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    • 2. 发明专利
    • 構造部材の落下防止構造
    • 防止结构构件的防止结构
    • JP2014205525A
    • 2014-10-30
    • JP2013082377
    • 2013-04-10
    • 株式会社竹中工務店Takenaka Komuten Co Ltd
    • OTA YOSHIHIROWATANABE HIROSHIONO SADATOSHISUGATA MASAHIROOKAMOTO HAJIMEMURASE YUTOSADAMOTO TERUMASAHARA KEIICHIISHII KOICHITSUMURA CHIKAKOSHIRAISHI YOSUKE
    • B66B23/00B66B29/00
    • 【課題】少なくとも一方の端部が構造物の支持部に可動可能に支持された構造部材の落下を防止するとともに、落下防止時に生じる衝撃荷重を低減する。【解決手段】構造物の上支持部又は下支持部に一端が可動可能に支持され、前記下支持部又は前記上支持部に他端が固定された構造部材と、前記構造部材の一端と前記上支持部又は前記下支持部をつなぎ、前記構造部材の一端が前記上支持部又は前記下支持部から脱落したときに、前記構造部材を支えて該構造部材の落下を防止する落下防止部材と、前記構造部材の一端と前記上支持部又は前記下支持部をつなぎ、前記落下防止部材が前記構造部材を支えるまでに、前記落下防止部材へ作用する衝撃荷重を低下させる衝撃吸収部材と、を有する構造部材の落下防止構造。【選択図】図2
    • 要解决的问题:为了防止至少一个端部由结构物体的支撑部分可旋转地支撑的结构构件的坠落,并且减少在防止下落时产生的冲击载荷。解决方案:结构的防止下落结构 构件包括结构构件,其一端由结构物体的上支撑部分或下支撑部分可旋转地支撑,而另一端固定到下支撑部分或上支撑部分;防止下降构件,其将一端 的结构构件向上支撑部分或下支撑部分移动,并且当结构构件的一端从上支撑部分或下支撑部分脱离时,通过支撑结构构件来防止结构构件的下落,并且冲击 吸收构件,其将结构构件的一端连接到上支撑部或下支撑部,并且减小作用在下落的冲击载荷 防坠落构件在防坠落构件支撑结构构件之前。
    • 4. 发明专利
    • Reinforcement structure for tower structure
    • 塔式结构加固结构
    • JP2011236651A
    • 2011-11-24
    • JP2010109327
    • 2010-05-11
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • YAMADA AIWATANABE FUMIOIGARASHI SHINYAKASUGA YASUHIROOTA YOSHIHIROTAKEUCHI MITSURU
    • E04G23/02
    • PROBLEM TO BE SOLVED: To increase the flexural capacity of a joint part between a tower structure supported by a foundation and the foundation.SOLUTION: Tension members 14A, 14B, to which tensioning forces are applied, are helically arranged on reinforcement members 12A, 12B that surround a tower structure 22 in such a way as to be in contact with the outside surface of the tower structure 22. The tensioning forces applied to the tension members 14A, 14B are transmitted to a foundation 20 through transmitting parts 16A, 16B, and the reinforcement members 12A, 12B are fixed to the foundation 20. Therefore, compressive stress occurred in a joint part 42 can increase the flexural capacity of the joint part 42 of the tower structure 22.
    • 要解决的问题:提高由基础支撑的塔架结构与基础之间的接合部的弯曲能力。 解决方案:施加张紧力的张紧构件14A,14B螺旋地布置在围绕塔架结构22的加强构件12A,12B上,以便与塔架结构的外表面接触 施加到张紧构件14A,14B的张力通过传递部件16A,16B传递到基座20,并且加强构件12A,12B固定到基座20上。因此,在接合部42中发生压缩应力 可以增加塔架结构22的接头部分42的弯曲能力。版权所有(C)2012,JPO&INPIT
    • 6. 发明专利
    • Joint structure of steel member, structure, and method for joining the steel member
    • 钢构件的接合结构,结构和方法,用于接合钢构件
    • JP2011184866A
    • 2011-09-22
    • JP2010048302
    • 2010-03-04
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • ASO NAOKINAKANE KAZUTOMIOGURA FUMITAKAOTA YOSHIHIROOKADA JUNICHIYAMADA AITAKEUCHI MITSURU
    • E04H9/02E04B1/58E04B2/56
    • PROBLEM TO BE SOLVED: To easily join a steel member to a structural building frame with a high degree of accuracy while securing structural performance of the steel member.
      SOLUTION: Stress is transferred to a fixing portion 104 via a stud 50 from a flange 24A of a lower end 21 of a corrugated steel plate 18. The stress transferred to the fixing portion 104 is transferred to pieces 110 and 120 of shape steel via a stud 150. The stress transferred to the pieces 110 and 120 of shape steel is transferred to a beam 16A via the stud 160. A lower end 21 of the corrugated steel plate 18 and the beam 16A are structurally integrated together. Thus, the structural performance for transferring the stress from the lower end 21 of the corrugated steel plate 18 to the beam 16A is secured. The corrugated steel plate 18 can be easily joined to the beam 16A with a high degree of accuracy by adjusting the position, attitude, etc. of the corrugated steel plate 18 before infilling concrete Q.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:在确保钢构件的结构性能的同时,以高精度容易地将钢构件连接到结构建筑物框架。 解决方案:应力通过螺柱50从波纹钢板18的下端21的凸缘24A转移到固定部分104.传递到固定部分104的应力被转移到形状的片110和120上 通过螺柱150传递到钢片110和120上的应力经由螺栓160传递到梁16A上。波纹钢板18的下端21和梁16A结构地结合在一起。 因此,确保了将应力从波纹钢板18的下端21传递到梁16A的结构性能。 波纹钢板18可以通过在填充混凝土Q之前调整波纹钢板18的位置,姿态等,以高精度容易地接合到梁16A上。(C)2011,JPO&INPIT
    • 8. 发明专利
    • Earthquake-resisting wall, building, and construction method of the earthquake-resisting wall
    • 地震电阻墙的地震阻尼墙,建筑和施工方法
    • JP2010133229A
    • 2010-06-17
    • JP2009241639
    • 2009-10-20
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • URABE AIOTA YOSHIHIROHIRAKAWA YASUAKITAKEUCHI MITSURU
    • E04H9/02E04B1/20E04B2/56
    • PROBLEM TO BE SOLVED: To provide an earthquake-resisting wall hardly causing shear buckling in a steel plate, a building having the earthquake-resisting wall and a construction method of the earthquake-resisting wall.
      SOLUTION: A reinforcing rigid member 34 is fixed with a fixing member 30 to a corrugated steel plate 20 attached to a peripheral member 16. The reinforcing rigid member 34 is placed on the front face side of the corrugated steel plate 20, so that folding lines formed on the corrugated steel plate 20 and a material axis intersect with each other. Thus, out-of-plane deformation caused on the corrugated steel plate 20 is reduced by providing the corrugated steel plate 20 with rigidity by the reinforcing rigid member 34, and shear buckling hardly occurs in the corrugated steel plate 20.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种几乎不会在钢板上产生剪切弯曲的抗震墙体,具有抗震墙的建筑物和耐震墙的施工方法。 解决方案:加固刚性构件34用固定构件30固定到附接到周边构件16的波纹钢板20上。加强刚性构件34被放置在波纹钢板20的正面侧,因此 形成在波纹钢板20上的折线和材料轴彼此相交。 因此,通过使波纹状钢板20由加强刚性构件34提供刚性,波纹状钢板20产生的平面外变形减少,波纹钢板20中几乎不发生剪切屈曲。版权所有: (C)2010,JPO&INPIT
    • 9. 发明专利
    • Construction method for earthquake-resisting stud, earthquake-resisting stud and building structure
    • 地震电阻施工方法,地震结构和建筑结构
    • JP2010024682A
    • 2010-02-04
    • JP2008185801
    • 2008-07-17
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • OTA YOSHIHIROKANEKO HIROFUMIURABE AITAKEUCHI MITSURU
    • E04H9/02F16F15/02
    • PROBLEM TO BE SOLVED: To install to transmit compressive axial force to an earthquake-resisting stud before constructing the uppermost floor of a building structure.
      SOLUTION: A member height P of a vibration control member is shorter than the inner size heights L of upper and lower beams 26A, 26B forming a floor 14 of the building structure 12. Therefore, when inter-layer deformation is caused in the floor 14, a shear deformation angle of a vibration control member 20 causing shear deformation becomes larger than an inter-layer deformation angle of the floor 14, so that tensile force (tensile axial force) is applied to the vibration control member 20. By this tensile axial force, the initial compressive axial force loaded on the vibration control member 20 is canceled. That is, even if the initial compressive axial force is loaded to the vibration control member 20, the initial compressive axial force is canceled by the tensile axial force produced by the shear deformation of the vibration control member not to lower the vibration energy absorbing performance of the vibration control member 20.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:在建造建筑结构的最上层之前,安装以将抗压轴向力传递到抗震螺柱。 解决方案:振动控制构件的构件高度P比构成建筑物结构12的地板14的上下梁26A,26B的内部高度L短。因此,当在 地板14,造成剪切变形的振动控制构件20的剪切变形角度变得大于地板14的层间变形角度,使得向振动控制构件20施加张力(拉伸轴向力)。通过 该拉伸轴向力抵消了加载在振动控制构件20上的初始压缩轴向力。 也就是说,即使初始压缩轴向力被加载到振动控制构件20,初始压缩轴向力被振动控制构件的剪切变形产生的拉伸轴向力消除,从而不降低振动能量吸收性能 振动控制构件20.版权所有(C)2010,JPO&INPIT
    • 10. 发明专利
    • Building structure and designing method of building structure
    • 建筑结构与建筑结构设计方法
    • JP2009174223A
    • 2009-08-06
    • JP2008015360
    • 2008-01-25
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • IKEDA HIDEMIHIRAKAWA YASUAKIOTA YOSHIHIROKANEKO HIROFUMISUMI AKIRATSUBAKI HIDEAKI
    • E04H9/02E04B2/56
    • PROBLEM TO BE SOLVED: To provide a building structure facilitating structure designing and having the stable performance of vibration energy absorption, and to provide a designing method of the building structure. SOLUTION: The building structure 10 is constructed of a moment resisting frame 18 of a plurality of layers. An earthquake-proof wall 22 is arranged on a structural plane of the moment resisting frame 18. The shearing proof stress of the earthquake-proof wall 22 is not lowered until the layer 20 where the earthquake-proof wall 22 is arranged reaches a horizontal load-carrying capacity. Thus, since the absorbing capacity (the value D 3 of the layer 20) of vibration energy generated by the deformation of the moment resisting frame 18 and the earthquake-proof wall 22 is the result of simply adding the absorbing capacity (the value D 1 of the moment resisting frame 18) of the hysteretic energy applied by the deformation of the moment resisting frame 18 and the absorbing capacity (the value D 2 of the earthquake-proof wall 22) of the hysteretic energy applied by the deformation of the earthquake-proof wall 22, the structure designing of the building structure 10 is facilitated. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供便于结构设计并具有稳定的振动能量吸收性能的建筑结构,并提供建筑结构的设计方法。 解决方案:建筑结构10由多层的抗弯框架18构成。 防震壁22设置在抗力框架18的结构平面上。防震壁22的剪切力应力不降低,直到设置防震壁22的层20达到水平载荷 -承载能力。 因此,由于抗力框架18和抗震墙22的变形产生的振动能量的吸收能力(层20的值D 3 )是简单地添加 通过抗力框架18的变形施加的滞后能量和吸收能力(值D 2 1 ) 通过防震墙22的变形而施加的滞回能量,便于建筑结构10的结构设计。 版权所有(C)2009,JPO&INPIT