A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
PROBLEM TO BE SOLVED: To provide an energy saving house in which energy saving is achieved by heating a whole house by heating a circulation passage under a floor by a heat radiation heater which does not blow out hot air in winter.SOLUTION: An energy saving house 1 has a heat insulation property as a side wall 14 is formed in a three-layer structure, and planned ventilation is forcibly performed in which air in each room is replaced for a predetermined number of times in a fixed period. In the side wall 14, an outside air passage 24 in which the outside air goes up and is discharged from an attic 22 to the outdoors is formed between an external wall layer 14a and an intermediate wall layer 14b, and a circulation passage 26 in which circulation air circulating indoors passes is formed between the intermediate wall layer 14b and an internal wall 14c. According to the planned ventilation, a heat exchanger 30 is installed between supply air sucked from the outdoors to the circulation passage 26 and exhaust air exhausted to the outdoors via the circulation passage 26. In the intermediate wall layer 14b, a resin heat insulation layer in which a large number of air bubbles are formed is sandwiched between heat shielding sheets having waterproof properties and moisture permeability and for reflecting radiant heat.SELECTED DRAWING: Figure 1
【課題】冬季に温風を吹き出すことのない放熱ヒータで床下の循環通路を加温することで住宅全体を加温できるように省エネルギー化が図られた省エネルギー住宅を提供する。【解決手段】側壁14が三層構造に形成されて断熱性を有し、各室内の空気が一定期間内に所定回数置き換わる計画換気が強制的に施される省エネルギー住宅1は、側壁14内に、外壁層14aと中壁層14bとの間に、外気が上昇し屋根裏22から屋外に排出される外気通路24と、中壁層14bと内壁14cとの間に屋内を循環する循環空気が通過する循環通路26とが形成され、前記計画換気に伴って、前記屋外から吸引されて循環通路24への供給空気と循環通路26を経由して屋外に排出される排出空気との熱交換器30が設置されおり、中壁層14bが、防水性と透湿性とを併有し且つ輻射熱を反射する遮熱シート間に、多数の気泡が形成された樹脂製断熱層が挟まれていることを特徴とする。【選択図】図1
PROBLEM TO BE SOLVED: To provide an energy saving house in which energy saving is achieved by heating a whole house by heating a circulation passage under a floor by a heat radiation heater which does not blow out hot air in winter.SOLUTION: An energy saving house 1 has a heat insulation property as a side wall 14 is formed in a three-layer structure, and planned ventilation is forcibly performed in which air in each room is replaced for a predetermined number of times in a fixed period. In the side wall 14, an outside air passage 24 in which the outside air goes up and is discharged from an attic 22 to the outdoors is formed between an external wall layer 14a and an intermediate wall layer 14b, and a circulation passage 26 in which circulation air circulating indoors passes is formed between the intermediate wall layer 14b and an internal wall 14c. According to the planned ventilation, a heat exchanger 30 is installed between supply air sucked from the outdoors to the circulation passage 26 and exhaust air exhausted to the outdoors via the circulation passage 26. In the intermediate wall layer 14b, a resin heat insulation layer in which a large number of air bubbles are formed is sandwiched between heat shielding sheets having waterproof properties and moisture permeability and for reflecting radiant heat.SELECTED DRAWING: Figure 1
【課題】冬季に温風を吹き出すことのない放熱ヒータで床下の循環通路を加温することで住宅全体を加温できるように省エネルギー化が図られた省エネルギー住宅を提供する。【解決手段】側壁14が三層構造に形成されて断熱性を有し、各室内の空気が一定期間内に所定回数置き換わる計画換気が強制的に施される省エネルギー住宅1は、側壁14内に、外壁層14aと中壁層14bとの間に、外気が上昇し屋根裏22から屋外に排出される外気通路24と、中壁層14bと内壁14cとの間に屋内を循環する循環空気が通過する循環通路26とが形成され、前記計画換気に伴って、前記屋外から吸引されて循環通路24への供給空気と循環通路26を経由して屋外に排出される排出空気との熱交換器30が設置されおり、中壁層14bが、防水性と透湿性とを併有し且つ輻射熱を反射する遮熱シート間に、多数の気泡が形成された樹脂製断熱層が挟まれていることを特徴とする。【選択図】図1
ENERGY SAVING HOUSE
省エネルギー住宅
MIYAMORI KENJIRO (author)
2016-08-12
Patent
Electronic Resource
Japanese
IPC:
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS