A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
ROOF STRUCTURE INSTALLED WITH SOLAR CELL MODULE
To provide a roof structure installed with solar cell modules where, regarding a roof in which roof face materials 1 integrated with solar cell modules 2 are arranged in spaces between plural crosspieces S extending at intervals almost parallel along a roof face R, wiring parts 6 connected to solar battery cells in the solar battery modules on the roof face materials are arranged at regions beside the solar battery modules, wiring covers 5 covering the wiring parts are superposed on the roof face materials, and in both the edges along the crosspieces of the roof face materials and the wiring covers, crosspiece cover caps 4 are fixed to the upper faces of the crosspieces by snap fitting in a state where the edges of the roof face materials and the edges of the wiring covers are sandwiched therebetween, the falling of the crosspiece cover caps upon the application of a negative pressure caused by wind is prevented.SOLUTION: Wiring covers are formed in such a manner that, regarding bending in a vertical direction in the extending direction of crosspieces, the bending rigidity of the wiring covers is made lower than the bending rigidity of roof face materials disposed with solar battery modules.SELECTED DRAWING: Figure 2
【課題】 屋根面Rに沿って略平行に間隔をあけて延在する複数の桟Sの間に於いて太陽電池モジュール2が一体化された屋根面材1が配置され、屋根面材上の太陽電池モジュールの脇の領域に太陽電池モジュールに於ける太陽電池セルに接続された配線部品6が配置され、配線部品を覆う配線カバー5が屋根面材に重畳され、屋根面材と配線カバーとの桟に沿った両縁に於いて、桟カバーキャップ4が、桟の上面に対して、それらの間に屋根面材の縁と配線カバーの縁を挟んだ状態でスナップ嵌合により固定された屋根に於いて、風による負圧が作用したときの桟カバーキャップの脱落を防止する。【解決手段】 桟の延在方向に於いて垂直な方向の曲げに於いて、配線カバーの曲げ剛性が太陽電池モジュールの配置された屋根面材の曲げ剛性よりも小さくなるように、配線カバーを形成する。【選択図】 図2
ROOF STRUCTURE INSTALLED WITH SOLAR CELL MODULE
To provide a roof structure installed with solar cell modules where, regarding a roof in which roof face materials 1 integrated with solar cell modules 2 are arranged in spaces between plural crosspieces S extending at intervals almost parallel along a roof face R, wiring parts 6 connected to solar battery cells in the solar battery modules on the roof face materials are arranged at regions beside the solar battery modules, wiring covers 5 covering the wiring parts are superposed on the roof face materials, and in both the edges along the crosspieces of the roof face materials and the wiring covers, crosspiece cover caps 4 are fixed to the upper faces of the crosspieces by snap fitting in a state where the edges of the roof face materials and the edges of the wiring covers are sandwiched therebetween, the falling of the crosspiece cover caps upon the application of a negative pressure caused by wind is prevented.SOLUTION: Wiring covers are formed in such a manner that, regarding bending in a vertical direction in the extending direction of crosspieces, the bending rigidity of the wiring covers is made lower than the bending rigidity of roof face materials disposed with solar battery modules.SELECTED DRAWING: Figure 2
【課題】 屋根面Rに沿って略平行に間隔をあけて延在する複数の桟Sの間に於いて太陽電池モジュール2が一体化された屋根面材1が配置され、屋根面材上の太陽電池モジュールの脇の領域に太陽電池モジュールに於ける太陽電池セルに接続された配線部品6が配置され、配線部品を覆う配線カバー5が屋根面材に重畳され、屋根面材と配線カバーとの桟に沿った両縁に於いて、桟カバーキャップ4が、桟の上面に対して、それらの間に屋根面材の縁と配線カバーの縁を挟んだ状態でスナップ嵌合により固定された屋根に於いて、風による負圧が作用したときの桟カバーキャップの脱落を防止する。【解決手段】 桟の延在方向に於いて垂直な方向の曲げに於いて、配線カバーの曲げ剛性が太陽電池モジュールの配置された屋根面材の曲げ剛性よりも小さくなるように、配線カバーを形成する。【選択図】 図2
ROOF STRUCTURE INSTALLED WITH SOLAR CELL MODULE
太陽電池モジュールが設置された屋根構造
HASHIMOTO HIROYUKI (author) / SASAKI KIYOTO (author) / IWAMOTO SHOICHI (author) / SUZUKI HIROSUKE (author)
2024-09-30
Patent
Electronic Resource
Japanese
IPC:
E04D
ROOF COVERINGS
,
Dacheindeckungen
ROOF STRUCTURE FOR CHECKING THE SOLAR CELL MODULE OF THE SOLAR CELL MODULE IS INSTALLED, THE ROOF
| European Patent Office | 2016