panel 3B, but the number of solar cell modules 5 is limited to this. I can't do it. For example, an arbitrary number of solar cell modules 5 may be arranged by changing the size of the outer wall panel 3 as appropriate. Further, although the outer wall panels 3A and 3B are used as the outer wall panels 3, the method of arranging the outer wall panels 3 is not limited to this, and a plurality of outer wall panels 3 may be arranged horizontally or vertically.

上記実施形態では、下側支持部材11の支持部側被取付部112を溝部145aに嵌め込み、上側支持部材12の支持部側被取付部122を第1、第2の押さえ金具212,233で押さえ込むことにより太陽電池モジュール5を外壁パネル3に取り付けたが、太陽電池モジュール5を外壁パネル3に取り付ける方法はこれに限られず、例えば支持部側被取付部112,122を外壁パネル3に直接固定してもよい。 In the above embodiment, the support side attached portion 112 of the lower support member 11 is fitted into the groove 145a, and the support side attached portion 122 of the upper support member 12 is held down by the first and second presser fittings 212 and 233. Although the solar cell module 5 is attached to the outer wall panel 3 by this method, the method for attaching the solar cell module 5 to the outer wall panel 3 is not limited to this. It's okay.

上記実施形態では、第1右側規制部材31を本保持部135、本保持部145、当接部211に連結し、第1左側規制部材32を横桟部136、配線保持部221,配線保持部241に連結したが、第1右側規制部材31に連結される部材と第1左側規制部材32に連結される部材は逆でもよい。すなわち、第1左側規制部材32を本保持部135、本保持部145、当接部211に連結し、第1右側規制部材31を横桟部136、配線保持部221,配線保持部241に連結してもよい。この場合、第1右側規制部材31の右方向規制部312の代わりに左方向規制部322と同様な形状の右方向規制部を用い、左方向規制部322の代わりに右方向規制部312と同様に長尺板状の左方向規制部を用いる。 In the above embodiment, the first right side regulating member 31 is connected to the book holding part 135, the book holding part 145, and the contact part 211, and the first left side regulating member 32 is connected to the horizontal bar part 136, the wiring holding part 221, and the wiring holding part. 241, the members connected to the first right side regulating member 31 and the members connected to the first left side regulating member 32 may be reversed. That is, the first left side regulating member 32 is connected to the main holding part 135, the main holding part 145, and the contact part 211, and the first right side regulating member 31 is connected to the horizontal beam part 136, the wiring holding part 221, and the wiring holding part 241. You may. In this case, a rightward regulating section having the same shape as the leftward regulating section 322 is used instead of the rightward regulating section 312 of the first right regulating member 31, and a rightward regulating section similar to the rightward regulating section 312 is used instead of the leftward regulating section 322. A long plate-shaped left direction regulating part is used for this purpose.

上記実施形態では、第2右側規制部材33及び第2左側規制部材34をレール部216に固定したが、第2右側規制部材33及び第2左側規制部材34を固定する場所はレール部216に限られない。例えば、レール部216を設けずに、外壁パネル3に直接固定してもよい。 In the above embodiment, the second right side regulating member 33 and the second left side regulating member 34 are fixed to the rail section 216, but the second right side regulating member 33 and the second left side regulating member 34 are fixed only to the rail section 216. I can't do it. For example, it may be directly fixed to the outer wall panel 3 without providing the rail portion 216.

上記実施形態では、第3左側規制部材35を横桟部136、配線保持部221,配線保持部241に連結したが、第3左側規制部材35を連結することができる位置はこれに限られず、例えば本保持部135、本保持部145、当接部211に連結してもよい。また、外壁パネル3に直接固定してもよい。このことは、第3右側規制部材36についても同様である。 In the embodiment described above, the third left side regulating member 35 is connected to the horizontal beam section 136, the wire holding section 221, and the wire holding section 241, but the position where the third left side regulating member 35 can be connected is not limited to this, For example, it may be connected to the book holding part 135, the book holding part 145, and the contact part 211. Alternatively, it may be directly fixed to the outer wall panel 3. This also applies to the third right side regulating member 36.

その他、本発明の特許請求の範囲内で種々の設計変更が可能であることは言うまでもない。 It goes without saying that various other design changes are possible within the scope of the claims of the present invention.

1 保持構造
2 外壁
5 建材
10 保持機構
11 下側支持部材(支持部材)
13 第1のベース部材(ベース部材)
14 第2のベース部材(ベース部材)
21 第1の係合機構(係合機構)
23 第2の係合機構(係合機構)
30 側部規制部材
50 太陽電池モジュール
51 太陽電池パネル
53 配線部材
111 下側支持部(第1の支持部)
112 支持部側被取付部(第1の被取付部)
311、321、330、340、351、361 被取付部(第2の被取付部)
312、331、362 右方向規制部(第1の規制部)
322、341、352 左方向規制部(第1の規制部)
313、323、333、343、353、363 離間方向規制部(第2の規制部)
130、140 ベース取付部(第3の被取付部)
131、141 ベース側支持部(第2の支持部)
220 第1の配線保持機構(配線保持機構)
240 第2の配線保持機構(配線保持機構) 1 Holding structure 2 Outer wall 5 Building material 10 Holding mechanism 11 Lower support member (support member)
13 First base member (base member)
14 Second base member (base member)
21 First engagement mechanism (engagement mechanism)
23 Second engagement mechanism (engagement mechanism)
30 Side regulating member 50 Solar cell module 51 Solar cell panel 53 Wiring member 111 Lower support part (first support part)
112 Support part side attached part (first attached part)
311, 321, 330, 340, 351, 361 Mounted part (second mounted part)
312, 331, 362 Right direction regulating section (first regulating section)
322, 341, 352 Left direction regulating section (first regulating section)
313, 323, 333, 343, 353, 363 Separation direction regulating section (second regulating section)
130, 140 Base mounting part (third mounted part)
131, 141 Base side support part (second support part)
220 First wire holding mechanism (wire holding mechanism)
240 Second wire holding mechanism (wire holding mechanism)

Claims (4)

外壁と、
前記外壁に沿って配置されるパネル状の建材と、
前記外壁に取り付けられ前記建材を保持する保持機構と、を備え、
前記保持機構は、
前記外壁に取り付けられる第1の被取付部と、前記建材の下面を支持する第1の支持部と、を有する支持部材と、
前記外壁に取り付けられる第2の被取付部と、前記建材の側面に対向し、前記建材の水平方向への移動を規制する第1の規制部と、前記第1の規制部の前記外壁から遠い側の端部から前記建材に沿って水平方向に延び、前記建材の前記外壁から離れる方向への移動を規制する第2の規制部と、をそれぞれ有し、前記建材の水平方向の両側にそれぞれ設けられる一対の側部規制部材と、を備え、
前記支持部材は、前記建材の前記外壁に対向する面と反対側の面よりも前記外壁側に位置し、
前記側部規制部材は、前記外壁に着脱可能に取り付けられ
前記建材は、太陽電池パネルと、前記太陽電池パネルの前記外壁に対向する面に設けられた配線部材と、を有する太陽電池モジュールを有し、
前記保持機構は、前記外壁に取り付けられる第3の被取付部と、前記太陽電池パネルの上端が前記外壁に対して接近又は離隔するように前記第1の被取付部を回動可能に支持する第2の支持部と、を有するベース部材を更に備えている、建材の保持構造。 outer wall and
a panel-shaped building material arranged along the outer wall;
a holding mechanism attached to the outer wall and holding the building material;
The holding mechanism is
a support member having a first attached part attached to the outer wall and a first support part supporting the lower surface of the building material;
a second attached part that is attached to the outer wall; a first regulating part that faces a side surface of the building material and regulates movement of the building material in the horizontal direction; and the first regulating part is far from the outer wall. a second regulating part extending horizontally from a side end along the building material and regulating the movement of the building material in a direction away from the outer wall, and on both sides of the building material in the horizontal direction. a pair of side regulating members provided;
The support member is located closer to the outer wall than a surface opposite to the surface of the building material facing the outer wall,
The side regulating member is removably attached to the outer wall ,
The building material includes a solar cell module having a solar cell panel and a wiring member provided on a surface of the solar cell panel facing the outer wall,
The holding mechanism rotatably supports a third attached part attached to the outer wall and the first attached part so that the upper end of the solar panel approaches or separates from the outer wall. A holding structure for building materials , further comprising a base member having a second support part . 前記保持機構は、前記ベース部材の上方において前記外壁に取り付けられ、前記太陽電池パネルの上端部に係脱可能な係合機構を更に有する、請求項1に記載の建材の保持構造。The building material holding structure according to claim 1, wherein the holding mechanism further includes an engagement mechanism that is attached to the outer wall above the base member and that is detachable from the upper end of the solar panel. 前記係合機構は、前記配線部材の中間部分を保持する配線保持機構を有する請求項2に記載の建材の保持構造。3. The building material holding structure according to claim 2, wherein the engagement mechanism includes a wiring holding mechanism that holds an intermediate portion of the wiring member. 前記外壁は、複数設けられ、A plurality of the outer walls are provided,
前記保持機構は、一の前記外壁に取り付けられている、請求項1~3の何れか1項に記載の建材の保持構造。The structure for holding building materials according to claim 1, wherein the holding mechanism is attached to one of the outer walls.
JP2020012949A 2020-01-29 2020-01-29 Building material retention structure Active JP7352180B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2020012949A JP7352180B2 (en) 2020-01-29 2020-01-29 Building material retention structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2020012949A JP7352180B2 (en) 2020-01-29 2020-01-29 Building material retention structure

Publications (2)

Publication Number Publication Date
JP2021116666A JP2021116666A (en) 2021-08-10
JP7352180B2 true JP7352180B2 (en) 2023-09-28

Family

ID=77174327

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2020012949A Active JP7352180B2 (en) 2020-01-29 2020-01-29 Building material retention structure

Country Status (1)

Country Link
JP (1) JP7352180B2 (en)

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2011086729A1 (en) 2010-01-15 2011-07-21 菊川工業株式会社 Exterior article installation structure
US20170133974A1 (en) 2015-08-18 2017-05-11 Saphire Solar Technologies Aps All-in-one integrated multifunctional triple power module
JP2019116743A (en) 2017-12-27 2019-07-18 積水ハウス株式会社 building
JP2019165535A (en) 2018-03-19 2019-09-26 ソーラーフロンティア株式会社 Attachment structure of solar cell module
JP2019183458A (en) 2018-04-05 2019-10-24 株式会社カナメ Wall surface mounting structure for panel body

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2011086729A1 (en) 2010-01-15 2011-07-21 菊川工業株式会社 Exterior article installation structure
US20170133974A1 (en) 2015-08-18 2017-05-11 Saphire Solar Technologies Aps All-in-one integrated multifunctional triple power module
JP2019116743A (en) 2017-12-27 2019-07-18 積水ハウス株式会社 building
JP2019165535A (en) 2018-03-19 2019-09-26 ソーラーフロンティア株式会社 Attachment structure of solar cell module
JP2019183458A (en) 2018-04-05 2019-10-24 株式会社カナメ Wall surface mounting structure for panel body

Also Published As

Publication number Publication date
JP2021116666A (en) 2021-08-10

Similar Documents

Publication Publication Date Title
US9548696B2 (en) East-west photovoltaic array with spaced apart photovoltaic modules for improved aerodynamic efficiency
KR101273595B1 (en) Supporting device for display unit
JP2016026275A (en) Method and device for forming and installing photovoltaic array
JP7352180B2 (en) Building material retention structure
KR101573239B1 (en) Photovoltaic Modules Support Structure
JP6129516B2 (en) Wiring retractor
KR102038039B1 (en) Roof Structure of Building
JP5976339B2 (en) Mounting device and mounting method for rooftop equipment installation stand
KR102585733B1 (en) Fixing unit of solar panel and roof system comprising the same and the method thereof
JP6785758B2 (en) Solar cell module mounting device
JP5945407B2 (en) Solar cell panel laying structure and solar cell panel intermediate holding member
JP2014080737A (en) Traverse roofing roof
JP2019090165A (en) Mounting structure for roof-top installation
KR200495901Y1 (en) Solar cell module fixing bracket
KR101200012B1 (en) Joint for a window frame
JP5882704B2 (en) Solar cell panel laying structure and solar cell panel fixing member
KR20180067881A (en) structure of geodesic dome-shaped house
KR20120099309A (en) Upholder assembley for access floor
KR102435714B1 (en) Roof system including roof panel support assembly and building construction method using same
KR100674128B1 (en) Prefabricated tent
JP2019052514A (en) Roof panel mounting bracket and building
JP6755004B2 (en) Solar power generation equipment and roof with solar power generation equipment
JP5585845B2 (en) Mounting structure of support member and exterior structure including solar cell panel
JP7518662B2 (en) Roof structure
JP6029317B2 (en) Solar cell module

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20220817

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20230417

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20230606

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20230731

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20230816

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20230829

R150 Certificate of patent or registration of utility model

Ref document number: 7352180

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150