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    • 4. 发明申请
    • AUTOMATIC STEEL-BAR COUPLING HEAD MAKING MACHINE
    • 自动钢棒联轴器制造机
    • US20160368107A1
    • 2016-12-22
    • US15060695
    • 2016-03-04
    • DER FUN PRESTRESSED METAL CO., LTD.
    • Tien-Fa WANG
    • B23P23/04B23Q39/02B21H3/02
    • B23P23/04B21H3/02B21H3/044B23B3/065B23B11/00B23B13/126B23Q17/003B23Q39/024Y10T29/5114Y10T82/2524
    • The present invention is to provide an automatic steel bar coupling head making machine including a positioning mechanism, a transverse moving mechanism, a longitudinal moving mechanism, a processing mechanism assembly and a control mechanism, wherein, when a steel bar is positioned between two fixtures of the positioning mechanism and an end of the steel bar presses against a positioning detection rod of the processing mechanism assembly, the processing mechanism assembly sends a start signal to the control mechanism and, upon receipt of the start signal, the control mechanism drives the positioning mechanism, the transverse moving mechanism, the longitudinal moving mechanism and the processing mechanism assembly, for enabling the two fixtures to clamp the steel bar and then enabling the processing mechanism assembly to sequentially perform a first turning, a second turning and a thread rolling on peripheral edge of the steel bar adjacent to the end of the steel bar.
    • 本发明提供一种自动钢筋联接头制造机,其包括定位机构,横向移动机构,纵向移动机构,处理机构组件和控制机构,其中,当钢筋位于两个固定装置 所述定位机构和所述钢筋的端部压靠所述处理机构组件的定位检测杆,所述处理机构组件向所述控制机构发送启动信号,并且在接收到所述启动信号时,所述控制机构驱动所述定位机构 横向移动机构,纵向移动机构和处理机构组件,用于使两个夹具能够夹紧钢筋,然后使得加工机构组件顺序地执行第一转动,第二转动和在周边的螺纹滚动 的钢筋与钢筋的端部相邻。
    • 5. 发明申请
    • TEST GAUGE
    • 测试仪
    • US20160082561A1
    • 2016-03-24
    • US14955307
    • 2015-12-01
    • John Wayne Stoneback
    • John Wayne Stoneback
    • B23Q17/09
    • B23Q17/006B23Q17/003B23Q17/005
    • A test gauge for determining whether a tool holder assembly that utilizes a retention knob is properly assembled. The test gauge is mounted on a tool holder before the installation of a retention knob. Measurement devices, such as dial indicators, determine whether a “wobble” exists between the test gauge and the tapered surface of the tool holder and also provide a distance measurement between the test gauge and a reference surface on the tool holder. After installation of the retention knob, the test gauge is again placed on the tool holder in the same relative position and the distance between the test gauge and the reference surface is again observed. Any change in the distance measurement is an indication that the installation of the retention knob produced a distortion in the tool holder tapered surface which, if not corrected, can produce wear in the tool holder, the spindle and/or the cutting tool. The test gauge also includes at least one measurement device for measuring wobble between the test gauge and a tool holder received by the test gauge.
    • 用于确定是否正确组装使用保持旋钮的刀架组件的测试计。 在安装保持旋钮之前,将测试仪安装在工具架上。 诸如拨号指示器的测量装置确定测试仪和工具架的锥形表面之间是否存在“摆动”,并且还在测试仪和工具架上的参考表面之间提供距离测量。 安装保持旋钮后,测试仪器再次以相同的相对位置放置在刀架上,并再次观察测试仪表与参考表面之间的距离。 距离测量的任何变化表明保持旋钮的安装在工具架锥形表面产生变形,如果不校正,则可能在工具架,主轴和/或切削工具中产生磨损。 测试仪还包括至少一个测量装置,用于测量测试计和测试计接收的工具架之间的摆动。
    • 7. 发明授权
    • Transfer device for workpieces and method for the transfer of workpieces
    • 工件传送装置和工件传送方法
    • US07628264B2
    • 2009-12-08
    • US11953155
    • 2007-12-10
    • Hilmar Ehlert
    • Hilmar Ehlert
    • B23Q17/22B65G35/06
    • B23Q7/1457B23Q17/003
    • A transfer device using a workpiece carrier to feed workpieces to workstations for processing. The workpieces are held firmly on the workpiece carrier by a holding device (3.1). Provided on a transfer table are guiderails that serve the linear guidance of the workpiece carrier in the “x” direction. Provided for each work station is a drive with a motor and a driving wheel that drives a double-sided toothed belt which in turn engages in a toothing of the workpiece carrier. A scale is arranged on the workpiece carrier and a stationary sensor form a position emitter whose signal enables the precise positioning of the workpiece carrier.
    • 一种使用工件载体将工件供给到工作站进行加工的传送装置。 工件通过保持装置(3.1)牢固地固定在工件载体上。 在转台上设置有用于在“x”方向上工件载体的线性引导的导轨。 为每个工作站提供的是具有电动机和驱动轮的驱动器,该驱动轮驱动双面齿形带,该双面齿形带又接合工件载体的齿部。 在工件载体上布置有刻度尺,并且固定传感器形成位置发射器,其信号使得能够精确地定位工件载体。
    • 8. 发明授权
    • Machine tool
    • 机床
    • US07175374B2
    • 2007-02-13
    • US11362770
    • 2006-02-28
    • Masakazu Takaku
    • Masakazu Takaku
    • B23C1/00
    • B23Q17/003Y10T29/49004Y10T408/15Y10T408/172Y10T409/30448Y10T409/30728Y10T409/309408Y10T483/13Y10T483/138
    • A method and a device for detecting the incorrect chucking of a machine tool capable of easily and surely detecting a chucking error; the method, comprising the steps of measuring, by a sensor (12), the change of a distance (d) between the sensor (12) and the outer peripheral surface of the flange part (2B) of a tool holder (2) installed in a spindle (3) through all around the periphery of the tool holder while rotating the tool holder (2), performing a FFT analysis of the measured data by a CPU (18), extracting a fundamental frequency component, and calculating the amplitude thereof, whereby the eccentric amount of the tool holder (2) can be calculated by using the amplitude of the fundamental frequency component and, when the eccentric amount exceeds a preset allowable value, the tool holder (2) is judged to cause an incorrect chucking.
    • 一种用于检测能够容易且可靠地检测卡盘误差的机床的不正确夹紧的方法和装置; 该方法包括以下步骤:通过传感器(12)测量传感器(12)与刀架(2)的凸缘部分(2B)的外周表面之间的距离(d)的变化, 在旋转工具架(2)的同时通过刀架周围的整个周边安装在主轴(3)中,通过CPU(18)对测量数据进行FFT分析,提取基频分量,并计算振幅 由此可以通过使用基频分量的振幅来计算工具架(2)的偏心量,并且当偏心量超过预设容许值时,判断刀夹(2)引起不正确的夹紧 。
    • 9. 发明申请
    • Machine tool
    • 机床
    • US20060261969A1
    • 2006-11-23
    • US11406870
    • 2006-04-18
    • Masakazu Takaku
    • Masakazu Takaku
    • G08B21/00
    • G01D18/008B23Q17/003G01D5/2013
    • A machine tool in which a tool holder having a tool is attached to a main spindle and the main spindle is rotated to conduct machining on a workpiece, comprises: a displacement sensor, the impedance of which is changed according to a distance from the displacement sensor to the tool holder, an AC signal being impressed upon the displacement sensor from an amplifying unit, wherein an abnormality of a state, in which the tool holder is attached to the main spindle, is judged from a signal level appearing in the displacement sensor. The machine tool further comprises: a tuning circuit connected to the displacement sensor, the tuning circuit composing a resonance circuit together with the displacement sensor; and an impedance adjustment circuit for adjusting an internal impedance constant of the tuning circuit.
    • 一种机床,其中具有工具的工具架附接到主轴并且主轴被旋转以在工件上进行加工,包括:位移传感器,其阻抗根据与位移传感器的距离而改变 从放大单元向所述工具架施加AC信号,所述AC信号从所述位移传感器施加于所述位移传感器,其中,从所述位移传感器中出现的信号电平判断所述工具架安装在所述主轴上的状态的异常。 该机床还包括:连接到位移传感器的调谐电路,与位移传感器一起构成谐振电路的调谐电路; 以及用于调整调谐电路的内部阻抗常数的阻抗调整电路。
    • 10. 发明授权
    • Machine tool
    • 机床
    • US07037248B2
    • 2006-05-02
    • US10415068
    • 2001-10-26
    • Masakazu Takaku
    • Masakazu Takaku
    • B23Q5/02
    • B23Q17/003Y10T29/49004Y10T408/15Y10T408/172Y10T409/30448Y10T409/30728Y10T409/309408Y10T483/13Y10T483/138
    • A method and a device for detecting the incorrect chucking of a machine tool capable of easily and surely detecting a chucking error; the method, comprising the steps of measuring, by a sensor (12), the change of a distance (d) between the sensor (12) and the outer peripheral surface of the flange part (2B) of a tool holder (2) installed in a spindle (3) through all around the periphery of the tool holder while rotating the tool holder (2), performing a FFT analysis of the measured data by a CPU (18), extracting a fundamental frequency component, and calculating the amplitude thereof, whereby the eccentric amount of the tool holder (2) can be calculated by using the amplitude of the fundamental frequency component and, when the eccentric amount exceeds a preset allowable value, the tool holder (2) is judged to cause an incorrect chucking.
    • 一种用于检测能够容易且可靠地检测卡盘误差的机床的不正确夹紧的方法和装置; 该方法包括以下步骤:通过传感器(12)测量传感器(12)与刀架(2)的凸缘部分(2B)的外周表面之间的距离(d)的变化, 在旋转工具架(2)的同时通过刀架周围的整个周边安装在主轴(3)中,通过CPU(18)对测量数据进行FFT分析,提取基频分量,并计算振幅 由此可以通过使用基频分量的振幅来计算工具架(2)的偏心量,并且当偏心量超过预设容许值时,判断刀夹(2)引起不正确的夹紧 。