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. 发明授权
    • Method and system for monitoring industrial machine
    • 工业机器监控方法及系统
    • US06587812B1
    • 2003-07-01
    • US09472244
    • 1999-12-27
    • Yukiyoshi Takayama
    • Yukiyoshi Takayama
    • G06F1900
    • G05B19/41875B30B15/14B30B15/16Y02P90/22Y02P90/86
    • The condition of each of machines on dispersed lines can be quantitatively grasped before an error occurs, without going to the machine installation site, so that the efficiency of machine fault diagnosis can be improved. One server terminal for diagnosis is provided for each factory at the use side. As clients for this server terminal, a press controller, a workpiece conveyor control motion controller, and a line production management computer are connected through an Ethernet. The server terminal is connected via modem and telephone line to a diagnosis terminal with a modem which is installed at the maker side. The operating condition of a press is measured and recorded as continuous time-series waveform data, using an analog input card. The recorded waveform data is processed to be graphically displayed on the diagnosis terminal, etc.
    • 在出现错误发生之前,可以定量掌握分散线上的每台机器的状况,而无需进入机器安装现场,从而提高机器故障诊断的效率。 在使用方为每个工厂提供一个用于诊断的服务器终端。 作为该服务器端子的客户端,通过以太网连接压力控制器,工件输送机控制运动控制器和生产管理计算机。 服务器终端通过调制解调器和电话线连接到具有安装在制造商侧的调制解调器的诊断终端。 使用模拟输入卡测量压力机的运行状态并记录为连续的时间序列波形数据。 记录的波形数据被处理以图形显示在诊断终端等上。
    • 3. 发明授权
    • Tandem press line, operation control method for tandem press line, and work transportation device for tandem press line
    • 串联式压线机,串联式压线机的运转控制方式,串列式压线机的运转装置
    • US07428837B2
    • 2008-09-30
    • US10539346
    • 2004-04-30
    • Yukiyoshi Takayama
    • Yukiyoshi Takayama
    • B30B15/00
    • G05B19/41815G05B2219/45142Y02P90/08
    • A rotating speed of a main motor (61) of a second press (3) is regulated so that an angular difference between a press angle of a first press (2) and a press angle of a second press (3) is constant. Further, when the work is carried-out from the first press (2), a work transportation device (10) is controlled based on a press angle of the first press (2). When the work is carried-in into the second press (3), the work transportation device (10) is controlled based on a press angle of the second press (3). Further, when the work is transported, the work transportation device 10 is controlled based on a signal from a transportation device control section (31) for controlling the work transportation device (10). The arrangement above improves production efficiency in press forming and reduces maintenance cost and frequency.
    • 调节第二压力机(3)的主电动机(61)的旋转速度,使得第一压力机(2)的按压角度与第二压力机(3)的按压角度之间的角度差是恒定的。 此外,当从第一压机(2)进行加工时,基于第一压机(2)的按压角度来控制作业输送装置(10)。 当工件进入第二压力机(3)时,工件运输装置(10)基于第二压力机(3)的按压角度被控制。 此外,当运送作业时,基于来自用于控制作业运送装置(10)的运送装置控制部(31)的信号来控制作业运送装置10。 上述布置提高了压制成型的生产效率,降低了维护成本和频率。
    • 7. 发明授权
    • Preventive maintenance system of industrial machine
    • 工业机械预防性维护系统
    • US06816815B2
    • 2004-11-09
    • US10309955
    • 2002-12-04
    • Yukiyoshi Takayama
    • Yukiyoshi Takayama
    • G06F1900
    • G05B23/0283G05B2219/32235Y02P90/14Y02P90/18Y02P90/185Y02P90/86
    • A preventive maintenance system for an industrial machine includes an information transmission unit for connecting, whenever necessary, a LAN on the user side and a LAN on a manufacturer side through a communication line; a monitor unit connected to the LAN on the user side for monitoring predetermined items of the industrial machine; an information transmission/reception unit for transmitting the monitor information obtained by the monitor unit to the LAN on the manufacturer side through the information transmission unit, and for receiving information from the LAN on the manufacturer side; a supervisory unit connected to the LAN on the manufacturer side for automatically diagnosing a fault based on the monitor information received, and for automatically supervising the industrial machine; and a preventive maintenance information transmission unit for automatically transmitting preventive maintenance information to the user side when maintenance is necessary based on a diagnosis result.
    • 一种用于工业机器的预防性维护系统包括信息传输单元,用于在必要时通过通信线路连接用户侧的LAN和制造商侧的LAN; 连接到用户侧的LAN的监视器单元,用于监视工业机器的预定项目; 信息发送/接收单元,用于通过信息发送单元将由监视单元获得的监视信息发送到制造商侧的LAN,并且用于从制造商侧的LAN接收信息; 连接到制造商侧的LAN的监控单元,用于基于接收到的监视信息自动诊断故障,并自动监控工业机器; 以及预防性维护信息发送单元,用于基于诊断结果,在需要进行维护时,向用户侧自动发送预防性维护信息。
    • 9. 发明申请
    • Tandem Press Lline, Operation Control Method for Tandem Press Line, and Work Transportation Device for Tandem Press Line
    • 串列压线机,串联式压线机操作控制方式,串联式压线机工作运输装置
    • US20060169020A1
    • 2006-08-03
    • US10539346
    • 2004-04-30
    • Yukiyoshi Takayama
    • Yukiyoshi Takayama
    • B21J11/00
    • G05B19/41815G05B2219/45142Y02P90/08
    • Rotating speed of a main motor (61) of a second press (3) is regulated so that an angular difference between a press angle of a first press (2) and a press angle of a second press (3) is constant. Further, when the work is carried-out from the first press (2), a work transportation device (10) is controlled based on a press angle of the first press (2). When the work is carried-in into the second press (3), the work transportation device (10) is controlled based on a press angle of the second press (3). Further, when the work is transported, the work transportation device 10 is controlled based on a signal from a transportation device control section (31) for controlling the work transportation device (10). The arrangement above improves production efficiency in press forming and reduces maintenance cost and frequency.
    • 调节第二压力机(3)的主电动机(61)的旋转速度,使得第一压力机(2)的按压角度与第二压力机(3)的按压角度之间的角度差是恒定的。 此外,当从第一压机(2)进行加工时,基于第一压机(2)的按压角度来控制作业输送装置(10)。 当工件进入第二压力机(3)时,工件运输装置(10)基于第二压力机(3)的挤压角度被控制。 此外,当运送作业时,基于来自用于控制作业运送装置(10)的运送装置控制部(31)的信号来控制作业运送装置10。 上述布置提高了压制成型的生产效率,降低了维护成本和频率。
    • 10. 发明授权
    • Transfer press
    • 转印机
    • US5970763A
    • 1999-10-26
    • US65102
    • 1998-04-29
    • Yukiyoshi Takayama
    • Yukiyoshi Takayama
    • B21D43/05B30B13/00B30B15/28B21D55/00
    • B21D43/055
    • If a fault occurs in a servo driving system incorporated in a transfer system, the transfer system is continuously driven or safely stopped without loosing synchronization of the transfer system with a pass system. The transfer system is driven by a plurality of independently controllable servo motors 12.sub.1 to 12.sub.n. In the event that a driver for any one of the servo motors is failed for example, transmission of driving force to the servo motor associated the failed driver is interrupted by a magnet conductor in response to a specified signal indicative of a driver failure so that the servo motor can be brought into a free state.
    • PCT No.PCT / JP97 / 00048 Sec。 371日期:1998年4月29日 102(e)日期1998年4月29日PCT 1997年1月8日PCT PCT。 公开号WO97 / 28913 日期1997年8月14日如果在并入传送系统的伺服驱动系统中出现故障,则传输系统被连续驱动或安全停止,而不会失去传输系统与通过系统的同步。 传送系统由多个可独立控制的伺服电动机121至12n驱动。 在任何一个伺服电动机的驱动器例如失效的情况下,响应于指示驱动器故障的指定信号,通过磁体导体将与故障驱动器相关联的伺服电动机的驱动力传递中断, 伺服电机可以进入自由状态。