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    • 1. 发明授权
    • Sphere polisher
    • 球体抛光机
    • US5921851A
    • 1999-07-13
    • US835477
    • 1997-04-08
    • Tomita SuzukiKatsuhisa TonookaKunio KawashimaChuichi SatoMasami ShinomotoHiroyuki Nojima
    • Tomita SuzukiKatsuhisa TonookaKunio KawashimaChuichi SatoMasami ShinomotoHiroyuki Nojima
    • B24B11/06F16C33/32B24B7/17
    • F16C33/32B24B11/06
    • A sphere polisher capable of making uniform conditions under which balls are polished is provided. The inner and outer polishing circuits are defined by the grooves 23 provided on the rotative disc 10 and the fixed disc 20. The storage conveyor 50 is provided with an outer ball guiding passage 55 and an inner ball guiding passage 56. The ball supply chute 57 is provided with the inner chute portion 57a connecting the inner polishing circuits with the outer ball guiding passage 55, and the outer chute portion 57b connecting the outer polishing circuits with the inner ball guiding passage 56. The ball discharge chute 58 is provided with the inner discharge chute portion 58a connecting the inner polishing circuits with the inner ball guiding passage 56, and the outer discharge chute portion 58b connecting the outer polishing circuits with the outer ball guiding passage 57.
    • 提供能够制造均匀条件的球体抛光机,在该条件下滚珠被抛光。 内部和外部抛光电路由设置在旋转盘10和固定盘20上的槽23限定。存储传送器50设置有外部球引导通道55和内部球引导通道56.球体供给斜槽57 设有将内部抛光电路与外部球引导通路55连接的内部斜槽部57a和将外部抛光回路与内部球引导通路56连接的外侧斜槽部57b。球排出斜槽58设置有内侧 将内部抛光回路与内部球引导通道56连接的排出斜槽部58a和将外部抛光回路与外部球引导通路57连接的外部排出斜槽部58b。
    • 2. 发明授权
    • Apparatus and method for inspecting a ball bearing
    • 用于检查球轴承的装置和方法
    • US5889218A
    • 1999-03-30
    • US971293
    • 1997-11-17
    • Chuichi SatoHiroyuki Matsuzaki
    • Chuichi SatoHiroyuki Matsuzaki
    • G01M13/04G01M19/00
    • G01M13/04
    • In the ball bearing inspection apparatus and method, the butting portion 7c of a skew drive shaft 7 rotatable coaxially with a spindle rotary shaft 1 is butted against steel balls 3 which are respectively held between the respective grooves of the inner ring 4b and outer ring 4a of a ball bearing 4 to be inspected, the spindle rotary shaft 1 is rotated while applying a pre-load to the outer ring 4a by a pre-load ring 5, and the skew drive shaft 7 is rotated while controlling the rotation speed of the skew drive shaft 7 in such a manner that the respective steel balls 3, which are being rotated on their own axes and around the spindle rotary shaft 1 due to the rotation of the spindle rotary shaft 1, is caused to make a skew movement due to the butting portion 7c. Therefore, physical quantities such as vibrations, sound pressures and the like generated from the ball bearing 4 to be inspected are measured in a condition that the respective balls 3 are making their respective skew movements in addition to their rotational movements on their own axes and around the spindle rotary shaft 1.
    • 在滚珠轴承检查装置和方法中,与主轴旋转轴1同轴旋转的歪斜驱动轴7的对接部7c抵接在分别保持在内圈4b和外圈4a的各个槽之间的钢球3上 的待检查的滚珠轴承4中,主轴旋转轴1通过预加载环5向外圈4a施加预负荷而旋转,并且偏斜驱动轴7旋转,同时控制旋转轴 使得由于主轴旋转轴1的旋转而在其自身轴线上旋转并且绕主轴旋转轴1旋转的各个钢球3由于主轴旋转轴1的旋转而产生偏斜运动 对接部分7c。 因此,在各滚珠3除了在其自身的轴线和周围的旋转运动之外进行各自的倾斜运动的情况下,测量从要检查的滚珠轴承4产生的诸如振动,声压等的物理量 主轴旋转轴1。
    • 5. 发明授权
    • Bore size correcting apparatus
    • 孔径校正装置
    • US5651720A
    • 1997-07-29
    • US447042
    • 1995-05-22
    • Masami ShinomotoChuichi Sato
    • Masami ShinomotoChuichi Sato
    • B24B49/02B23D77/04B24B5/06B24B33/02B24B37/00B24B39/02B24B49/04B24D7/18B24B49/00
    • B24B33/022B24B49/04B24B5/06
    • In a bore size correcting apparatus, a passing-through jig of an extended type lapping reamer in the bore size trimming device is passed through the bore surface of the workpiece machined by the bore grinding machine to correct the inner size of the workpiece, either one of the bore size to be corrected and a corrected bore size of the workpiece is measured by the bore size measuring device, a signal is outputted in accordance with the corrected bore size, and in response to the output signal, a machining command is supplied from the bore size control device to at least one of the in-process fixed-size control device and the external size control device. Thus, the bore size of the workpiece roughly manufactured by grinding can be precisely finished, with no skill, so as to have any optional set value, and the correction apparatus is also made compact and inexpensive.
    • 在孔径校正装置中,孔径修整装置中的延伸式研磨铰刀的穿通夹具通过由钻孔研磨机加工的工件的孔表面,以校正工件的内部尺寸, 通过孔尺寸测量装置测量待校正的孔尺寸和校正的孔尺寸,根据校正的孔尺寸输出信号,并且响应于输出信号,从 所述孔径尺寸控制装置至所述进程中固定尺寸控制装置和所述外部尺寸控制装置中的至少一个。 因此,通过研磨大致制造的工件的孔径尺寸可以精确地完成,没有任何技术,从而具有任何可选的设定值,并且校正装置也变得紧凑和便宜。
    • 8. 发明授权
    • Ball bearing device for a swing arm
    • 用于摆臂的滚珠轴承装置
    • US06461050B2
    • 2002-10-08
    • US10042691
    • 2002-01-02
    • Hiromitsu MurakiKatsuhiko TanakaShigeru EndoChuichi Sato
    • Hiromitsu MurakiKatsuhiko TanakaShigeru EndoChuichi Sato
    • F16C3358
    • F16C35/077F16C11/04F16C27/04F16C2370/12Y10T29/49682Y10T29/49696
    • The locus of the displacement of the centers of the balls of a ball bearing is made elliptical and the radial bearing rigidity of the ball bearing in one radial direction is made greater than the radial bearing rigidity in another radial direction orthogonal to the one radial direction, or at least one of the axial length of the portion on the inner diametral surface of the inner race of the ball bearing which is fitted to a shaft and the axial length of the portion on the outer diametral surface of the outer race of the ball bearing which is fitted to a housing is made ½ or less of the bearing width of the ball bearing, whereby the radial rigidity of a ball bearing device is made very small as compared with the radial rigidity in the prior art. As a result, the stability of a swing arm system can be enhanced and the higher speed and higher accuracy of control become possible.
    • 球轴承的球的中心的位移轨迹被制成椭圆形,并且球轴承在一个径向上的径向承载刚度被制成大于与一个径向正交的另一个径向方向上的径向轴承刚度, 或装配在轴上的球轴承的内圈的内径面上的部分的轴向长度和滚珠轴承的外圈外径表面部分的轴向长度中的至少一个 将其安装到壳体上的距离为球轴承的轴承宽度的1/2以下,由此与现有技术中的径向刚度相比,球轴承装置的径向刚度非常小。 结果,可以提高摆臂系统的稳定性,并且可以实现更高的速度和更高的控制精度。
    • 10. 发明授权
    • Apparatus for forming an annular member
    • 用于形成环形构件的装置
    • US6070443A
    • 2000-06-06
    • US705645
    • 1996-08-30
    • Chuichi SatoHiroyuki SawaiHiroshi Mitsuboshi
    • Chuichi SatoHiroyuki SawaiHiroshi Mitsuboshi
    • B21H1/06B21H1/12B21B37/00B21D15/04
    • B21H1/12Y10T29/49689Y10T29/49764Y10T29/49771Y10T29/49778
    • In an annular member forming apparatus including: a forming roll rotatable in contact with an outer cylindrical surface of an annular workpiece; a mandrel relatively movable towards and away from the forming roll in contact with an inner cylindrical surface of the workpiece; and an outside diameter detecting device for detecting an outside diameter of the workpiece which is to be worked, the apparatus further includes a moving device for moving relatively the forming roll and the mandrel and for pressing the workpiece by the forming roll and the mandrel moved towards each other to subject the workpiece to rough rolling and to finish rolling. The moving device includes a retracting device for correcting an elastic deformation of the forming roll, the mandrel and the moving is device occurring during the rough rolling, for a switching time from the rough rolling to the finish rolling by an output signal from the outside diameter detecting device. The moving device is moved backwardly away from the mandrel by a distance corresponding to a difference between amounts of elongation which are due to a rolling load during the rough rolling and due to a rolling load during the finish rolling for the switching time.
    • 一种环形构件成形设备,包括:可与环形工件的外圆柱面接触的成型辊; 与所述工件的内圆柱形表面接触的可与所述成形辊相对移动的心轴; 以及用于检测要被加工的工件的外径的外径检测装置,该装置还包括用于相对于成形辊和心轴移动并用于通过成形辊挤压工件的移动装置,并且心轴向着 相互对准工件进行粗轧和精轧。 移动装置包括用于校正成形辊的弹性变形的回缩装置,在粗轧期间发生的心轴和移动装置,通过来自外径的输出信号从粗轧到精轧的切换时间 检测装置。 移动装置向后移动远离心轴一段距离,该距离对应于由于粗轧期间的滚动负载引起的伸长量与由于切换时间的精轧期间的滚动负载而产生的伸长量之差。