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    • 3. 发明授权
    • Color calibration accuracy in a color raster scanner
    • 彩色光栅扫描仪中的色彩校准精度
    • US4342047A
    • 1982-07-27
    • US145096
    • 1980-04-30
    • Stephen E. NiemczykRichard G. Hubbard, Jr.
    • Stephen E. NiemczykRichard G. Hubbard, Jr.
    • H04N1/54H04N1/64H04N1/46
    • H04N1/648H04N1/54
    • A color calibration procedure for use with a color raster scanner includes the steps of: identifying small areas on the source chart, or medium to be scanned, which contain only one color and assigning a color number to each area; positioning the scan head of the color raster scanner at two locations within the area identified and establishing the coordinate values for each of these two areas so as to bound by the coordinate definition the corners of a rectangular portion within the identified area; recording at each of a plurality of samples between the defined coordinates in each area the color samples resident therein; comparing the color samples of each color number obtained from each area with the samples obtained for each other color number of the other areas to determine the percentage of interference between colors and identifying the number of color samples which interfere with two or more colors as uncalibrated samples; and modifying the limits for a selected one of the spectral parameters associated with the interfering colors to minimize the percentage of uncalibrated data samples.
    • 用于彩色光栅扫描仪的颜色校准程序包括以下步骤:识别源图表上的小区域或仅包含一种颜色并将颜色数字分配给每个区域的待扫描介质; 将彩色光栅扫描器的扫描头定位在所识别的区域内的两个位置处,并且为这两个区域中的每一个建立坐标值,以便由坐标定义限定所识别区域内的矩形部分的角部; 在每个区域中定义的坐标之间的多个样本中的每一个处记录颜色样本; 将从每个区域获得的每个颜色编号的颜色样本与为其他区域的每个其他颜色数量获得的样本进行比较,以确定颜色之间的干扰百分比,并将干扰两种或更多种颜色的颜色样本的数量识别为未校准样品 ; 以及修改与干扰颜色相关联的所选频谱参数的极限,以最小化未校准的数据样本的百分比。
    • 5. 发明授权
    • Jam clearance release mechanism for printer guides
    • 打印机导板卡纸间隙释放机构
    • US07454159B2
    • 2008-11-18
    • US11511188
    • 2006-08-28
    • Ian A. ParksRichard G. Hubbard
    • Ian A. ParksRichard G. Hubbard
    • G03G15/00E05C19/16
    • G03G21/1638G03G2221/1675Y10T292/11
    • A magnetic latch for removably latching a first member to a second member includes a magnet emitting a magnetic field carried by the first member and a magnetically attractive catch plate carried by the second member. A release mechanism is provided for moving the magnet relative to the catch plate from a first position in which the catch plate is strongly engaged with the magnetic field to a second position in which the catch plate is weakly engaged with the magnetic field. The release mechanism includes a lever, pivotally mounted to one of the first and second members and a biasing member carried by the other of the first and second members, the lever engaging the biasing member during pivoting of the lever. The release mechanism enables the magnetic engagement of the members to be broken with a relatively small applied force.
    • 用于将第一构件可拆卸地闩锁到第二构件的磁性闩锁包括发射由第一构件承载的磁场的磁体和由第二构件承载的磁性吸引板。 提供了一种释放机构,用于从捕获板与磁场牢固地接合到第二位置的第一位置相对于捕获板移动磁体到捕获板与磁场弱接合的第二位置。 释放机构包括枢转地安装到第一和第二构件中的一个的杠杆和由第一和第二构件中的另一个承载的偏压构件,杆在枢转杆期间接合偏置构件。 释放机构使得能够以相对小的施加力破坏构件的磁接合。
    • 8. 发明授权
    • Printing device internal lighting
    • 打印设备内部照明
    • US08801308B2
    • 2014-08-12
    • US13045836
    • 2011-03-11
    • David R. ColeRichard G. HubbardDavid K. HaldenKenneth G. DixonAnthony J. Peters
    • David R. ColeRichard G. HubbardDavid K. HaldenKenneth G. DixonAnthony J. Peters
    • B41J11/42
    • B41J11/006G03G15/6529G03G21/1604G03G21/1695
    • A printing apparatus includes a media path within a body of the printing apparatus. The media path moves sheets of media through the body of the printing apparatus. A marking engine is also within the body of the printing apparatus. The media path supplies the printing media to the marking engine. A processor is within the body of the printing apparatus. The processor is operatively connected to the marking engine, and the processor controls actions of the marking engine. Sensors are within the body of the printing apparatus. The sensors are operatively connected to the processor, and the sensors are positioned along the media path. The sensors detect locations and conditions of the sheets of media as the sheets of media travel along the media path. The sensors have a first clip shape. Further, clip connectors are located within the body of the printing apparatus. The clip connectors are connected to the sensors. Additionally, light structures are connected to the clip connectors. The light structures have an identical shape as the sensors for connecting to the clip connectors.
    • 打印设备包括在打印设备的主体内的介质路径。 介质路径通过打印设备的主体移动介质片。 标记引擎也在打印设备的主体内。 介质路径将打印介质提供给打标机。 处理器在打印设备的主体内。 处理器可操作地连接到标记引擎,并且处理器控制标记引擎的动作。 传感器在打印设备的主体内。 传感器可操作地连接到处理器,并且传感器沿着介质路径定位。 当介质片沿着介质路径行进时,传感器检测介质片的位置和状况。 传感器具有第一夹子形状。 此外,夹持连接器位于打印设备的主体内。 夹子连接器连接到传感器。 另外,光结构连接到夹子连接器。 光结构具有与用于连接到夹子连接器的传感器相同的形状。