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    • 1. 发明专利
    • Construction method for placing granular or massive calcium-containing substance under water
    • 在水下放置颗粒或大量含钙物质的构造方法
    • JP2007154650A
    • 2007-06-21
    • JP2006303002
    • 2006-11-08
    • Jfe Steel KkJfeスチール株式会社
    • MIYATA YASUTOYABUTA KAZUYASUZUKI MISAOHONDA HIDEKIIKEDA MASABUMITAKAHASHI TATSUTO
    • E02B3/06
    • Y02A10/15
    • PROBLEM TO BE SOLVED: To provide a construction method for stably placing a granular or/and massive calcium-containing substance under water. SOLUTION: A material mainly composed of a granular or/and massive calcium-containing substance is put in a water permeable container, which is then placed in the sea water or fresh-water-mixed sea water to cause a shelllike film to grow on the surface of the material, the shelllike film being mainly composed of a deposit made of magnesium hydroxide or deposit made of magnesium hydroxide and calcium hydroxide. Preferably, following the growth of the shelllike film on the surface of the material in the container, at least the main portion of the container is caused to disappear due to composition or/and corrosion. Since the material in the container is covered with the shelllike film, the material can be placed stably under the water without allowing the material to flow out due to waves. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种将粒状或/或块状含钙物质稳定地放置在水下的施工方法。 解决方案:将主要由颗粒状或/或块状含钙物质组成的材料放入透水性容器中,然后将其放入海水或淡水混合海水中,形成壳状膜 在材料表面生长,壳状膜主要由氢氧化镁或氢氧化镁和氢氧化钙制成的沉积物构成。 优选地,在容器中的材料表面上生长壳状膜之后,至少容器的主要部分由于组成或/和腐蚀而消失。 由于容器中的材料被壳状膜覆盖,所以可以将材料稳定地放置在水下,而不会由于波浪而使材料流出。 版权所有(C)2007,JPO&INPIT
    • 2. 发明专利
    • Construction method for placing steel slag under water
    • 在水下放置钢渣的施工方法
    • JP2007154646A
    • 2007-06-21
    • JP2006242993
    • 2006-09-07
    • Jfe Steel KkJfeスチール株式会社
    • YABUTA KAZUYASUZUKI MISAOHONDA HIDEKIIKEDA MASABUMITAKAHASHI TATSUTOMIYATA YASUTO
    • E02B3/12E02D15/10
    • PROBLEM TO BE SOLVED: To provide a construction method by which steel slag can be placed stably under water to enable easy construction of an underwater structure having high stability against waves.
      SOLUTION: A material mainly composed of steel slag is put in a water permeable container, which is then placed under the water to cause the material in the container to set due to the hydraulic setting effect of the slag. Preferably, following the setting of the material in the container, at least the main portion of the container is caused to disappear due to decomposition or/and corrosion. Natural setting of the material in the container due to the hydraulic setting effect of the slag prevents the material from flowing out, which allows easy construction of an underwater structure, etc., having high stability against waves.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种可以将钢渣稳定地放置在水下的施工方法,从而能够容易地构造对波浪具有高稳定性的水下结构。

      解决方案:将主要由钢渣组成的材料放入透水性容器中,然后将其放置在水下,由于炉渣的液压固化效应而使容器中的材料凝固。 优选地,在容器中的材料的设置之后,至少容器的主要部分由于分解或/和腐蚀而消失。 由于炉渣的液压设定作用,容器内材料的自然设定防止材料流出,容易构造对波浪具有高稳定性的水下结构等。 版权所有(C)2007,JPO&INPIT

    • 3. 发明专利
    • Underwater structure and its manufacturing method
    • 水下结构及其制造方法
    • JP2006264045A
    • 2006-10-05
    • JP2005083918
    • 2005-03-23
    • Jfe Steel KkJfeスチール株式会社
    • SUZUKI MISAOTAKAHASHI TATSUTOIKEDA MASABUMI
    • B28B11/24A01K61/00B28B1/14B28B1/16B28B11/00
    • Y02A40/81Y02A40/838
    • PROBLEM TO BE SOLVED: To provide an underwater structure excellent in the adhesion of benthonic organisms and capable of being stably sedimented in water. SOLUTION: A hydrated solidified body 1 using uncured steel making slag as aggregate flows in a form 3. A block 2 comprising the carbonate solidified body of steel making slag is closely brought into contact with the surface of the hydrated solidified body 1 before the curing of the hydrated solidified body 1. The hydrated solidified body 1 and the block 2 are allowed to stand in this state until the hydrated solidified body 1 develops strength of a use state to strongly fix the hydrated solidified body 1 and the block 2 comprising the carbonate solidified body. The form 3 is detached and the underwater structure A composed of the hydrated solidified body 1 and the block 2 is sedimented on the bottom of the sea. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供底底生物的粘附性优异并且能够稳定地沉淀在水中的水下结构。 解决方案:使用未固化的炼钢渣作为骨料的水合凝固体1以3的形式流动。包含炼钢渣的碳酸盐凝固体的块2在水合凝固体1的表面之前紧密接触, 水化凝固体1的固化1.使水合固化体1和块2在该状态下静置直到水合凝固体1发挥使用状态的强度,以使水合凝固体1和块2包含 碳酸盐凝固体。 将形式3分开,由水合凝固体1和块体2组成的水下结构A沉淀在海底。 版权所有(C)2007,JPO&INPIT
    • 4. 发明专利
    • Method for developing shallows and the like
    • 发展沙丘和类似的方法
    • JP2006214085A
    • 2006-08-17
    • JP2005024855
    • 2005-02-01
    • Jfe Steel KkJfeスチール株式会社
    • MIYATA YASUTOTAKAHASHI TATSUTOARAI HISAMISUZUKI MISAOISOO NORIONUMATA TETSUSHI
    • E02B3/18
    • Y02A10/21
    • PROBLEM TO BE SOLVED: To develop the shallows and a tidal flat, where the environment suitable for the growth/living of living things is maintained over a long period of time, without causing the outflow of a land reclamation material such as dredged soil.
      SOLUTION: A submerged dyke for preventing the running out of the land reclamation material is constructed in such a manner as to surround a land-developing water area; an infilling layer of the dredged soil is formed inside the submerged dyke; and a sand covering layer, at least the uppermost part of which contains steel-making slag, is provided on the infilling layer. The infilling layer is stabilized by providing the sand covering layer composed of steel slag such as the steel-making slag. This can restrain the dredged soil from being exposed or washed away, can enhance stability against ocean waves by the sand covering layer containing the steel-making slag, and can suppress the generation of hydrogen sulfide in the filling layer and the elution of hydrogen sulfide from the infilling layer.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:发展浅滩和潮滩,适合生物生长的环境长时间保持,不会造成疏浚等土地开垦材料的流出 泥。 解决方案:用于防止土地开垦材料流出的淹没堤堤以围绕陆地开发水域的方式构造; 潜水堤坝内部形成有疏浚土填充层; 并且在填充层上设置砂层,其至少最上部含有炼钢渣。 通过提供由炼钢渣等钢渣构成的砂层,使填充层稳定。 这可以抑制疏浚土被暴露或冲洗掉,可以通过包含炼钢渣的砂层提高海浪的稳定性,并可以抑制填充层中硫化氢的产生和硫化氢的洗脱 填充层。 版权所有(C)2006,JPO&NCIPI
    • 5. 发明专利
    • Method for producing carbonated solidified material to be sunk and settled in water
    • 生产碳酸化固化材料的方法,用于生产和安装在水中
    • JP2005204655A
    • 2005-08-04
    • JP2004372085
    • 2004-12-22
    • Jfe Steel KkJfeスチール株式会社
    • MIYATA YASUTOTAKAHASHI TATSUTOWATANABE KEIJIARAI HISAMISUZUKI MISAO
    • A01K61/00C04B5/06C04B14/04C04B14/30C04B14/34C04B14/36C04B24/00C04B28/00C04B28/10C04B40/02
    • C04B28/10C04B2111/00758C04B2111/74C04B41/459
    • PROBLEM TO BE SOLVED: To provide a method for producing a carbonated solidified material which is obtained by agglomerating a noncarbonated Ca-containing raw material through carbonation reaction, capable of stably producing the carbonated solidified material from which a useful substance added thereto in production thereof is effectively dissolved into water when the material is sunk and settled in water.
      SOLUTION: This method for producing the carbonated solidified material comprises subjecting the noncarbonated Ca-containing raw material containing moisture to the carbonation reaction in the presence of carbon dioxide gas, so as to agglomerate the noncarbonated Ca-containing raw material and to form the raw material into the carbonated solidified material, and then impregnating the carbonated solidified material with a solution containing the useful substance which is expected to be dissolved into the water when the carbonated solidified material is sunk and settled in the water. The solution containing the useful substance is maintained in perforated air holes in the inside of the carbonated solidified material by action of surface tension, and dissolution of the substance into the outside of the carbonated solidified material is not prevented by CaCO
      3 , so that the useful substance is effectively dissolved into the water when the carbonated solidified material is sunk and settled in the water.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 待解决的问题:提供一种通过碳酸化反应使非碳酸化的含Ca原料凝聚而得到的碳酸化固化物的制造方法,能够稳定地制造添加有有机物的碳酸化固化物 当材料沉没并沉降在水中时,其生产有效地溶解在水中。 解决方案:用于生产碳酸化固化材料的方法包括在二氧化碳气体存在下使含有水分的含碳酸钙的原料进行碳酸化反应,以使非碳酸化的含Ca原料凝聚并形成 原料进入碳酸化固化材料中,然后用含有有机物质的溶液浸渍碳酸化固化物质,当碳酸化固化材料沉降在水中时,有用物质预期溶解在水中。 包含有用物质的溶液通过表面张力的作用保持在碳酸化固化材料内部的穿孔气孔中,并且物质进入碳酸化固化材料外部的溶解不能通过CaCO 3 / SB>,使得当碳酸化固化材料沉降并沉降在水中时,有用物质被有效地溶解在水中。 版权所有(C)2005,JPO&NCIPI
    • 6. 发明专利
    • Structure arranged on revetment and revetment structure
    • 结构安置与撤销结构
    • JP2009002155A
    • 2009-01-08
    • JP2008225247
    • 2008-09-02
    • Jfe Steel KkJfeスチール株式会社
    • ARAI HISAMISUZUKI MISAOTAKAHASHI TATSUTOTAKAGI MASATOKOGIKU FUMIOMATSUNAGA HISAHIRO
    • E02B3/14A01G33/00A01K61/00
    • Y02A40/81Y02A40/834
    • PROBLEM TO BE SOLVED: To provide a structure of an ecosystem building type, which is high in organism affinity, fit for growth and living of aquatic organisms, capable of settling the ecosystem to an extent equal to or higher than natural coastal rock reef, and contributes to environmental preservation in terms of bottom quality and water quality in waters, and to provide a revetment structure.
      SOLUTION: This structure is arranged on the revetment structure and forms a living field for aquatic organisms. The structure is a panel-like connection body 24 formed by connecting a plurality of lump bodies 23 to each other in a panel shape. The lump body 23 is formed of a carbon dioxide solidified body formed mainly of steel slag, a hydration hardened body formed mainly of steel slag, or a Ca-containing hydration hardened body having a carbon dioxide calcium coating layer at least on the outer surface.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种具有高生物亲和力的生态系统建筑类型的结构,适合水生生物的生长和生活,能够将生态系统稳定在等于或高于天然沿海岩石的程度 并在水域的底层质量和水质方面为环境保护做出贡献,并提供护岸结构。 解决方案:该结构安排在护岸结构上,形成水生生物的生活场所。 该结构是通过将多个块体23彼此连接成板状形成的板状连接体24。 块体23由主要由钢渣形成的二氧化碳凝固体,主要由钢渣形成的水合硬化体或至少在外表面具有二氧化碳钙涂层的含Ca的水合硬化体形成。 版权所有(C)2009,JPO&INPIT
    • 7. 发明专利
    • Method of constructing submerged breakwater and submerged breakwater
    • 构造潜水式破碎水和含水破碎水的方法
    • JP2007154651A
    • 2007-06-21
    • JP2006303003
    • 2006-11-08
    • Jfe Steel KkJfeスチール株式会社
    • HONDA HIDEKISUZUKI MISAOYABUTA KAZUYAMIYATA YASUTOTAKAHASHI TATSUTOIKEDA MASABUMI
    • E02B3/06
    • Y02A10/15
    • PROBLEM TO BE SOLVED: To construct, at low cost, a rigid submerged breakwater having high wave stability.
      SOLUTION: A breakwater structure in which at least the outer layer part is formed of a submerged breakwater material made mainly of granular or lump-shaped Ca-containing material is constructed by stacking the submerged breakwater materials on a water bottom in a seawater or brackish water area. A shell-like film formed mainly of the deposit of magnesium hydroxide or the deposit of magnesium hydroxide and calcium hydroxide is generated on the front layer of the breakwater structure. Since the submerged breakwater material made mainly of the granular or lump-shaped Ca-containing material is used, the submerged breakwater can be constructed at low cost. Since the breakwater structure is covered by the shell-like film, the submerged breakwater having high wave stability can be constructed.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:以低成本构建具有高波稳定性的刚性浸没防波堤。 解决方案:一种防波堤结构,其中至少外层部分由主要由粒状或块状含Ca材料制成的浸没防波堤材料形成,通过将浸没的防波堤材料堆叠在海底的水底上 或咸水区域。 在防波堤结构的前层产生主要由氢氧化镁沉积或氢氧化镁和氢氧化钙沉积物形成的壳状薄膜。 由于使用主要由颗粒状或块状的含Ca材料制成的浸没防波堤材料,所以可以低成本地构造淹没的防波堤。 由于防波堤结构被壳状薄膜覆盖,因此可以构建具有高波浪稳定性的淹没防波堤。 版权所有(C)2007,JPO&INPIT
    • 8. 发明专利
    • Method of constructing submerged breakwater and submerged breakwater
    • 构造潜水式破碎水和含水破碎水的方法
    • JP2007154647A
    • 2007-06-21
    • JP2006242994
    • 2006-09-07
    • Jfe Steel KkJfeスチール株式会社
    • SUZUKI MISAOHONDA HIDEKIYABUTA KAZUYAIKEDA MASABUMITAKAHASHI TATSUTOMIYATA YASUTO
    • E02B3/06
    • Y02A10/15
    • PROBLEM TO BE SOLVED: To construct, at low cost, a rigid submerged breakwater having high wave stability.
      SOLUTION: A breakwater structure in which at least the outer layer part is formed of a submerged breakwater material made mainly of steel slag is constructed by stacking the submerged breakwater materials on a water bottom. At least the outer layer part of the breakwater structure is solidified by the water hardening action of the slag. Since the submerged breakwater material made mainly of the steel slag is used, the submerged breakwater can be constructed at low cost. At least the outer layer part of the submerged breakwater is naturally solidified by the water hardening action of the slag, the submerged breakwater with high wave stability can be constructed.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:以低成本构建具有高波稳定性的刚性浸没防波堤。 解决方案:防水结构,其中至少外层部分由主要由钢渣制成的浸没防波堤材料形成,通过将浸没的防波堤材料堆叠在水底上而构成。 至少防波堤结构的外层部分通过炉渣的水硬化作用而固化。 由于采用主要由钢渣制成的浸没式防波堤材料,因此可以低成本构建淹没防波堤。 淹没防波堤的外层部分至少由炉渣的水硬化作用自然固化,可以构建具有高波浪稳定性的淹没防波堤。 版权所有(C)2007,JPO&INPIT
    • 9. 发明专利
    • Block for undersea installation
    • 块下方安装
    • JP2005278586A
    • 2005-10-13
    • JP2004101535
    • 2004-03-30
    • Jfe Steel KkJfeスチール株式会社
    • ARAI HISAMISUZUKI MISAOTAKAHASHI TATSUTOWATANABE KEIJI
    • A01K61/00
    • Y02A40/81Y02A40/838
    • PROBLEM TO BE SOLVED: To provide a block for undersea installation selectively suppressing adhesion/proliferation of sargasso and selectively promoting adhesion/proliferation of sea tangles.
      SOLUTION: This invention relates to the block for undersea installation comprising a carbonated solidified product obtained by solidifying a fine-grained non-carbonated Ca containing material through a carbonation reaction, wherein the block has 200 or more micro concaved sections with 300-700 μm diameter, and ≥300 μm depth per 25 cm square at least on top face. The adhesion/proliferation of sargasso are selectively suppressed by using the micro concaved sections on where the eggs of sargasso can not adhere.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了提供用于海底安装的块,选择性地抑制马斯巴偕的粘附/增殖并选择性地促进海缠结的粘附/增殖。 解决方案本发明涉及用于海底安装的块体,其包括通过碳酸化反应使细粒度非碳酸化的含Ca材料固化而获得的碳酸化固化产物,其中该块具有200个或更多个具有300- 至少在顶面上,直径为700μm,每25cm见方深度≥300μm。 通过使用马斯巴相蛋不能粘附的微小凹区来选择性地抑制马鞭草的粘附/增殖。 版权所有(C)2006,JPO&NCIPI
    • 10. 发明专利
    • Eco-system-constructing type sea structure
    • 生态系统构造类型海洋结构
    • JP2005245341A
    • 2005-09-15
    • JP2004061551
    • 2004-03-05
    • Jfe Steel KkJfeスチール株式会社
    • ARAI HISAMISUZUKI MISAOTAKAHASHI TATSUTO
    • A01K61/00
    • Y02A40/81Y02A40/834
    • PROBLEM TO BE SOLVED: To provide an eco-system-constructing type sea structure providing a suitable place for the growing and living of marine organisms, capable of fixing the eco-system equivalent to or higher than that in natural sea shore rocky reef part and also maintaining the environment of bottom quality and water quality.
      SOLUTION: This eco-system-constructing type sea structure is equipped with a supporting structural body 3 installed at the bottom of the sea and having in a plurality of shelf parts 30 in height direction, and ≥1 kind of a functional member 4 selected from lump-formed steel slag, carbonate solid consisting mainly of the steel slag and hydration-cured material consisting mainly of the steel slag, arranged at each of the shelf parts 30 of the supporting structural body 3, and preferably is constituted so as to lay a water-granulated blast furnace slag layer 2 on the sea bottom where the supporting structural body 3 is installed.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一个生态系统建设型海洋结构,为海洋生物的生长和生活提供适当的地方,能够固定与天然海岸岩石相当或更高的生态系统 还要保持底层质量和水质环境。 解决方案:该生态系统构造型海水结构配备有安装在海底的支撑结构体3,并且在高度方向上具有多个搁架部30,并且在功能构件中具有≥1种 4个选自块状钢渣,主要由钢渣组成的碳酸盐固体和主要由钢渣组成的水合固化材料,布置在支撑结构体3的每个搁板部分30处,优选构成为 在安装支撑结构体3的海底上铺设水粒状高炉矿渣层2。 版权所有(C)2005,JPO&NCIPI