A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
To provide an underfloor air conditioning system which is ductless, requires no duct piping, and sufficiently performs a cooling/heating function.SOLUTION: An air conditioning system takes in conditioned air of an air conditioner 15 into an underfloor space 8 to condition the air in above-floor spaces 2, 3. The air conditioner 15 is provided with an air suction part 15a and an air blow-out part 15b. During heating operation, warm air is blown out; during cooling operation, cool air is blown out. The underfloor space 8 is in a form of a highly airtight and highly heat insulating chamber shielded from outside and is provided with a suction port 20 opening to the air blow-out part 15b of the air conditioner 15 and an air supply port 21 opening to floor surfaces 6a, 7a in the above-floor spaces 2, 3. The air supply port 21 is provided with an air supply device 16 which blows out and supplies the conditioned air in the underfloor space 8 to the above-floor space 2, 3. Thus, when the conditioned air blown out by the air conditioner 15 is blown out and supplied for the above-floor spaces 2, 3 by air supply devices 16,16, . . . via the underfloor space 8 during the heating/cooling operation.SELECTED DRAWING: Figure 1
【課題】ダクト配管が不要なダクトレスで、冷暖房機能が十分に発揮される床下空調システムを提供する。【解決手段】床下空間8に空調装置15の空調空気を取り込んで床上空間2、3の空調を行うもので、空調装置15は、空気吸込み部15aおよび空気吹出し部15bを備えて、暖房運転時には温風を吹き出し、冷房運転時には冷風を吹き出す構成とされる。床下空間8は、外部と遮蔽された高気密高断熱チャンバの形態とされ、空調装置15の空気吹出し部15bに開口する吸気口20と床上空間2、3の床面6a、7aに開口する給気口21を備え、給気口21に、床下空間8の空調空気を床上空間2、3に吹出し供給する給気装置16が設けられてなる。これにより、暖冷房運転時に、空調装置15から吹き出される温調空気が床下空間8を経て、給気装置16、16、…により床上空間2、3に吹出し供給される。【選択図】図1
To provide an underfloor air conditioning system which is ductless, requires no duct piping, and sufficiently performs a cooling/heating function.SOLUTION: An air conditioning system takes in conditioned air of an air conditioner 15 into an underfloor space 8 to condition the air in above-floor spaces 2, 3. The air conditioner 15 is provided with an air suction part 15a and an air blow-out part 15b. During heating operation, warm air is blown out; during cooling operation, cool air is blown out. The underfloor space 8 is in a form of a highly airtight and highly heat insulating chamber shielded from outside and is provided with a suction port 20 opening to the air blow-out part 15b of the air conditioner 15 and an air supply port 21 opening to floor surfaces 6a, 7a in the above-floor spaces 2, 3. The air supply port 21 is provided with an air supply device 16 which blows out and supplies the conditioned air in the underfloor space 8 to the above-floor space 2, 3. Thus, when the conditioned air blown out by the air conditioner 15 is blown out and supplied for the above-floor spaces 2, 3 by air supply devices 16,16, . . . via the underfloor space 8 during the heating/cooling operation.SELECTED DRAWING: Figure 1
【課題】ダクト配管が不要なダクトレスで、冷暖房機能が十分に発揮される床下空調システムを提供する。【解決手段】床下空間8に空調装置15の空調空気を取り込んで床上空間2、3の空調を行うもので、空調装置15は、空気吸込み部15aおよび空気吹出し部15bを備えて、暖房運転時には温風を吹き出し、冷房運転時には冷風を吹き出す構成とされる。床下空間8は、外部と遮蔽された高気密高断熱チャンバの形態とされ、空調装置15の空気吹出し部15bに開口する吸気口20と床上空間2、3の床面6a、7aに開口する給気口21を備え、給気口21に、床下空間8の空調空気を床上空間2、3に吹出し供給する給気装置16が設けられてなる。これにより、暖冷房運転時に、空調装置15から吹き出される温調空気が床下空間8を経て、給気装置16、16、…により床上空間2、3に吹出し供給される。【選択図】図1
AIR CONDITIONING SYSTEM, AND HOUSE
空調システムおよび家屋
HONDA ZENJIRO (author)
2020-11-19
Patent
Electronic Resource
Japanese
Air-conditioning system for Shosoin west treasure house
| Engineering Index Backfile | 1965
Storage of cold house air-conditioning
| TIBKAT | 1984
Comfort conditioning -- Prelude to full house
| Engineering Index Backfile | 1967