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    • 1. 发明专利
    • Joint structure of panel for repairing hydraulic structure
    • 用于修复液压结构的面板接头结构
    • JP2009221737A
    • 2009-10-01
    • JP2008067094
    • 2008-03-17
    • Geostr CorpKajima Corpジオスター株式会社鹿島建設株式会社
    • WATANABE ARIHISAONO TOSHIOMATSUBARA KOMEIHONDA TOMOAKIYAMANISHI HARUOHANADA NORIAKIMAKINO SHINICHINAKATANI IKUOYOKOO AKIHIKO
    • E02B5/02
    • PROBLEM TO BE SOLVED: To provide a joint structure of a panel, which can enhance the construction speed, construction accuracy, cut-off property, etc. of the panel in an installation method for the precast concrete panel for being installed in a flood control structure of a waterway etc. and a hydraulic concrete structure etc. of a river etc. SOLUTION: This joint structure, in which end surfaces of the precast concrete panels 10 for being stuck on a wall surface and a bottom surface are joined together through or without the medium of a cut-off material 11, employs a lap structure in which engaging portions 12 of uneven cross sections formed on the end surfaces of the panels are engaged with each other by means of an almost L-shaped protrusion 12a etc., so as to overlap each other, and employs a hinge structure which allows the thickness-direction turning of the panel by the cross-sectional shape of the uneven surface of the engaging portion 12. Panel installation operations are facilitated; panel-joint-direction displacement and panel-thickness-direction displacement caused by the irregularities of the wall surface etc. and the unevenness of a curved section etc. can be absorbed; and the cut-off property of a long cut-off material can be enhanced. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种面板的接头结构,其可以在预制混凝土面板的安装方法中提高面板的施工速度,施工精度,切断性等 水路等的防洪结构和河流的水力混凝土结构等。解决方案:该接合结构,其中预制混凝土板10的端面粘附在壁表面和底部 表面通过或不通过切断材料11的介质连接在一起,采用搭接结构,其中形成在板的端面上的不平坦横截面的接合部分12通过几乎L- 形状突起12a等,以便彼此重叠,并且采用允许面板的厚度方向转动由接合部分12的不平坦表面的横截面形状的铰链结构。面板安装操作是 促成 可以吸收由壁面等的不规则性引起的面板关节方向位移和面板厚度方向位移等弯曲部的凹凸等。 并且可以提高长截止材料的截止性能。 版权所有(C)2010,JPO&INPIT
    • 3. 发明专利
    • Cooling method of concrete structure
    • 混凝土结构冷却方法
    • JP2013159905A
    • 2013-08-19
    • JP2012020115
    • 2012-02-01
    • Kajima Corp鹿島建設株式会社
    • NUKUSHINA TATSUYAWATANABE KENZOYANAI SHUJIKUMABE ATSUSHIWATANABE ARIHISASAKATA NOBORUSAITO KIMIOSAKAI DAISUKE
    • E01D19/02E01D21/00E04G21/02
    • PROBLEM TO BE SOLVED: To provide a cooling method for constructing a concrete structure having a fixed height.SOLUTION: In a first installation step for a first lift, a first positioning pipe 13 is arranged at a position apart from the opening 12a of a first cooling pipe 12 in the cross direction. In a second installation step for a second lift, the first positioning pipe 13 is connected to the lower end of a second cooling pipe 22. The first cooling pipe 12 and the second cooling pipe 22 are thus independently arranged, each having a short length. The first cooling pipe 12 is filled with cement material to be supplied into a second form 21 through the top face of the cured cement material of the first lift. The first cooling pipe 12 is thus filled with cement material which is not directly fallen to the lower end of the first cooling pipe 12.
    • 要解决的问题:提供一种用于构造具有固定高度的混凝土结构的冷却方法。解决方案:在第一提升的第一安装步骤中,第一定位管13布置在离开第一 冷却管12在横向上。 在第二提升的第二安装步骤中,第一定位管13连接到第二冷却管22的下端。因此,第一冷却管12和第二冷却管22独立地布置,每个具有短的长度。 第一冷却管12填充有水泥材料,以通过第一升降机的固化的水泥材料的顶面供应到第二形式21。 因此,第一冷却管12填充有不直接落入第一冷却管12的下端的水泥材料。
    • 5. 发明专利
    • Method for repairing hydraulic structure
    • 修复液压结构的方法
    • JP2009155942A
    • 2009-07-16
    • JP2007336465
    • 2007-12-27
    • Kajima Corp鹿島建設株式会社
    • MATSUBARA KOMEIONO TOSHIOHONDA TOMOAKIWATANABE ARIHISA
    • E02B5/02E02B3/12
    • PROBLEM TO BE SOLVED: To provide a method for repairing a hydraulic structure which can realize stable and excellent adhesive strength.
      SOLUTION: In the repairing method where a precast concrete panel is installed on the surface of a concrete skeleton of a hydraulic structure through a gap and a filler is injected into the gap to integrate the concrete skeleton and the panel, as the filler, a cement-based filler containing 0.002-0.02 parts by mass of Al powder based on 100 parts by mass of cement, and, if necessary, 0.3-1.5 parts by mass of an underwater nonseparative admixture based on 100 parts by mass of water is used. A filler which has a water to cement ratio of 35-60%, and of which the mortar flow is adjusted to 300±50 mm is preferably used.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种能够实现稳定且优异的粘合强度的液压结构的修复方法。 解决方案:在通过间隙将水泥结构体的混凝土骨架的表面上安装有预制混凝土面板并将填料注入到间隙中以将混凝土骨架和面板整合为一体的修补方法中,作为填料 基于100质量份的水泥,含有0.002〜0.02质量份的Al粉末的水泥基填料,根据需要,相对于100质量份的水,根据需要,0.3〜1.5质量份的水下非分散性混合物, 用过的。 优选使用水与水泥比为35〜60%,砂浆流量调整为300±50mm的填料。 版权所有(C)2009,JPO&INPIT
    • 6. 发明专利
    • Concrete compaction trace system
    • 混凝土跟踪系统
    • JP2014152591A
    • 2014-08-25
    • JP2013026345
    • 2013-02-14
    • Kajima Corp鹿島建設株式会社
    • NUKUSHINA TATSUYAWATANABE KENZOYANAI SHUJIKUMABE ATSUSHIWATANABE ARIHISASAKATA NOBORU
    • E04G21/08G01C15/00
    • PROBLEM TO BE SOLVED: To provide a system capable of specifying an insertion position of a compaction machine for a proper compaction time, while rotating a PDCA cycle based on data on a compaction position/a compaction time/an insertion interval/a placing position of an improper place, by easily and surely inspecting a concrete surface after frame separation, even in placing work of general concrete by using a vibrator.SOLUTION: The vibrator is provided with a recorder having a GPS device as position information detection means, and when starting compaction in a place for compacting for a specific time, a recording button on the recorder is turned on, and when moving to the other compaction place after finishing the compaction, the recording button is turned off, and time up to OFF from ON is recorded as a compaction time, and the GPS device is provided in a tip position of a concrete placing hose, and ON-OFF of the GPS device is interlocked with a concrete discharge button of a pump vehicle operating remote controller, and a concrete placing position is recorded on a placement recording drawing together with a compaction position.
    • 要解决的问题:提供一种能够指定压实机的适当压实时间的插入位置的系统,同时基于压缩位置/压实时间/插入间隔/放置位置的数据旋转PDCA循环 一个不正确的地方,即使在使用振动器进行一般混凝土的布置工作之后,也可以在框架分离后容易且可靠地检查混凝土表面。解决方案:振动器设有一个具有GPS装置的记录器作为位置信息检测装置,当起动时 在特定时间压缩的地方压实,记录器上的记录按钮被打开,并且当完成压缩之后移动到另一个压实位置时,记录按钮被关闭,并且记录从ON开始的时间到OFF 作为压实时间,将GPS装置设置在混凝土放置软管的顶端位置,GPS装置的开关与泵的混凝土排出按钮联动 车辆操作遥控器和混凝土放置位置与压实位置一起记录在放置记录图上。
    • 7. 发明专利
    • Quality evaluation method for concrete structure
    • 混凝土结构质量评估方法
    • JP2013238415A
    • 2013-11-28
    • JP2012109567
    • 2012-05-11
    • Kajima Corp鹿島建設株式会社
    • WATANABE ARIHISAYANAI SHUJIWATANABE KENZOKUMABE ATSUSHINUKUSHINA TATSUYA
    • G01N29/00G01N33/38
    • PROBLEM TO BE SOLVED: To provide a quality evaluation method for a concrete structure that does not impair its beauty, that can perform evaluation at the same position repeatedly, that can directly evaluate a cover portion (between a surface and a reinforcement), that does not unnecessarily open a hole having a small diameter, and that does not require extra repair work of filling of mortar.SOLUTION: Nondestructive/micro-destructive inspections are performed on a concrete structure 2 by utilizing a plastic cone hole 9 generated on a skeleton surface of the concrete structure 2. A micro-destructive inspection is performed in the plastic cone hole 9 using a small-diameter core or a drill 10. Alternatively, an air permeability test and a percolation test are performed.
    • 要解决的问题:为了提供不影响其美观的混凝土结构的质量评价方法,其可以在相同位置反复进行评价,能够直接评估覆盖部分(表面和加强件之间) 不必要地打开具有小直径的孔,并且不需要额外的填充砂浆的修复工作。解决方案:通过利用在骨架表面上产生的塑料锥孔9对混凝土结构2进行非破坏性/微破坏性检查 的混凝土结构2.使用小直径芯或钻头10在塑料锥孔9中进行微破坏性检查。或者,进行透气性试验和渗滤试验。
    • 8. 发明专利
    • Self-compacting cement-based kneaded material having excellent inseparability in water at high temperature and method for producing the same
    • 在高温下在水中具有优异的不可渗透性的基于水泥的水泥基材料及其生产方法
    • JP2013147409A
    • 2013-08-01
    • JP2012011547
    • 2012-01-23
    • Kajima Corp鹿島建設株式会社
    • WATANABE ARIHISAYANAI SHUJISAKATA NOBORU
    • C04B28/02C04B24/26C04B111/74E02D15/06
    • PROBLEM TO BE SOLVED: To provide a self-compacting cement-based kneaded material which is excellent in inseparability in water at a high temperature such as 45°C or higher.SOLUTION: A self-compacting cement-based kneaded material, which is excellent in inseparability in water at a high temperature, is a cement-based kneaded material made by kneading cement, water, aggregate and an admixture. In this case, the material concerned contains, as the admixture, 2.0-10.0 pts.mass of AMPS (acrylamide-2-methylpropane sulfonic acid)polymer to 100 pts.mass of the water and at least 0.1 pt.mass of a water-reducing agent to 100 pts.mass of the cement, wherein the following formula is satisfied: Y≤1.5X-2, wherein X represents the content of AMPS polymer (pts.mass to 100 pts.mass of the water), and Y represents the content of water-reducing agent (pt.mass to 100 pts.mass of the cement).
    • 要解决的问题:提供一种在45℃或更高的高温下在水中不可分离性优异的自密实的水泥基捏合物。溶液:一种自密实的水泥基捏和材料,其是优异的 在水中在高温下不可分离的是通过捏合水泥,水,骨料和混合物制成的水泥基捏和材料。 在这种情况下,相关材料作为混合物含有2.0-10.0质量份AMPS(丙烯酰胺-2-甲基丙磺酸)聚合物至100份水和至少0.1重量%的水 - 还原剂为100质量份的水泥,其中满足下式:Y≤1.5X-2,其中X表示AMPS聚合物的含量(pts.mass至100质量份水),Y表示 减水剂的含量(pt.mass至水泥的100盎司)。
    • 9. 发明专利
    • Temperature control system
    • 温度控制系统
    • JP2013185296A
    • 2013-09-19
    • JP2012048420
    • 2012-03-05
    • Kajima Corp鹿島建設株式会社
    • YANAI SHUJIWATANABE KENZOSAKATA NOBORUKUMABE ATSUSHIWATANABE ARIHISANUKUSHINA TATSUYA
    • E04G21/02C04B40/02
    • PROBLEM TO BE SOLVED: To provide a temperature control system capable of reducing a temperature difference between an interior and an exterior of a concrete structure after placing concrete thereof.SOLUTION: Water in a cooling water tank 3 is supplied to a cooling hole 21 of a concrete structure 2 through first piping 4 to cool an interior of the concrete structure 2. The water heated inside the cooling hole 21 by absorbing hydration heat is collected through second piping 5 and stored in a curing water tank 6. The water stored in the curing water tank 6 is automatically heated further to a preset temperature T1 with heaters 8 and 8 controlled by a control device 9 on the basis of a measured temperature T0 of the concrete structure 2 measured with a thermocouple 7. The water heated inside the curing water tank 6 is then supplied to the exterior of the concrete structure 2 through third piping 10 to heat the concrete structure 2 from an outside thereof.
    • 要解决的问题:提供一种温度控制系统,其能够在放置混凝土之后降低混凝土结构的内部和外部之间的温差。解决方案:将冷却水箱3中的水供应到冷却水槽21的冷却孔21 混凝土结构2通过第一管道4冷却混凝土结构2的内部。通过吸收水合热量在冷却孔21内加热的水通过第二管道5收集并存储在固化水箱6中。储存在固化中的水 基于由热电偶7测量的混凝土结构2的测量温度T0,将水箱6进一步加热到预设温度T1,加热器8和8由控制装置9控制。固化水箱内加热的水 6然后通过第三管道10被供给到混凝土结构体2的外部,以从其外部加热混凝土结构2。
    • 10. 发明专利
    • Cement-based plastic kneaded material excellent in underwater-inseparable property at high temperature
    • 基于水泥的塑料切割材料在高温下在水下不可逾越的物业中优秀
    • JP2013159494A
    • 2013-08-19
    • JP2012020375
    • 2012-02-01
    • Kajima Corp鹿島建設株式会社
    • WATANABE ARIHISAYANAI SHUJISAKATA NOBORU
    • C04B28/02C04B14/06C04B24/10C04B24/38C04B111/74
    • PROBLEM TO BE SOLVED: To provide a cement-based plastic kneaded material that can be readily prepared based on a kneaded material produced in a ready-mix factory using a general material for mortar concrete and exerts an excellent underwater-inseparable property in a high-temperature underwater environment at ≥45°C.SOLUTION: A cement-based plastic kneaded material is obtained by kneading water, cement, aggregate and an admixture, and comprises, based on 100 pts.mass water, 1.5-10.0 pts.mass in total of at least one of welan gum or diutan gum as the admixture. The cement-based plastic kneaded material has its composition adjusted so that the slump value at 45°C reaches 8.0 cm or larger and smaller than 25.0 cm or the mortar flow value at 45°C reaches 10.0 cm or larger and smaller than 25.0 cm. Retardation can be imparted by compounding a water superreducer.
    • 要解决的问题:提供一种水泥基塑料捏合材料,其可以使用用于砂浆混凝土的一般材料在预拌工厂中制备的捏合材料容易地制备,并且在高分子材料中发挥优异的水下不可分离性能, 温度在≥45°C的水下环境。溶解度:水泥,水泥,骨料和混合物混合后得到水泥基塑料捏和材料,并以100盎司水为基准,共计1.5-10.0盎司 的至少一种韦兰胶或二丹胶作为混合物。 水泥基塑料捏和材料的组成调整为使得45℃下的坍落度值达到8.0cm以上且小于25.0cm,45℃下的砂浆流动值达到10.0cm以上且小于25.0cm。 可以通过混合水超级制剂来赋予延迟。