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    • 3. 发明专利
    • Bamboo fiber rope manufacturing method, bamboo fiber bundle manufacturing method, and bamboo fiber rope
    • BAMBOO纤维绳制造方法,BAMBOO纤维布制造方法和BAMBOO纤维绳
    • JP2009154387A
    • 2009-07-16
    • JP2007334953
    • 2007-12-26
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • YANAGIBASHI KUNIOIKEO YOSAKUOGAWA TAKATOSHIYAMAUCHI HIDEFUMIKURIMOTO YASUSHISASAKI TAKANOBU
    • B27K9/00B27J1/00B27L11/08
    • PROBLEM TO BE SOLVED: To provide a bamboo fiber rope manufacturing method providing a bamboo fiber rope with a high modulus of elasticity useful for a reinforcing member or the like, and a bamboo fiber bundle manufacturing method providing, at a high yield, a bamboo fiber bundle of high strength useful for a reinforcing member or the like.
      SOLUTION: The bamboo fiber rope manufacturing method has: a twisting process for twisting a plurality of bamboo fiber bundles so as to be formed in a rope shape; a resin impregnating process for impregnating resin into the bamboo fiber bundles formed in rope shape; and a stretching process for obtaining the bamboo fiber rope by drying the bamboo fiber bundles impregnated with resin, while stretching them by applying tensile load under the conditions of 6-20% of rupture load of the untwisted bamboo fiber bundles until the strength reaches 70-100% of final attained strength when resin is cured. The bamboo fiber bundle manufacturing method has: a bamboo piece manufacturing process for obtaining bamboo pieces by cutting a bamboo material in a remaining region after removing a region of 1/3 or more from an inner skin side in the thickness direction of the bamboo material, into strip shape so that a long side is parallel with the fiber bundle; and a loosening process for providing the bamboo fiber bundle by removing material for binding the fibers of the bamboo pieces to loosen the fibers.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种竹纤维绳制造方法,该竹纤维绳制造方法提供一种用于加强构件等的具有高弹性模量的竹纤维绳,以及以高产率提供的竹纤维束制造方法, 用于加强构件等的高强度竹纤维束。 竹纤维绳的制造方法具有:将多根竹纤维束扭转成绳状的加捻方法; 用于将树脂浸渍到形成绳状的竹纤维束中的树脂浸渍方法; 以及通过干燥浸渍有树脂的竹纤维束获得竹纤维绳的拉伸工艺,同时通过在未绞合的竹纤维束的破裂负载的6-20%的条件下施加拉伸载荷来拉伸竹纤维绳,直到强度达到70- 当树脂固化时,其最终达到强度的100%。 竹纤维束的制造方法具有如下竹子制造方法:在从竹内材料的厚度方向的内侧剥离1/3以上的区域之后,在剩余区域中切割竹材来获得竹片, 成为条状,使得长边与纤维束平行; 以及通过除去用于粘合竹片的纤维的材料以松开纤维来提供竹纤维束的松动过程。 版权所有(C)2009,JPO&INPIT
    • 4. 发明专利
    • Manufacturing method of ligneous fiber bundle and ligneous fiber bundle obtained by the same
    • 玻璃纤维布及其相应的纤维布制造方法
    • JP2008001064A
    • 2008-01-10
    • JP2006175372
    • 2006-06-26
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • YANAGIBASHI KUNIO
    • B27K5/00B27K9/00
    • PROBLEM TO BE SOLVED: To provide a method for manufacturing a ligneous fiber bundle, capable of producing the one having at least a length equal to or more than 10 mm and high strengths and useful for a reinforcing material and the like by a method of low energy and producing little wastes, and to provide the ligneous fiber bundle with high strengths obtained by the method.
      SOLUTION: The method comprises the cutting step for cutting one or more ligneous materials selected from wood and bamboo into strips shaping parallel with the fiber bundle and preparing ligneous chips and the enzyme processing step for making a cellulose-decomposing enzyme that is active under alkali conditions act on the ligneous chips in an alkaline aqueous solution of pH10-14. The method removes substances binding the fibrous texture through the enzyme processing step and gives a bamboo fiber bundle or wood fiber bundle having a length equal to or more than 50 mm.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种制造木质纤维束的方法,该方法能够生产至少具有10mm以上的长度和高强度并且可用于增强材料等的材料 低能量的方法和少量的废物,并且通过该方法提供具有高强度的木质纤维束。 解决方案:该方法包括将从木材和竹子中选择的一种或多种木质材料切割成与纤维束平行成条并制备木质片的切割步骤,以及用于制备活性纤维素分解酶的酶加工步骤 在碱性条件下,在pH10-14的碱性水溶液中对木质碎片起作用。 该方法通过酶加工步骤除去结合纤维织构的物质,得到长度等于或大于50mm的竹纤维束或木纤维束。 版权所有(C)2008,JPO&INPIT
    • 5. 发明专利
    • Electromagnetic wave shielding structure
    • 电磁波屏蔽结构
    • JP2005068748A
    • 2005-03-17
    • JP2003298157
    • 2003-08-22
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • KAKIZAWA TADAHIROKAGEYAMA KENJIYANAGIBASHI KUNIOSATO HIDEOHARAKAWA KENICHIYAMANAKA KAZUYOSHI
    • E04B1/92H05K9/00
    • PROBLEM TO BE SOLVED: To provide an electromagnetic wave shielding structure capable of effectively reducing leakage of an electromagnetic wave from clearance. SOLUTION: In this electromagnetic wave shielding structure 10, a conductive part 16 of a conductive material 14 is stuck to one surface of respective core materials 12, and an opposed part 18 of the conductive material 14 is stuck to a header on the other core material 12 side in the respective core materials 12. Here, since a pair of conductive materials 14 have electric conductivity, when the electromagnetic wave arrives, the electromagnetic wave is reflected to the pair of conductive materials 14. Since the opposed area of the pair of conductive materials further increases, impedance of a capacitor composed of the pair of conductive materials 14 reduces, and intensity of the electromagnetic wave leaking from the clearance 20 reduces, and the leakage of the electromagnetic wave from the clearance 20 can be reduced. Thus, even if the pair of conductive materials 14 are not mutually electrically conducted, the electromagnetic wave can be effectively shielded. COPYRIGHT: (C)2005,JPO&NCIPI
    • 解决的问题:提供能够有效地减少电磁波从间隙泄漏的电磁波屏蔽结构。 解决方案:在这种电磁波屏蔽结构10中,导电材料14的导电部分16粘附到各个芯材12的一个表面上,并且导电材料14的相对部分18粘附在 在这里,由于一对导电材料14具有导电性,所以当电磁波到达时,电磁波被反射到一对导电材料14。 一对导电材料进一步增加,由一对导电材料14构成的电容器的阻抗减小,并且从间隙20泄漏的电磁波的强度降低,并且电磁波从间隙20的泄漏可以减小。 因此,即使一对导电材料14不相互导电,也能够有效地屏蔽电磁波。 版权所有(C)2005,JPO&NCIPI
    • 7. 发明专利
    • Impact force buffer device
    • 冲击力缓冲装置
    • JP2008180378A
    • 2008-08-07
    • JP2007336942
    • 2007-12-27
    • National Institute For Materials ScienceTakenaka Doro:KkTakenaka Komuten Co Ltd株式会社竹中工務店株式会社竹中道路独立行政法人物質・材料研究機構
    • KUSHIBE ATSUMICHIOGAWA TAKATOSHIYANAGIBASHI KUNIOKATSUTA MITSUHIROMUKAI TOSHIMOTO
    • F16F7/12B60R21/04E01F15/00E02D27/34F16F7/00
    • PROBLEM TO BE SOLVED: To provide an impact force buffer device compactly and inexpensively manufactured and providing stable resistance characteristics.
      SOLUTION: In this impact force buffer device, a buffering part is inserted between an external force receiving part and a fixed part which are arranged along a force buffering direction to thereby absorb impact force. The buffering part 6 is provided with shock absorbing members 8 which are so arranged that their front and rear surfaces are directed in the force buffering direction, and insertion rods 12 having each one end opposed to at least one of the front and rear surfaces of the shock absorbing members and parallel to the force buffering direction. One side of each of the shock absorbing members 8 and insertion rods 12 is interlocked with the external force receiving part 4, and also the other thereof is linked with the fixed part 16, thereby performing buffering. Therefore, when impact force is applied to the external force receiving part 4, the insertion rods 12 collides with a part of the front or rear surfaces of the shock absorbing members 8. The shock absorbing members 8 are made of materials into which the insertion rods can penetrate by cave-in of the collided portions.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供紧凑且廉价制造并提供稳定电阻特性的冲击力缓冲装置。 解决方案:在该冲击力缓冲装置中,缓冲部分插入在沿力缓冲方向布置的外力接收部和固定部之间,从而吸收冲击力。 缓冲部分6设置有减震构件8,其被设置为使其前表面和后表面在力缓冲方向上被引导,并且插入杆12的每一端与第一和第二表面的前表面和后表面中的至少一个相对 减震构件并平行于力缓冲方向。 每个减震构件8和插入杆12的一侧与外力接收部分4互锁,并且另一侧与固定部分16相连,从而进行缓冲。 因此,当对外力接收部分4施加冲击力时,插入杆12与冲击吸收构件8的前表面或后表面的一部分碰撞。冲击吸收构件8由材料制成,插入杆 可以穿透碰撞部分的洞穴。 版权所有(C)2008,JPO&INPIT
    • 8. 发明专利
    • Grinding device for concrete mass
    • 混凝土研磨装置
    • JP2003299973A
    • 2003-10-21
    • JP2002104792
    • 2002-04-08
    • Kurimoto LtdTakenaka Komuten Co Ltd株式会社栗本鐵工所株式会社竹中工務店
    • ARAKAWA KAZUAKISATO AKIRAHATANAKA OSAMUYANAGIBASHI KUNIOYONEZAWA TOSHIO
    • B02C2/04B02C4/10C04B18/16
    • Y02W30/95
    • PROBLEM TO BE SOLVED: To provide a grinding device which can obtain a high efficiency of removing cement mortar by filling only concrete masses. SOLUTION: A discharge amount regulation plate 7 for regulating the lower part of an annular grinding chamber 6 is attached to a cylindrical rotor 4 to always vibrate the regulation plate 7 by the eccentric rotation of the cylindrical rotor 4. A weir 7a is installed along the outer peripheral edge of the regulation plate 7 so that the top of the weir 7 is positioned outside of a conical surface 7b extended from the bottom inner periphery of a vertical cylindrical member 2 to make a repose angle ϕ. Thereby, even when the regulation plate 7 approaches the bottom of the grinding chamber 6, a space between the bottom of the grinding chamber 6 and the regulation plate 7 is not closed, and the discharge port at the bottom of the grinding chamber 6 is always occluded by the concrete masses, which can ensure a sufficient residence time required for grinding to improve the efficiency of removing the cement mortar by filling only the concrete masses. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:提供一种可以通过仅填充混凝土块而获得高效除去水泥砂浆的研磨装置。 解决方案:用于调节环形研磨室6的下部的排出量调节板7附接到圆柱形转子4,以通过圆柱形转子4的偏心旋转来使调节板7始终振动。堰7a 沿着调节板7的外周缘安装,使得堰7的顶部位于从垂直圆柱形构件2的底部内周延伸的锥形表面7b的外侧,以形成休止角φ。 因此,即使调节板7接近研磨室6的底部,研磨室6的底部和调节板7之间的空间也不会闭合,并且研磨室6底部的排出口始终是 被混凝土块堵塞,这可以确保研磨所需的足够的停留时间,以通过仅填充混凝土块来提高除去水泥砂浆的效率。 版权所有(C)2004,JPO
    • 9. 发明专利
    • Concrete and method for producing concrete
    • 混凝土和混凝土生产方法
    • JP2012121764A
    • 2012-06-28
    • JP2010274083
    • 2010-12-08
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • SAITO TOSHIOMITSUI TATEOYONEZAWA TOSHIOIKEO YOSAKUHASUMI TAKASHIYANAGIBASHI KUNIOTSUJI DAIJIROWACHI MASAHIRO
    • C04B28/08B07B7/083B09B1/00B09B5/00C04B7/153C04B7/19C04B18/16
    • Y02P40/143Y02W30/95
    • PROBLEM TO BE SOLVED: To provide a method for reproducing concrete raw materials from a dismantled concrete mass, and concrete produced by the method.SOLUTION: In a first separation step 100, the dismantled concrete mass 98 crushed to a diameter of 40 mm or less is pulverized to separate and recover rough aggregates 16 with a particle size of 5 mm or more and fine particles 14 with a particle size below 5 mm, whereby recycling of the rough aggregates 16 can be performed. In a second separation step 102, the fine particles 14 are separated into fine aggregates 20 with a particle size exceeding 0.6 mm and finely-divided powder 18 with a particle size of 0.6 mm or less, and the both are recovered, whereby recycling of the fine aggregates 20 can be performed. In a third separation step 104, the finely-divided powder 18 is separated into fine powder 24 and aggregate powder 26, and the both are recovered, whereby recycling of the finely-divided powder 24 can be performed. In a cement producing step 106, cement 84 is produced by adding blast furnace slag 80 and plaster 82 to the fine powder 24. In a concrete producing step 108, concrete 88 is produced by mixing water 110 to the cement 84, the rough aggregates 16 and the fine aggregates 20.
    • 要解决的问题:提供一种从拆解的混凝土块中再现混凝土原料的方法,以及通过该方法制备的混凝土。 解决方案:在第一分离步骤100中,粉碎至直径为40mm或更小的被拆除的混凝土块98被粉碎以分离并回收粒度为5mm以上的粗粒料16和微粒14与 颗粒尺寸低于5mm,从而可以进行粗骨料16的再循环。 在第二分离步骤102中,将细颗粒14分离为粒径超过0.6mm的细小聚集体20和粒径为0.6mm以下的细粉18,回收二者 可以执行细集料20。 在第三分离步骤104中,将细碎粉末18分离为细粉末24和聚集粉末26,并回收二者,由此可以进行细分粉末24的再循环。 在水泥生产步骤106中,通过将高炉渣80和石膏82加入到细粉末24中来生产水泥84.在混凝土生产步骤108中,通过将水110与水泥84混合,粗骨料16 和精细骨料20.版权所有(C)2012,JPO&INPIT