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    • 3. 发明授权
    • Automatic level control circuit
    • 自动电平控制电路
    • US4514701A
    • 1985-04-30
    • US482053
    • 1983-04-04
    • Kenji Machida
    • Kenji Machida
    • H03G3/20H03L5/00H03G3/10
    • H03G3/3005H03G3/301H03L5/00
    • An amplitude control circuit of the invention includes a vector composition circuit (18) for composing a cosine-wave signal (e3) from a sine-wave signal (e1) and a control signal generation circuit (20) for providing a control signal (e4) from the sine- and cosine-wave signals (e1, e3) which the control signal (e4) has substantially no ripples. DC level of the control signal (e4) is varied proportional to the amplitude of the sine-wave signal (e1) regardless of the frequency of the sine-wave signal (e1). The amplitude of an amplification control circuit (12) is controlled by the control signal (e4) so that the amplitude of the oscillation output signal (e1) derived from the oscillation circuit (16) is constant.
    • 本发明的振幅控制电路包括用于从正弦波信号(e1)和控制信号发生电路(20)构成余弦波信号(e3)的矢量合成电路(18),用于提供控制信号(e4 )从控制信号(e4)基本上没有波纹的正弦和余弦波信号(e1,e3)发出。 无论正弦波信号(e1)的频率如何,控制信号(e4)的直流电平都与正弦波信号(e1)的振幅成正比。 放大控制电路(12)的振幅由控制信号(e4)控制,使得从振荡电路(16)导出的振荡输出信号(e1)的振幅恒定。
    • 4. 发明授权
    • Amplitude controlled sine wave oscillator
    • 振幅控制正弦波振荡器
    • US4430627A
    • 1984-02-07
    • US212086
    • 1980-06-03
    • Kenji Machida
    • Kenji Machida
    • H03G3/20H03L5/00H03B5/26
    • H03G3/3005H03G3/301H03L5/00
    • An amplitude control circuit of the invention includes a vector composition circuit (18) for composing a cosine-wave signal (e3) from a sine-wave signal (e1) and a control signal generation circuit (20) for providing a control signal (e4) from the sine- and cosine-wave signals (e1, e3) which the control signal (e4) has substantially no ripples. DC level of the control signal (e4) is varied proportional to the amplitude of the sine-wave signal (e1) regardless of the frequency of the sine-wave signal (e1). The amplitude of an amplification control circuit (12) is controlled by the control signal (e4) so that the amplitude of the oscillation output signal (e1) derived from the oscillation circuit (16) is constant.
    • PCT No.PCT / JP78 / 00040 Sec。 371日期1980年6月3日 102(e)日期1980年6月3日PCT提交1978年12月5日PCT公布。 出版物WO80 / 0122400 本发明的幅度控制电路包括用于从正弦波信号(e1)和控制信号发生电路(20)构成余弦波信号(e3)的矢量合成电路(18) 用于从控制信号(e4)基本上没有波纹的正弦和余弦波信号(e1,e3)提供控制信号(e4)。 无论正弦波信号(e1)的频率如何,控制信号(e4)的直流电平都与正弦波信号(e1)的振幅成正比。 放大控制电路(12)的振幅由控制信号(e4)控制,使得从振荡电路(16)导出的振荡输出信号(e1)的振幅恒定。
    • 6. 发明授权
    • Critical torque detector
    • 临界转矩检测器
    • US4304511A
    • 1981-12-08
    • US87005
    • 1979-10-22
    • Kenji Machida
    • Kenji Machida
    • B23B47/24B23Q11/04F16D7/04
    • B23Q11/04F16D7/04Y10T408/14Y10T408/172Y10T408/21Y10T408/72
    • A critical torque detector is disclosed made up of a rotating input member, an output member supporting a drill and connected in a "flexible driving connection" with the input rotating member, and means for detecting difference in rotational speed between the input and output members due to a greater torsional resistance encountered by the drill during its operation than the critical torque predetermined for a specific drill. The input and output members are drivingly connected, as by a coil spring, magnetic repelling forces and so on, so as to rotate conjointly whenever a torsional resistance or a torque encountered by a running drill is lower than the predetermined value, but they are not always rigidly connected. Upon occurrence of greater torque imposed on the drill, the output member will be permitted to delay in rotation as compared to the input member. Such difference in rotational speed can be taken out mechanically or electromagnetically as a signal to detect occurrence of the critical torque.
    • 公开了一种临时转矩检测器,其由旋转输入构件,支撑钻头的输出构件与输入旋转构件连接在“柔性驱动连接”中,以及用于检测输入和输出构件之间的转速差异的装置 达到钻机在其操作期间遇到的比针对特定钻机预定的临界扭矩更大的扭转阻力。 输入和输出构件通过螺旋弹簧被驱动连接到排斥力等,以便每当跑步钻机遇到的扭转阻力或扭矩低于预定值时,它们可以一起旋转,但它们不是 总是刚性连接。 当发生施加在钻头上的更大扭矩时,与输入构件相比,输出构件将被允许延迟旋转。 这种旋转速度的差异可以机械地或电磁地取出来作为检测临界扭矩发生的信号。
    • 7. 发明授权
    • Critical torque detector
    • 临界转矩检测器
    • US4193720A
    • 1980-03-18
    • US824655
    • 1977-08-15
    • Kenji Machida
    • Kenji Machida
    • B23B47/24B23Q11/04F16D7/04
    • F16D7/04B23Q11/04G01L3/1435Y10T408/14Y10T408/172Y10T408/72
    • A critical torque detector is disclosed made up of a rotating input member, an output member supporting a drill and connected in a "flexible driving connection" with the input rotating member, and means for detecting difference in rotational speed between the input and output members due to a greater torsional resistance encountered by the drill during its operation than the critical torque predetermined for a specific drill. The input and output members are drivingly connected, as by a coil spring, magnetic repelling forces and so on, so as to rotate conjointly whenever a torsional resistance or a torque encountered by a running drill is lower than the predetermined value, but they are not always rigidly connected. Upon occurrence of greater torque imposed on the drill, the output member will be permitted to delay in rotation as compared to the input member. Such difference in rotational speed can be taken out mechanically or electromagnetically as a signal to detect occurrence of the critical torque.
    • 公开了一种临时转矩检测器,其由旋转输入构件,支撑钻头的输出构件与输入旋转构件连接在“柔性驱动连接”中,以及用于检测输入和输出构件之间的转速差异的装置 达到钻机在其操作期间遇到的比针对特定钻机预定的临界扭矩更大的扭转阻力。 输入和输出构件通过螺旋弹簧被驱动连接到排斥力等,以便每当跑步钻机遇到的扭转阻力或扭矩低于预定值时,它们可以一起旋转,但它们不是 总是刚性连接。 当发生施加在钻头上的更大扭矩时,与输入构件相比,输出构件将被允许延迟旋转。 这种旋转速度的差异可以机械地或电磁地取出来作为检测临界扭矩发生的信号。