A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
AIR-PERMEABLE BASE ISOLATION FLOOR
PROBLEM TO BE SOLVED: To provide an air-permeable base isolation floor that discharges air-conditioned air from a surface of an air-permeable flooring material, eliminating a need on an air-conditioner outlet on a ceiling or a duct in an attic space, reducing costs, allowing a wide space to be used, eliminating a strong air current that is felt in a case with conventional air-conditioners because air-conditioned air is discharged from a floor surface, and allowing distribution cables to be housed under floor.SOLUTION: An air-permeable base isolation floor is configured with a square pipe base frame made by assembling a square pipe 30 in a grid form or a light-weight section steel base frame made by connecting light-weight section steel, a punching plate 20 with a cavity part fitted and fixed on the base frame, and an air-permeable flooring material 10 laid on a top surface of the punching plate 20. An air-conditioned air flow is connected to a cavity part 21 of the square pipe 30 or the light-weight section steel and the cavity part 21 of the punching plate 20, to enable discharge of the air-conditioned air flow from a vent hole 31 of both, such that the air-conditioned air flow is discharged from the surface of the air-permeable flooring material 10.SELECTED DRAWING: Figure 1
【課題】通気性免震フロアに関し、特に空調用送風を通気性床材表面より吐出するように構成し、天井の空調吹出口や天井裏のダクトが不要となり、コストを低減し、空間を広く利用することができ、床面からの吹出しとなるので従来のような空調時の強い空気流を感じることがなく、また、配線ケーブル等を床下へ収納することができる通気性免震フロアを提供する。【解決手段】角パイプ30を升目状に組み合わせて構成した角パイプベース枠体又は軽量形鋼を連結して構成した軽量形鋼ベース枠体に空洞付きパンチングプレート20を取り付けて固定し、パンチングプレート20の上面に通気性床材10を敷設し、角パイプ30又は軽量形鋼の空洞部21及びパンチングプレート20の空洞部21に空調用送風を接続し、双方の通気孔31より空調用送風を可能とし、該空調用送風を通気性床材10の表面より吐出するように構成する。【選択図】図1
AIR-PERMEABLE BASE ISOLATION FLOOR
PROBLEM TO BE SOLVED: To provide an air-permeable base isolation floor that discharges air-conditioned air from a surface of an air-permeable flooring material, eliminating a need on an air-conditioner outlet on a ceiling or a duct in an attic space, reducing costs, allowing a wide space to be used, eliminating a strong air current that is felt in a case with conventional air-conditioners because air-conditioned air is discharged from a floor surface, and allowing distribution cables to be housed under floor.SOLUTION: An air-permeable base isolation floor is configured with a square pipe base frame made by assembling a square pipe 30 in a grid form or a light-weight section steel base frame made by connecting light-weight section steel, a punching plate 20 with a cavity part fitted and fixed on the base frame, and an air-permeable flooring material 10 laid on a top surface of the punching plate 20. An air-conditioned air flow is connected to a cavity part 21 of the square pipe 30 or the light-weight section steel and the cavity part 21 of the punching plate 20, to enable discharge of the air-conditioned air flow from a vent hole 31 of both, such that the air-conditioned air flow is discharged from the surface of the air-permeable flooring material 10.SELECTED DRAWING: Figure 1
【課題】通気性免震フロアに関し、特に空調用送風を通気性床材表面より吐出するように構成し、天井の空調吹出口や天井裏のダクトが不要となり、コストを低減し、空間を広く利用することができ、床面からの吹出しとなるので従来のような空調時の強い空気流を感じることがなく、また、配線ケーブル等を床下へ収納することができる通気性免震フロアを提供する。【解決手段】角パイプ30を升目状に組み合わせて構成した角パイプベース枠体又は軽量形鋼を連結して構成した軽量形鋼ベース枠体に空洞付きパンチングプレート20を取り付けて固定し、パンチングプレート20の上面に通気性床材10を敷設し、角パイプ30又は軽量形鋼の空洞部21及びパンチングプレート20の空洞部21に空調用送風を接続し、双方の通気孔31より空調用送風を可能とし、該空調用送風を通気性床材10の表面より吐出するように構成する。【選択図】図1
AIR-PERMEABLE BASE ISOLATION FLOOR
通気性免震フロア
KANAZAWA MITSUO (author) / MASUKO SHOJI (author) / YOSHIMURA EISUKE (author)
2016-04-11
Patent
Electronic Resource
Japanese
IPC:
E04F
FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
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Ausbau von Bauwerken, z.B. Treppen, Fußböden