A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
SNOW MELTING ROOF
PROBLEM TO BE SOLVED: To provide a snow melting roof capable of sufficiently reducing power consumption.SOLUTION: A double folded-plate roof 10 comprises a lower ridge part 11 and an upper ridge part 12, which consist of multiple folded-plates S connected each other and have ridge parts and valley parts alternatively, and connecting members 13 to connect the lower ridge part 11 and the upper ridge part 12. A snow melting roof 1 comprises the double folded-plate roof 10, foam heat insulators 21 placed between the lower ridge part 11 and the upper ridge part 12, fiber heat insulators 22 and snow melting pipes 30. The fiber heat insulator 22 is placed at a section in a space between the lower ridge part 11 and the upper ridge part 12 where the foam heat insulator 21 is not placed. The foam heat insulator 21 is placed within a valley part 11b of the lower ridge part 11 and has a groove 21a on its upper surface side in order to engage the snow melting pipe 30. The snow melting pipe 30 engaging with a groove 21a is put on the foam heat insulator 21 and contacts the upper ridge part 12.
【課題】消費電力を十分に抑制することが可能な融雪機能付き屋根を提供する。【解決手段】融雪機能付き屋根1であって、連設された複数の折板Sからなり山部と谷部とを交互に有する下側屋根部11および上側屋根部12と、下側屋根部11と上側屋根部12とを連結する連結部材13と、により構成される二重折板屋根10と、下側屋根部11と上側屋根部12との間に配設された発泡系断熱材21、繊維系断熱材22、および融雪パイプ30と、を備え、繊維系断熱材22は、下側屋根部11と上側屋根部12との間の空間のうち、発泡系断熱材21が配設されていない部分を埋めるように配設されており、発泡系断熱材21は、下側屋根部11の谷部11b内に配設され、上面側に融雪パイプ30を係合するための溝部21aが設けられており、融雪パイプ30は、溝部21aに係合した状態で発泡系断熱材21上に載置されて、上側屋根部12に接している。【選択図】図2
SNOW MELTING ROOF
PROBLEM TO BE SOLVED: To provide a snow melting roof capable of sufficiently reducing power consumption.SOLUTION: A double folded-plate roof 10 comprises a lower ridge part 11 and an upper ridge part 12, which consist of multiple folded-plates S connected each other and have ridge parts and valley parts alternatively, and connecting members 13 to connect the lower ridge part 11 and the upper ridge part 12. A snow melting roof 1 comprises the double folded-plate roof 10, foam heat insulators 21 placed between the lower ridge part 11 and the upper ridge part 12, fiber heat insulators 22 and snow melting pipes 30. The fiber heat insulator 22 is placed at a section in a space between the lower ridge part 11 and the upper ridge part 12 where the foam heat insulator 21 is not placed. The foam heat insulator 21 is placed within a valley part 11b of the lower ridge part 11 and has a groove 21a on its upper surface side in order to engage the snow melting pipe 30. The snow melting pipe 30 engaging with a groove 21a is put on the foam heat insulator 21 and contacts the upper ridge part 12.
【課題】消費電力を十分に抑制することが可能な融雪機能付き屋根を提供する。【解決手段】融雪機能付き屋根1であって、連設された複数の折板Sからなり山部と谷部とを交互に有する下側屋根部11および上側屋根部12と、下側屋根部11と上側屋根部12とを連結する連結部材13と、により構成される二重折板屋根10と、下側屋根部11と上側屋根部12との間に配設された発泡系断熱材21、繊維系断熱材22、および融雪パイプ30と、を備え、繊維系断熱材22は、下側屋根部11と上側屋根部12との間の空間のうち、発泡系断熱材21が配設されていない部分を埋めるように配設されており、発泡系断熱材21は、下側屋根部11の谷部11b内に配設され、上面側に融雪パイプ30を係合するための溝部21aが設けられており、融雪パイプ30は、溝部21aに係合した状態で発泡系断熱材21上に載置されて、上側屋根部12に接している。【選択図】図2
SNOW MELTING ROOF
融雪機能付き屋根
YOKOYAMA HIDENORI (author) / SHIONO TAKASHI (author) / SUZUKI TOMONORI (author) / ISHIKAWA KAZUYA (author) / MARUYAMA TOMOHIKO (author) / IWASAKI KEI (author) / HASHIZUME RYUICHI (author)
2015-10-05
Patent
Electronic Resource
Japanese
IPC:
E04D
ROOF COVERINGS
,
Dacheindeckungen
SNOW-MELTING ROOF STRUCTURE, ROOF SNOW-MELTING DEVICE, ROOF, AND BUILDING
| European Patent Office | 2024
SNOW MELTING ROOF STRUCTURAL BODY AND SNOW MELTING ROOF STRUCTURE
| European Patent Office | 2018
SNOW MELTING ROOF STRUCTURE BODY AND SNOW MELTING ROOF STRUCTURE
| European Patent Office | 2019
SNOW MELTING ROOF STRUCTURAL BODY AND SNOW MELTING ROOF STRUCTURE
| European Patent Office | 2019
SNOW-MELTING ROOF TILE AND ROOF SNOW-MELTING SYSTEM INCLUDING SAME
| European Patent Office | 2016