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A platform for research: civil engineering, architecture and urbanism
MASS CONCRETE TEMPERATURE CONTROL SYSTEM AND MASS CONCRETE TEMPERATURE CONTROL METHOD
To solve problems associated with temperature control of mass concrete that existed in conventional construction methods.SOLUTION: A mass concrete temperature control system includes a plurality of temperature control devices 10 inserted vertically downward from the surface side of mass concrete C, a controller 20 controlling electric conduction to each of the temperature control devices 10, and a current carrying wire 30 connecting each of the temperature control devices 10 and the controller 20. The temperature control device 10 includes a cylindrical insert member 110 made of a material with high thermal conductivity such as aluminum, a Peltier element group 100 arranged along the inner circumferential surface of the insert member 110, an inner wall 120 provided in the circumferential and axial directions between both ends (upper end and lower end) of the insert member 110 located inside the Peltier element group 100, a plugging material 130 that plugs the circumferential gap between the inner wall 120 and the insert member 110, and a base material 140 that plugs the opening at the axial lower end of the space formed by the inner wall 120.SELECTED DRAWING: Figure 1
【課題】マスコンクリートの温度制御において従来工法における問題を解消する。【解決手段】マスコンクリート温度制御システムは、マスコンクリートCの表面側から鉛直方向下方に挿入される複数の温度制御装置10と、各温度制御装置10に対する通電を制御するコントローラ20と、各温度制御装置10及びコントローラ20を接続する通電線30とを備える。温度制御装置10は、例えばアルミニウム等の熱伝導性の高い素材で形成された筒状の挿入部材110と、挿入部材110の内周面に沿って配置されたペルチェ素子群100と、ペルチェ素子群100より内側の挿入部材110の両端部(上端部及び下端部)間に周方向及び軸方向に設けられた内壁120と、内壁120及び挿入部材110間の周方向の間隙を塞ぐ塞ぎ材130と、内壁120によって形成された空間の軸方向下端部の開口を塞ぐ底材140と備える。【選択図】図1
MASS CONCRETE TEMPERATURE CONTROL SYSTEM AND MASS CONCRETE TEMPERATURE CONTROL METHOD
To solve problems associated with temperature control of mass concrete that existed in conventional construction methods.SOLUTION: A mass concrete temperature control system includes a plurality of temperature control devices 10 inserted vertically downward from the surface side of mass concrete C, a controller 20 controlling electric conduction to each of the temperature control devices 10, and a current carrying wire 30 connecting each of the temperature control devices 10 and the controller 20. The temperature control device 10 includes a cylindrical insert member 110 made of a material with high thermal conductivity such as aluminum, a Peltier element group 100 arranged along the inner circumferential surface of the insert member 110, an inner wall 120 provided in the circumferential and axial directions between both ends (upper end and lower end) of the insert member 110 located inside the Peltier element group 100, a plugging material 130 that plugs the circumferential gap between the inner wall 120 and the insert member 110, and a base material 140 that plugs the opening at the axial lower end of the space formed by the inner wall 120.SELECTED DRAWING: Figure 1
【課題】マスコンクリートの温度制御において従来工法における問題を解消する。【解決手段】マスコンクリート温度制御システムは、マスコンクリートCの表面側から鉛直方向下方に挿入される複数の温度制御装置10と、各温度制御装置10に対する通電を制御するコントローラ20と、各温度制御装置10及びコントローラ20を接続する通電線30とを備える。温度制御装置10は、例えばアルミニウム等の熱伝導性の高い素材で形成された筒状の挿入部材110と、挿入部材110の内周面に沿って配置されたペルチェ素子群100と、ペルチェ素子群100より内側の挿入部材110の両端部(上端部及び下端部)間に周方向及び軸方向に設けられた内壁120と、内壁120及び挿入部材110間の周方向の間隙を塞ぐ塞ぎ材130と、内壁120によって形成された空間の軸方向下端部の開口を塞ぐ底材140と備える。【選択図】図1
MASS CONCRETE TEMPERATURE CONTROL SYSTEM AND MASS CONCRETE TEMPERATURE CONTROL METHOD
マスコンクリート温度制御システム及びマスコンクリートの温度制御方法
WANG TAO (author) / SAKAI TAKAHIRO (author) / TANIGUCHI OSAMU (author)
2024-05-22
Patent
Electronic Resource
Japanese
MASS CONCRETE TEMPERATURE CONTROL SYSTEM AND TEMPERATURE CONTROL METHOD
| European Patent Office | 2024