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
    • 1. 发明授权
    • Chuck jaw with adjustable tooth
    • 具有可调节牙齿的卡爪
    • US07537218B2
    • 2009-05-26
    • US11492184
    • 2006-07-24
    • William R. WachtlerJohn C. Read
    • William R. WachtlerJohn C. Read
    • B23B31/16B23B31/171
    • B23B31/1602Y10T279/1913Y10T279/1973Y10T279/1986
    • A jaw for the chuck of a turning device such as a lathe generally comprises a base, a tooth adjustable relative to the base in the radial direction and a cam for adjusting the tooth position. The base may be held on the chuck and driven in a conventional manner. The tooth has a face for engaging a workpiece and is attached to the base such that the face is radially movable relative to the base. The cam includes a surface bearing against the base and a surface bearing against the tooth. The cam varies in thickness such that movement of the cam changes the radial distance between the base and the tooth. In exemplary embodiments, the cam is an eccentric cylinder that rotates to adjust the tooth or is wedge shaped and one or both of the bearing surfaces of the tooth and base are ramps.
    • 用于诸如车床的车削装置的卡盘的钳口通常包括基座,可在径向方向上相对于基座调节的齿轮和用于调节齿位置的凸轮。 基座可以保持在卡盘上并以常规方式驱动。 齿具有用于接合工件的面并且附接到基部,使得面相对于基部可径向移动。 凸轮包括抵靠基座的表面轴承和抵靠齿的表面。 凸轮的厚度变化,使得凸轮的移动改变基部和牙齿之间的径向距离。 在示例性实施例中,凸轮是旋转以调节齿或楔形的偏心圆柱体,并且齿和基座的一个或两个支承表面是坡道。
    • 2. 发明授权
    • CPP-GMR sensor with corrosion resistent spacer layer and higher signal/noise ratio
    • 具有耐腐蚀间隔层的CPP-GMR传感器和更高的信噪比
    • US08743511B2
    • 2014-06-03
    • US13222827
    • 2011-08-31
    • Jeffrey R. ChildressJohn C. ReadNeil Smith
    • Jeffrey R. ChildressJohn C. ReadNeil Smith
    • G11B5/39
    • G11B5/3906B82Y10/00G11B2005/3996
    • A method and apparatus for increasing the electrical resistivity and corrosion resistance of the material forming a spacer layer in current-perpendicular-to-the-plane (CPP) giant magnetoresistive (GMR) sensors. The increased resistivity of the spacer layer, and thus, the CPP-GMR sensor permits a larger voltage across the sensor and a higher signal-to-noise ratio. The increased corrosion resistance of the spacer layer minimizes the effects of exposing the spacer layer to corrosive materials during fabrication. For example, adding tin to silver to form a metallic alloy spacer layer increases the corrosion resistance of the spacer layer and the electrical resisitivity of the CPP-GMR sensor relative to a spacer layer consisting solely of silver. The Ag—Sn alloy permits a larger current to flow through the sensor, which increases the signal-to-noise ratio.
    • 一种用于增加在电流垂直平面(CPP)巨磁阻(GMR)传感器中形成间隔层的材料的电阻率和耐腐蚀性的方法和装置。 间隔层以及因此CPP-GMR传感器的电阻率增加允许传感器两端的电压较大,信噪比更高。 隔离层增加的耐腐蚀性最小化在制造期间将间隔层暴露于腐蚀性材料的影响。 例如,将锡添加到银以形成金属合金间隔层增加了间隔层的耐腐蚀性和CPP-GMR传感器相对于仅由银构成的间隔层的电阻率。 Ag-Sn合金允许更大的电流流过传感器,这增加了信噪比。
    • 3. 发明申请
    • Chuck jaw with adjustable tooth
    • 具有可调节牙齿的卡爪
    • US20080018062A1
    • 2008-01-24
    • US11492184
    • 2006-07-24
    • William R. WachtlerJohn C. Read
    • William R. WachtlerJohn C. Read
    • B23B31/16
    • B23B31/1602Y10T279/1913Y10T279/1973Y10T279/1986
    • A jaw for the chuck of a turning device such as a lathe generally comprises a base, a tooth adjustable relative to the base in the radial direction and a cam for adjusting the tooth position. The base may be held on the chuck and driven in a conventional manner. The tooth has a face for engaging a workpiece and is attached to the base such that the face is radially movable relative to the base. The cam includes a surface bearing against the base and a surface bearing against the tooth. The cam varies in thickness such that movement of the cam changes the radial distance between the base and the tooth. In exemplary embodiments, the cam is an eccentric cylinder that rotates to adjust the tooth or is wedge shaped and one or both of the bearing surfaces of the tooth and base are ramps.
    • 用于诸如车床的车削装置的卡盘的钳口通常包括基座,可在径向方向上相对于基座调节的齿轮和用于调节齿位置的凸轮。 基座可以保持在卡盘上并以常规方式驱动。 齿具有用于接合工件的面并且附接到基部,使得面相对于基部可径向移动。 凸轮包括抵靠基座的表面轴承和抵靠齿的表面。 凸轮的厚度变化,使得凸轮的移动改变基部和牙齿之间的径向距离。 在示例性实施例中,凸轮是旋转以调节齿或楔形的偏心圆柱体,并且齿和基座的一个或两个支承表面是坡道。
    • 4. 发明授权
    • Angle oscillating power drive for rotating or swinging a hinged member
    • 用于旋转或摆动铰链构件的角度振荡功率驱动器
    • US5549012A
    • 1996-08-27
    • US363922
    • 1994-12-27
    • John C. Read
    • John C. Read
    • E05F15/12F16C11/06F16H21/52F16H23/00
    • F16H21/52E05F15/63F16C11/06E05Y2201/434E05Y2600/41E05Y2600/45E05Y2800/358E05Y2900/40Y10T74/18336
    • A rotary drive for swinging a heavy member between two extreme positions. The drive transmits a rotary force provided by a motor or similar device through a first rotatable shaft to a second rotatable shaft perpendicular to the first shaft and connected to the heavy member. The second shaft rotates in an oscillatory manner between the extreme positions in response to rotation of the first shaft. The member may thus be positioned at any suitable location in its travel by operating the motor unidirectionally. The first shaft rotates about a first axis of rotation and rotates an arm about a second axis of rotation that intersects the first axis at an angle between zero and 90 degrees non-inclusive. The arm is connected to a universal joint having three mutually perpendicular axes. The universal joint transmits forces from the arm to the second shaft.
    • 用于在两个极限位置摆动重型构件的旋转驱动器。 驱动器将由马达或类似装置提供的旋转力通过第一可旋转轴传递到垂直于第一轴的第二可旋转轴并连接到重型构件。 第二轴响应于第一轴的旋转以振荡方式在极限位置之间旋转。 因此,可以通过单向操作电动机将构件定位在其行进中的任何合适的位置。 第一轴围绕第一旋转轴线旋转,并使臂围绕与第一轴线相交的第二旋转轴线以0度和90度之间的角度旋转。 臂连接到具有三个相互垂直轴线的万向接头。 万向接头将力从臂传递到第二轴。
    • 6. 发明申请
    • CPP-GMR SENSOR WITH CORROSION RESISTENT SPACER LAYER AND HIGHER SIGNAL/NOISE RATIO
    • 具有腐蚀电阻间隔层和高信号/噪声比的CPP-GMR传感器
    • US20130052484A1
    • 2013-02-28
    • US13222827
    • 2011-08-31
    • Jeffrey R. ChildressJohn C. ReadNeil Smith
    • Jeffrey R. ChildressJohn C. ReadNeil Smith
    • G11B5/33B05D5/12
    • G11B5/3906B82Y10/00G11B2005/3996
    • A method and apparatus for increasing the electrical resistivity and corrosion resistance of the material forming a spacer layer in current-perpendicular-to-the-plane (CPP) giant magnetoresistive (GMR) sensors. The increased resistivity of the spacer layer, and thus, the CPP-GMR sensor permits a larger voltage across the sensor and a higher signal-to-noise ratio. The increased corrosion resistance of the spacer layer minimizes the effects of exposing the spacer layer to corrosive materials during fabrication. For example, adding tin to silver to form a metallic alloy spacer layer increases the corrosion resistance of the spacer layer and the electrical resisitivity of the CPP-GMR sensor relative to a spacer layer consisting solely of silver. The Ag—Sn alloy permits a larger current to flow through the sensor, which increases the signal-to-noise ratio.
    • 一种用于增加在电流垂直平面(CPP)巨磁阻(GMR)传感器中形成间隔层的材料的电阻率和耐腐蚀性的方法和装置。 间隔层以及因此CPP-GMR传感器的电阻率增加允许传感器两端的电压较大,信噪比更高。 隔离层增加的耐腐蚀性最小化在制造期间将间隔层暴露于腐蚀性材料的影响。 例如,将锡添加到银以形成金属合金间隔层增加了间隔层的耐腐蚀性和CPP-GMR传感器相对于仅由银构成的间隔层的电阻率。 Ag-Sn合金允许更大的电流流过传感器,这增加了信噪比。