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    EPS EPS METHOD OF PRODUCING REINFORCED EPS HEAT INSULATOR AND REINFORCED EPS HEAT INSULATOR AND REINFORCEMENT-ATTACHED HEAT INSULATOR PANEL USING THEREOF

    Neue Suche nach: HARADA MITSUHIRO
    Neue Suche nach: ABE YASUYUKI
    Neue Suche nach: INADA NORIO
    Neue Suche nach: KAMIBAYASHI HIDEFUMI
    Neue Suche nach: TATEWAKI SUGURU

    The present invention relates to a production method of a reinforced EPS heat insulator used in reinforcer-attached heat-insulating panels, having structural strength sufficient to withstand natural disasters such as earthquakes. Beads of starting material, non-uniformly distributed according to particle size in the range from 0.71 to 2.83 mm, are pre-foamed to produce pre-foamed particles. Subsequently, the pre-foamed particles are filled inside a mold of a block-molding device (S1), and foamed again under steam pressure (0.3 to 0.35 kgf/cm^2), at which the beads of starting material having a uniform particle size form an EPS block having a degree of fusion around 10%, to produce a reinforced EPS block having a high degree of fusion (S3-S5). The produced reinforced EPS block is cut into a reinforced EPS-insulator having a selected thickness (S7).

    본 발명은 지진 등의 자연 재해에 견딜 수 있는 구조적인 강도를 갖는 보강재 부착 단열 패널에 사용되는 강화 EPS 단열재의 제조 방법에 관한 것이다. 먼저, 입자 크기 분포가 0.71 ~ 2.83 ㎜의 불균일 원료 비즈를 예비 발포시켜, 예비 발포 입자를 형성한다. 다음으로, 예비 발포 입자를 블록 성형기의 금형 내로 충전시키고(S1), 원료 비즈 입자 크기가 균일한 경우에 약 10%의 융착을 갖는 EPS 블록이 형성되는 수증기의 압력(0.3 ~ 0.35 kgf/cm)에서 예비 발포 입자를 재발포시켜 고융착율의 강화 EPS 블록을 제조한다(S3 ~ S5). 제조된 강화 EPS 블록을 소정 두께의 강화 EPS 단열재로 절단한다(S7).

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    EPS EPS METHOD OF PRODUCING REINFORCED EPS HEAT INSULATOR AND REINFORCED EPS HEAT INSULATOR AND REINFORCEMENT-ATTACHED HEAT INSULATOR PANEL USING THEREOF

    Neue Suche nach: HARADA MITSUHIRO
    Neue Suche nach: ABE YASUYUKI
    Neue Suche nach: INADA NORIO
    Neue Suche nach: KAMIBAYASHI HIDEFUMI
    Neue Suche nach: TATEWAKI SUGURU

    The present invention relates to a production method of a reinforced EPS heat insulator used in reinforcer-attached heat-insulating panels, having structural strength sufficient to withstand natural disasters such as earthquakes. Beads of starting material, non-uniformly distributed according to particle size in the range from 0.71 to 2.83 mm, are pre-foamed to produce pre-foamed particles. Subsequently, the pre-foamed particles are filled inside a mold of a block-molding device (S1), and foamed again under steam pressure (0.3 to 0.35 kgf/cm^2), at which the beads of starting material having a uniform particle size form an EPS block having a degree of fusion around 10%, to produce a reinforced EPS block having a high degree of fusion (S3-S5). The produced reinforced EPS block is cut into a reinforced EPS-insulator having a selected thickness (S7).

    본 발명은 지진 등의 자연 재해에 견딜 수 있는 구조적인 강도를 갖는 보강재 부착 단열 패널에 사용되는 강화 EPS 단열재의 제조 방법에 관한 것이다. 먼저, 입자 크기 분포가 0.71 ~ 2.83 ㎜의 불균일 원료 비즈를 예비 발포시켜, 예비 발포 입자를 형성한다. 다음으로, 예비 발포 입자를 블록 성형기의 금형 내로 충전시키고(S1), 원료 비즈 입자 크기가 균일한 경우에 약 10%의 융착을 갖는 EPS 블록이 형성되는 수증기의 압력(0.3 ~ 0.35 kgf/cm)에서 예비 발포 입자를 재발포시켜 고융착율의 강화 EPS 블록을 제조한다(S3 ~ S5). 제조된 강화 EPS 블록을 소정 두께의 강화 EPS 단열재로 절단한다(S7).

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    EPS EPS METHOD OF PRODUCING REINFORCED EPS HEAT INSULATOR AND REINFORCED EPS HEAT INSULATOR AND REINFORCEMENT-ATTACHED HEAT INSULATOR PANEL USING THEREOF

    Neue Suche nach: HARADA MITSUHIRO
    Neue Suche nach: ABE YASUYUKI
    Neue Suche nach: INADA NORIO
    Neue Suche nach: KAMIBAYASHI HIDEFUMI
    Neue Suche nach: TATEWAKI SUGURU

    The present invention relates to a production method of a reinforced EPS heat insulator used in reinforcer-attached heat-insulating panels, having structural strength sufficient to withstand natural disasters such as earthquakes. Beads of starting material, non-uniformly distributed according to particle size in the range from 0.71 to 2.83 mm, are pre-foamed to produce pre-foamed particles. Subsequently, the pre-foamed particles are filled inside a mold of a block-molding device (S1), and foamed again under steam pressure (0.3 to 0.35 kgf/cm^2), at which the beads of starting material having a uniform particle size form an EPS block having a degree of fusion around 10%, to produce a reinforced EPS block having a high degree of fusion (S3-S5). The produced reinforced EPS block is cut into a reinforced EPS-insulator having a selected thickness (S7).

    본 발명은 지진 등의 자연 재해에 견딜 수 있는 구조적인 강도를 갖는 보강재 부착 단열 패널에 사용되는 강화 EPS 단열재의 제조 방법에 관한 것이다. 먼저, 입자 크기 분포가 0.71 ~ 2.83 ㎜의 불균일 원료 비즈를 예비 발포시켜, 예비 발포 입자를 형성한다. 다음으로, 예비 발포 입자를 블록 성형기의 금형 내로 충전시키고(S1), 원료 비즈 입자 크기가 균일한 경우에 약 10%의 융착을 갖는 EPS 블록이 형성되는 수증기의 압력(0.3 ~ 0.35 kgf/cm)에서 예비 발포 입자를 재발포시켜 고융착율의 강화 EPS 블록을 제조한다(S3 ~ S5). 제조된 강화 EPS 블록을 소정 두께의 강화 EPS 단열재로 절단한다(S7).

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    Titel:

    EPS EPS METHOD OF PRODUCING REINFORCED EPS HEAT INSULATOR AND REINFORCED EPS HEAT INSULATOR AND REINFORCEMENT-ATTACHED HEAT INSULATOR PANEL USING THEREOF

    Weitere Titelangaben:

    강화 EPS 단열재의 제조방법, 강화 EPS 단열재 및 이를 이용한 보강재 부착 단열 패널

    Beteiligte:

    HARADA MITSUHIRO (Autor:in) / ABE YASUYUKI (Autor:in) / INADA NORIO (Autor:in) / KAMIBAYASHI HIDEFUMI (Autor:in) / TATEWAKI SUGURU (Autor:in)

    Erscheinungsdatum:

    10.10.2016

    Medientyp:

    Patent

    Format:

    Elektronische Ressource

    Sprache:

    Koreanisch

    Klassifikation:

    IPC:  B29C Formen oder Verbinden von Kunststoffen , SHAPING OR JOINING OF PLASTICS / B29K Index-Schema für Formmassen oder Materialien für Verstärkungen, Füllstoffe oder vorgeformte Teile, z.B. Einlagen in Verbindung mit den Unterklassen B29B, B29C oder B29D , INDEXING SCHEME ASSOCIATED WITH SUBCLASSES B29B, B29C OR B29D, RELATING TO MOULDING MATERIALS OR TO MATERIALS FOR REINFORCEMENTS, FILLERS OR PREFORMED PARTS, e.g. INSERTS / E04B Allgemeine Baukonstruktionen , GENERAL BUILDING CONSTRUCTIONS / F16L PIPES , Rohre

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