公开(公告)号：US20110164894A1

公开(公告)日：2011-07-07

申请号：US13047939

申请日：2011-03-15

Applicant: Michael T. Dobbertin ,  Timothy J. Young

Inventor： Michael T. Dobbertin ,  Timothy J. Young

IPC: G03G13/00

CPC classification number: G03G15/238 ,  G03G2215/00021

Abstract: A method of increasing productivity in a reproduction apparatus includes providing a first print engine and a second print engine. The engines are coupled by an inverter so that each sheet of a plurality of receiver sheets is selectively printed in an invert mode or a non-invert mode. A difference of a travel time of a first receiver sheet in an invert path through the inverter in the invert mode as compared to a travel time of a second receiver sheet in a non-invert path through the inverter in the non-invert mode is adjusted so that the difference is an integral multiple of a period between the receiver sheets.

Abstract translation: 一种在再现设备中提高生产率的方法包括提供第一打印引擎和第二打印引擎。 发动机通过逆变器耦合，使得多个接收片中的每一张片被选择性地以反转模式或非反转模式打印。 调整第一接收片在反转路径中的反转路径的行进时间与以非反转模式通过逆变器的非反相路径中的第二接收片的行进时间相比的差异 使得差异是接收机片之间的周期的整数倍。

公开(公告)号：US08099009B2

公开(公告)日：2012-01-17

申请号：US12126192

申请日：2008-05-23

Applicant: Timothy J. Young ,  David J. Fuest ,  Michael T. Dobbertin ,  Christopher B. Liston

Inventor： Timothy J. Young ,  David J. Fuest ,  Michael T. Dobbertin ,  Christopher B. Liston

IPC: G03G15/00 ,  G03G15/22 ,  G03G21/00

CPC classification number: G03G15/238 ,  G03G15/5008 ,  G03G2215/00021

Abstract: A print engine synchronization method enables the movement of a first print engine dielectric support member (DSM) having one or more image frames as well as the movement of a second print engine DSM having one or more image frames by monitoring a first frame signal from the moving first print engine DSM and a second frame signal from the moving second print engine DSM. An offset is determined for each of corresponding pairs of frames from the one or more image frames of the first and second print engine DSM and the determined offset for each corresponding pair of frames is compared to a target offset to maintain synchronization between the first and second print engines on a frame by frame basis by adjusting a second print engine DSM velocity based on the comparison of the determined offset and the target offset.

Abstract translation: 打印引擎同步方法通过监视具有一个或多个图像帧的第一帧信号以及具有一个或多个图像帧的第二打印引擎DSM的移动来实现具有一个或多个图像帧的第一打印引擎电介质支撑构件（DSM）的移动， 移动第一打印引擎DSM和来自移动的第二打印引擎DSM的第二帧信号。 对于来自第一和第二打印引擎DSM的一个或多个图像帧的每个相应的帧对确定偏移，并且将每个对应的帧对的所确定的偏移量与目标偏移进行比较，以保持第一和第二打印引擎 通过基于所确定的偏移和目标偏移的比较来调整第二打印引擎DSM速度，逐帧地打印引擎。

公开(公告)号：US08224226B2

公开(公告)日：2012-07-17

申请号：US13047939

申请日：2011-03-15

Applicant: Michael T. Dobbertin ,  Timothy J. Young

Inventor： Michael T. Dobbertin ,  Timothy J. Young

IPC: G03G15/14 ,  G03G15/16 ,  G03G21/00

CPC classification number: G03G15/238 ,  G03G2215/00021

Abstract: A method of increasing productivity in a reproduction apparatus wherein a first print engine and a second print engine are coupled by an inverter and synchronized. Each sheet of a plurality of receiver sheets is selectively printed in an invert mode or a non-invert mode. A difference of a travel time of a first receiver sheet in an invert path through the inverter in the invert mode as compared to a travel time of a second receiver sheet in a non-invert path through the inverter in the non-invert mode is adjusted so that the difference is an integral multiple of a period between the receiver sheets. Frames on a dielectric support member in the appropriate print engine are skipped when switching between invert mode and non-invert mode.

Abstract translation: 一种在再生装置中提高生产率的方法，其中第一打印引擎和第二打印引擎由逆变器耦合并同步。 选择性地以反转模式或非反转模式打印多张接收纸的每张纸。 调整第一接收片在反转路径中的反转路径的行进时间与反转模式中通过逆变器的非反相路径中的第二接收片的行进时间的差异， 使得差异是接收机片之间的周期的整数倍。 在反转模式和非反相模式之间切换时，跳过适当打印引擎中的介质支撑构件上的框架。

公开(公告)号：US20090297240A1

公开(公告)日：2009-12-03

申请号：US12128897

申请日：2008-05-29

Applicant: Michael T. Dobbertin ,  Timothy J. Young

Inventor： Michael T. Dobbertin ,  Timothy J. Young

IPC: G03G15/00

CPC classification number: G03G15/238 ,  G03G2215/00021

Abstract: A productivity module for increasing duplex throughput of a first print engine is disclosed. The productivity module has a second print engine, a controller, and an inverter. The controller is configured to receive one or more timing signals from the first print engine and synchronize timing of the second print engine with the first print engine based at least in part on the timing signals received from the first print engine. The inverter has an input paper path having an entrance configured to accept one or more receiver sheets from the first print engine; an output paper path having an exit configured to supply the one or more receiver sheets to the second print engine; and an inversion paper path having an entrance coupled to an exit of the input paper path and an exit coupled to an entrance of the output paper path.

Abstract translation: 公开了一种用于增加第一打印引擎的双工吞吐量的生产率模块。 生产率模块具有第二打印引擎，控制器和逆变器。 控制器被配置为从第一打印引擎接收一个或多个定时信号，并且至少部分地基于从第一打印引擎接收的定时信号来同步第二打印引擎与第一打印引擎的定时。 所述逆变器具有输入纸路径，其具有被配置为接收来自所述第一打印引擎的一个或多个接收器片材的入口; 具有出口的输出纸路径，其被配置为将所述一个或多个接收器片材供应到所述第二打印引擎; 以及具有连接到输入纸路径的出口的入口和耦合到输出纸路径的入口的出口的反转纸路径。

公开(公告)号：US08180242B2

公开(公告)日：2012-05-15

申请号：US12126267

申请日：2008-05-23

Applicant: Timothy J. Young ,  David J. Fuest ,  Michael T. Dobbertin ,  Christopher B. Liston

Inventor： Timothy J. Young ,  David J. Fuest ,  Michael T. Dobbertin ,  Christopher B. Liston

IPC: G03G15/00 ,  G03G15/22 ,  G03G21/00

CPC classification number: G03G15/238 ,  G03G15/5008 ,  G03G2215/00021

Abstract: A print engine synchronization system apparatus enables the movement of a first print engine dielectric support member (DSM) having one or more image frames as well as the movement of a second print engine DSM having one or more image frames by monitoring a first frame signal from the moving first print engine DSM and a second frame signal from the moving second print engine DSM. An offset is determined for each of corresponding pairs of frames from the one or more image frames of the first and second print engine DSM and the determined offset for each corresponding pair of frames is compared to a target offset to maintain synchronization between the first and second print engines on a frame by frame basis by adjusting a second print engine DSM velocity based on the comparison of the determined offset and the target offset.

Abstract translation: 打印引擎同步系统装置能够通过监视具有一个或多个图像帧的第一打印引擎DSM的第一帧信号来移动具有一个或多个图像帧的第一打印引擎电介质支撑构件（DSM）以及具有一个或多个图像帧的第二打印引擎DSM的移动， 移动的第一打印引擎DSM和来自移动的第二打印引擎DSM的第二帧信号。 对于来自第一和第二打印引擎DSM的一个或多个图像帧的每个相应的帧对确定偏移，并且将每个对应的帧对的所确定的偏移量与目标偏移进行比较，以保持第一和第二打印引擎 通过基于所确定的偏移和目标偏移的比较来调整第二打印引擎DSM速度，逐帧地打印引擎。

公开(公告)号：US08000645B2

公开(公告)日：2011-08-16

申请号：US12128897

申请日：2008-05-29

Applicant: Michael T. Dobbertin ,  Timothy J. Young

Inventor： Michael T. Dobbertin ,  Timothy J. Young

IPC: G03G15/14 ,  G03G15/16 ,  G03G21/00

CPC classification number: G03G15/238 ,  G03G2215/00021

Abstract: A productivity module for increasing duplex throughput of a first print engine includes a second print engine, a controller, and an inverter. The controller is configured to receive one or more timing signals from the first print engine and synchronize timing of the second print engine with the first print engine based at least in part on the timing signals received from the first print engine. The inverter has an input paper path having an entrance configured to accept one or more receiver sheets from the first print engine; an output paper path having an exit configured to supply the one or more receiver sheets to the second print engine; and an inversion paper path having an entrance coupled to an exit of the input paper path and an exit coupled to an entrance of the output paper path.

Abstract translation: 用于增加第一打印引擎的双工吞吐量的生产率模块包括第二打印引擎，控制器和反相器。 控制器被配置为从第一打印引擎接收一个或多个定时信号，并且至少部分地基于从第一打印引擎接收的定时信号来同步第二打印引擎与第一打印引擎的定时。 所述逆变器具有输入纸路径，其具有被配置为接收来自所述第一打印引擎的一个或多个接收器片材的入口; 具有出口的输出纸路径，其被配置为将所述一个或多个接收器片材供应到所述第二打印引擎; 以及具有连接到输入纸路径的出口的入口和耦合到输出纸路径的入口的出口的反转纸路径。

公开(公告)号：US20090290896A1

公开(公告)日：2009-11-26

申请号：US12126267

申请日：2008-05-23

Applicant: Timothy J. Young ,  David J. Fuest ,  Michael T. Dobbertin ,  Christopher B. Liston

Inventor： Timothy J. Young ,  David J. Fuest ,  Michael T. Dobbertin ,  Christopher B. Liston

IPC: G03G15/00

CPC classification number: G03G15/238 ,  G03G15/5008 ,  G03G2215/00021

Abstract: A print engine synchronization system apparatus enables the movement of a first print engine dielectric support member (DSM) having one or more image frames as well as the movement of a second print engine DSM having one or more image frames by monitoring a first frame signal from the moving first print engine DSM and a second frame signal from the moving second print engine DSM. An offset is determined for each of corresponding pairs of frames from the one or more image frames of the first and second print engine DSM and the determined offset for each corresponding pair of frames is compared to a target offset to maintain synchronization between the first and second print engines on a frame by frame basis by adjusting a second print engine DSM velocity based on the comparison of the determined offset and the target offset.

Abstract translation: 打印引擎同步系统装置能够通过监视具有一个或多个图像帧的第一打印引擎DSM的第一帧信号来移动具有一个或多个图像帧的第一打印引擎电介质支撑构件（DSM）以及具有一个或多个图像帧的第二打印引擎DSM的移动， 移动的第一打印引擎DSM和来自移动的第二打印引擎DSM的第二帧信号。 对于来自第一和第二打印引擎DSM的一个或多个图像帧的每个相应的帧对确定偏移，并且将每个对应的帧对的所确定的偏移量与目标偏移进行比较，以保持第一和第二打印引擎 通过基于所确定的偏移和目标偏移的比较来调整第二打印引擎DSM速度，逐帧地打印引擎。

公开(公告)号：US20090290895A1

公开(公告)日：2009-11-26

申请号：US12126192

申请日：2008-05-23

Applicant: Timothy J. Young ,  David J. Fuest ,  Michael T. Dobbertin ,  Christopher B. Liston

Inventor： Timothy J. Young ,  David J. Fuest ,  Michael T. Dobbertin ,  Christopher B. Liston

IPC: G03G15/00

CPC classification number: G03G15/238 ,  G03G15/5008 ,  G03G2215/00021

Abstract: A print engine synchronization method enables the movement of a first print engine dielectric support member (DSM) having one or more image frames as well as the movement of a second print engine DSM having one or more image frames by monitoring a first frame signal from the moving first print engine DSM and a second frame signal from the moving second print engine DSM. An offset is determined for each of corresponding pairs of frames from the one or more image frames of the first and second print engine DSM and the determined offset for each corresponding pair of frames is compared to a target offset to maintain synchronization between the first and second print engines on a frame by frame basis by adjusting a second print engine DSM velocity based on the comparison of the determined offset and the target offset.

Abstract translation: 打印引擎同步方法通过监视具有一个或多个图像帧的第一帧信号以及具有一个或多个图像帧的第二打印引擎DSM的移动来实现具有一个或多个图像帧的第一打印引擎电介质支撑构件（DSM）的移动， 移动第一打印引擎DSM和来自移动的第二打印引擎DSM的第二帧信号。 对于来自第一和第二打印引擎DSM的一个或多个图像帧的每个相应的帧对确定偏移，并且将每个对应的帧对的所确定的偏移量与目标偏移进行比较，以保持第一和第二打印引擎 通过基于所确定的偏移和目标偏移的比较来调整第二打印引擎DSM速度，逐帧地打印引擎。

公开(公告)号：US06641134B1

公开(公告)日：2003-11-04

申请号：US09698512

申请日：2000-10-27

Applicant: Michael T. Dobbertin ,  Timothy J. Young

Inventor： Michael T. Dobbertin ,  Timothy J. Young

IPC: B65H900

CPC classification number: G03G15/6567 ,  G03G15/6564 ,  G03G2215/00561 ,  G03G2215/00599 ,  G03G2215/00721

Abstract: An apparatus and method for advancing a receiver into registered relationship with a moving image-bearing member. A motor is provided that is responsive to motor drive pulses. A drive member engages the receiver, and a drive coupling connects the drive member and the motor. An encoder generates encoder pulses that correspond with movement of the image-bearing member. A pulse generator generates motor drive pulses in response to the encoder pulses to accelerate the receiver to a speed approximately equal to the speed of the image-bearing member speed. A timer determines an amount of delay time between detection of the receiver by an in-track sensor and the beginning of a subsequent movement of the motor. A delay mechanism delays the acceleration of the receiver to the image-bearing member speed by the amount of delay time.

Abstract translation: 一种用于将接收机推进到与运动图像承载部件建立关系的装置和方法。 提供响应于电动机驱动脉冲的电动机。 驱动构件接合接收器，并且驱动联接器连接驱动构件和马达。 编码器产生与图像承载部件的运动相对应的编码器脉冲。 脉冲发生器响应于编码器脉冲产生电机驱动脉冲，以将接收器加速到大约等于图像承载部件速度的速度。 定时器确定通过轨道内传感器检测接收机与马达后续运动开始之间的延迟时间量。 延迟机构将接收机的加速度延迟图像承载部件的速度延迟时间。

公开(公告)号：US20140024742A1

公开(公告)日：2014-01-23

申请号：US14009634

申请日：2011-04-08

Applicant: Charles S. Kan ,  Rebecca S. Ortiz ,  John A. Roper, III ,  Jane Elizabeth Weier ,  Timothy J. Young ,  Gary E. Spilman ,  Ray E. Drumright

Inventor： Charles S. Kan ,  Rebecca S. Ortiz ,  John A. Roper, III ,  Jane Elizabeth Weier ,  Timothy J. Young ,  Gary E. Spilman ,  Ray E. Drumright

IPC: C09D167/00 ,  C09D163/00

CPC classification number: C09D167/00 ,  C09D123/00 ,  C09D163/00 ,  C09D167/08 ,  C08L23/00 ,  C08L75/04 ,  C08L67/00 ,  C08L63/00

Abstract: The present invention provides a coating composition, a process for producing the same, one or more coating layers derived therefrom, and articles comprising one or more such coating layers. The coating composition according to the present invention comprises: (a) from 10 to 90 percent by weight of an aqueous, high-solid, solvent-free alkyd dispersion comprising: (i) from 40 to 70 percent by weight of one or more alkyds based on the total weight of the dispersion, wherein each said one or more alkyds has an acid value of less than 20 and a molecular weight (Mn) in the range of greater than 1000 Dalton; (ii) from less than 10 percent by weight of one or more surfactants, based on the total weight of the dispersion; and (iii) from 30 to 55 percent by weight of water, based on the total weight of the dispersion; wherein said aqueous, high-solid, solvent-free alkyd dispersion has an average particle size diameter in the range of from 0.05 to 5 μm; (b) from 10 to 90 one or more second dispersions, one or more second emulsions, or combinations thereof; wherein said coating composition has a solid content of in the range of from 25 to 65 percent by weight of solid content, based on the total weight of the coating composition, and the coating composition has a pH in the range of from 7 to 11, and wherein the coating composition has a volume average particle size in the range of from 0.03 to 5 μm, and wherein the coating composition has a viscosity in the range of from 100 to 10,000 cP.

Abstract translation: 本发明提供一种涂料组合物，其制备方法，由其衍生的一种或多种涂层，以及包含一种或多种这样的涂层的制品。 根据本发明的涂料组合物包含：（a）10至90重量％的水性，高固体，无溶剂的醇酸树脂分散体，其包含：（i）40至70重量％的一种或多种醇酸树脂 基于分散体的总重量，其中每个所述一种或多种醇酸树脂的酸值小于20，分子量（Mn）在大于1000道尔顿范围内; （ii）基于分散体的总重量，少于10重量％的一种或多种表面活性剂; 和（iii）基于分散体的总重量的30至55重量％的水; 其中所述水性，高固体，无溶剂的醇酸树脂分散体的平均粒度直径为0.05-5μm; （b）10至90个一种或多种第二分散体，一种或多种第二乳液或其组合; 其中所述涂料组合物的固体含量为固体含量的25至65重量％，基于涂料组合物的总重量，并且涂料组合物的pH为7至11， 并且其中所述涂料组合物的体积平均粒度在0.03至5μm的范围内，并且其中所述涂料组合物具有在100至10,000cP范围内的粘度。