| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 用于输送模板材料的方法和系统以及模板材料卷筒 | CN200380108916.9 | 2003-12-04 | CN1738720A | 2006-02-22 | 小野欣也; 大岛健嗣 |
| 在输送从模板材料卷筒展开的模板材料的模板材料输送系统中,避免了模板材料上图像的拉伸或收缩。通过从存储在模板材料卷筒(21b)内的模板材料卷筒的总长度中累计减去所制造的模板长度,由残留量计算装置(65)计算模板材料卷筒(21b)内的模板材料卷筒的残留量。当残留量减小时,写入脉冲马达在较高速度下转动,由此通过施加到模板材料上的反张力,控制压板辊子(23)的转动速度,来补偿由于压板辊子(23)造成的输送距离减小,并且在恒定输送速度下输送模板材料。 | ||||||
| 2 | 模板印刷机及其控制方法 | CN01118114.1 | 2001-05-16 | CN1324728A | 2001-12-05 | 渡边博史 |
| 本发明提供一种模板印刷机和控制方法,其中第一和第二印刷鼓25和26可旋转地支撑于紧靠压力鼓的外周缘的由给定角度隔开的位置,其中第一和第二印刷鼓25和26的外圆周缘壁分别带有模板夹座28,内压力辊分别位于印刷鼓25和26的里面。在印刷操作中,印刷鼓25和26按相对压力鼓的180度的旋转相位角旋转,在印刷操作结束时,印刷鼓25和26停在离开各自印刷鼓的油墨沾污区的各自静止停留位置。 | ||||||
| 3 | 轮转式孔版印刷机的同步控制方法和装置 | CN200910161385.9 | 2009-08-12 | CN101654007B | 2012-11-07 | 沼内裕光 |
| 本发明公开轮转式孔版印刷机的同步控制方法和装置,其中通过使用专用驱动电机单独驱动旋转丝网滚筒,可以在开始所述驱动电机相对于单张胶印机的原动电机的同步控制时设定片状物到达丝网印刷单元之前进行多少旋转,并且直到开始所述同步控制时停止所述旋转丝网滚筒的旋转。 | ||||||
| 4 | 具有分布式控制放大器的多轴机器的复合控制 | CN200880015982.4 | 2008-03-14 | CN101689048A | 2010-03-31 | 帕齐·安东尼·马泰罗; 约翰·G.·克劳泽尔 |
| 本发明提供一种控制设备,该控制设备用于多路复用单分布式控制放大器以控制多轴机械中的运动的多个轴。在一个示例中,该控制设备包括:分布式控制电动机放大器;第一电动机,用于提供沿着运动的第一轴的移动;第二电动机,用于提供沿着运动的第二轴的移动;第一继电器,其具有连接到分布式控制电动机放大器的开关、连接到第一电动机的第一触点、连接到第二电动机的第二触点及用于接收驱动信号的输入;其中,第一继电器被配置为响应于驱动信号在第一状态和第二状态之间进行操作,在第一状态中,所述开关被电连接到第一触点,在第二状态中,所述开关被电连接到第二触点。 | ||||||
| 5 | 轮转式孔版印刷机的同步控制方法和装置 | CN200910161385.9 | 2009-08-12 | CN101654007A | 2010-02-24 | 沼内裕光 |
| 本发明公开轮转式孔版印刷机的同步控制方法和装置,其中通过使用专用驱动电机单独驱动旋转丝网滚筒,可以在开始所述驱动电机相对于单张胶印机的原动电机的同步控制时设定片状物到达丝网印刷单元之前进行多少旋转,并且直到开始所述同步控制时停止所述旋转丝网滚筒的旋转。 | ||||||
| 6 | 模板印刷机及其控制方法 | CN01118114.1 | 2001-05-16 | CN1169674C | 2004-10-06 | 渡边博史 |
| 本发明提供一种模板印刷机和控制方法,其中第一和第二印刷鼓25和26可旋转地支撑于紧靠压力鼓的外周缘的由给定角度隔开的位置,其中第一和第二印刷鼓25和26的外圆周缘壁分别带有模板夹座28,内压力辊分别位于印刷鼓25和26的里面。在印刷操作中,印刷鼓25和26按相对压力鼓的180度的旋转相位角旋转,在印刷操作结束时,印刷鼓25和26停在离开各自印刷鼓的油墨沾污区的各自静止停留位置。 | ||||||
| 7 | 具有分布式控制放大器的多轴机器的复合控制 | CN200880015982.4 | 2008-03-14 | CN101689048B | 2014-06-25 | 帕齐·安东尼·马泰罗; 约翰·G.·克劳泽尔 |
| 本发明提供一种控制设备,该控制设备用于多路复用单分布式控制放大器以控制多轴机械中的运动的多个轴。在一个示例中,该控制设备包括:分布式控制电动机放大器;第一电动机,用于提供沿着运动的第一轴的移动;第二电动机,用于提供沿着运动的第二轴的移动;第一继电器,其具有连接到分布式控制电动机放大器的开关、连接到第一电动机的第一触点、连接到第二电动机的第二触点及用于接收驱动信号的输入;其中,第一继电器被配置为响应于驱动信号在第一状态和第二状态之间进行操作,在第一状态中,所述开关被电连接到第一触点,在第二状态中,所述开关被电连接到第二触点。 | ||||||
| 8 | 孔版印刷装置 | CN200780034206.4 | 2007-04-12 | CN101516631A | 2009-08-26 | 宫胁崇充 |
| 一种孔版印刷装置,利用调整部件驱动装置使供纸时刻调整部件(95)绕凸轮的转轴的轴线移动,由此来调整第二臂的端部的位置,进而调整凸轮的滑动面上的凸轮随动件的位置,由此,对供纸驱动装置驱动同步辊的时刻进行调整,其特征在于,在调整机构中,设置有始终朝着绕凸轮的转轴的轴线方向中的任一个方向对供纸时刻调整部件(95)进行施力的施力装置(98)。 | ||||||
| 9 | 丝网印刷机 | CN98111674.4 | 1998-12-24 | CN1280091C | 2006-10-18 | 加仓井修; 铃木正雄; 宫木真人; 砂川宽行 |
| 一种丝网印刷机,包括一缠绕有丝网母版的可转动的印刷滚筒、一用来转动印刷滚筒的主马达、一与印刷滚筒接触并平行于印刷滚筒转动的压力辊、以及一对对置的输送辊,该输送辊用来在印刷滚筒和压力辊之间输送印刷纸张以便印刷纸张的导向端能在印刷滚筒的预定位置上与印刷滚筒相遇。一个输送辊马达与主马达分离开而设置以驱动输送辊。一参考位置传感器探测一个在印刷滚筒上的参考位置,一印刷滚筒转动探测器根据参考位置来探测印刷滚筒的转动,以及一输送辊转动探测器探测至少一个输送辊的转动。一输送辊控制器根据输送辊的转动和印刷滚筒的转动来控制输送辊马达,从而印刷纸张的导向端在印刷滚筒的所述预定位置上与印刷滚筒相遇。 | ||||||
| 10 | 丝网印刷机 | CN98111674.4 | 1998-12-24 | CN1221681A | 1999-07-07 | 加仓井修; 铃木正雄; 宫木真人; 砂川宽行 |
| 一种丝网印刷机,包括一缠绕有丝网母版的可转动的印刷滚筒、一用来转动印刷滚筒的主马达、一与印刷滚筒接触并平行于印刷滚筒转动的压力辊、以及一对对置的输送辊,该输送辊用来在印刷滚筒和压力辊之间输送印刷纸张以便印刷纸张的导向端能在印刷滚筒的预定位置上与印刷滚筒相遇。一个输送辊马达与主马达分离开而设置以驱动输送辊。一参考位置传感器探测一个在印刷滚筒上的参考位置,一印刷滚筒转动探测器根据参考位置来控制印刷滚筒的转动,以及一输送辊转动探测器探测至少一个输送辊的转动。一输送辊控制器根据输送辊的转动和印刷滚筒的转动来控制输送辊马达,从而印刷纸张的导向端在印刷滚筒的所述预定位置上与印刷滚筒相遇。 | ||||||
| 11 | Double-sided stencil printing apparatus | US11848852 | 2007-08-31 | US07849793B2 | 2010-12-14 | Takayuki Takahashi |
| A double-sided printing apparatus using a double sided printing with one plate cylinder and one pressing means system, that is capable of carrying out double-sided printing simply and at low cost, with little deviation in the position of the printed image and with satisfactory resist. Printed matter with little deviation of the image position with respect to the sheet position and with good resist can be obtained, by eliminating delay in feeding sheets due to slippage between roller and press roller by operating the transport belt on the upstream side, and so on, and by eliminating resistance during sheet transportation due to contact with the guide member provided along the circumferential surface of the press roller, when pressing sheets against the press roller with a roller or the like, and transporting the sheets along the guide member or the like provided along the peripheral surface of the press roller. After the resist roller has eliminated the contact between the sheet and the stopper, the transport belt starts to be driven. If the printing speed is low, this timing is taken as the timing that the resist roller contacts the press roller. For both low speeds and high speeds, this may be after passage of a predetermined period of time from the operation command signal for the resist roller. | ||||||
| 12 | Multiplexed control of multi-axis machine with distributed control amplifier | US11787755 | 2007-04-17 | US20080257179A1 | 2008-10-23 | Patsy Anthony Mattero; John G. Klauser |
| A control apparatus for multiplexing a single distributed control amplifier to control multiple axes of motion in a multi-axis machine. In one example, the control apparatus comprises a distributed control motor amplifier, a first motor constructed and arranged to provide movement along a first axis of motion, a second motor constructed and arranged to provide movement along a second axis of motion, a first relay having a switch coupled to the distributed control motor amplifier, a first contact coupled to the first motor, a second contact coupled to the second motor, and an input for receiving an actuation signal, wherein the relay is configured to be manipulated between a first state in which the switch is electrically connected to the first contact a second state in which the switch is electrically connected to the second contact, in response to the actuation signal. | ||||||
| 13 | Stencil printing machine and control method thereof | US09920651 | 2001-08-03 | US06752076B2 | 2004-06-22 | Yoshikazu Hara |
| A stencil printing machine (10) having plural printing drums and a control method thereof can perform correctly a stencil printing process so that even if one or more errors occur in a printing drum (1 or 2) which is not used in the current printing process, another printing drum (1 or 2) is used. | ||||||
| 14 | Synchronous drive arrangement for a printer | US09800506 | 2001-03-08 | US20010024986A1 | 2001-09-27 | Hisashi Sato; Keiichi Chiba |
| A synchronous drive arrangement for a printer of the present invention includes a timing belt passed over drive pulleys each being mounted on a particular print drum. The timing belt is made up of two narrow belt parts produced by dividing a single belt. Assuming that the belt parts have n teeth each, one of the belt parts is shifted from the other belt part by one-half of the number of teeth n. The belt parts are so positioned as to cancel each other's eccentricity component during rotation. The arrangement reduces synchronization errors ascribable to the eccentricity of the timing belt while preserving the low-cost configuration of timing belt connection. | ||||||
| 15 | Motor control system and image forming apparatus using the same | US09440634 | 1999-11-16 | US06281645B1 | 2001-08-28 | Keiichi Matsukawa |
| A motor control system includes a processor having a clock output terminal for outputting clock pulses in desired cycles, a plurality of motors, and a plurality of motor drivers which are provided one for each motor and drive the corresponding motors on the basis of the clock pulses input into the motor drivers through their respective clock input terminals. The clock input terminals of the motor drivers are connected to the clock output terminal of the processor in common with each other. | ||||||
| 16 | Stencil printing machine and stencil sheet transfer method of the same | US09780611 | 2001-02-12 | US20010013285A1 | 2001-08-16 | Hideo Shoji |
| By making ON VSYNC signal, platen motor and feed motor are driven and thermosensitive perforation of stencil sheet is started. From the state, the platen motor is driven continuously for null second. When upstream side stencil sheet awaiting sensor is made ON and null second has elapsed, feed of platen motor is controlled to reduce and actual perforation speed is made constant. Thereafter, when downstream side stencil sheet awaiting sensor is made ON and null second has elapsed, feed motor is made OFF and stopped and lower side movable guide plate is moved to lower limit position by driving downstream side movable guide motor. Thereafter, when downstream side movable guide plate lower limit sensor is made ON, feed motor is made ON and driven again. When downstream side stencil sheet feed sensor is made ON and null second has elapsed, feed motor is made OFF and stopped. | ||||||
| 17 | Rotary duplicator | US28887239 | 1939-08-07 | US2198728A | 1940-04-30 | SHINJIRO HORII |
| 18 | Duplicating machine | US8675636 | 1936-06-23 | US2120247A | 1938-06-14 | FUNK SAMUEL W; SAUBLE FUNK PAUL; ISAAC FUNK |
| 19 | Multiplexed control of multi-axis machine with distributed control amplifier | US12903651 | 2010-10-13 | US08253355B2 | 2012-08-28 | Patsy Anthony Mattero; John G. Klauser |
| A control apparatus for multiplexing a single distributed control amplifier to control multiple axes of motion in a multi-axis machine. In one example, the control apparatus comprises a distributed control motor amplifier, a first motor constructed and arranged to provide movement along a first axis of motion, a second motor constructed and arranged to provide movement along a second axis of motion, a first relay having a switch coupled to the distributed control motor amplifier, a first contact coupled to the first motor, a second contact coupled to the second motor, and an input for receiving an actuation signal, wherein the relay is configured to be manipulated between a first state in which the switch is electrically connected to the first contact a second state in which the switch is electrically connected to the second contact, in response to the actuation signal. | ||||||
| 20 | STENCIL PRINTING APPARATUS | US12439029 | 2007-04-12 | US20090205517A1 | 2009-08-20 | Takamitsu Miyawaki |
| The present invention provides an adjusting mechanism in which a paper feed timing adjustment member (95) is moved around the axis of a rotary shaft of a cam by an adjustment member drive means so as to adjust the position of an end of a second arm and then the position of a cam follower on a sliding surface of the cam, thereby adjusting a timing at which a paper feed drive means drives a timing roller, wherein there is provided an urging means (98) for constantly urging the paper feed timing adjustment member (95) in either one of directions around the axis of the rotary shaft of the cam. | ||||||
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