A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
ARCHITECTURAL STRUCTURE AND MANUFACTURING METHOD OF ARCHITECTURAL STRUCTURE
PROBLEM TO BE SOLVED: To reduce dew condensation on a surface of aluminum sash and others of a housing.SOLUTION: An adhesive material 4 is applied on an inner surface 2c of an aluminum sash 2. Granular substances 3 such as resin foam are attached on the adhesive material 4. A hygroscopic material such as silica gel is applied on a surface of the granular substance 3. A communicating hole 2g is bored on the aluminum sash 2 so that moisture vapor in a room R can penetrate into the aluminum sash 2 (arrows B1, B2). As the hygroscopic material is applied on the surface of the granular substance 3, the coating area is increased and calorific value is also increased during moisture absorption. As the heat is transmitted to an outer surface 2b through the inner surface 2c, dew condensation on the outer surface 2b can be reduced.SELECTED DRAWING: Figure 1
【課題】住宅などにおいて、アルミサッシなどの表面における結露を低減する。【解決手段】アルミサッシ2の内面2cに粘着性材料4を塗布し、該粘着性材料4には発泡樹脂などの粒状物3を付着させる。この粒状物3の表面にはシリカゲル等の吸湿材料を塗布しておく。また、アルミサッシ2には連通孔2gを穿設しておき、部屋Rの水蒸気がアルミサッシ2の内部に侵入できるようにしておく(矢印B1,B2)。吸湿材料は前記粒状物3の表面に塗布されていることから、その塗布面積が広くなって吸湿時の発熱量も増える。その熱は内面2cを介して外面2bに伝わることとなるので、該外面2bにおける結露を低減することができる。【選択図】図1
ARCHITECTURAL STRUCTURE AND MANUFACTURING METHOD OF ARCHITECTURAL STRUCTURE
PROBLEM TO BE SOLVED: To reduce dew condensation on a surface of aluminum sash and others of a housing.SOLUTION: An adhesive material 4 is applied on an inner surface 2c of an aluminum sash 2. Granular substances 3 such as resin foam are attached on the adhesive material 4. A hygroscopic material such as silica gel is applied on a surface of the granular substance 3. A communicating hole 2g is bored on the aluminum sash 2 so that moisture vapor in a room R can penetrate into the aluminum sash 2 (arrows B1, B2). As the hygroscopic material is applied on the surface of the granular substance 3, the coating area is increased and calorific value is also increased during moisture absorption. As the heat is transmitted to an outer surface 2b through the inner surface 2c, dew condensation on the outer surface 2b can be reduced.SELECTED DRAWING: Figure 1
【課題】住宅などにおいて、アルミサッシなどの表面における結露を低減する。【解決手段】アルミサッシ2の内面2cに粘着性材料4を塗布し、該粘着性材料4には発泡樹脂などの粒状物3を付着させる。この粒状物3の表面にはシリカゲル等の吸湿材料を塗布しておく。また、アルミサッシ2には連通孔2gを穿設しておき、部屋Rの水蒸気がアルミサッシ2の内部に侵入できるようにしておく(矢印B1,B2)。吸湿材料は前記粒状物3の表面に塗布されていることから、その塗布面積が広くなって吸湿時の発熱量も増える。その熱は内面2cを介して外面2bに伝わることとなるので、該外面2bにおける結露を低減することができる。【選択図】図1
ARCHITECTURAL STRUCTURE AND MANUFACTURING METHOD OF ARCHITECTURAL STRUCTURE
建築構造体、及び該建築構造体の製造方法
KONNO YASUHIKO (author) / SAKAI EIJI (author)
2016-08-18
Patent
Electronic Resource
Japanese
IPC:
E06B
Feste oder bewegliche Abschlüsse für Öffnungen in Bauwerken, Fahrzeugen, Zäunen oder ähnlichen Einfriedungen allgemein, z.B. Türen, Fenster, Läden, Tore
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