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    • 4. 发明授权
    • Reamer and method for reaming
    • 铰刀和扩孔方法
    • US07207752B2
    • 2007-04-24
    • US10770888
    • 2004-02-03
    • Paul Martin Schulte
    • Paul Martin Schulte
    • B23B51/02B23B51/06
    • B23D77/006B23D77/00B23D77/003B23D2277/04B23D2277/105B23D2277/205B23D2277/208B23D2277/2464B23D2277/62B23D2277/68Y10T408/03Y10T408/455Y10T408/906Y10T408/909Y10T408/9097
    • The present invention discloses a reamer (20) and a method for reaming, for enlarging a pre-existing hole in a workpiece by rotational and axial cutting. The reamer (20) includes a body (24) extending from a shank (22). The body (24) has a first flute (30) providing a first flute cutting edge (32) at a distal end (34) of the body (24) for imparting a first cutting operation to the workpiece. The body (24) has a helical flute (42) providing a helical flute cutting edge (46) in the body distal end (34), radially spaced apart from the first flute cutting edge (32) for imparting a helical cutting operation to the workpiece. The first flute and helical flute cutting edges (32, 46) concurrently and collectively perform the first and helical cutting operations to a sculpture surface of the workpiece, thereby improving tolerances of the cutting operations, varying loads imparted to the workpiece and the reamer (20), and reducing heat generated therebetween.
    • 本发明公开了一种用于通过旋转和轴向切割扩大工件中预先存在的孔的铰刀(20)和铰孔方法。 扩孔器(20)包括从柄(22)延伸的主体(24)。 主体(24)具有第一凹槽(30),其在主体(24)的远端(34)处提供第一凹槽切割边缘(32),用于向工件施加第一切割操作。 本体(24)具有螺旋槽(42),其在主体远端(34)中提供螺旋形槽纹切割边缘(46),与第一槽纹切割边缘(32)径向间隔开,以便向 工件。 第一凹槽和螺旋槽切割边缘(32,46)同时并且共同地对工件的雕刻表面执行第一和螺旋切割操作,从而提高切割操作的公差,施加到工件和铰刀的变化的载荷(20 ),并减少它们之间产生的热量。
    • 5. 发明申请
    • Reamer and method for reaming
    • 铰刀和扩孔方法
    • US20050169721A1
    • 2005-08-04
    • US10770888
    • 2004-02-03
    • Paul Schulte
    • Paul Schulte
    • B23B51/00B23D77/00
    • B23D77/006B23D77/00B23D77/003B23D2277/04B23D2277/105B23D2277/205B23D2277/208B23D2277/2464B23D2277/62B23D2277/68Y10T408/03Y10T408/455Y10T408/906Y10T408/909Y10T408/9097
    • The present invention discloses a reamer (20) and a method for reaming, for enlarging a pre-existing hole in a workpiece by rotational and axial cutting. The reamer (20) includes a body (24) extending from a shank (22). The body (24) has a first flute (30) providing a first flute cutting edge (32) at a distal end (34) of the body (24) for imparting a first cutting operation to the workpiece. The body (24) has a helical flute (42) providing a helical flute cutting edge (46) in the body distal end (34), radially spaced apart from the first flute cutting edge (32) for imparting a helical cutting operation to the workpiece. The first flute and helical flute cutting edges (32, 46) concurrently and collectively perform the first and helical cutting operations to a sculpture surface of the workpiece, thereby improving tolerances of the cutting operations, varying loads imparted to the workpiece and the reamer (20), and reducing heat generated therebetween.
    • 本发明公开了一种用于通过旋转和轴向切割扩大工件中预先存在的孔的铰刀(20)和铰孔方法。 扩孔器(20)包括从柄(22)延伸的主体(24)。 主体(24)具有第一凹槽(30),其在主体(24)的远端(34)处提供第一凹槽切割边缘(32),用于向工件施加第一切割操作。 本体(24)具有螺旋槽(42),其在主体远端(34)中提供螺旋形槽纹切割边缘(46),与第一槽纹切割边缘(32)径向间隔开,以便向 工件。 第一凹槽和螺旋槽切割边缘(32,46)同时并且共同地对工件的雕刻表面执行第一和螺旋切割操作,从而提高切割操作的公差,施加到工件和铰刀的变化的载荷(20 ),并减少它们之间产生的热量。
    • 7. 发明申请
    • Working tool for manufacturing bearing member, manufacturing apparatus incorporating the same and manufacturing method using the same
    • 用于制造轴承部件的加工工具,其制造装置及其制造方法
    • US20010025420A1
    • 2001-10-04
    • US09822514
    • 2001-04-02
    • Motonori Usui
    • B23P019/04B21D053/10
    • F16C33/1065B23D77/00B23D2277/68B23P13/02B23P15/003F16C17/026Y10T29/49636Y10T29/53104
    • When inserting a finishing tool 41 into a bearing hole 13A3, firstly, by inserting an insertion guide portion 41c formed on the leading end side of the finishing tool 41 into the bearing hole 13A3, the finishing tool 41 is inserted into the bearing hole 13A3 in such a manner that the angle and parallelism of the axis of a pressure contact working portion 41b, which is situated on the rear side of the finishing tool 41 and continues with the insertion guide portion 41c, can be gradually aligned with the axis of the bearing hole through a floating holder mechanism 42. In a state where the axis of the pressure contact working portion 41b is automatically aligned with the axis of the bearing hole with high precision, the working of the bearing hole using the pressure contact working portion 41b is started. After then, due to the pressure-contact plastic deformation of the bearing hole by the pressure contact working portion 41b, the inner peripheral surface of the bearing hole of the bearing member is finish worked with high precision.
    • 当将精加工工具41插入到轴承孔13A3中时,首先,通过将形成在精加工工具41的前端侧的插入引导部41c插入到轴承孔13A3中,将精加工工具41插入到轴承孔13A3中 位于精加工工具41的后侧并与插入引导部41c连续的压力接触作用部分41b的轴线的角度和平行度可以与轴承的轴线逐渐对准 在压接部分41b的轴线与轴承孔的轴线自动对准的状态下,使用压力接触工作部分41b的轴承孔的工作开始 。 之后,由于压接部41b的轴承孔的压接塑性变形,轴承部件的轴承孔的内周面被精加工精加工。