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    • 1. 发明授权
    • Recording head adjustment method and image recording apparatus
    • 记录头调整方法和图像记录装置
    • US08523308B2
    • 2013-09-03
    • US13030508
    • 2011-02-18
    • Hiroyuki ShibataYoshiharu Sasaki
    • Hiroyuki ShibataYoshiharu Sasaki
    • B41J29/38B41J29/393
    • B41J2/2135
    • A recording head adjustment method includes: a dot row forming step of causing relative movement between a recording medium and a recording head in which a plurality of sub-heads each including a plurality of recording elements are joined together, and driving the plurality of recording elements at prescribed drive timing with respect to each of the plurality of sub-heads in such a manner that dot rows for the respective sub-heads are formed in a direction substantially perpendicular to a direction of the relative movement; a step-difference amount calculation step of measuring positions in the direction of the relative movement of the dot rows for the respective sub-heads in a situation where a range of a part of the dot rows formed by an overlapping portion between the mutually adjacent sub-heads where recording rates represented by number of dots per unit surface area are substantially same as each other is set as a measurement object, and obtaining an amount of step difference between the sub-heads represented by difference or ratio of the measured positions in the direction of the relative movement of the dot rows for the respective sub-heads; an adjustment value calculation step of calculating an adjustment value for the drive timing of the plurality of recording elements with respect to each of the plurality of sub-heads according to the obtained amount of step difference; and a drive timing adjustment step of adjusting relative drive timing with respect to each of the plurality of sub-heads according to the calculated adjustment value.
    • 一种记录头调整方法,包括:点行形成步骤,使得记录介质和记录头之间的相对移动,其中将包括多个记录元件的多个子头连接在一起,并驱动多个记录元件 在相对于所述多个子头中的每一个的规定的驱动定时处,以相对于所述相对移动的方向基本上垂直的方向形成各个子头的点行; 步距差计算步骤,在相互相邻的子区域之间的重叠部分形成的点行的一部分的范围的情况下,测量各个子头的点行的相对移动方向的位置 将由单位表面积的点数表示的记录速度基本上相同的头部作为测量对象,并且获得由所述测量对象中的测量位置的差或比例所表示的子头之间的阶差 针对各个子头的点列的相对运动的方向; 调整值计算步骤,根据获得的步进差量来计算多个记录元件的驱动定时相对于多个子头中的每一个的调整值; 以及驱动定时调整步骤,根据所计算的调整值调整相对于所述多个子头中的每一个的相对驱动定时。
    • 2. 发明授权
    • Recording apparatus and method of foreign material removal thereof
    • 记录装置及其除去异物的方法
    • US07255042B2
    • 2007-08-14
    • US10054279
    • 2002-01-24
    • Yoshiharu Sasaki
    • Yoshiharu Sasaki
    • B41F35/00
    • G03G7/0086B41J13/226G03G15/01G03G15/344G03G2215/00708
    • In the recording apparatus 121, a recording medium fixing member 123 having a plurality of suction ports on the fixed surface to fix the recording medium 101; an adhering roller 143 which can contact with or separate from the recording medium fixing member 123 and which cleans the fixed surface; a flexible plate 137 which is attached onto the fixed surface of the recording medium fixing member 123 and whose contact surface with the recording medium is cleaned by the adhering roller 143; and a suction apparatus for recording medium fixing which sucks the air from the suction ports of the recording medium fixing member 123 and sucks and fixes the flexible plate 137 and the recording medium 101 onto the fixed surface of the recording medium fixing member 123, are provided.
    • 在记录装置121中,具有在固定表面上具有多个吸入口以固定记录介质101的记录介质固定件123; 能够与记录介质固定件123接触或分离并清洁固定表面的粘合辊143; 附着在记录介质固定构件123的固定表面上并且与记录介质的接触表面的柔性板137被粘合辊143清洁; 并且提供一种用于记录介质固定的抽吸装置,其从记录介质固定构件123的吸入口抽吸空气并将柔性板137和记录介质101吸入并固定到记录介质固定构件123的固定表面上 。
    • 3. 发明授权
    • Method of forming patterns
    • 形成图案的方法
    • US07223703B2
    • 2007-05-29
    • US11033970
    • 2005-01-13
    • Yoshiharu Sasaki
    • Yoshiharu Sasaki
    • H01L21/451
    • G03F7/095H05K3/0079H05K3/0082H05K3/064H05K2203/0577H05K2203/0588Y10S438/95Y10S438/975
    • In forming a mask pattern on a circuit board, a mask pattern of N-layer structure is formed in a region where the mechanical strength of the circuit board needs to be increased. N photosensitive layers are first stacked on a substrate so that they becomes lower in sensitivity from the first photosensitive layer toward the Nth photosensitive layer. In the first photosensitive layer (bottom layer), a first pattern is formed and has the same shape as a predetermined pattern to be formed on the circuit board. In the Kth photosensitive layer (N≧K≧2), a Kth pattern is formed so that the Kth pattern is smaller than a (K−1)st pattern formed in the (K−1)st photosensitive layer and arranged inside the (K−1)st pattern.
    • 在电路板上形成掩模图案时,需要在要增加电路板的机械强度的区域中形成N层结构的掩模图案。 首先将N个感光层堆叠在基板上,使得它们从第一感光层朝向第N&lt;感光层的灵敏度变低。 在第一感光层(底层)中,形成第一图案,并且具有与在电路板上形成的预定图案相同的形状。 在第K&lt; S&gt;感光层(N> = K> = 2)中,形成K&lt;&lt;&lt;图案,使得第图案是 小于在(K-1)第<! - SIPO - >感光层中形成的(K-1) SUP>图案。
    • 6. 发明授权
    • Laser thermal transfer recording method
    • 激光热转印记录方法
    • US06720126B2
    • 2004-04-13
    • US10343950
    • 2003-02-05
    • Akihiro ShimomuraYoshiharu Sasaki
    • Akihiro ShimomuraYoshiharu Sasaki
    • B41M538
    • B41M5/42B41J2/325B41J2/4753B41J13/0009B41J13/0018B41J13/0081B41M5/38221
    • It is intended to provide a laser thermal transfer recording method which comprises the steps of feeding an image receptor sheet and a plural number of thermal transfer sheets from a recording medium cassette, superposing the image receptor layer of the image receptor sheet upon the image formation layer of the thermal transfer sheets and holding them on a recording medium support member, and then irradiating the thermal transfer sheets with laser beams appropriate for image data to transfer the laser-irradiated regions on the image formation layer onto the image receptor layer of the image receptor sheet thereby recording an image, characterized in that the image receptor sheet and the thermal transfer sheets are laminated in the order of feeding into the recording medium support member and contained in the recording medium cassette and the coefficient(s) of static friction of the back layer surface of the image receptor sheet and/or the above-described thermal transfer sheets are 0.7 or below. According to this laser thermal transfer recording method, each sheet can be transported and fed in a stable state without causing jamming or positioning error to thereby give an image free from any defect in the image caused by the adhesion of foreign materials or mistaken color recording order due to an error in manual operation.
    • 旨在提供一种激光热转印记录方法,其包括以下步骤:将来自记录介质盒的图像接收片和多个热转印片进给,将图像接收片的图像接收层叠加在图像形成层 的热转印片并将其保持在记录介质支撑构件上,然后用适合于图像数据的激光束照射热转印片,以将图像形成层上的激光照射区域转印到图像接收器的图像接收层上 片材,从而记录图像,其特征在于,图像接收片和热转印片按照馈送到记录介质支撑构件中并被包含在记录介质盒中的顺序层叠,并且背面的静摩擦系数 图像接收片和/或上述热转印片的层表面为0.7 或以下。 根据该激光热转印记录方法,可以将各纸张以稳定的状态进行输送送出,而不会产生卡纸或定位误差,从而使图像不会由于外来物质的粘附或者错误的颜色记录顺序引起的图像中的任何缺陷 由于手动操作的错误。
    • 8. 发明授权
    • Laser-heat transfer recording method and image-receiving sheet
    • US06579655B1
    • 2003-06-17
    • US10146047
    • 2002-05-16
    • Akihiro ShimomuraYoshiharu Sasaki
    • Akihiro ShimomuraYoshiharu Sasaki
    • G03F734
    • B41M5/52B41J2/475B41M5/42
    • A laser-heat transfer recording method comprising the image-recording steps of feeding an image-receiving sheet and a heat transfer sheet to an exposure-recording unit, fixing the image-forming layer in the heat transfer sheet and the image-receiving layer in the image-receiving sheet being superposed vis-a-vis on a recording medium fixing member of the exposure-recording unit; irradiating the heat transfer sheet with laser beams corresponding to image data; and transferring the irradiated are with laser beam of the image-forming layer onto the image-receiving layer in the image-receiving sheet, wherein the surfaces of the image-receiving sheet and/or the heat transfer sheet are cleaned by being brought into contact with an adhesive roll of a crown shape for removing foreign matters, the diameter of the central part of which is larger than the diameters of both ends in the axis direction of the roll body, provided at at least one of the feeding part of the image-receiving sheet and the heat transfer sheet of the exposure-recording unit, a carrying part and a recording part, and the adhesive strength of the image-receiving layer and the underlayer of the image-receiving layer in the image-receiving sheet is from 20 to 100 mN/cm.