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    • 1. 发明专利
    • Vibration prevention apparatus and vibration prevention method for hydraulic pipeline
    • 液压管道振动防护装置及振动预防方法
    • JP2013044099A
    • 2013-03-04
    • JP2011180543
    • 2011-08-22
    • Kobe Steel Ltd株式会社神戸製鋼所
    • HONKE KOICHI
    • E02F9/00F16F15/02F16L3/10
    • PROBLEM TO BE SOLVED: To provide a vibration prevention apparatus which surely reduces or prevents vibration transmission in a hydraulic pipeline or a hydraulic hose arranged in a work machine or a construction machine.SOLUTION: A vibration prevention apparatus for a hydraulic pipeline 20 is provided in a hydraulic drive mechanism provided with a hydraulic pump, the hydraulic pipeline 20 which feeds pressure oil from the hydraulic pump to a drive section, and a support section 22 which supports the hydraulic pump and the hydraulic pipeline 20, and comprises vibration reduction means 24 including a weight 23 mounted in a curvature R in the hydraulic pipeline 20.
    • 要解决的问题:提供一种可靠地减少或防止在布置在工作机械或建筑机械中的液压管路或液压软管中的振动传播的防振装置。 解决方案:在具有液压泵的液压驱动机构中设置有用于液压管路20的防振装置,液压管路20将压力油从液压泵输送到驱动部分,支撑部分22 支撑液压泵和液压管路20,并且包括减振装置24,减振装置24包括安装在液压管路20中的曲率R上的重物23.版权所有(C)2013,JPO&INPIT
    • 2. 发明专利
    • Vibration damping structure
    • 振动阻尼结构
    • JP2012082880A
    • 2012-04-26
    • JP2010228137
    • 2010-10-08
    • Kobe Steel Ltd株式会社神戸製鋼所
    • TSUGIBASHI KAZUKISUGIMOTO AKIOHONKE KOICHI
    • F16F15/02F16F15/14H02K7/00
    • F16F15/363H02K5/24
    • PROBLEM TO BE SOLVED: To provide a vibration damping structure capable of obtaining sufficient vibration damping effect even for vibration having small amplitude by promoting movement of powder bodies in a hollow body when vibration occurs.SOLUTION: The vibration damping structure is configured by providing a vibration damping member 2 to a structure 1 to be a vibration damping target. The vibration damping member 2 includes: the hollow body 3; the powder bodies 4 filled into the hollow body 3 with a space 6 left therein partially and moving within the hollow body 3 when the structure 1 vibrates; and a movement promotion member 5 provided within the hollow body 3 and having a protruding curved surface 5a for promoting the movement of the powder bodies 4 when the structure vibrates.
    • 要解决的问题:提供一种振动阻尼结构,即使对于具有小振幅的振动也能获得足够的振动阻尼效果,通过促进振动发生时中空体中的粉末体的运动。 解决方案:通过将振动阻尼构件2设置到作为减振目标的结构1上来构造振动阻尼结构。 减震构件2包括:中空体3; 粉末体4填充到空心体3中,其中部分留有空间6,并且当结构1振动时在中空体3内移动; 以及设置在中空体3内并具有突出弯曲表面5a的运动促进构件5,用于在结构振动时促进粉体4的运动。 版权所有(C)2012,JPO&INPIT
    • 3. 发明专利
    • Power transfer structure and twin screw kneading extruder
    • 动力传动结构和双螺杆挤出机
    • JP2010099842A
    • 2010-05-06
    • JP2008270679
    • 2008-10-21
    • Kobe Steel Ltd株式会社神戸製鋼所
    • NAKASHITA TOMONORIHONKE KOICHIKASAI SHIGEHIROMINAGAWA KOJI
    • B29B7/58B29C47/40
    • B29C47/0801B29C47/0009B29C47/40B30B11/241
    • PROBLEM TO BE SOLVED: To provide the power transfer structure of a twin screw kneading extruder which can exactly measure torque applied to a screw shaft and the twin screw kneading extruder. SOLUTION: The power transfer structure includes an output shaft 3, the screw shaft 4, a sleeve 6, and a sphere 7. The output shaft 3 is rotated by rotational force transmitted from a motor 21. The sleeve 6 transmits the rotational force of the output shaft 3 to the screw shaft 4. The sphere 7 is clamped between the output shaft 3 and the screw shaft 4. The output shaft 3, the screw shaft 4, and the sleeve 6 are spline-engaged. A curved surface protruding toward the end of the output shaft 3 and a curved surface protruding toward the end of the screw shaft 4 are formed in the sphere 7. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供可以精确地测量施加到螺杆轴的扭矩和双螺杆捏合挤出机的双螺杆捏合挤出机的动力传递结构。 解决方案:动力传递结构包括输出轴3,螺杆轴4,套筒6和球体7.输出轴3由从马达21传递的旋转力旋转。套筒6将旋转 输出轴3对螺杆轴4的力。球体7被夹持在输出轴3和螺杆轴4之间。输出轴3,螺杆轴4和套筒6是花键接合的。 在球体7中形成有朝向输出轴3的端部突出的弯曲表面和朝向螺杆轴4的端部突出的弯曲表面。(C)2010,JPO&INPIT
    • 4. 发明专利
    • Twin-screw kneading extruder
    • 双螺杆挤出机
    • JP2009220433A
    • 2009-10-01
    • JP2008068015
    • 2008-03-17
    • Kobe Steel Ltd株式会社神戸製鋼所
    • HONKE KOICHIMINAGAWA KOJI
    • B29B7/46B29B7/58
    • B29B7/46B29C47/6056B29C47/662B29C47/92F16C17/04F16C19/30
    • PROBLEM TO BE SOLVED: To provide a twin-screw kneading extruder which has a kneading part with two kneading screws installed, a driving motor for driving the screws, and a speed changer connecting the driving motor with the kneading part and attempts to hold both kneading screws properly in the thrust direction, to compact the speed changer, to prevent a failure, and to elongate the life. SOLUTION: The twin-screw kneading extruder 1 includes: an axial force detection part 8 for detecting axial force toward the speed changer 4 which acts on the first kneading screw 12a; a first thrust bearing part 5 which supports the thrust load of the first kneading screw 12a; an axial force applying part 7 which loads a back-pressure in the axial direction on the first kneading screw 12a through the first thrust bearing part 5; and an axial force control part 9 which controls the axial force applying part 7 based on the detected value of the axial force detection part 8. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种双螺杆捏合挤出机,其具有安装有两个捏合螺杆的捏合部分,用于驱动螺杆的驱动马达和将驱动马达与捏合部分连接的变速器,并试图 在推力方向正确握住两个搅拌螺丝,压紧变速器,防止故障,延长使用寿命。 解决方案:双螺杆捏合挤出机1包括:用于检测作用在第一捏合螺杆12a上的变速器4的轴向力的轴向力检测部分8; 第一推力轴承部5,支承第一混炼螺杆12a的推力; 轴向力施加部7,该轴向力施加部7通过第一推力轴承部5在第一捏合螺杆12a上负载轴向的背压; 以及轴向力控制部9,其基于轴向力检测部8的检测值来控制轴向力施加部7.版权所有:(C)2010,JPO&INPIT
    • 6. 发明专利
    • Underwater cutting and granulating method, and underwater cut granulator
    • 水下切割和造粒方法和水下切割造粒机
    • JP2009066974A
    • 2009-04-02
    • JP2007239414
    • 2007-09-14
    • Kobe Steel Ltd株式会社神戸製鋼所
    • HONKE KOICHIIRITANI KAZUO
    • B29B9/06B26D1/28
    • PROBLEM TO BE SOLVED: To provide a method for underwater cutting and granulating, and an underwater cut granulator with which a cutting edge is held in a state of lightly touching a die so as to maintain good cutting of a molten resin even when abnormality such as biting resin pellets occurs, thereby achieving longer service life of the cutting edge.
      SOLUTION: In the underwater cut granulator for cutting a molten resin discharged into cooling water from a nozzle 4 of the die 3 with a rotary cutting edge 9, the molten resin is cut with the cutting edge 9 while keeping pressure forcing the cutting edge 9 against the die 3 constant. Preferably the molten resin is cut with the cutting edge 9 while e.g. supplying a fixed pressure working oil from a pressure source with fixed pressure to a hydraulic cylinder 14 for moving the cutting edge 9 to the die 3 side.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种水下切割造粒方法和水下切割造粒机,其中切割边缘保持在轻微接触模具的状态,以便即使当熔融树脂也保持良好的切割时 发生诸如咬住树脂颗粒的异常,从而实现切割刃的更长的使用寿命。 解决方案:在用旋转切削刃9切割从模具3的喷嘴4排出到冷却水中的熔融树脂的水下切割造粒机中,用切削刃9切割熔融树脂,同时保持施加切割的压力 边缘9对着模3常数。 优选地,熔融树脂用切削刃9切割, 将来自固定压力的压力源的固定的压力工作油供给到用于将切削刃9移动到模具3侧的液压缸14。 版权所有(C)2009,JPO&INPIT
    • 8. 发明专利
    • Tire hil simulator
    • 轮胎模拟器
    • JP2006138827A
    • 2006-06-01
    • JP2004334999
    • 2004-11-18
    • Kobe Steel LtdUniv Of Tokyo国立大学法人 東京大学株式会社神戸製鋼所
    • IMANISHI ETSUJIROHONKE KOICHITSUTSUI AKIRASUGANO NAOKINANJO TAKAOSUDA YOSHIHIRO
    • G01M17/02B60C19/00
    • G01M17/022
    • PROBLEM TO BE SOLVED: To provide a testing system, wherein a vehicle model is incorporated in a tire testing apparatus, and which can reconstruct the behavior of a tire due to three-dimensional behaviors of a vehicle, even when using a three-dimensional vehicle model.
      SOLUTION: The tire-testing apparatus 2, which carries out a driving test for the tire 4a by using a substitute road surface unit 4, is equipped with a lateral force measuring means 37 which measures the lateral force of the tire; and actuators which apply ground load, angle of sideslip and camber angle, respectively. The vehicle model 5, connected to the tire testing apparatus 2, computes the three-dimensional motion of the vehicle, by using the steering angle and the tire lateral force from the lateral force measuring means 37 as the input values, and outputs command values of the ground load, the angle of sideslip and the camber angle which are based on the computed results, to respective actuators of the tire-testing apparatus 2.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种测试系统,其中将车辆模型结合在轮胎测试装置中,并且其可以由于车辆的三维行为而重建轮胎的行为,即使当使用三 三维车辆模型。 解决方案:通过使用替代路面单元4对轮胎4a进行驾驶测试的轮胎测试装置2配备有测量轮胎的横向力的横向力测量装置37; 以及分别施加地面载荷,侧滑角和外倾角的执行器。 连接到轮胎测试装置2的车辆模型5通过使用来自横向力测量装置37的转向角和轮胎横向力作为输入值来计算车辆的三维运动,并且输出命令值 轮胎测试装置2的相应致动器的接地负载,侧滑角和外倾角基于计算结果。(C)2006年,JPO和NCIPI
    • 9. 发明专利
    • Vibration control device for bridge
    • 桥梁振动控制装置
    • JP2005320764A
    • 2005-11-17
    • JP2004139539
    • 2004-05-10
    • Kobe Steel Ltd株式会社神戸製鋼所
    • HONKE KOICHIOKADA TORU
    • E01D1/00
    • PROBLEM TO BE SOLVED: To provide a vibration control device for a bridge, which functions to cushion contact between a plate member arranged on the side of a bridge and a plate member arranged on the side of an abutment or a pier, and sufficiently exerts a vibration control function by a vibration control member interposed between the two plate members.
      SOLUTION: The vibration control device 3 is rigidly arranged at each end of the bridge 1, and formed of the plate member 4 extending downward from the bridge 1, an inside container 5 having a wall portion 5a facing the plate member 4, an outside container 6 rigidly arranged on the abutment 2 and housing therein the inside container 5, the vibration control member 7 interposed between the plate member 4 and the wall portion 5a of the inside container 5, and a viscous fluid 8 filled in a gap between the inside container 5 and the outside container 6.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种用于桥梁的振动控制装置,其用于缓冲布置在桥侧的板构件和布置在基台或码头侧的板构件之间的接触,以及 通过插入在两个板构件之间的振动控制构件充分地施加振动控制功能。 解决方案:振动控制装置3刚性地布置在桥1的每个端部处,并且由从桥1向下延伸的板构件4形成,具有面向板构件4的壁部5a的内部容器5, 刚性地布置在基台2上并且容纳在内部容器5中的外部容器6,插入在板构件4和内部容器5的壁部5a之间的振动控制构件7和填充在内部容器5之间的间隙中的粘性流体8 内部容器5和外部容器6.版权所有(C)2006,JPO&NCIPI