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A platform for research: civil engineering, architecture and urbanism
INDOOR HEATING/COOLING METHOD AND INDOOR HEATING/COOLING DEVICE
PROBLEM TO BE SOLVED: To provide an indoor heating/cooling method and an indoor heating/cooling device with high durability which can efficiently heat and cool the inside of a room, and in which temperature control can be easily performed.SOLUTION: Cinder concrete 23, which is a heat insulation material, is arranged under the floor of a room whose circumference is surrounded by a heat insulation material, water circulating in a copper pipe 6 buried in the cinder concrete 23 is caused to flow at a flow rate of 0.2-0.8 m/sec, the flow rate is controlled so that a difference in temperatures between at an inlet part (a going pipe part 16) and at a return port part (a return pipe part 17) of the water to the copper pipe 6 falls within 0.5°C, and the water is always circulated in the copper pipe 6 to control the indoor temperature by controlling the water temperature so that a difference in temperature falls within 10°C during heating, and within minus 7°C during cooling with respect to a desired floor surface temperature.
【課題】室内を効率よく冷暖房することが可能で、温度制御が容易となり、しかも高い耐久性を備える室内冷暖房方法と室内冷暖房装置を提供すること。【解決手段】周囲を断熱材で囲まれた室内の床下に、断熱材であるシンダーコンクリート23を配置し、そのシンダーコンクリート23中に埋設された銅管6を流通する水を、0.2m/秒〜0.8m/秒の流速で通流させ、水の銅管6に対する入り口部(往管部16)と戻り口部(還管部17)の温度差が0.5℃以内となるように流速を制御し、所望の床表面温度に対し温度差が暖房時に10℃以内となるように、冷房時にはマイナス7℃となるように水の温度を制御し、水を銅管6内に常時循環させて室内温度を制御する。【選択図】図1
INDOOR HEATING/COOLING METHOD AND INDOOR HEATING/COOLING DEVICE
PROBLEM TO BE SOLVED: To provide an indoor heating/cooling method and an indoor heating/cooling device with high durability which can efficiently heat and cool the inside of a room, and in which temperature control can be easily performed.SOLUTION: Cinder concrete 23, which is a heat insulation material, is arranged under the floor of a room whose circumference is surrounded by a heat insulation material, water circulating in a copper pipe 6 buried in the cinder concrete 23 is caused to flow at a flow rate of 0.2-0.8 m/sec, the flow rate is controlled so that a difference in temperatures between at an inlet part (a going pipe part 16) and at a return port part (a return pipe part 17) of the water to the copper pipe 6 falls within 0.5°C, and the water is always circulated in the copper pipe 6 to control the indoor temperature by controlling the water temperature so that a difference in temperature falls within 10°C during heating, and within minus 7°C during cooling with respect to a desired floor surface temperature.
【課題】室内を効率よく冷暖房することが可能で、温度制御が容易となり、しかも高い耐久性を備える室内冷暖房方法と室内冷暖房装置を提供すること。【解決手段】周囲を断熱材で囲まれた室内の床下に、断熱材であるシンダーコンクリート23を配置し、そのシンダーコンクリート23中に埋設された銅管6を流通する水を、0.2m/秒〜0.8m/秒の流速で通流させ、水の銅管6に対する入り口部(往管部16)と戻り口部(還管部17)の温度差が0.5℃以内となるように流速を制御し、所望の床表面温度に対し温度差が暖房時に10℃以内となるように、冷房時にはマイナス7℃となるように水の温度を制御し、水を銅管6内に常時循環させて室内温度を制御する。【選択図】図1
INDOOR HEATING/COOLING METHOD AND INDOOR HEATING/COOLING DEVICE
室内冷暖房方法、室内冷暖房装置
KOMATSUBARA SUSUMU (author)
2015-11-24
Patent
Electronic Resource
Japanese
INDOOR COOLING/HEATING SYSTEM AND HEAT TRANSFER FLOOR STRUCTURE
| European Patent Office | 2024