A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
HEAT COLLECTION VENTILATION SYSTEM
PROBLEM TO BE SOLVED: To provide a heat collection ventilation system capable of efficiently adjusting a temperature in a building.SOLUTION: A heat collection ventilation system comprises a heat collection device 2, an air supply passage 3, an air supply device 4, an air exhaust device 5, a first temperature sensor 7, a second temperature sensor 8, and a control section 9. The air supply device 4 supplies heat collection air to an insulated space 11 through the air supply passage 3. The air exhaust device 5 exhausts indoor air in the insulated space 11 into an outdoor space. The first temperature sensor 7 detects a temperature T1 of the heat collection air. The second temperature sensor 8 detects a temperature T2 of the indoor air. The control section 9 controls a supply air volume of the heat collection air supplied by the air supply device 4 and an exhaust air volume of the indoor air to be exhausted by the air exhaust device 5 on the basis of a difference between the temperature T1 of the heat collection air and the temperature T2 of the indoor air.
【課題】建物内の温度調整を効率的に行うことのできる集熱換気システムを提供する。【解決手段】本発明を、集熱装置2、給気路3、給気装置4、排気装置5、第一温度センサ7、第二温度センサ8及び制御部9を備えた集熱換気システムとする。給気装置4は、給気路3を通じて集熱空気を断熱空間11に供給する。排気装置5は、断熱空間11内にある屋内空気を、屋外空間に排気する。第一温度センサ7は、集熱空気の温度T1を感知する。第二温度センサ8は、屋内空気の温度T2を感知する。制御部9は、集熱空気の温度T1と、屋内空気の温度T2との温度差に基づいて、給気装置4で集熱空気を供給する給気風量と、排気装置5で屋内空気を排気する排気風量とを制御する。【選択図】図1
HEAT COLLECTION VENTILATION SYSTEM
PROBLEM TO BE SOLVED: To provide a heat collection ventilation system capable of efficiently adjusting a temperature in a building.SOLUTION: A heat collection ventilation system comprises a heat collection device 2, an air supply passage 3, an air supply device 4, an air exhaust device 5, a first temperature sensor 7, a second temperature sensor 8, and a control section 9. The air supply device 4 supplies heat collection air to an insulated space 11 through the air supply passage 3. The air exhaust device 5 exhausts indoor air in the insulated space 11 into an outdoor space. The first temperature sensor 7 detects a temperature T1 of the heat collection air. The second temperature sensor 8 detects a temperature T2 of the indoor air. The control section 9 controls a supply air volume of the heat collection air supplied by the air supply device 4 and an exhaust air volume of the indoor air to be exhausted by the air exhaust device 5 on the basis of a difference between the temperature T1 of the heat collection air and the temperature T2 of the indoor air.
【課題】建物内の温度調整を効率的に行うことのできる集熱換気システムを提供する。【解決手段】本発明を、集熱装置2、給気路3、給気装置4、排気装置5、第一温度センサ7、第二温度センサ8及び制御部9を備えた集熱換気システムとする。給気装置4は、給気路3を通じて集熱空気を断熱空間11に供給する。排気装置5は、断熱空間11内にある屋内空気を、屋外空間に排気する。第一温度センサ7は、集熱空気の温度T1を感知する。第二温度センサ8は、屋内空気の温度T2を感知する。制御部9は、集熱空気の温度T1と、屋内空気の温度T2との温度差に基づいて、給気装置4で集熱空気を供給する給気風量と、排気装置5で屋内空気を排気する排気風量とを制御する。【選択図】図1
HEAT COLLECTION VENTILATION SYSTEM
集熱換気システム
ARAKANE NORIHIDE (author) / KURITA MASAHIKO (author) / TAMURA TOSHIKI (author) / YABUNOUCHI NOBUAKI (author) / IWAZAWA SHIGENORI (author) / SATO HIROSHI (author)
2016-01-21
Patent
Electronic Resource
Japanese
IPC:
F24F
Klimatisierung
,
AIR-CONDITIONING
/
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
/
E04D
ROOF COVERINGS
,
Dacheindeckungen
/
F24J
/
H02S
GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRA-RED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, E.G. USING PHOTOVOLTAIC [PV] MODULES
,
Erzeugung elektrischer Energie durch Umwandlung von Infrarot-Strahlung, sichtbarem Licht oder ultraviolettem Licht, z.B. unter Verwendung von Photovoltaik [PV]-Modulen
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