Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
PROBLEM TO BE SOLVED: To provide a daylighting structure that is capable of using solar radiation light, natural energy, as visible light in the whole building as much as possible, and is capable of implementing further energy saving as compared with the conventional structure by reducing a cooling load by suppressing a temperature rise caused by absorption of the solar radiation light in non-light transmissive members (floor, wall, and the like) in the building.SOLUTION: A daylighting structure 1 comprises: a light transmissive plate material 11 that is disposed in the vicinity of a window 51A provided at a predetermined story A of a plurality of stories and constitutes part of a floor 52A of the predetermined story A; and a light transmissive plate material 13 that is disposed below and opposite to the light transmissive plate material 11 through a space 12 and constitutes part of a ceiling 53A' of a story A' immediately below the predetermined story A. Visible light incident from the window 51A of the predetermined story A is incident on the story A' after passing through the light transmissive plate material 11, the space 12, and the light transmissive plate material 13 in this order.SELECTED DRAWING: Figure 1
【課題】建物全体で自然エネルギーである日射光を可視光としてできる限り建物全体で利用することができると共に、建物内の非光透過性部材(床・壁等)における日射光の吸収による温度上昇を抑制して冷房負荷を低減し、従来構造と比較して更なる省エネルギー化を実現することができる採光構造を提供する。【解決手段】採光構造1は、複数階のうちの所定階Aに設けられた窓51Aの近傍に配置され、且つ所定階Aにおける床52Aの一部を構成する光透過性板材11と、該光透過性板材の下方に空間12を介して対向配置され、所定階Aの直下階A’における天井53A’の一部を構成する光透過性板材13とを備える。所定階Aの窓51Aから入射した可視光は、光透過性材料11、空間12及び光透過性板材13をこの順に透過して直下階A’に入射する。【選択図】図1
PROBLEM TO BE SOLVED: To provide a daylighting structure that is capable of using solar radiation light, natural energy, as visible light in the whole building as much as possible, and is capable of implementing further energy saving as compared with the conventional structure by reducing a cooling load by suppressing a temperature rise caused by absorption of the solar radiation light in non-light transmissive members (floor, wall, and the like) in the building.SOLUTION: A daylighting structure 1 comprises: a light transmissive plate material 11 that is disposed in the vicinity of a window 51A provided at a predetermined story A of a plurality of stories and constitutes part of a floor 52A of the predetermined story A; and a light transmissive plate material 13 that is disposed below and opposite to the light transmissive plate material 11 through a space 12 and constitutes part of a ceiling 53A' of a story A' immediately below the predetermined story A. Visible light incident from the window 51A of the predetermined story A is incident on the story A' after passing through the light transmissive plate material 11, the space 12, and the light transmissive plate material 13 in this order.SELECTED DRAWING: Figure 1
【課題】建物全体で自然エネルギーである日射光を可視光としてできる限り建物全体で利用することができると共に、建物内の非光透過性部材(床・壁等)における日射光の吸収による温度上昇を抑制して冷房負荷を低減し、従来構造と比較して更なる省エネルギー化を実現することができる採光構造を提供する。【解決手段】採光構造1は、複数階のうちの所定階Aに設けられた窓51Aの近傍に配置され、且つ所定階Aにおける床52Aの一部を構成する光透過性板材11と、該光透過性板材の下方に空間12を介して対向配置され、所定階Aの直下階A’における天井53A’の一部を構成する光透過性板材13とを備える。所定階Aの窓51Aから入射した可視光は、光透過性材料11、空間12及び光透過性板材13をこの順に透過して直下階A’に入射する。【選択図】図1
DAYLIGHTING STRUCTURE FOR BUILDING
建物の採光構造
AIGA HIROSHI (Autor:in)
29.09.2016
Patent
Elektronische Ressource
Japanisch