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    • 3. 发明授权
    • Method and apparatus of working plain bearing
    • 滑动轴承工作方法及装置
    • US06688001B2
    • 2004-02-10
    • US10090619
    • 2002-03-06
    • Yutaka OkamotoSatoshi ImaiNobutaka HiramatsuHideo IshikawaTakayuki ShibayamaMikio SuzukiMitsuharu Sahashi
    • Yutaka OkamotoSatoshi ImaiNobutaka HiramatsuHideo IshikawaTakayuki ShibayamaMikio SuzukiMitsuharu Sahashi
    • B21D5310
    • B23P15/003F16C9/04F16C17/022F16C23/041F16C33/14F16C2220/62F16C2220/82F16C2240/30F16C2240/50Y10T29/49647Y10T29/49668Y10T29/49671Y10T29/5116Y10T29/53104
    • There is provided a method of working a plain bearing and a working apparatus of the plain bearing, which make it easy to perform working by forming a plurality of inclined surfaces of different angles in portions on both sides of the inner peripheral surface of the bearing alloy metal of the plain bearing in the axial direction thereof. In the working method and apparatus, a working holder 18 is provided which has a groove 20 extending on the inner peripheral surface in the peripheral direction and portions on both sides of the groove in the transverse direction formed in step-like shape, a half bearing 11 is housed in the working holder 18, and both ends of the half bearing 11 in the peripheral direction are pressed by use of pressing means 24. Then, the half bearing undergoes plastic deformation so as to be fitted into the groove and both sides of the half bearing in the axial direction thereof come into abutment with the edges 22, 23 of the step-like portions and are deformed in a polygonal line form. In this state, both ends of the half bearing 11 in the axial direction thereof are cut along one cylindrical surface by use of a broach 19. As a result, two inclined surfaces of different angles are continuously formed in the portions of both sides of the bearing alloy metal 13 of the half bearing in the axial direction thereof.
    • 提供了一种滑动轴承的滑动轴承和加工装置的加工方法,其通过在轴承合金的内周面的两侧形成多个不同角度的倾斜面而容易进行加工 滑动轴承的轴向方向的金属。 在工作方法和装置中,设置有工作保持器18,其具有沿圆周方向的内周面延伸的槽20,并且在横向的槽的两侧的部分形成为阶梯状,半轴承 11被容纳在工作保持器18中,并且半轴承11的周向的两端通过使用按压装置24被按压。然后,半轴承经受塑性变形,从而被装配到槽和两侧 其轴向的半轴承与阶梯状部分的边缘22,23抵接,并以多边形的形式变形。 在这种状态下,半轴承11的轴向两端通过拉刀19沿着一个圆筒表面切割。结果,两个不同角度的倾斜表面连续地形成在 半轴承的轴承合金金属13沿其轴向方向。
    • 4. 发明授权
    • Bearing assembly adjustable spacer and gage part adjustment method
    • 轴承总成可调间隔和量规部件调整方法
    • US06684506B2
    • 2004-02-03
    • US10447785
    • 2003-05-29
    • John E. Rode
    • John E. Rode
    • B21D5310
    • F16C19/548F16C19/364F16C25/06F16C2229/00Y10S33/17Y10T29/49636Y10T29/49696Y10T29/497Y10T29/49766Y10T29/49767Y10T29/49769Y10T29/4981Y10T29/4984Y10T29/49861Y10T29/49863Y10T29/53104Y10T29/53109
    • One or more force application members (e.g., a force transmission member and/or a hydraulic force application member) may be employed to provide a desired adjustment (e.g., a preload and/or a compression) to an adjustable spacer of a bearing assembly. The hydraulic force application member may provide a first stage of the adjustment to the spacer, and the force transmission member may be threadingly rotated to apply a second stage of the adjustment to the spacer. An additional force application member may (e.g., contemporaneously) oppose at least one of the force application members in the providing of the adjustment to the spacer. This opposing force may cause a gap between certain surfaces (e.g., in a press) until the adjustment to the spacer is completed. The closure of the gap may serve to indicate the completion of the desired adjustment to the spacer. A housing rotatable on a portion of the bearing assembly may be prevented from rotating at the closure of the gap. Such an increased drag torque of the housing may be observed and employed to terminate an operation of at least one of the force application members. One or more gage parts may be located in the bearing assembly to assist the providing of the adjustment to the spacer. An adjustment of an axial dimension of at least one of the gage parts, may be made based on one or more factors and/or characteristics (e.g., endplay in the bearing assembly).
    • 可以使用一个或多个施力构件(例如,力传递构件和/或液压施加构件)来向轴承组件的可调节间隔件提供期望的调节(例如,预载荷和/或压缩)。 液压力施加构件可以向间隔件提供调节的第一阶段,并且力传递构件可以螺旋旋转以将调整的第二阶段施加到间隔件。 附加的施力构件可以(例如,同时地)在提供对间隔物的调节时与至少一个施力构件相对。 这种相反的力可能在某些表面(例如,在压机中)之间产生间隙,直到对间隔物的调整完成。 间隙的闭合可以用于指示对间隔物的期望调整的完成。 可以防止在轴承组件的一部分上旋转的壳体在间隙的闭合处旋转。 可以观察并采用这种增加的壳体的阻力矩,以终止至少一个施力部件的操作。 一个或多个量具部件可以位于轴承组件中以帮助提供对间隔件的调节。 可以基于一个或多个因素和/或特性(例如,轴承组件中的终点)来进行至少一个量具部件的轴向尺寸的调整。
    • 10. 发明授权
    • Method and apparatus for surface processing of sintered oilless bearing
    • 烧结无油轴承表面处理方法和装置
    • US06415512B1
    • 2002-07-09
    • US09594360
    • 2000-06-15
    • Dae Hyun Jeong
    • Dae Hyun Jeong
    • B21D5310
    • B22F5/106B21J5/12B22F3/16B22F5/10B22F2003/166B22F2003/245B22F2998/00F16C33/14Y10S148/906Y10S384/902Y10T29/49707
    • A method for surface processing of sintered oilless bearing and an apparatus thereof are disclosed by which method the efficiency of covering the pores and the surface roughness of protuberance that is nonporous surface may be improved by means of surface processing of inner diameter surface at time of sizing process using a correcting rod where many correction grooves have been formed on its top part. The invention has features that it may improve the efficiency of covering the pores formed on surface and the surface roughness of sintered oilless bearing's inner diameter surface contacting the shaft, by way of passing the bearing through many correction grooves formed in longitudinal direction on outer circumferential surface of protuberance correction part which is upper part of said correcting rod while at the same time the bearing sintered after compression molding is sized using a sizing device composed of correcting rod and upper and lower punches and that the invention precludes abrasion by reducing the force of friction with shaft in motor applying such sintered oilless bearing so that motor performance reliability may be substantially enhanced.
    • 公开了一种烧结无油轴承的表面处理方法及其装置,通过该方法,可以通过在尺寸调整时通过内径表面的表面处理来提高覆盖孔的效率和无孔表面的突起的表面粗糙度 使用在其顶部部分上形成有许多校正槽的校正杆的处理。 本发明的特征在于,可以提高覆盖表面形成的孔的效率以及与轴接触的烧结无油轴承的内径面的表面粗糙度,通过使轴承通过在外周面上沿长度方向形成的许多校正槽 作为上述校正棒的上部的突起校正部,同时在压缩成型后烧结的轴承的尺寸使用由矫正杆和上下冲头构成的定径装置,并且本发明通过减小摩擦力来排除磨损 其中电机中的轴应用这种烧结无油轴承,使得电动机性能可靠性可以显着提高。