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    • 2. 发明专利
    • Large-scaled building equipped with space partition means
    • 配有空间分隔装置的大型建筑
    • JP2003293511A
    • 2003-10-15
    • JP2002132170
    • 2002-03-29
    • Takenaka Komuten Co Ltd株式会社竹中工務店
    • KIMURA MAMORUOKAMURA KIYOSHIOTA HIDEHIKO
    • E04B9/00E04B1/342E04B1/35E04B2/82
    • PROBLEM TO BE SOLVED: To provide a large-scaled building equipped with a space partition means capable of partitioning a high and wide large space into a required size and preventing the diffusion or the like of sound and light. SOLUTION: In the large-scaled building 10 covering a ground 12 and seats 13A and 13B with a large roof 14, a large number of letting out and receiving devices (e.g. winch) are respectively arranged to a large number of locations of the large roof 14, a suspension member 18 is connected to each letting out and receiving device, ceiling units 15A are connected to suspension members 18 of most of the letting out and receiving devices, a large number of wall members 19 capable of taking up, winding around or folding are connected to suspension members 18 of most of the rest of letting out and receiving devices in a detachable manner, and the downward high and wide space of the large roof 14 is partitioned into a required size. The ceiling units are hung up when they are not used, so that a storage space is not required, and since the wall members can be taken up, wound around and folded, the storage space becomes narrow when they are not used. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:提供一种具有能够将高而宽的大空间分割成所需尺寸并防止声光扩散等的空间隔离装置的大型建筑物。 解决方案:在覆盖地面12的大型建筑物10和具有大屋顶14的座椅13A和13B上,大量的出出和接收设备(例如绞车)分别布置在大量的位置 大屋顶14,悬挂构件18连接到每个放出和接收装置,天花板单元15A连接到大多数出出和接收装置的悬挂构件18,大量壁构件19能够卷起, 卷绕或折叠以可拆卸的方式连接到大部分的放出和接收装置的其余部分的悬挂构件18,并且大屋顶14的向下高的和宽的空间被分割成所需的尺寸。 天花板单元不使用时挂起,因此不需要存放空间,并且由于壁构件可被卷取,缠绕并折叠,所以当不使用时,存储空间变窄。 版权所有(C)2004,JPO
    • 4. 发明专利
    • JOINT SECTION OF RIGID JOINT SINGLE LAYER LATTICED SHELL CONSTRUCTION
    • JPH0718742A
    • 1995-01-20
    • JP18560993
    • 1993-06-29
    • TAKENAKA KOMUTEN CO
    • SAHASHI MUTSUOSOGA YUTAKAMIZUTANI NAOKIOKAMURA KIYOSHIMARUOKA YOSHIOMI
    • E04B1/19E04B1/32
    • PURPOSE:To easily manufacture lattice members and a joint member, to make it possible to easily cope with variations in a joint angle, etc., and to facilitate the control of welding and the control of degree of accuracy. CONSTITUTION:The end 11a of a lattice member 11 of a round pipe is at a right angle to the central axis thereof, and a joint member 12 is formed as a hollow body. The hollow body is formed in the shape of a circle in a plan view, and formed in the shape including a drum type cutting off the upper side and lower side of a spherical body in a font view, an opening 11b of the end of the lattice member 11 is fitted to a spherical surface 12a around the joint member 12, and the end surface of the end 11a of the lattice member 11 and the spherical surface 12a of the joint member 12 make an acute angle so as to face them to each other. The end surface of the end 11a of the lattice member is welded to the spherical surface 12a of the joint member, and the lattice member 11 is connected to the joint member 12. Accordingly, even if an angle, a position, etc., against the joint member of the lattice member are varied, the central axis of the lattice member passes through the center of the spherical surface of the joint member, so that the same lattice member and joint member can be used.
    • 9. 发明专利
    • METHOD AND APPARATUS FOR MEASURING BIAXIAL SURFACE TENSION OF MEMBRANE
    • JPS63233341A
    • 1988-09-29
    • JP6648787
    • 1987-03-20
    • TAKENAKA KOMUTEN CO
    • WATANABE HIROSHITAWARA FUMIAKIOKAMURA KIYOSHIMAGARA SHIGETAKA
    • G01L5/10
    • PURPOSE:To measure the surface tension of a membrane at an arbitrary position, by measuring the propagation velocities of a transversal wave in x- and y-directions from the relation between the propagation velocities of the transversal waves in the x- and y-directions, which are derived from a formula relating to the strain generated by the surface tension of the membrane, and the surface tension of the membrane. CONSTITUTION:Accelerometers A, B are mounted to the frames crossing each other at a right angle on a horizontal plane through buffer materials and an accelerometer P is also fixed to the leading end of rod 6. When the accelerometers A, B are brought into contact with a membrane surface 1 and a shock is given to the membrane surface 1 by the rod 6 generate a transversal wave, the electric signals from the accelerometers A, B, P are amplified by an amplifier 8 and recorded on a recorder 9. Herein, the times DELTAtA, DELTAtB until the accelerometers A, B operate after the point of time when the accelerometer P impinges against the membrane surface 1 are read from the chart of the recorder 9 and velocities vx, vy are calculated from vx=l/DELTAtA, vy=l/DELTAtB (wherein l is the distance between the accelerometers, and vx and vy are the propagation velocities of the transversal wave in x- and y-directions) and substituted for formula (wherein rho is the density per unit length of a membrane material, and vx and vy are Poisson ratios in x- and y-directions) to calculate tensions Tx, Ty.