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    • 1. 发明专利
    • Lock pin-fixing mechanism for tine holder
    • 用于托架的锁定固定机构
    • JP2011155863A
    • 2011-08-18
    • JP2010018536
    • 2010-01-29
    • Atsushi Matsuura淳 松浦
    • MATSUURA ATSUSHI
    • A01B45/02
    • PROBLEM TO BE SOLVED: To provide a lock pin-fixing mechanism for a tine holder, enabling the operation to be carried out easily, precisely and efficiently, and facilitating the treatment.
      SOLUTION: The lock pin-fixing mechanism is constituted as follows. Attaching holes 2 in the upper and lower direction for allowing shaft parts 6 for installing a plurality of tines at the lower part to be inserted are formed in the tine holder 1 in good order in the longitudinal and lateral directions. A plurality of insertion holes 3 of lock pins 7 for fixing the tines arranged in the horizontal direction is formed so as to cross the attaching holes 2. Stoppers 10 are inserted into stopper-inserting holes 9 of a pressing plate 8, and the dropping out is prevented by screwing the stoppers 10 into screw holes 5 and 5 at the side face 1A of the tine holder 1 to which the head parts 7A of the lock pins 7 butting, to stop the head parts 7A of the lock pins 7 by the contact with the fixed pressing plate 8.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种用于针架的锁销固定机构,能够容易,准确且有效地进行操作,并且便于处理。 解决方案:锁销固定机构如下构成。 在上下方向上安装孔2,以允许轴部分6在待插入的下部安装多个尖齿,在齿条保持器1中沿纵向和横向以良好的顺序形成。 形成用于固定沿水平方向布置的齿的锁定销7的多个插入孔3,以便穿过安装孔2.塞子10插入到压板8的止动器插入孔9中, 通过将止动件10拧入锁定销7的头部7A所对应的针架1的侧面1A处的螺钉孔5和5中,以通过接触来停止锁定销7的头部7A 使用固定的压板8.版权所有(C)2011,JPO&INPIT
    • 3. 发明申请
    • Method of producing aluminum alloy sheet for lithographic printing plate
    • 平版印刷版铝合金板的制造方法
    • US20080289731A1
    • 2008-11-27
    • US12152145
    • 2008-05-13
    • Akio UesugiAtsushi MatsuuraAtsushi HibinoHiroshi Ougi
    • Akio UesugiAtsushi MatsuuraAtsushi HibinoHiroshi Ougi
    • C22F1/04
    • C22C21/06B21B2003/001C22C21/00
    • A method of producing an aluminum alloy sheet for a lithographic printing plate includes homogenizing an ingot of an aluminum alloy at 500 to 610° C. for one hour or more, the aluminum alloy containing 0.05 to 1.5% of Mg, 0.1 to 0.7% of Fe, 0.03 to 0.15% of Si, 0.0001 to 0.10% of Cu, and 0.0001 to 0.1% of Ti, with the balance being aluminum and unavoidable impurities, subjecting the homogenized product to rough hot rolling, a start temperature of the rough hot rolling being 430 to 500° C. and a finish temperature of the rough hot rolling being 400° C. or more, holding the product subjected to the rough hot rolling for 60 to 300 seconds after completion of the rough hot rolling to recrystallize the surface of the product, subjecting the resulting product to finish hot rolling that is finished at 320 to 370° C., and winding up the resulting product in the shape of a coil to obtain a hot-rolled product having a surface with an average recrystallized grain size in a direction perpendicular to a rolling direction of 50 μm or less. The aluminum alloy may contain 2 to 30 ppm of Pb.
    • 制造平版印刷版铝合金板的方法包括在500〜610℃下均匀化铝合金锭1小时以上,含有0.05〜1.5%的Mg的铝合金,0.1〜0.7%的Mg Fe,0.03〜0.15%的Si,0.0001〜0.10%的Cu和0.0001〜0.1%的Ti,余量为铝和不可避免的杂质,对均质化物进行粗加热,粗轧的开始温度 为430〜500℃,粗加热后的终轧温度为400℃以上,在粗加工热轧结束后,使粗轧后的产品保持60〜300秒,使表面再结晶 该产品对所得产品进行在320-370℃下精加工的热轧,并将所得产品卷绕成线圈形状,得到具有平均再结晶晶粒度的表面的热轧产品 在一个方向上 滚动方向为50mum以下。 铝合金可含有2〜30ppm的Pb。
    • 10. 发明申请
    • Lithographic printing plate support and method of manufacturing the same
    • 平版印刷版支持及其制造方法
    • US20060210927A1
    • 2006-09-21
    • US11377546
    • 2006-03-17
    • Atsushi MatsuuraHirokazu SawadaAkio Uesugi
    • Atsushi MatsuuraHirokazu SawadaAkio Uesugi
    • G03F7/00
    • B41N3/04B41N3/034C25F3/04
    • A lithographic printing plate support capable of obtaining a presensitized plate which is excellent in scumming resistance and scratch resistance and achieves a good balance between sensitivity and press life, and a method of manufacturing the support are provided. The support includes a surface which has an arithmetic mean roughness Ra of 0.36 to 0.50 μm; not more than 3.0 recesses with a depth of at least 4 μm per 400 μm square region; and a surface area ratio ΔS5(0.02-0.2) determined from Sx5(0.02-0.2) denoting the actual surface area of a 5 μm square surface region as determined by three-point approximation based on data obtained by extracting 0.02 to 0.2 μm wavelength components from three-dimensional data on the surface region measured with an atomic force microscope at 512×512 points and S0 denoting the geometrically measured surface area of the surface region, of 50 to 90%.
    • 提供一种能够获得耐浮渣性和耐划伤性优异并且在灵敏度和印刷寿命之间达到良好平衡的预敏板的平版印刷版支撑体,以及制造支持体的方法。 支撑体包括具有0.36至0.50μm的算术平均粗糙度R a a的表面; 不超过3.0个凹槽,每400平方米区域深度至少为4 mum; 并且由S×5(0.02-0.2)确定的表示面积比ΔS5(0.02-0.2)表示实际的表面积 基于通过用原子力显微镜以512×512点测量的表面区域上的三维数据提取0.02至0.2μm波长分量而获得的数据,通过三点近似确定的5个正方形表面区域,并且S < SUB>表示表面区域的几何测量表面积,为50〜90%。