A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
BUILDING AND BUILDING VENTILATION METHOD
To reduce construction cost or equipment cost and reduce dew formation inside the building effectively.SOLUTION: A long building 1 in which a heating source P1 provided indoor and a water vapor generating source P2 are arranged apart at least equal to or greater than 200 m comprises a first exhaust air opening 13A provided above the heating source P1 and a second exhaust air opening 13B provided above the water vapor generating source P2, at the first exhaust air opening 13A, exhaust air high heat air E2 which is a part of a high heat air E1 heated by the heating source P1 is exhausted, an exhaust air port in communication with outdoor is not provided between the heating source P1 and the water vapor generating source P2 and at the second exhaust air opening 13B, water vapor V generated at the water vapor generating source P2 and mobile high heat air E3 heated by the heating source P1 to move to the water vapor generation source P2 side are exhausted.SELECTED DRAWING: Figure 1
【課題】工事費や設備費を抑えて、建屋内の結露を効率よく低減することができる。【解決手段】屋内に設けられる加熱源P1と水蒸気発生源P2とが少なくとも200m以上離れて配置される縦長の建屋1であって、加熱源P1の上方に設けられた第1排気開口13Aと、水蒸気発生源P2の上方に設けられた第2排気開口13Bと、を備え、第1排気開口13Aでは、加熱源P1で加熱された高熱空気E1の一部の排気高熱空気E2が排気され、加熱源P1と水蒸気発生源P2との間に屋外に連通する排気口が設けられない構成とされ、第2排気開口13Bでは、水蒸気発生源P2で発生した水蒸気Vと、加熱源P1で加熱されて水蒸気発生源P2側に移動した移動高熱空気E3と、が排気された構成の建屋を提供する。【選択図】図1
BUILDING AND BUILDING VENTILATION METHOD
To reduce construction cost or equipment cost and reduce dew formation inside the building effectively.SOLUTION: A long building 1 in which a heating source P1 provided indoor and a water vapor generating source P2 are arranged apart at least equal to or greater than 200 m comprises a first exhaust air opening 13A provided above the heating source P1 and a second exhaust air opening 13B provided above the water vapor generating source P2, at the first exhaust air opening 13A, exhaust air high heat air E2 which is a part of a high heat air E1 heated by the heating source P1 is exhausted, an exhaust air port in communication with outdoor is not provided between the heating source P1 and the water vapor generating source P2 and at the second exhaust air opening 13B, water vapor V generated at the water vapor generating source P2 and mobile high heat air E3 heated by the heating source P1 to move to the water vapor generation source P2 side are exhausted.SELECTED DRAWING: Figure 1
【課題】工事費や設備費を抑えて、建屋内の結露を効率よく低減することができる。【解決手段】屋内に設けられる加熱源P1と水蒸気発生源P2とが少なくとも200m以上離れて配置される縦長の建屋1であって、加熱源P1の上方に設けられた第1排気開口13Aと、水蒸気発生源P2の上方に設けられた第2排気開口13Bと、を備え、第1排気開口13Aでは、加熱源P1で加熱された高熱空気E1の一部の排気高熱空気E2が排気され、加熱源P1と水蒸気発生源P2との間に屋外に連通する排気口が設けられない構成とされ、第2排気開口13Bでは、水蒸気発生源P2で発生した水蒸気Vと、加熱源P1で加熱されて水蒸気発生源P2側に移動した移動高熱空気E3と、が排気された構成の建屋を提供する。【選択図】図1
BUILDING AND BUILDING VENTILATION METHOD
建屋及び建屋換気方法
MATSUISHI NAGAYUKI (author) / OZAKI TERUTAKA (author)
2020-10-15
Patent
Electronic Resource
Japanese
IPC:
E04B
Allgemeine Baukonstruktionen
,
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