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    PRECOOLING SYSTEM

    New search for: ABE MASAAKI
    New search for: HAMAGUCHI KOICHI
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    PROBLEM TO BE SOLVED: To provide a precooling system capable of preventing cracks in concrete caused by temperature stress without restriction on a construction site of concrete while shortening a construction period and reducing the placement cost.SOLUTION: A precooling system 30 includes a force-feed pipe 31 in which fluid can flow, a force-feed pump 32 for force-feeding concrete in the force-feed pipe 31, and a fluid circulating device 33 having an annular flow passage Pt and circulating a cooling fluid along the flow passage Pt. The fluid circulating device 33 is provided in such a manner that the cooling fluid can transmit heat with respect to the force-feed pipe 31, and concrete force-fed into the force-feed pipe 31 is cooled by the circulated cooling fluid.SELECTED DRAWING: Figure 3

    【課題】コンクリートの施工場所が制限されることなく、かつ、工期短縮及び打設コストの低減を図りながら、温度応力によるコンクリートのひび割れを防止することができるプレクーリングシステムを提供する。【解決手段】プレクーリングシステム30は、内部に流体を流通可能とする圧送管31と、コンクリートを圧送管31内に圧送する圧送ポンプ32と、環状の流路Ptを有し、流路Ptに沿って冷却流体を循環させる流体循環装置33とを備える。流体循環装置33は、圧送管31に対して冷却流体が熱伝達可能となるように設けられ、循環させた当該冷却流体にて圧送管31内に圧送されたコンクリートを冷却する。【選択図】図3

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    PRECOOLING SYSTEM

    New search for: ABE MASAAKI
    New search for: HAMAGUCHI KOICHI
    New search for: NISHIMURA AKIRA
    New search for: INAGAKI NAOSHIGE
    New search for: MATSUSHITA JUNICHI

    PROBLEM TO BE SOLVED: To provide a precooling system capable of preventing cracks in concrete caused by temperature stress without restriction on a construction site of concrete while shortening a construction period and reducing the placement cost.SOLUTION: A precooling system 30 includes a force-feed pipe 31 in which fluid can flow, a force-feed pump 32 for force-feeding concrete in the force-feed pipe 31, and a fluid circulating device 33 having an annular flow passage Pt and circulating a cooling fluid along the flow passage Pt. The fluid circulating device 33 is provided in such a manner that the cooling fluid can transmit heat with respect to the force-feed pipe 31, and concrete force-fed into the force-feed pipe 31 is cooled by the circulated cooling fluid.SELECTED DRAWING: Figure 3

    【課題】コンクリートの施工場所が制限されることなく、かつ、工期短縮及び打設コストの低減を図りながら、温度応力によるコンクリートのひび割れを防止することができるプレクーリングシステムを提供する。【解決手段】プレクーリングシステム30は、内部に流体を流通可能とする圧送管31と、コンクリートを圧送管31内に圧送する圧送ポンプ32と、環状の流路Ptを有し、流路Ptに沿って冷却流体を循環させる流体循環装置33とを備える。流体循環装置33は、圧送管31に対して冷却流体が熱伝達可能となるように設けられ、循環させた当該冷却流体にて圧送管31内に圧送されたコンクリートを冷却する。【選択図】図3

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    PRECOOLING SYSTEM

    New search for: ABE MASAAKI
    New search for: HAMAGUCHI KOICHI
    New search for: NISHIMURA AKIRA
    New search for: INAGAKI NAOSHIGE
    New search for: MATSUSHITA JUNICHI

    PROBLEM TO BE SOLVED: To provide a precooling system capable of preventing cracks in concrete caused by temperature stress without restriction on a construction site of concrete while shortening a construction period and reducing the placement cost.SOLUTION: A precooling system 30 includes a force-feed pipe 31 in which fluid can flow, a force-feed pump 32 for force-feeding concrete in the force-feed pipe 31, and a fluid circulating device 33 having an annular flow passage Pt and circulating a cooling fluid along the flow passage Pt. The fluid circulating device 33 is provided in such a manner that the cooling fluid can transmit heat with respect to the force-feed pipe 31, and concrete force-fed into the force-feed pipe 31 is cooled by the circulated cooling fluid.SELECTED DRAWING: Figure 3

    【課題】コンクリートの施工場所が制限されることなく、かつ、工期短縮及び打設コストの低減を図りながら、温度応力によるコンクリートのひび割れを防止することができるプレクーリングシステムを提供する。【解決手段】プレクーリングシステム30は、内部に流体を流通可能とする圧送管31と、コンクリートを圧送管31内に圧送する圧送ポンプ32と、環状の流路Ptを有し、流路Ptに沿って冷却流体を循環させる流体循環装置33とを備える。流体循環装置33は、圧送管31に対して冷却流体が熱伝達可能となるように設けられ、循環させた当該冷却流体にて圧送管31内に圧送されたコンクリートを冷却する。【選択図】図3

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    Title:

    PRECOOLING SYSTEM

    Additional title:

    プレクーリングシステム

    Contributors:

    ABE MASAAKI (author) / HAMAGUCHI KOICHI (author) / NISHIMURA AKIRA (author) / INAGAKI NAOSHIGE (author) / MATSUSHITA JUNICHI (author)

    Publication date:

    2017-08-10

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Japanese

    Classification:

    IPC:  E21D SHAFTS , Schächte / E04G SCAFFOLDING , Baugerüste

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