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    HEATING FURNACE TRANSPORT MEMBER

    New search for: MURASAKA KAZUYA
    New search for: KANDA TAKEYUKI
    New search for: UEHARA TAKANORI
    New search for: UEDA HIROTOSHI
    New search for: ISHIKAWA HIROAKI

    PROBLEM TO BE SOLVED: To provide a heating furnace transport member high in heat deformation resistance and thermal shock resistance.SOLUTION: A heating furnace transport roller 10 is configured so that a metallic pipe 68 higher in thermal shock resistance and corrosion resistance than a ceramic pipe 70 and the ceramic pipe 70 located inward of the metallic pipe 68 and higher in heat deformation resistance than the metallic pipe 68 are integrally superimposed via a heat-resistant adiabatic material 72. With this configuration, the heat-resistant adiabatic material 72 can suppress the transmission of thermal shock generated in the metallic pipe 68 higher in thermal shock resistance than the ceramic pipe 70 to the ceramic pipe 70 due to support of a heating target material 20, so that it is possible to prevent damage of the ceramic pipe 70 due to the thermal shock. As a result, the ceramic pipe 70 higher in heat deformation resistance than the metallic pipe 68 acts as a core material for the metallic pipe 68, so that it is possible to provide the heating furnace transport roller 10 high in heat deformation resistance, corrosion resistance, and thermal shock resistance.

    【課題】耐熱変形性且つ耐熱衝撃性が高い加熱炉用搬送部材を提供する。【解決手段】加熱炉用搬送ローラー10は、セラミックス管70よりも耐熱衝撃性、耐腐食性の高い金属管68と金属管68の内側に位置して、金属管68よりも耐熱変形性の高いセラミックス管70とが、耐熱性断熱材72を介して一体的に重ねられることで構成されているため、被加熱物20を支持することによりセラミックス管70よりも耐熱衝撃性の高い金属管68に生じた熱衝撃のセラミックス管70への伝達は耐熱性断熱材72によって抑制されることから、セラミックス管70の熱衝撃による破損が妨げられる。これにより、金属管68よりも耐熱変形性の高いセラミックス管70は金属管68の芯材として機能しうるため、耐熱変形性、耐腐食性、耐熱衝撃性が高い加熱炉用搬送ローラー10を提供することができる。【選択図】図3

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    HEATING FURNACE TRANSPORT MEMBER

    New search for: MURASAKA KAZUYA
    New search for: KANDA TAKEYUKI
    New search for: UEHARA TAKANORI
    New search for: UEDA HIROTOSHI
    New search for: ISHIKAWA HIROAKI

    PROBLEM TO BE SOLVED: To provide a heating furnace transport member high in heat deformation resistance and thermal shock resistance.SOLUTION: A heating furnace transport roller 10 is configured so that a metallic pipe 68 higher in thermal shock resistance and corrosion resistance than a ceramic pipe 70 and the ceramic pipe 70 located inward of the metallic pipe 68 and higher in heat deformation resistance than the metallic pipe 68 are integrally superimposed via a heat-resistant adiabatic material 72. With this configuration, the heat-resistant adiabatic material 72 can suppress the transmission of thermal shock generated in the metallic pipe 68 higher in thermal shock resistance than the ceramic pipe 70 to the ceramic pipe 70 due to support of a heating target material 20, so that it is possible to prevent damage of the ceramic pipe 70 due to the thermal shock. As a result, the ceramic pipe 70 higher in heat deformation resistance than the metallic pipe 68 acts as a core material for the metallic pipe 68, so that it is possible to provide the heating furnace transport roller 10 high in heat deformation resistance, corrosion resistance, and thermal shock resistance.

    【課題】耐熱変形性且つ耐熱衝撃性が高い加熱炉用搬送部材を提供する。【解決手段】加熱炉用搬送ローラー10は、セラミックス管70よりも耐熱衝撃性、耐腐食性の高い金属管68と金属管68の内側に位置して、金属管68よりも耐熱変形性の高いセラミックス管70とが、耐熱性断熱材72を介して一体的に重ねられることで構成されているため、被加熱物20を支持することによりセラミックス管70よりも耐熱衝撃性の高い金属管68に生じた熱衝撃のセラミックス管70への伝達は耐熱性断熱材72によって抑制されることから、セラミックス管70の熱衝撃による破損が妨げられる。これにより、金属管68よりも耐熱変形性の高いセラミックス管70は金属管68の芯材として機能しうるため、耐熱変形性、耐腐食性、耐熱衝撃性が高い加熱炉用搬送ローラー10を提供することができる。【選択図】図3

    Access

    Download

    HEATING FURNACE TRANSPORT MEMBER

    New search for: MURASAKA KAZUYA
    New search for: KANDA TAKEYUKI
    New search for: UEHARA TAKANORI
    New search for: UEDA HIROTOSHI
    New search for: ISHIKAWA HIROAKI

    PROBLEM TO BE SOLVED: To provide a heating furnace transport member high in heat deformation resistance and thermal shock resistance.SOLUTION: A heating furnace transport roller 10 is configured so that a metallic pipe 68 higher in thermal shock resistance and corrosion resistance than a ceramic pipe 70 and the ceramic pipe 70 located inward of the metallic pipe 68 and higher in heat deformation resistance than the metallic pipe 68 are integrally superimposed via a heat-resistant adiabatic material 72. With this configuration, the heat-resistant adiabatic material 72 can suppress the transmission of thermal shock generated in the metallic pipe 68 higher in thermal shock resistance than the ceramic pipe 70 to the ceramic pipe 70 due to support of a heating target material 20, so that it is possible to prevent damage of the ceramic pipe 70 due to the thermal shock. As a result, the ceramic pipe 70 higher in heat deformation resistance than the metallic pipe 68 acts as a core material for the metallic pipe 68, so that it is possible to provide the heating furnace transport roller 10 high in heat deformation resistance, corrosion resistance, and thermal shock resistance.

    【課題】耐熱変形性且つ耐熱衝撃性が高い加熱炉用搬送部材を提供する。【解決手段】加熱炉用搬送ローラー10は、セラミックス管70よりも耐熱衝撃性、耐腐食性の高い金属管68と金属管68の内側に位置して、金属管68よりも耐熱変形性の高いセラミックス管70とが、耐熱性断熱材72を介して一体的に重ねられることで構成されているため、被加熱物20を支持することによりセラミックス管70よりも耐熱衝撃性の高い金属管68に生じた熱衝撃のセラミックス管70への伝達は耐熱性断熱材72によって抑制されることから、セラミックス管70の熱衝撃による破損が妨げられる。これにより、金属管68よりも耐熱変形性の高いセラミックス管70は金属管68の芯材として機能しうるため、耐熱変形性、耐腐食性、耐熱衝撃性が高い加熱炉用搬送ローラー10を提供することができる。【選択図】図3

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    Title:

    HEATING FURNACE TRANSPORT MEMBER

    Additional title:

    加熱炉用搬送部材

    Contributors:

    MURASAKA KAZUYA (author) / KANDA TAKEYUKI (author) / UEHARA TAKANORI (author) / UEDA HIROTOSHI (author) / ISHIKAWA HIROAKI (author)

    Publication date:

    2015-07-09

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Japanese

    Classification:

    IPC:  F27B Industrieöfen, Schachtöfen, Brennöfen, Retorten allgemein , FURNACES, KILNS, OVENS, OR RETORTS IN GENERAL / B65G TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS , Transport- oder Lagervorrichtungen, z.B. Förderer zum Laden oder Abladen / C04B Kalk , LIME / C21D Veränderung der physikalischen Struktur von Eisenmetallen , MODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS

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