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序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
21	一种印刷机刮刀装置	CN201420713550.3	2014-11-24	CN204296173U	2015-04-29	郭景松; 贺志磐; 张幸彬; 郑进; 余杉
本实用新型涉及一种印刷机刮刀装置，包括有机架，在所述机架上固定有固定板，所述固定板的下方水平设有直线轨道，在所述直线轨道上设有可沿其左右运动的往复板，在机架上设有使往复板左右移动的左右运动机构，在所述往复板上设有刮刀组件以及控制刮刀组件上下移动的上下运动机构，控制刮刀组件前后移动的前后运动机构。本实用新型结构稳定，刮刀整体移动都是通过直线导轨来左右移动和升降，刮刀左右移动通过电机控制，刮刀上下移动通过蜗轮蜗杆，刮刀前后调节通过丝杆，实现刮刀的三方位调整，减少齿轮齿条间隙对刮刀稳定性的影响；刮刀刀片的夹紧机构，通过杠杆原理，利用偏心轴可以快速实现刮刀刀片的夹紧或松开，更换刮刀不需要拆卸刀夹。
22	刚性整体滑动刮刀装置	CN200720126217.2	2007-10-26	CN201092133Y	2008-07-30	梁呈迅
本实用新型公开了一种刚性整体滑动刮刀装置，包括刮刀夹板通过滑块安装在滑座上，滑座通过支撑轴与安装在升降横梁的支撑架座连接，升降横梁的两端安装有设置有直线导轨的台式支撑座，直线导轨设置在滑移导轨中，滑移导轨安装在墙板上，滑移导轨还与串动传动轴连接，台式支撑座中安装有主蜗轮蜗杆机构，主蜗轮蜗杆机构通过齿轮在齿条上转动，齿条安装在滑移导轨上，支撑轴上安装有调整螺钉，支撑轴的一端设置有副蜗轮蜗杆机构，副蜗轮蜗杆机构设置有转动手柄和锁紧手柄。本实用新型保证了刮刀在版辊高速转动时的稳定性、可靠性，特别是刚性得到了彻底的改善；直线导轨则使得整个装置的运动精度比原来的齿轮齿条得到了明显的提高。
23	Rakelvorrichtung für eine Druckmaschine	DE202011110231	2011-06-01	DE202011110231U1	2013-03-11
Rakelvorrichtung für eine Druckmaschine, derart umfassend: eine Rakelhalterung (10), die einer Farbwalze einer Druckmaschine benachbart ist; einen in eine Längsrichtung verlängerten Rakelkörper (20), der an der genannten Rakelhalterung (10) gehalten ist, wobei der genannte Rakelkörper (20) eine Kammerfläche (21) hat, die sich entlang desselbigen erstreckt; Längsmesser (2), die an dem Rakelkörper (20) an quer gegenüberliegenden Seiten der genannten Kammerfläche (21) befestigt sind; seitliche Stempelelemente (3), die an dem Rakelkörper (20) an längs gegenüberliegenden Enden der Kammerfläche (21) installiert sind; und zumindest einen Farbeinlassdurchgang (24) und zumindest einen Farbauslassdurchgang (25), die durch den Rakelkörper (20) hindurch gebildet sind und an der genannten Kammerfläche (21) offen und angeordnet sind, um mit einer Farbumlaufvorrichtung verbunden zu werden, wobei die Rakelhalterung (10) einen Farbversorgungsdurchgang (11) und einen Farbabführungsdurchgang (12) umfasst, die mit jeweiligen Farbversorgungs- und Farbabführleitungen (6, 7) der genannten Farbumlaufvorrichtung verbunden sind, und wobei Positionier- und Befestigungsmittel...
24	WIPING CYLINDER DRIVE OF AN INTAGLIO PRINTING MACHINE	CA2235207	1998-04-21	CA2235207C	2008-09-23	SCHAEDE JOHANNES; KUHN HERMANN JOSEF
The wiping cylinder drive has a drive shaft (4) which is independent of the wiping cylinder shaft (2) and which, at its end facing away from the wiping cylinder, is connected to the drive member (15) with the aid of a claw coupling (10). Inserted between the adjacent claws of the constantly engaged claw coupling (10) is a gearwheel (20) which is made of elastically deformable material and the teeth (21) of which are in each case inserted positively between the flanks of adjacent claws of the two coupling parts and, in the case of sudden changes in the load torque of the wiping cylinder, function as damping elements. The drive member (15) has a gearwheel (17) which is constantly in engagement kinematically with the gear leading to the main motor of the printing machine.
25		DE69711461	1997-12-03	DE69711461T2	2003-01-02	SCHEUHING B
A cup holder for rotating a doctoring ink cup includes a housing with a cup receiving chamber and a bumper extending into the chamber. The bumper contacts the ink cup to rotate it within the chamber during inking of a gravure plate. It is the relative motion of the plate and the ink cup during inking of the plate which causes the bumper to contact the ink cup. A second bumper extends into the cup receiving chamber. A method of inking a gravure plate includes inking the plate by relative motion between an ink cup and the plate, and rotating the ink cup during inking such that an edge of the ink cup in contact with the plate rotates with respect to the plate. The rotation is caused by the relative motion.
26	COMPLIANT DOCTORING CUP	CA2266074	1997-09-17	CA2266074A1	1998-04-02	MURRAY MICHAEL P
A compliant doctoring cup (12) particularly suited for inking non-flat plates (14), includes a body (18, 20, 22) defining a cavity for containing ink, and a blade (16) with two free ends (19, 19') coupled to the body along a periphery of the cavity. The body of the cup (12) defines a channel (19) generally along the periphery of the cavity, and the blade (16) is positioned with the channel (19). A resilient member, for example, a liner (18) interfaces the blade (16) to the body of the cup (12). The liner (18) contains the ink and defines the channel (19).
27	A ROTOGRAVURE PRINTING MEDIA AND METHODS OF MANUFACTURING A ROTOGRAVURE PRINTING DEVICE EMPLOYING THE MEDIA	AU7791691	1991-04-25	AU7791691A	1991-11-11	BRESSLER DAVID E; CALIGARO DANIEL; CHESTNUT W RICHARD

28	Thin-film forming apparatus and thin-film forming method	US282989	1994-08-30	US5533446A	1996-07-09	Yasuhiro Hashimura; Satoshi Noguchi; Kenichi Masaki; Takahiro Akai
A thin-film forming apparatus which includes a printing device having an intaglio roll having a plurality of ink cells, an ink supply which includes a doctor blade and which fills ink into the ink cells, a printing roll with an elastic plate, to which the ink of the intaglio roll is transferred wound round the barrel surface thereof, and a printing table which fixes a to-be-printed material to which the ink of the printing roll is transferred, wherein the apparatus includes a articulated robot, and an implementation device for the printing preparatory works which is mounted to the arm of the articulated robot and which performs at least one operation among the mounting/dismounting operation of the elastic plate to/from the printing roll, the operation to wipe and/or dry the ink on the barrel surface of the intaglio roll, and the operation to wipe and/or dry the ink on the doctor blade.
29	Thin-film forming apparatus	US130357	1987-10-29	US4841857A	1989-06-27	Yasuhiro Hashimura; Satoshi Noguchi; Nobuyuki Minami
The present invention relates to an apparatus for forming a thin film on a material by printing. The apparatus is characterized in that it has a cylindrical intaglio roller. The ink deposited on the surface of the intaglio roller is first transferred onto the surface of a printing roller, and then is printed on the surface of the material to be printed which is disposed on a surface plate. Alternatively, the ink is directly printed on the surface of the material to be printed without employing the printing roller. Since the intaglio roller has a cylindrical body, the surface of the roller can be precisely and easily machined and finished. Accordingly, despite a plurality of ink cells directly formed in a given pattern on the surface of the intaglio rollers, the contact pressure of the ink cell surface of the intaglio roller against the surface of the printing roller or the surface of the material to be printed is uniform over the entire contact area so that the thickness of the film printed on the surface of the material to be printed can be made precisely uniform over the entirety thereof.
30	IMAGE REVEALING SQUEEGEE DEVICE FOR AN ELECTROCOAGIMAGE REVEALING SQUEEGEE DEVICE FOR AN ELECTROCOAGULATION PRINTING APPARATUS ULATION PRINTING APPARATUS	CA2224449	1997-12-10	CA2224449C	2002-01-01	DAVIDSON NORMAND; CASTEGNIER ADRIEN; GADBOIS GILLES; LAPLANTE CHRISTIAN
An image revealing squeegee device for an electrocoagulation printing apparatus including a positive cylindrical electrode having a central longitudinal axis and a passivated surface on which dots of colored, coagulated colloid representative of a desired image are formed by electrocoagulation of an electrolytically coagulable colloid present in a colloidal dispersion containing a coloring agent, the positive electrode having a predetermined radius and being rotatable about the longitudinal axis in a predetermined direction. The squeegee device of the invention comprises an elongated blade member of resilient material having two planar surfaces intersecting one another to define a rectilinear edge extending parallel to the longitudinal axis of the positive electrode and adapted to contact the surface thereof, one of the planar surfaces defining a colloid arresting surface for retaining upstream of the blade member excess colloidal dispersion carried by the positive electrode and containing non-coagulated colloid, the colloid arresting surface being inclined in a direction opposite to the direction of rotation of the electrode at an angle of about 100.degree. to about 160.degree. relative to the radius thereof, and means for holding the blade member in pressure contact engagement with the positive electrode. Upon rotation of the positive electrode, non-coagulated colloid contained in the dispersion is retained by the colloid arresting surface, thereby uncovering the dots of colored, coagulated colloid without adversely affecting the coagulated colloid.
31	SOFT DOCTORING CUP	CA2259689	1997-07-09	CA2259689A1	1998-01-22	SCHEUHING ROBERT B
A doctoring cup (14) particularly suited for inking non-flat plates (12) includes a plate contacting edge (24) with an "Ease of Flex" parameter greater than about 0.020 lb-1. Ease of Flex is defined as 1/Mt2, where t is the thickness of the plate contacting edge (24), and M is the flexural modulus of the material from which the cup wall (18) defining the edge (24) is formed. By non-flat plates (12) is meant plates out of flat by greater than 0.0002 inches/inch. The doctoring cup (14) can be used to ink both flat and non-flat printing plates (12) using a doctoring pressure of less than about 300 psi.
32		DK91909111	1991-04-25	DK0526567T3	1997-09-15	BRESSLER DAVID E; CALIGARO DANIEL; CHESNUT W RICHARD

33		ES91909111	1991-04-25	ES2101744T3	1997-07-16	BRESSLER DAVID E; CALIGARO DANIEL; CHESNUT W RICHARD

34		DEK0016270	1952-11-25	DE948334C	1956-08-30	KOESLER OTTO

35		NL152162	1950-03-09	NL80142C	1956-01-16

36		FR1087992D	1953-09-16	FR1087992A	1955-03-02

37		FR1013754D	1950-02-13	FR1013754A	1952-08-04

38	装饰纸凹版印刷机箱式刮刀装置	CN200720126227.6	2007-10-26	CN201092135Y	2008-07-30	郭会元; 卢萌
本实用新型公开了一种装饰纸凹版印刷机箱式刮刀装置，包括箱体式支撑架部分、刮墨刀固定部分和刮墨刀离合部分。箱体式支撑架部分包括箱体通过左右支轴和左右串动传动轴定位于墙板上，箱体中装有蜗轮蜗杆机构，蜗轮蜗杆机构通过联动杆同时与左右齿条连接，齿条的上端与支座连接；刮墨刀固定部分包括设置有锁紧机构的刮刀夹板，刮刀夹板的上夹板与下夹板之间夹有刮墨刀，刮刀夹板所在的底板组合体上设置有左右连接杆与刮墨刀离合部分的双出杆汽缸连接。本实用新型由于采用了铸铁箱体式支架结构，从而使整个刮墨刀支架刚性大大加强，刮刀夹板使刮墨刀固定紧密，双出杆汽缸操作简便、自动化程度高、劳动强度低，适用于任何凹版印刷机。
39	一种移印机的刮刀高度调整装置	CN200720008228.0	2007-09-11	CN201077175Y	2008-06-25	林钟兴
本实用新型公开了一种移印机的刮刀高度调整装置，包括传统刮刀装置部件的基本结构；其特征在于：还包括调整座，方形调整座与固定座的内侧面紧贴，调整座侧面设有长形调整座通孔，紧固螺栓穿过调整座通孔与设在调整座外侧面的滑块固定连接，调整座外侧面的另一方设有滑块移动装置和调整座固定装置。由于设有调整座、滑块、滑块移动装置，紧固螺栓固定在滑块上，滑块移动装置固定在机架上，通过采取调整滑块移动装置带动滑块再带动固定座移动的方式，具有能方便地、较大范围地调整刮刀高度，且调节过程平稳、精准的优点。
40	PRINTING APPARATUS AND PRINTING METHOD	US15654746	2017-07-20	US20170313051A1	2017-11-02	Kenichi KODAMA
A printing apparatus and a printing method for applying ink to a surface of a printing plate in a predetermined pattern and then transfer the ink applied in the shape of the pattern to a substrate. A scale is formed on the surface of the printing plate; the printing apparatus includes a plate cylinder on which the printing plate is provided, an image recording section that applies the ink to the surface of the printing plate in the predetermined pattern by an ink jet method, a reading unit that reads the scale and obtains position information data of the scale, a signal generation part that generates a signal based on the position information data obtained by the reading unit, and an adjustment part that adjusts an ejection timing of the ink in the image recording section on the basis of the signal obtained by the signal generation part.

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