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    • 1. 发明专利
    • 線性馬達
    • 线性马达
    • TW201611479A
    • 2016-03-16
    • TW104124757
    • 2015-07-30
    • 昂科有限公司ANCA PTY LTD
    • 麥克拉斯基 帕特MCCLUSKEY, PAT威索基 菲利普WYSOCKI, PHILIP哈爾 蒂姆HAAR, TIM
    • H02K41/02
    • H02K5/20H02K9/10H02K9/19H02K41/03H02K41/031
    • 一種線性馬達,包含一移動件及一定子,該移動件具有一圓筒體會形成一伸長的圓孔,且該定子係為一伸長軸設在該孔內。該圓筒體包含多數個電繞線組,且該軸包含一同步或可變的磁阻拓撲,或多數個磁鐵。該等繞線組的電充能會造成該圓筒體與該軸之間的相對運動及/或力產生。該圓筒體係被設在一殼體內,並有一冷卻劑空間被形成於該圓筒體與該殼體之一朝內的圓筒形表面之間。該冷卻劑空間係沿該圓筒體之長度的至少一主要部份形成,且該冷卻劑空間實質上為圓筒形且為實質上恒定的截面。
    • 一种线性马达,包含一移动件及一定子,该移动件具有一圆筒体会形成一伸长的圆孔,且该定子系为一伸长轴设在该孔内。该圆筒体包含多数个电绕线组,且该轴包含一同步或可变的磁阻拓扑,或多数个磁铁。该等绕线组的电充能会造成该圆筒体与该轴之间的相对运动及/或力产生。该圆筒体系被设在一壳体内,并有一冷却剂空间被形成于该圆筒体与该壳体之一朝内的圆筒形表面之间。该冷却剂空间系沿该圆筒体之长度的至少一主要部份形成,且该冷却剂空间实质上为圆筒形且为实质上恒定的截面。
    • 4. 发明申请
    • WORKPIECE MOUNTING FOR PRECISION MACHINING
    • 精密加工用工件安装
    • WO2004007128A8
    • 2004-04-29
    • PCT/AU0300917
    • 2003-07-17
    • ANCA PTY LTDMCCLUSKY PATRICK JOHNRODDA BRUCE STANLEY
    • MCCLUSKY PATRICK JOHNRODDA BRUCE STANLEY
    • B23B31/20B23B31/36B23Q3/12G05B19/404
    • B23B31/36B23B31/207
    • An apparatus and method are provided for mounting a workpiece (10) for a precision machining operation to be performed on the workpiece by a machine tool having a spindle rotatable about a rotational axis (12). An adaptor (20) mounted by the machine tool mounts the workpiece (10) so a rotational axis (13) of the workpiece is coaxial with the spindle axis (12). A selectively adjustable packing means (55) is interposed between the adaptor (20) and a base (45) fixed to the machine tool to determine the angle at which the adaptor (20) mounts the workpiece relative to the spindle axis (12) to enable, during a set up operation, reduction of the angularity error of the workpiece rotational axis (13). The packing means (55) includes two packing rings (56, 57) each having an axial thickness which varies around the circumference. The packing rings are adjustable in their rotational positions around the adaptor (20) to provide a selectively variable thickness in the axial direction at different angularly spaced positions enabling the inclination of the adaptor axis to the spindle axis (12) to be selectively varied.
    • 本发明提供一种装置和方法,用于安装用于通过具有可围绕旋转轴线(12)旋转的主轴的机床对工件进行精密加工的工件(10)。 由机床安装的适配器(20)安装工件(10),使得工件的旋转轴线(13)与主轴轴线(12)同轴。 在适配器20和固定在机床上的基座45之间插入可选择性调节的填充装置55,以确定适配器20相对于主轴轴线12安装工件的角度, 在建立操作期间使得能够减小工件旋转轴线(13)的角度误差。 包装装置(55)包括两个密封环(56,57),每个密封环具有围绕圆周变化的轴向厚度。 密封环可围绕适配器(20)调节其旋转位置,以在不同的角度间隔位置处提供轴向选择性可变厚度,使得适配器轴线相对于主轴轴线(12)的倾斜能够选择性地改变。
    • 6. 发明申请
    • WORKPIECE MOUNTING FOR PRECISION MACHINING
    • 工作安装精密加工
    • WO2004007128A1
    • 2004-01-22
    • PCT/AU2003/000917
    • 2003-07-17
    • ANCA PTY LTDMcCLUSKY, Patrick, JohnRODDA, Bruce, Stanley
    • McCLUSKY, Patrick, JohnRODDA, Bruce, Stanley
    • B23B31/20
    • B23B31/36B23B31/207
    • An apparatus and method are provided for mounting a workpiece (10) for a precision machining operation to be performed on the workpiece by a machine tool having a spindle rotatable about a rotational axis (12). An adaptor (20) mounted by the machine tool mounts the workpiece (10) so a rotational axis (13) of the workpiece is coaxial with the spindle axis (12). A selectively adjustable packing means (55) is interposed between the adaptor (20) and a base (45) fixed to the machine tool to determine the angle at which the adaptor (20) mounts the workpiece relative to the spindle axis (12) to enable, during a set up operation, reduction of the angularity error of the workpiece rotational axis (13). The packing means (55) includes two packing rings (56, 57) each having an axial thickness which varies around the circumference. The packing rings are adjustable in their rotational positions around the adaptor (20) to provide a selectively variable thickness in the axial direction at different angularly spaced positions enabling the inclination of the adaptor axis to the spindle axis (12) to be selectively varied.
    • 提供了一种装置和方法,用于通过具有可围绕旋转轴线(12)旋转的心轴的机床来安装用于对工件执行的精密加工操作的工件(10)。 由机床安装的适配器(20)安装工件(10),使得工件的旋转轴线(13)与主轴轴线(12)同轴。 可选择地调节的包装装置(55)插入在适配器(20)和固定到机床的基座(45)之间,以确定适配器(20)相对于主轴轴线(12)将工件安装到 使得在设置操作期间能够减小工件旋转轴线(13)的角度误差。 包装装置(55)包括两个各自具有绕圆周变化的轴向厚度的填料环(56,57)。 填料环在适配器(20)周围的旋转位置是可调节的,以在轴向方向上以不同的角度间隔位置提供选择性可变的厚度,使得适配器轴线相对于主轴轴线(12)的倾斜度能够选择性地变化。
    • 9. 发明申请
    • LINEAR MOTOR
    • 线性电动机
    • WO2016025975A1
    • 2016-02-25
    • PCT/AU2015/000438
    • 2015-07-24
    • ANCA PTY LTD
    • MCCLUSKEY, PatWYSOCKI, PhilipHAAR, Tim
    • H02K41/02
    • H02K5/20H02K9/10H02K9/19H02K41/03H02K41/031
    • A linear motor (30), including a mover and a stator, the mover having a cylindrical body (33) that forms an elongate circular bore (31) and the stator being an elongate shaft disposed within the bore. The cylindrical body (33) includes a plurality of electrical windings (32) and the shaft includes a synchronous or variable reluctance topology, or a plurality of magnets. Electrical energising of the windings (32) results in relative movement and/or force generation between the cylindrical body (33) and the shaft. The cylindrical body (33) being disposed within a housing (37) with a coolant space (35) being formed between the cylindrical body (33) and an internally facing cylindrical surface (38) of the housing (37). The coolant space (35) being formed along at least a major portion of the length of the cylindrical body (33) and the coolant space (3) being substantially cylindrical and of substantially constant cross-section.
    • 包括移动器和定子的线性马达(30)具有形成细长圆形孔(31)的圆筒体(33),该定子是设置在孔内的细长轴。 圆柱体(33)包括多个电绕组(32),并且该轴包括同步或可变磁阻拓扑或多个磁体。 绕组(32)的电通电导致圆柱体(33)和轴之间的相对运动和/或力产生。 圆柱体(33)设置在壳体(37)内,其中冷却剂空间(35)形成在圆柱体(33)和壳体(37)的面向内的圆柱形表面(38)之间。 所述冷却剂空间(35)沿着所述圆柱体(33)的长度的至少大部分和所述冷却剂空间(3)形成为大致圆柱形并且具有基本恒定的横截面。
    • 10. 发明申请
    • COMPUTATION OF IMBALANCE IN ROTATABLY MOUNTED OBJECT IN A MOTION CONTROL SYSTEM
    • 运动控制系统中可旋转安装对象的不平衡计算
    • WO2005088269A1
    • 2005-09-22
    • PCT/AU2005/000365
    • 2005-03-15
    • ANCA PTY LTDBOLAND, Patrick, GerardBOLAND, Philippa, Elizabeth
    • BOLAND, Patrick, GerardBOLAND, Philippa, Elizabeth
    • G01M1/22
    • G01M1/326G01M1/22G05B19/404G05B2219/37349G05B2219/49177
    • One aspect of the present invention provides a method of computing imbalance in a motion control system, the motion control system including an object mounting mechanism (102) for holding and rotating the object about a first axis; an object positioning mechanism (106) for displacing the object mounting mechanism; an object positioning drive (108) for driving the object positioning mechanism; and one or more rotation detection devices (204) for generating an output signal indicative of the rotation of the object about the first axis, the method including the steps of computing an object rotation signal indicative of the speed and phase of the object about the first axis from the rotation detection devices' output signal; demodulating an output signal from the drive with the object rotation signal to derive a demodulated output signal that is synchronous with rotation of the object about the first axis; and computing the magnitude and phase of the object imbalance from the demodulated output signal.
    • 本发明的一个方面提供了一种计算运动控制系统不平衡的方法,所述运动控制系统包括用于围绕第一轴线保持和旋转物体的物体安装机构(102); 用于移动所述物体安装机构的物体定位机构(106) 用于驱动所述物体定位机构的物体定位驱动器(108) 以及一个或多个旋转检测装置(204),用于产生指示关于第一轴的对象的旋转的输出信号,所述方法包括以下步骤:计算指示物体的速度和相位关于第一轴的速度和相位的步骤 轴从旋转检测装置的输出信号; 用对象旋转信号解调来自驱动器的输出信号,以导出与物体围绕第一轴的旋转同步的解调输出信号; 以及从解调的输出信号计算物体不平衡的大小和相位。