Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
AIR CONDITIONING SYSTEM FOR BUILDINGS
To provide an air conditioning system for buildings that can improve the comfort of living spaces.SOLUTION: In a building 10, a living space 25 is formed by being airtightly surrounded by a basic heat insulating material 22, an external heat insulating material 23, and a roof heat insulating material 24, and the living space is provided with a room 30 surrounded by interior materials 31 to 33. Gaps are formed between the basic heat insulating material, the external heat insulating material and the roof heat insulating material and each interior material to form skeleton air layers 39 including an underfloor air layer 34, a wall skeleton air layer 35, and a ceiling/attic air layer 36 in communication with each other. The underfloor air layer is provided with a radiator 110, and the room is provided non-open to the skeleton air layer. The average heat transmission rate of the outer skin of the building is 0.56 W(m2, K) or less.SELECTED DRAWING: Figure 1
【課題】住空間の快適性を向上できる建築物の空調システムを提供する。【解決手段】建築物10に基礎断熱材22、外張断熱材23及び屋根断熱材24によって気密可能に囲まれて住空間25が形成され、住空間に内装材31〜33によって囲まれた部屋30が設けられる。基礎断熱材、外張断熱材及び屋根断熱材と、内装材との間にそれぞれ隙間が形成されて互いに連通する床下空気層34、壁躯体内空気層35、天井・屋根裏空気層36を含む躯体内空気層39が形成される。床下空気層には、放熱器110が設けられ、部屋は、躯体内空気層に対して非開口に設けられる。建築物の外皮平均熱貫流率は、0.56W/(m2・K)以下である。【選択図】図1
AIR CONDITIONING SYSTEM FOR BUILDINGS
To provide an air conditioning system for buildings that can improve the comfort of living spaces.SOLUTION: In a building 10, a living space 25 is formed by being airtightly surrounded by a basic heat insulating material 22, an external heat insulating material 23, and a roof heat insulating material 24, and the living space is provided with a room 30 surrounded by interior materials 31 to 33. Gaps are formed between the basic heat insulating material, the external heat insulating material and the roof heat insulating material and each interior material to form skeleton air layers 39 including an underfloor air layer 34, a wall skeleton air layer 35, and a ceiling/attic air layer 36 in communication with each other. The underfloor air layer is provided with a radiator 110, and the room is provided non-open to the skeleton air layer. The average heat transmission rate of the outer skin of the building is 0.56 W(m2, K) or less.SELECTED DRAWING: Figure 1
【課題】住空間の快適性を向上できる建築物の空調システムを提供する。【解決手段】建築物10に基礎断熱材22、外張断熱材23及び屋根断熱材24によって気密可能に囲まれて住空間25が形成され、住空間に内装材31〜33によって囲まれた部屋30が設けられる。基礎断熱材、外張断熱材及び屋根断熱材と、内装材との間にそれぞれ隙間が形成されて互いに連通する床下空気層34、壁躯体内空気層35、天井・屋根裏空気層36を含む躯体内空気層39が形成される。床下空気層には、放熱器110が設けられ、部屋は、躯体内空気層に対して非開口に設けられる。建築物の外皮平均熱貫流率は、0.56W/(m2・K)以下である。【選択図】図1
AIR CONDITIONING SYSTEM FOR BUILDINGS
建築物の空調システム
YOSHIDA KENJIRO (Autor:in) / KAWAGUCHI EIKI (Autor:in) / TAKASAKI MAKIKO (Autor:in) / OHASHI YUKI (Autor:in)
18.03.2021
Patent
Elektronische Ressource
Japanisch
IPC:
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
Air conditioning apartment buildings
| Engineering Index Backfile | 1954
| Engineering Index Backfile | 1963
Local Air-Conditioning of Buildings
| British Library Conference Proceedings | 1994
HEALTHY BUILDINGS AND AIR CONDITIONING
| Emerald Group Publishing | 1989