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    • 1. 发明专利
    • Electronic member fixing structure
    • 电子会员固定结构
    • JP2013004695A
    • 2013-01-07
    • JP2011133628
    • 2011-06-15
    • Takenaka Komuten Co Ltd株式会社竹中工務店Saint-Gobain Kkサンゴバン株式会社Telasys Co Ltd株式会社テラシス
    • YAMAMOTO SHUICHIFUKAO KOZOYUKAWA MASAHIRONAKAI MASAYOSHIMIKI SHIGETOOKAMOTO HAJIMEHASEGAWA KANTAKAHASHI HIROMUOGAWA TOMOKAZUYOSHIDA SHINGOMURAKAMI NOBUNAOMARCEL DERIEKATHERINE M SAHLINKANBAYASHI MASAYOSHISUGIURA KOSUKEYAO YUTAKA
    • H01L31/042
    • Y02B10/12Y02E10/50
    • PROBLEM TO BE SOLVED: To obtain an electronic member fixing structure which suppresses the distortion of an electronic member due to expansion/contraction of a base, and prevents the breakage of the electronic member.SOLUTION: An electronic member fixing structure 10 includes a film material expanding/contracting in a surface direction, a sheet-shaped solar battery module 14 disposed on a surface of the film material 12 and having flexibility, and a frame edge material 16 fixed on the surface of the film material 12 and movably supporting peripheral edge portions of the solar battery module 14. The frame edge material 16 is a member with a C-shaped cross section which is bilaterally symmetrically disposed, and the peripheral edge portions on both sides of the solar battery module 14 are inserted in the frame edge material 16. An adhesive 24 for preventing the coming-off of the solar battery module 14 is filled in the frame edge material 16. When the film material 12 expands/contracts in the surface direction, the peripheral edge portions of the solar battery module 14 and the frame edge material 16 are relatively moved, and the solar battery module 14 does not follow the expansion/contraction of the film material 12.
    • 解决的问题:为了获得抑制由于基座的伸缩而引起的电子部件变形的电子部件固定结构,并且防止电子部件的断裂。 解决方案:电子部件固定结构10包括在表面方向上扩展/收缩的薄膜材料,设置在薄膜材料12的表面上并具有柔性的片状太阳能电池模块14和框架边缘材料16 固定在薄膜材料12的表面上并且可移动地支撑太阳能电池模块14的周缘部分。框架边缘材料16是具有C形横截面的构件,其横向对称设置,并且两边缘部分 太阳能电池模块14的侧面插入框架边缘材料16中。用于防止太阳能电池模块14的脱落的粘合剂24被填充在框架边缘材料16中。当薄膜材料12在 太阳能电池模块14的周边部分和框架边缘材料16相对移动,并且太阳能电池模块14不跟随扩展/收缩 电影材料12.版权所有(C)2013,JPO&INPIT
    • 2. 发明专利
    • Electronic member fixing structure
    • 电子会员固定结构
    • JP2012250468A
    • 2012-12-20
    • JP2011125463
    • 2011-06-03
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • YOSHIDA SHINGOMURAKAMI NOBUNAOOKAMOTO HAJIMEHASEGAWA KANTAKAHASHI HIROSHIFUKAO KOZOYUKAWA MASAHIRONAKAI MASAYOSHIYAMAMOTO SHUICHIOGAWA TOMOKAZUMIKI SHIGETO
    • B32B7/02E04D13/18H01L31/042
    • Y02B10/12Y02E10/50
    • PROBLEM TO BE SOLVED: To provide an electronic member fixing structure of high reliability by suppressing stress concentration on a backing while suppressing the strain of an electronic member caused by the expansion/contraction of the backing.SOLUTION: The electronic member fixing structure 10 includes a film material 12 bending in an out-of-plane direction and expanding/contracting in an in-plane direction; a sheet-like solar cell module 14 mounted to the upper part of the surface of the film material 12; a strain insulating layer 18 joined to the rear face of the solar cell module 14, having flexural rigidity equal to that of the solar cell module 14 and film material 12 and higher in tensile rigidity than the film material 12; and a joint layer 20 joining the strain insulating layer 18 to the film material 12, having flexural rigidity equal to or less than that of the solar cell module 14 and film material 12 and having tensile rigidity equal to or less than that of the film material 12. When the film material 12 is expanded/contracted in the in-plane direction, elongation transmitted from the film material 12 to the solar cell module 14 is reduced by the strain insulating layer 18 higher in tensile rigidity than the film material 12.
    • 要解决的问题:通过抑制由背衬的膨胀/收缩引起的电子部件的应变,通过抑制背衬上的应力集中来提供高可靠性的电子部件固定结构。 解决方案:电子部件固定结构10包括在面外方向上弯曲并在面内方向上伸缩的薄膜材料12; 安装在薄膜材料12表面的上部的片状太阳能电池组件14; 连接到太阳能电池模块14的背面的应变绝缘层18具有与太阳能电池模块14和薄膜材料12相同的抗弯刚度,并且拉伸刚度高于薄膜材料12; 以及将应变绝缘层18连接到膜材料12的接合层20,其弯曲刚度等于或小于太阳能电池模块14和膜材料12的抗弯刚度,并且具有等于或小于膜材料的拉伸刚度 当薄膜材料12在面内方向膨胀/收缩时,通过与膜材12相比拉伸刚度更高的应变绝缘层18,从薄膜材料12传递到太阳能电池组件14的伸长率减小。 P>版权所有(C)2013,JPO&INPIT
    • 3. 发明专利
    • Real estate management device and real estate management system
    • JP2004199131A
    • 2004-07-15
    • JP2002363503
    • 2002-12-16
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • ASANUMA RYUICHIYUKAWA MASAHIROOKAMOTO MICHIHIKOSAWANE MASAYOSHI
    • G06Q30/06G06Q50/00G06Q50/16G06F17/60
    • PROBLEM TO BE SOLVED: To provide a real estimate management device and a real estimate management system for providing an upgrading measure of an estate. SOLUTION: This system has following steps: an evaluation information input by a building owner is received and stored in a building performance evaluation database 302 (step 120); and an evaluation information input by a building tenant is received and stored in an attitude survey result database 304 (step 122); and an overall evaluation is calculated by a hierarchical analytical method or the like based on the building performance evaluation and the attitude survey result and stored in a building performance overall evaluation database 308 (step 124); and a building upgrading measure database 316 is retrieved based on the overall evaluation and the upgrading measure is transmitted and presented to a personal computer 104 of the owner through the Internet 100 (step 242). Hereby, in this estimate management device, since an input device inputs at least either of a customer's evaluation value and a manager's evaluation value on the real estate and a presentation means presents the real estate upgrading measure based on at least either of the customer's evaluation value and the manager's evaluation value, the manager can acquire information on the upgrading measure of the real estate based on information including at least either of the customer's evaluation value and the manager's evaluation value. COPYRIGHT: (C)2004,JPO&NCIPI
    • 5. 发明专利
    • Jointing construction method for ligneous structural member and joint structure
    • 连接结构件和接头结构的接合结构方法
    • JP2007231644A
    • 2007-09-13
    • JP2006055674
    • 2006-03-02
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • ABE YUTAKAKUSUNOKI TOSHIHIROOKA HIDEOYUKAWA MASAHIROKOZUKA YUICHI
    • E04B1/48E04B1/26
    • PROBLEM TO BE SOLVED: To provide a jointing construction method used for a ligneous structure constructed by columns and beams being wooden structural members and being carried out by comparatively simple construction without impairing the design property of the ligneous structure to achieve vibration control action by absorbing energy generated when earthquake occurs and to provide a joint structure.
      SOLUTION: This jointing construction method comprises a process for drilling a plurality of prepared holes in the axial direction of ligneous structural member from a butt end of the member to form a female screw on an inner peripheral face of the prepared hole, a process for screwing an anchor member having a hollow cylindrical shape into the female screw of the ligneous structural member and fixing it, a process for threadedly joining a male screw part of a connection bolt with a female screw hole in the anchor member to mount the connection bolt on the ligneous structural member, and a process for joining a rear end part of the connection bolt protruding from the butt end of the ligneous structural member with a joint block.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种用于由木杆结构构件构成的木质结构的接合施工方法,并且通过比较简单的结构进行,而不损害木质结构的设计特性以实现振动控制作用 通过吸收地震发生时产生的能量并提供联合结构。 解决方案:该接合施工方法包括从构件的对接端在木质结构构件的轴向上钻出多个预定孔的方法,以在预制孔的内周面上形成内螺纹, 用于将具有中空圆柱形状的锚固构件拧入木质结构构件的内螺纹并将其固定的过程;将连接螺栓的阳螺纹部分与锚定构件中的内螺纹孔螺纹连接以安装连接件 螺栓在木质结构构件上,以及将从木质结构构件的对接端突出的连接螺栓的后端部与接头块接合的工序。 版权所有(C)2007,JPO&INPIT
    • 7. 发明专利
    • Tower structure
    • 塔式结构
    • JP2007120080A
    • 2007-05-17
    • JP2005311417
    • 2005-10-26
    • Takenaka Doboku Co LtdTakenaka Komuten Co Ltd株式会社竹中土木株式会社竹中工務店
    • IGARASHI SHINYASUGATA MASAHIROYUKAWA MASAHIROHABASAKI ATSUSHIKAWANISHI HIROSHIKAWARABAYASHI HIDEAKI
    • E04H12/12
    • PROBLEM TO BE SOLVED: To provide a tower structure formed in a polygon when viewed from above and as high as approximately 60 to 100 m or higher from the ground.
      SOLUTION: The ground portion 11 of this tower structure is formed in a polygon with corners of even number when viewed from above. The apex part 10 thereof is formed in a polygon with corners of N in quantity which is half that of the ground portion 11 when viewed from above. A rectangular flat surface 1 in which the length of one side of the polygon forming the apex part 10 is made equal up to the ground portion 11 is formed as the outer surface of the polygon of the ground portion 11 on the alternate sides. The outer surfaces of the polygon of the ground portion 11 on the other sides are formed as triangular flat surfaces 2 in which the corner part 12 of the polygon of the apex part 10 positioned just above that outer surface is the apex angle. The tower-like outer surfaces are formed by the combination of the rectangular flat surfaces 1 with the triangular flat surfaces 2.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供从上方观察时形成在多边形中的塔架结构,并且从地面高达约60至100μm或更高。 解决方案:当从上方观察时,该塔架结构的接地部分11形成为具有偶数角的多边形。 其顶点部分10形成为多边形,其角度为N,其数量是从上方观察时为接地部分11的角度的一半。 将形成顶点部分10的多边形的一侧的长度设置成等于接地部分11的矩形平面1形成为交替侧的接地部分11的多边形的外表面。 另一侧的接地部11的多边形的外表面形成为三角形平坦面2,顶面部10的位于正上方的顶点的多边形的角部12为顶角。 塔状外表面由矩形平面1与三角形平面2的组合形成。版权所有(C)2007,JPO&INPIT
    • 8. 发明专利
    • Film body connecting structure and method for constructing film body structure
    • 薄膜体系连接结构及构造薄膜结构的方法
    • JP2003041809A
    • 2003-02-13
    • JP2001231245
    • 2001-07-31
    • Mitsuboshi Belting LtdTakenaka Komuten Co Ltd三ツ星ベルト株式会社株式会社竹中工務店
    • YUKAWA MASAHIROOKUNO TOMOHISATANNO YOSHIOMIKI SHIGETOTAKAHASHI HIROSHIIWAMOTO KENZOHIGASHIDA YOSHITAKA
    • E04H15/64C09D5/00C09D107/00C09D121/00C09D123/22C09D125/16C09J5/00C09J7/02C09K3/10
    • PROBLEM TO BE SOLVED: To provide a film body connecting structure which is enhanced in cutoff performance, and improved in adhesiveness between a waterproof sheet film body having a fluororesin on its surface and a cutoff sheet, to thereby improve the water- tightness and air-tightness thereof. SOLUTION: The film body connecting structure for use in an air dome is formed by rigidly pinching a joint portion of the film bodies A with plates serially arranged in a film body connecting direction, and an upper member 6, and covering the same with a gasket G. Then, the cutoff sheet B is fixed to a boundary portion between the gasket G and the film body A so as to cover the same. At this time, a primer (a) is applied to an adherend surface of the waterproof sheet film body A having the fluororesin. The primer is a solution at solid content concentration of 3 to 25%, and contains a bromide of isobutylene-p-methyl styrene copolymer or a blended material of the bromide and a natural or synthetic rubber, as a main ingredient, and an aliphatic hydrocarbon-based solvent as a solvent main ingredient. Thereafter, the cutoff sheet B is fixed to the film body A via an adhesive (b) in the form of a natural vulcanized tape, containing butyl rubber having autohesion properties at room temperature.
    • 要解决的问题:为了提供一种提高切割性能的薄膜本体连接结构,并且在其表面上具有氟树脂的防水薄膜体与切断片之间的粘合性提高,从而提高了水密性和空气 - 紧密度 解决方案:用于空气穹顶的薄膜本体连接结构通过将薄膜体A的接合部分以薄膜主体连接方向串联布置的方式刚性地夹紧而形成,并且上部构件6用垫圈 然后,切断片材B固定在垫圈G和胶片体A之间的边界部分上,以便覆盖它们。 此时,将底漆(a)涂布在具有氟树脂的防水薄膜体A的被粘物表面上。 底漆是固体成分浓度为3〜25%的溶液,含有异丁烯 - 对甲基苯乙烯共聚物的溴化物或溴化物和天然或合成橡胶的混合材料作为主要成分,脂肪族烃 的溶剂作为溶剂主要成分。 此后,切断片材B通过天然硫化胶带形式的粘合剂(b)固定在胶片主体A上,其中含有在室温下具有自粘性的丁基橡胶。