会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • GRINDING METHOD OF MULTIFUNCTION GRINDING MACHINE
    • 多功能磨床的研磨方法
    • US20110300777A1
    • 2011-12-08
    • US13152888
    • 2011-06-03
    • Toshiaki NAYAKikutoshi OKADA
    • Toshiaki NAYAKikutoshi OKADA
    • B24B1/00
    • B24B51/00B24B1/00B24B5/01B24B5/04B24B5/307B24B5/42B24B27/0061
    • It is an object of the present invention to provide a grinding method of a multifunction grinding machine having no need to exchange one end portion to the other end portion of a workpiece and having a more simple construction to grind both of one and the other end portions.The grinding method of the multifunction grinding machine includes the steps of a step holding a workpiece W by a pair of centering members 21, 31 of a pair of spindle equipments, a step shifting two centering members 21, 31 to one side of a spindle rotational axis ZW, a step facing a grinding wheel TB at the other side to the other end portion WTb of the workpiece W, a step grinding the other end portion WTb of the workpiece W by the grinding wheel TB at the other side by rotating a driving pin 23 of the spindle equipment at one side, a step retracting the grinding wheel at other side and stopping the rotation of the driving pin 23 at one side and also shifting two centering members 21, 31 to the other side of the spindle rotational axis ZW, a step facing a grinding wheel TA at one side to one end portion WTa of the workpiece W, and a step grinding one end portion WTa of the workpiece W by the grinding wheel TA at one side by rotating a driving pin 33 of the spindle equipment at the other side.
    • 本发明的目的是提供一种多功能磨削机的磨削方法,其不需要将一个端部更换到工件的另一端部,并且具有更简单的结构来研磨一个和另一个端部部分 。 多功能研磨机的研磨方法包括以下步骤:通过一对主轴设备的一对定心构件21,31夹持工件W的步骤,将两个定心构件21,31分别移动到主轴旋转的一侧 轴ZW是与工件W的另一端部WTb相对的研磨轮TB的台阶,通过旋转驱动而在另一侧通过研磨轮TB对工件W的另一端部WTb进行磨削 在一侧的主轴设备的销23,使另一侧的砂轮回缩并且在一侧停止驱动销23的旋转并且还将两个定心构件21,31移动到主轴旋转轴线ZW的另一侧 面向工件W的一侧的砂轮TA到工件W的一个端部WTa的台阶,以及通过使主轴的驱动销33旋转来一步磨削由砂轮TA在一侧的工件W的一个端部WTa 设备在o 另一边。
    • 3. 发明申请
    • GRINDING MACHINE
    • 磨床
    • US20110092139A1
    • 2011-04-21
    • US12906542
    • 2010-10-18
    • Kikutoshi OKADAShinji DeguchiDai Kiyota
    • Kikutoshi OKADAShinji DeguchiDai Kiyota
    • B24B7/10
    • B24B27/0061B24B5/04B24B5/42B24B41/002
    • A first angular grinding wheel and a straight grinding wheel having rotation axes parallel to each other are arranged on a swivel slide that turns about a turning axis. A reference symmetry plane (MA) that is parallel to a grinding wheel rotation axis and that includes the turning axis and a reference perpendicular plane (MB) that is perpendicular to the reference symmetry plane and that includes the turning axis are defined. A grinding reference point (PA1) of the first angular grinding wheel (TA1) and a grinding reference point (PP1) of the straight grinding wheel (TP1) are arranged asymmetrical with respect to the reference symmetry plane. A distance from the grinding reference point of the straight grinding wheel to the reference symmetry plane is equal to a distance from the grinding reference point of the first angular grinding wheel to the turning axis.
    • 具有相互平行的旋转轴线的第一角磨轮和直磨轮布置在围绕转动轴转动的旋转滑块上。 定义了平行于研磨轮旋转轴并且包括转动轴线和垂直于参考对称平面且包括转动轴线的参考垂直平面(MB)的参考对称平面(MA)。 第一角磨轮(TA1)的磨削基准点(PA1)和直磨轮(TP1)的研磨基准点(PP1)相对于参考对称平面不对称地布置。 从直磨砂轮的磨削基准点到参考对称平面的距离等于从第一角磨轮的研磨基准点到转动轴的距离。
    • 4. 发明授权
    • Grinding method of multifunction grinding machine
    • 多功能磨床研磨方法
    • US08851957B2
    • 2014-10-07
    • US13152888
    • 2011-06-03
    • Toshiaki NayaKikutoshi Okada
    • Toshiaki NayaKikutoshi Okada
    • B24B1/00B24B51/00B24B5/307B24B5/01B24B5/04B24B27/00
    • B24B51/00B24B1/00B24B5/01B24B5/04B24B5/307B24B5/42B24B27/0061
    • A grinding method includes the steps of holding a workpiece by a pair of centering members of a pair of spindle equipment, shifting two centering members to one side of a spindle rotational axis, facing a grinding wheel at the other side to the other end portion of the workpiece, grinding the other end portion of the workpiece by the grinding wheel at the other side by rotating a driving pin of the spindle equipment at one side, retracting the grinding wheel at other side and stopping the rotation of the driving pin at one side and also shifting two centering members to the other side of the spindle rotational axis, facing a grinding wheel at one side to one end portion of the workpiece, and grinding one end portion of the workpiece by the grinding wheel at one side by rotating a driving pin of the spindle equipment at the other side.
    • 研磨方法包括以下步骤:通过一对主轴设备的一对定心构件保持工件,将两个定心构件移动到主轴旋转轴线的一侧,面对另一侧的砂轮到另一端的另一端 通过在一侧旋转主轴设备的驱动销,在另一侧通过使主轴设备的驱动销旋转而在另一侧通过砂轮在另一侧研磨工件的另一端部,使另一侧的砂轮回缩并且在一侧停止驱动销的旋转 并且还将两个定心构件移动到主轴旋转轴线的另一侧,面对工件的一侧到一端部的砂轮,并且通过旋转驱动来研磨一侧的研磨轮的工件的一个端部 主轴设备的销钉在另一侧。
    • 5. 发明授权
    • Grinding machine
    • 磨床
    • US08579676B2
    • 2013-11-12
    • US12906542
    • 2010-10-18
    • Kikutoshi OkadaShinji DeguchiDai Kiyota
    • Kikutoshi OkadaShinji DeguchiDai Kiyota
    • B24B49/00
    • B24B27/0061B24B5/04B24B5/42B24B41/002
    • A first angular grinding wheel and a straight grinding wheel having rotation axes parallel to each other are arranged on a swivel slide that turns about a turning axis. A reference symmetry plane (MA) that is parallel to a grinding wheel rotation axis and that includes the turning axis and a reference perpendicular plane (MB) that is perpendicular to the reference symmetry plane and that includes the turning axis are defined. A grinding reference point (PA1) of the first angular grinding wheel (TA1) and a grinding reference point (PP1) of the straight grinding wheel (TP1) are arranged asymmetrical with respect to the reference symmetry plane. A distance from the grinding reference point of the straight grinding wheel to the reference symmetry plane is equal to a distance from the grinding reference point of the first angular grinding wheel to the turning axis.
    • 具有相互平行的旋转轴线的第一角磨轮和直磨轮布置在围绕转动轴转动的旋转滑块上。 定义了平行于研磨轮旋转轴并且包括转动轴线和垂直于参考对称平面且包括转动轴线的参考垂直平面(MB)的参考对称平面(MA)。 第一角磨轮(TA1)的磨削基准点(PA1)和直磨轮(TP1)的研磨基准点(PP1)相对于参考对称平面不对称地布置。 从直磨砂轮的磨削基准点到参考对称平面的距离等于从第一角磨轮的研磨基准点到转动轴的距离。
    • 7. 发明授权
    • Method for measuring work portion and machining method
    • 测量工件的方法和加工方法
    • US06711829B2
    • 2004-03-30
    • US09956939
    • 2001-09-21
    • Shoichi SanoMasahiro IdoKikutoshi Okada
    • Shoichi SanoMasahiro IdoKikutoshi Okada
    • G01B510
    • B24B49/00B24B1/00B24B5/42
    • A method for measuring the diameter and eccentricity of a crankpin of a crankshaft which is ground on a grinding machine. A reference plate is provided on a headstock, which is disposed on a table to support the crankshaft. A measurement apparatus having a probe is disposed on a wheel head. Through movements of the table and the wheel head, the probe is first brought into contact with a reference surface of the reference plate, and is then brought into contact with the outer circumferential surface of the crankpin at outermost and innermost points. The distances between the reference surface and the outermost and innermost points are measured, and the diameter and eccentricity of the crankpin are calculated on the basis of the measured distances and the position of the reference surface.
    • 一种用于测量在研磨机上研磨的曲轴的曲柄销的直径和偏心度的方法。 在头架上设置有一个参考板,它设置在桌子上以支撑曲轴。 具有探头的测量装置设置在轮头上。 通过工作台和砂轮头的移动,首先将探头与参考板的参考表面接触,然后在曲柄销的外周表面与最外点处接触。 测量参考表面与最外面和最内点之间的距离,并且基于所测量的距离和参考表面的位置来计算曲柄销的直径和偏心度。