专利检索_圆压平印刷机即实质上包括至少一个滚筒与至少一个平印版台协同动作的印刷机专利检索_圆压平印刷机即实质上包括至少一个滚筒与至少一个平印版台协同动作的印刷机专利检索查询_圆压平印刷机即实质上包括至少一个滚筒与至少一个平印版台协同动作的印刷机专利检索查询分析平台

子分类：

序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
121	一次走纸完成成品加工的印刷设备及其工作方法	PCT/CN2010/002127	2010-12-22	WO2011075951A1	2011-06-30	王玉信; 首云飞; 彭章波; 董晓岭

122	VARIABLE CUTOFF ALIGNMENT APPARATUS AND METHOD OF ALIGNING PRINTING CYLINDERS DURING A CUTOFF CHANGE	PCT/US2009/065170	2009-11-19	WO2010059842A1	2010-05-27	ZLATIN, Lev; DUMAIS, Mark, Bernard; LEMELIN, Michael, Robert
A variable cutoff cylinder alignment apparatus which includes a plate cylinder support box for supporting an exchangeable variable cutoff plate cylinder, a blanket cylinder support box for supporting an exchangeable variable cutoff blanket cylinder and an alignment stop adapted to align the blanket cylinder support box and the plate cylinder support box. The plate cylinder support box supports an exchangeable plate cam and the blanket cylinder support box includes an exchangeable blanket cam. The exchangeable plate cam is capable of contacting the stop and the exchangeable blanket cam is capable of contacting the plate support box to align the blanket cylinder support box and the plate cylinder support box. The plate cylinder support box and the blanket cylinder support box are capable of aligning cylinders of different sized cutoffs. A variable cutoff offset printing press and a method of aligning printing cylinders during a cutoff change are also provided.
123	METHOD AND APPARATUS FOR REGISTER MARK IDENTIFICATION	PCT/US1998/018207	1998-09-02	WO99012125A1	1999-03-11
The function of a Color Register Control system on a printing press is to maintain close registration between colors printed on a surface by various printing cylinders. The control acquires an image of a cluster of register marks (712) printed by various printing cylinders. The register mark is a geometrically unique mark. The mark cluster is acquired by the camera (708) and each mark pattern is identified by checking shape of individual marks. Resulting location of a mark is used to compute and correct registration errors. The image is analyzed to identify marks printed by various printing cylinders. Register error is determined by computing the lateral and circumferential distance between marks printed by a print cylinder and a master print cylinder. Any error detected in this process is corrected by activating correction motors, typically stepper motors, on print cylinders. The control utilizes a commercially available IBM-PC compatible computer (700).
124	シボ柄印刷用のシボ柄並びにそのシボ柄の創成方法および創成プログラム、並びにそのシボ柄を印刷した住宅建材製品、自動車用内装部品、家庭電化製品および情報機器	PCT/JP2007/067076	2007-08-31	WO2008032593A1	2008-03-20	青山英樹; 中塚暁志; 佐藤壽芳
コンピュータ内にソフトウェアを構築してシボを創成し、これを従来のシボの代替として用いることにある。コンピュータにより創成されるもので、幾何学的フラクタルにより発生した基本構造を繰り返すとともに、その繰り返しの中に繰り返し態様を変更した基本構造を含むことを特徴とする、シボ柄印刷用のシボ柄である。
125	SYSTEM AND METHOD FOR PRINTING ON SUBSTRATES WITH AQUEOUS INKS THAT CAN BE CURED BY MEANS OF ELECTRON BEAM RADIATION	PCT/ES2006000547	2006-09-29	WO2007039656A3	2007-05-24	DAVILA CASITAS JUAN
The invention relates to a system and method for printing on substrates with aqueous inks that can be cured by means of electron beam radiation. The inventive system comprises printing stations (3, 3a) for the wet-on-wet printing of different inks (8) on a first substrate (1) with a first surface tension, a roller pressing station (4) for positioning and pressing a second substrate (2) with a second surface tension against the printed face of the first substrate (1), a curing station (5) for irradiating an electron beam onto the first and second stacked substrates (1, 2) and the inks (8) therebetween in order to cure the inks (8), and a separation station (6) for separating the second substrate (2) from the first substrate (1). The cured inks (8) remain affixed to the first substrate (1) or the second substrate (2) depending on the relationship between the first and second surface tensions of said two substrates (1, 2).
126	TEST-PRINTING METHOD AND TEST-PRINTING FORM FOR USE IN THE METHOD	PCT/SE2000/001701	2000-09-05	WO01017777A1	2001-03-15
A test-printing method for a rotary press with a determinable ink coverage, whereby a test-printing form having a first and a second printing area is used, which method comprises determining the ink coverage provided by the rotary press, designing the test-printing form layout to the effect that the ink requirement does not, for any part of the combined first and second printing areas, essentially exceed a predetermined value V, said value V being set in a predetermined relation to the determined ink coverage; and the ink requirement of said second printing area amounts to a value essentially representing the difference between said value V and the ink requirement of said first printing area. A rotary press test-printing form having a layout designed for use in the test-printing method.
127	ACTIVE DISCHARGE ELECTRODE FOR MINIMIZING POSITIVE AND/OR NEGATIVE CHARGES ON MOVING MATERIAL WEBS	PCT/EP1998/001382	1998-03-10	WO98042166A1	1998-09-24
The invention concerns an active discharge electrode (5) for minimizing positive and/or negative charges on moving material webs. The active discharge electrode (5) comprises a plurality of needle-shaped individual electrodes (8) which are disposed mutually parallel and can be connected to a high-voltage source, preferably a high-voltage transformer. The active discharge electrode (5) further comprises at least one earthing conductor (11) extending at right angles to and along the plurality of individual electrodes (8).
128	Exterior forming method and exterior forming structure of electronic component	US15137622	2016-04-25	US10377169B2	2019-08-13	Sung Woon Yoon; Sung-Hai Lee; Kyo Ree Lee; Hui-Cheol Kim; Dae-Keun Youn
Disclosed herein are an exterior forming method and an exterior forming structure of an electronic component. The exterior forming method of an electronic component may include mounting an injection-molded product, which is injection molded as an electronic component, to an upper portion a heat transferring base unit, mounting a printing film having an ink layer for a heat transfer to the upper portion of the heat transferring base unit such that the ink layer faces an upper surface of the injection-molded product, and heat-transferring the ink layer on the upper surface of the injection-molded product by rotating a heating roll while closely attached at an upper portion of the printing film. The exterior forming method may also include forming an UV coating layer on an upper portion of the ink layer that is heat-transferred on the injection-molded product.
129	Process for forming an insulated container having artwork	US15139573	2016-04-27	US09975687B2	2018-05-22	Chris K Leser; Charles T Wallace; Philip A Driskill; John B Euler; Jason J Paladino; Milan C Maravich; Daniel O Davis; Jeffrey A Mann; Randy A Bowlds; Svetlana Contrada
A container is formed to include and interior region and a mouth opening into the interior region. The container includes a floor, a side wall coupled to the floor to define the interior region between the floor and the side wall, and artwork on the side wall.
130	Device for producing printed products	US15185998	2016-06-17	US09849666B2	2017-12-26	Christian Schmale; Kai Winkelmann
The present invention pertains to a device for producing printed products comprising an arrangement of cooperating rollers that are arranged parallel to one another, wherein at least the gap width between the rollers of one roller pair is adjustable. For this purpose, one roller of the pair is pivotably mounted by means of a pivot arm, wherein a driver arranged on the pivot arm displaces a linearly movable reference element by means of a sliding block guide such that the position of this reference element corresponds to the adjusted gap width. The sliding block guide is preferably realized in such a way that the gap width and the position of the reference element are proportionally correlated.
131	DEVICE FOR PRODUCING PRINTED PRODUCTS	US15185998	2016-06-17	US20160375679A1	2016-12-29	Christian Schmale; Kai Winkelmann
The present invention pertains to a device for producing printed products comprising an arrangement of cooperating rollers that are arranged parallel to one another, wherein at least the gap width between the rollers of one roller pair is adjustable. For this purpose, one roller of the pair is pivotably mounted by means of a pivot arm, wherein a driver arranged on the pivot arm displaces a linearly movable reference element by means of a sliding block guide such that the position of this reference element corresponds to the adjusted gap width. The sliding block guide is preferably realized in such a way that the gap width and the position of the reference element are proportionally correlated.
132	Anti-Marking Coverings for Printing Presses	US13775704	2013-02-25	US20130167745A1	2013-07-04	Daniel J. Rizika; Gary Litman; Joseph Llanes
In a printing press and attached onto the transfer cylinders, an anti-marking system that uniformly supports the transport and the release of the wet printed sheet from one station to the next. The anti-marking sheet consists of a two plus layer system, the outer layer being a textured surface and the inner layer being a microcellular material that is both compressible and resilient. The outer textured layer may be treated with either conductive/anti-static layers or an ink repellent layer or both. The two plus layer system is easily attached to both transfer cylinders and tracking/skeleton wheels using any combination of fixtures from Velcro™, magnetic, metallic, and pressure sensitive double sided tape to elastic loops.
133	METHOD OF PRINTING SCANNABLE CODES ON PACKAGING	US13474318	2012-05-17	US20120291647A1	2012-11-22	William Green
A method of printing a two-dimensional scannable code onto a corrugated cardboard product package using a flexographic printing press. The method includes spacing a relief on a flexographic printing press die for the two-dimensional scannable code in a machine direction to compensate for stretching of the corrugated cardboard as it passes through the flexographic printing press.
134	THIN-WALLED HOT FOIL STAMPING CYLINDER AND METHOD OF FABRICATION	US11859620	2007-09-21	US20090078133A1	2009-03-26	Larry R. Hutchison; Derek Smith
A thin-walled hot foil stamping cylinder of predetermined diameter is formed from an extruded cylindrical tube having a wall of initially uniform cross-sectional thickness. Portions of the outer cylindrical surface of the wall are relieved to define raised, outwardly-projecting hot foil stamping indicia. End caps close opposed ends of the cylindrical tube. One of the end caps is provided with a passage therethrough for introduction of hot oil into the cylindrical interior space of the tube. A passage in at least one of the end caps that communicates with the interior of the tube permits selective draining of oil from the tube. The overall outer surface of the tube may be machined to reduce the tube to a predetermined diameter, prior to relieving the surface thereof to form the indicia. In this manner, a single extruded tube may be used to produce hot foil stamping cylinders of individual diameters corresponding to standard image repeats.
135	Printing device and method of coating a printing roll and fabricating a LCD device using the printing device	US11208235	2005-08-18	US07469639B2	2008-12-30	Hong Suk Yoo; Tae Young Oh
A printing device includes a main body and a plurality of nozzle units on a lower portion of the main body, a plurality of accommodation grooves within the main body and configured to contain a printing material, and a plurality of slits in each nozzle unit and each slit connected to an accommodation groove, so as to coat the printing material onto a printing object. Since the printing device includes a plurality of nozzle units that can individually control the amount of printing material flowing out of the printing device, the amount of printing material can be easily controlled and regulated. A method of using the printing device includes coating a printing roll with the printing material.
136	Cylinder screen printing machine with means for controlling the movement of the paper holding clips	US247175	1981-03-24	US4384526A	1983-05-24	Adriaan M. Korteweg
A paper holding mechanism on the cylinder of a cylinder screen printing machine said paper holding mechanism being formed by clips which are controlled by a stationary cam by means of which the clips can be swung in and out of the operative position as well as by a rotating cam controlling the opening and closing of the clips which cam rotates with a speed such that during a complete working stroke and return stroke said cam has made two revolutions, said rotating cam having two opposite cam surfaces by means of which the clips can be moved against the cylinder surface so that also during part of the return stroke the clips do not extend outside of the cylinder surface.
137	Letterpress printing press	US749415	1976-12-10	US4136614A	1979-01-30	Werner Wuthrich
A pressure applying element, a sheet to be printed, and an ink ribbon, an interchangeable form carrying printing indicia, and a pressure absorption plate are arranged in vertical sequence to be pressed together by the pressure applying element in the printing process whereby the pressure absorption plate absorbs the applied pressure, the ink ribbon being wound on a delivery spool and a wind-up spool mounted for rotation in a cassette housing, the cassette housing forming a guide delivering ribbon from the delivery spool about one free edge of the pressure absorption plate, transversely across the pressure absorption plate in spaced relation thereto, about the opposite free edge of the pressure absorption plate and to the wind-up spool, the cassette being removeable from and insertable in the press in a direction parallel to the spool rotational axes and the free longitudinal edges of the pressure absorption plate.
138	Printing apparatus employing roller platen and traveling carriage	US3540374D	1968-10-07	US3540374A	1970-11-17	HUDSON HAROLD L

139	Data recorder with swingable bed	US3420171D	1965-10-04	US3420171A	1969-01-07	MAUL JOHN A; ZOFCHAK JAMES T

140	Data recorder	US53228866	1966-03-07	US3416441A	1968-12-17	MAUL JOHN A; PORTER RALPH B; NANTZ JACK G

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