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    • 2. 发明专利
    • Continuous wall construction method
    • 连续墙施工方法
    • JP2005105727A
    • 2005-04-21
    • JP2003342877
    • 2003-10-01
    • Chem Grouting Co LtdTokyo Kizai Kogyo Kkケミカルグラウト株式会社東京機材工業株式会社
    • SHIBAZAKI MITSUHIROYOSHIDA HIROSHITANAKA TATSUOUEMURA KANENOSUKEIWASHITA MIKI
    • E02F5/02E02D5/18E02D5/20
    • PROBLEM TO BE SOLVED: To provide a continuous wall construction method for building a good continuous wall by allowing the cutting of concrete end faces for accurate and good joint between a concrete placed in a preceding drilled groove and a concrete placed in a following drilled groove.
      SOLUTION: The continuous wall construction method comprises a step of using a drilling means B for drilling (Fig.2, not illustrated), a step of using the drilling means B for gripping a removal mounting means A having a removing means for removing sediment C and deteriorating concrete Cf (Fig.3, not illustrated), and a step of inserting the drilling means B gripping the removal mounting means A into the following drilled groove H2 for removing the sediment G and the deteriorating concrete Cf with the removing means D, N of the removal mounting means A (Fig.4, not illustrated).
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种连续的墙面施工方法,用于通过允许切割混凝土端面以在放置在先前钻孔中的混凝土和放置在以下的混凝土中的混凝土之间进行精确和良好的接合来建造良好的连续壁 钻槽

      解决方案:连续壁施工方法包括使用钻孔装置B进行钻孔的步骤(图2,未示出),使用钻孔装置B夹持移除装置A的步骤, 除去沉淀物C和劣化混凝土Cf(图3,未示出),以及将夹持拆卸安装装置A的钻孔装置B插入随后的钻孔H2中以除去沉淀物G和劣化混凝土Cf的步骤, 表示去除安装装置A的D,N(图4,未示出)。 版权所有(C)2005,JPO&NCIPI

    • 5. 发明专利
    • Ground improvement method
    • 地面改良方法
    • JP2003055954A
    • 2003-02-26
    • JP2001248539
    • 2001-08-20
    • Chem Grouting Co Ltdケミカルグラウト株式会社
    • KIKUCHI TAKAAKISHIBAZAKI MITSUHIRO
    • E02D3/12E02D5/80
    • PROBLEM TO BE SOLVED: To provide a ground improvement method for soft ground capable of setting an anchor in soft ground and improving the ground or preventing the liquefaction of the ground.
      SOLUTION: This method comprises a process for inserting a pipe 2 having an expansible anchor 1 set at the tip to a scheduled depth T of ground G; a process for filling a solidifier M into the anchor 1 at the tip through a solidifier passage 21 in the pipe 2 to expand the anchor 1; a process for filling the solidifier M to an expansible member 3 provided in an optional position of the middle of the pipe 2 through the solidifier passage 21 to expand the expansible member 3 in the middle of the pipe 2; and a process for injecting the solidifier M passing through the solidifier passage 21 into the ground G through an injection port 4 provided in an optional position of the middle of the pipe 2.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:为软土地基提供一种地基改良方法,可以将锚固在软土地上,改善地面或防止地面液化。 解决方案:该方法包括将具有设置在尖端处的可膨胀锚固件1的管道2插入到地面G的预定深度T的过程; 通过管2中的固化器通道21将尖端处的固化物M填充到锚固体1中以使锚固体1膨胀的过程; 将凝固器M填充到通过固化器通路21设置在管2的中间的任选位置的可膨胀构件3的过程,以使管2的中间的可膨胀构件3膨胀; 以及通过设置在管2的中间的可选位置的注入口4将通过固化器通路21的凝固器M注入地面G的工序。
    • 6. 发明专利
    • Method and apparatus for treating volatile organic compound using iron oxide
    • 用氧化铁处理挥发性有机化合物的方法和装置
    • JP2005137993A
    • 2005-06-02
    • JP2003375391
    • 2003-11-05
    • Chem Grouting Co Ltdケミカルグラウト株式会社
    • SUDO YASUICHIUESAWA SUSUMUSHIBAZAKI MITSUHIROYOSHIDA HIROSHI
    • E02D3/10B09C1/02B09C1/08C02F1/28C02F1/70
    • PROBLEM TO BE SOLVED: To provide a pollutant removing method capable of effectively and continuously removing VOC (volatile organic compound) being the pollutant in soil in relatively large quantities using iron oxide, and a pollutant removing apparatus.
      SOLUTION: In this treatment method of a volatile organic compound using iron oxide, a polluted region (D) with a pollutant under ground water (L) is preliminarily inspected (for example, by boring or the like) and a plurality of injection wells (Wa) are excavated in the periphery of the polluted region (D) up to the depth of the polluted region (D) while at least one water pumping-up well (Wb) is excavated in the polluted region (D) up to the depth of the polluted region (D) and a water channel (F) is formed in the polluted region (D) by injecting water (muddy water) in the polluted region (D) from the injection wells (Wa) and pumping up water from the water pumping-up well (Wb). Subsequently, iron oxide-mixed water is injected from the injection wells (Wa) while water is pumped up from the water pumping-up well (Wb) to fill the polluted region (D) with the iron oxide-mixed water to purify a volatile organic compound of the polluted region (D).
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种污染物去除方法,其能够使用氧化铁以相对大量有效且连续地除去作为污染物的污染物的挥发性有机化合物(挥发性有机化合物)和污染物去除装置。 解决方案:在使用氧化铁的挥发性有机化合物的处理方法中,预先检查(例如通过镗孔等)在地下水(L)下具有污染物的污染区域(D)和多个 在污染区域(D)的外围,在污染区域(D)的深处挖掘注入井(Wa),同时在污染区域(D)中挖掘至少一个抽水井(Wb) 到污染区域(D)的深度,并且在污染区域(D)中通过从注入井(Wa)中注入污染区域(D)中的水(泥浆水)并泵送而形成水通道(F) 水从抽水井(Wb)。 随后,从注入井(Wa)注入氧化铁混合水,同时从排水井(Wb)中泵出水,用氧化铁混合水填充污染区域(D),以净化挥发性 污染区域的有机化合物(D)。 版权所有(C)2005,JPO&NCIPI
    • 8. 发明专利
    • Non-circular graph deciding method and device
    • JP2004070613A
    • 2004-03-04
    • JP2002228113
    • 2002-08-06
    • Chem Grouting Co Ltdケミカルグラウト株式会社
    • SHIBAZAKI MITSUHIRO
    • E21B3/00E02D3/12G06T11/20
    • PROBLEM TO BE SOLVED: To provide a method for simulating, plotting, and verifying the creation of a graphic by a creating means for deciding the various origins of a graphic so that a plurality of adjacent graphics expressed with closed curves can be provided with complementation. SOLUTION: A segment with predetermined length "L" having one end on a revolving orbit with a predetermined radius "r" from a graphic center (S) is rotated with one end on the orbit as the center of rotation, and revolved at the angle of rotation which is three times as large to a direction opposite to the rotating direction, and revolved three times so that a graphic expressed with a closed curve constituted of an orbit plotted by the other edge of the segment can be obtained as a first graph (H1). Then, an orbital circle radius "r 1 " and a rate "η 1 " of the radius "r 1 " and the segment length "L 1 " are decided, and an inter-center distance "s" of adjacent graphics (H1, H2) is calculated. Then, an orbital circle radius "r 2 " of the second graphic (H2) having complementation with the first graphic (H1) and a rate"η 2 " of the radius "r 2 " and segment length "L 2 " are calculated. The first and second graphics (H1, H2) are plotted on one picture plane, and the complementation of those graphics is decided from the plotted picture plane so that the various origins of the graphics can be decided. COPYRIGHT: (C)2004,JPO