Search Images Maps Play YouTube News Gmail Drive More »
Sign in
Screen reader users: click this link for accessible mode. Accessible mode has the same essential features but works better with your reader.

Patents

  1. Advanced Patent Search
Publication numberUS3785287 A
Publication typeGrant
Publication dateJan 15, 1974
Filing dateMay 3, 1972
Priority dateJun 17, 1968
Publication numberUS 3785287 A, US 3785287A, US-A-3785287, US3785287 A, US3785287A
InventorsDahlgren H
Original AssigneeDahlgren H
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Sheet interrupter
US 3785287 A
Abstract
Sheet interrupter means for a sheet-fed printing press wherein upper and lower printing cylinders are supported by eccentric bearings permitting simultaneous actuation of the upper and lower cylinders between printing and "off-impression" positions. A throw-off cylinder actuates a series of links to rotate the eccentric bearings.
Images(18)
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)

U I Unlted States Patent 11 1 1111 3,785,287 Dahlgren Jan. 15, 1974 SHEET INTERRUPTER 3,527,165 9/1970 Harless .1 101 143 2,911,907 11/1959 Davidson 101/137 [76] Invent Dahlgren, 726 Regal 3,477,367 11/1969 Richards 101/137 Dallas, 75247 3,473,468 10/1969 Vandeman et a1 101/137 3, Huck 1211 Appl' 249944 Primary Examiner-Robert E. Pulfrey Rd d U S A li ti D Assistant ExaminerE. M. Coven [63] Continuation-impart of Ser. No. 737,521, June 17, Atmmey Howard Moore et 1968, Pat. No. 3,664,261.

. [57] ABSTRACT [52] US. Cl 101/247, 101/137, 101/184 [51] Int. Cl B411 13/24 Sheet mtermpter means for a Sheet'fed prmtmg press 58 Field of Search 101/137 218 247 wherein "PPer and Priming cylinders are 101 /229 ported by eccentricbearings permitting simultaneous actuation of the upper and lower cylinders between [56], References Cited printing and off-impression positions. A throw-off 1 cylinder actuates a series of links to rotate the eccen- UNITED STATES PATENTS trig bearings. 2,753,798 7/1956 Babst 101/232 3,664,261 5/l972 5 Claims, 34 Drawing Figures Dahlgren 101/177 PATENTEU JAN 1 5 I974 SHEET UHF 18 PMENIEUJM 15 m4 SHIN 02 (1F 18 1 mm a Wkll.

amaze? PAIENIEUJM 15 m4 sum 03UF 18 PATENTEDJAI 15 B74 3.785.287 SHEET OSUF 18 JZHIM PATENTEDJAN 1 5 m4 785.287

sum as or 18 web leek 209 @OIZZH PATENTEUJAN 15 m4 SHEET OSUF 18 PATENTEDJAHSISM 3.785 287 saw 090? 1a i l "I M MN PATENTED JAN 15 I974 sum 12 or 18 PATENTED AN 1 5 I974 SHEEI 1% 0F 18 JAM-155374 3.785287 PMENTED sum 170F 18 PATENTEDJAI 15 m4 SHEET 180F 18 SHEET INTERRUPTER CROSS REFERENCE TO RELATED APPLICATION This application is a continuation-in-part of my copending US. Pat. application Ser. No. 737,521, filed June 17, 1968, now US. Pat. No. 3,664,261 entitled STRAIGHT FEED PRESS.

BACKGROUND OF THE INVENTION No significant advances have been made presenting new concepts in sheet-fed printing systems for decades. Printing systems designed for the sheet-fed printer are basically the same and allow printing on one side of the sheet at a time, requiring sheets to be turned over and rerouted through the press for single or multi-color perfecting. Sheets are progressively and meticulously transferred in serpentine fashion about transfer and impression cylinders and hopefully registered from one cylinder to another and from one printing unit to another until finally they emerge as a printed product; Printing units must be synchronized for color register through numerous drive and idler gears and consequently presses are extremely complex, massive units which are very expensive to manufacture because of numerous transfer and printing cylinders and mechanisms related thereto.

One or two color sheet-fed perfectors have been developed heretofore. However, these machines were specifically designed for specific jobs, such as mass production of paperback books, and are totally unsuitable for high speed production of four-color process printing on both sides of the paper.

Heretofore no commercially successful sheet-fed press had the capability of printing on two sides of a sheet in as many as four colors by passing the paper through the press one time.

It is the common and accepted practice in the printing industry to run a sheet to be printed through the sheet-fed press a multiplicity of times to attain multicolor printing on two sides of a sheet. After each pass of the sheet through the press, the plates must be changed and the press made ready for the next pass to apply other colors or to print on the back of the sheet. It is readily apparent to those skilled in the printing art that a considerable amount of time is spent making sheet-fed presses ready to print and in attaining proper registry of the numerous components of the press.

In a typical four-color one-side printing press a sheet delivered from the feeder is caught by the gripper bars of a first transfer cylinder. The sheet is folded around the transfer cylinder and carried to the grippers on the first impression cylinder where the grippers of the transfer cylinder release the paper and it is caught by the grippers of the impression cylinder. The grippers on the impression cylinder rotate the paper into contact with the blanket cylinder where printing is accomplished in one color on one side of the sheet. When the grippers on the impression cylinder release the sheet, grippers on a second transfer cylinder grasp the sheet, causing the printed surface to be in contact with the transfer cylinder while it is rotated to the grippers of a second impression cylinder. The grippers of the second transfer cylinder release the sheet as it is caught by the grippers of the second impression cylinder which rotates the sheet into contact with a second blanket where a second color is applied to the same side of the sheet. Grippers on a third transfer roller catch the sheet as it is released by the grippers of the second impression cylinder and the printed surface is again brought into contact with a transfer cylinder while it is being delivered to the grippers of a third impression cylinder. This process is continued until the sheet passes to delivery. When one side of the sheet is completed, the press is replated, the sheets are turned and re-fed through the press to print the other side of the sheet.

Virtually all sheet-fed printing presses heretofore developed have the characteristics of feeding the sheet serpentine fashion through the press while the grippers associated with each cylinder catch the sheet as it is being released by the grippers of the previous cylinder.

One of the major problems encountered by the printing industry lies in synchronizing the various cylinders whereby the sheet will be grasped and released at the proper moment for maintaining registry between the cylinders of successive towers so that colors do not' overlap or separate.

Chains have been used in the past with limited success to transfer sheets from one printing station to another. However, grippers supported by the chain were positively indexed to the printing station cylinders in an attempt to regain register which was periodically lost between printing stations.

A chain has inherent limitations as a smooth transfer media because chordal motion of the links limit smooth flow; linear deformation of the chain results from numerous pivot joints. Lubrication requirements at joints, to help prevent wear, noise, shock and vibration, present maintenance problems.

The gripper and chain transfer media could not, by itself, register the sheet between printing stations, even with the chain travelling precisely at cylinder speeds. As a compromise, grippers had to be loosely supported on the chain, moved from normal position, and indexed to printing station cylinders prior to actual sheet transfer at the cylinder. As soon as sheet transfer was accomplished and the gripper became separated from index with the cylinder, the gripper jumped or jerked back into its normal relation with the chain.

In the transfer system employed and disclosed herein, there is no contact between tape directed gripper bars and the printing cylinders thereby eliminating shock, vibration, wear, noise, mis-register and other apparent problems accompanied by chain supported grippers being indexed to cylinders. The printing cylinders are entirely independent of the sheet transfer mechanism and vice versa except for speed synchronization of cylinder surface speed with that of the tape.

Another problem has been the offsetting of wet ink on transfer cylinders from the freshly printed surface on the paper and consequently back on to the next sheet that is passed through the press. Heretofore, presses with a multiplicity of towers for applying more than one color of ink to the sheet were driven by a common drive through a complex gear train or through long shafts which have inherent distortion thereby increasing the problem of synchronizing components of the press thereby making precision registry more difficult.

Typical four-color one-side printing presses have an average of about 20 cylinders including the plate cylinders, blanket cylinders, impression cylinders, transfer cylinders and skeleton wheels.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2366335 *May 24, 1941Jan 2, 1945Hoe & Co RPrinting machine
US2753798 *Oct 23, 1952Jul 10, 1956Rotaprint AgFlyer sheet deliverer for offset machines
US2911907 *Oct 28, 1955Nov 10, 1959Ward Davidson WilliamMulti-purpose rotary printing press
US3473468 *Mar 23, 1966Oct 21, 1969Harris Intertype CorpMultiple couple printing press with controls for sequential and simultaneous cylinder interruption
US3477367 *Jul 14, 1967Nov 11, 1969Harris Intertype CorpPrinting press
US3527165 *Jan 3, 1967Sep 8, 1970Harris Intertype CorpCylinder throw mechanism for printing presses
US3664261 *Jun 17, 1968May 23, 1972Dahlgren Harold PStraight feed press
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US4290361 *Jan 11, 1980Sep 22, 1981American Newspaper Publishers AssociationOn the fly adjusting mechanism for rotary printing presses
US4327641 *Oct 21, 1977May 4, 1982Am International, Inc.Dual-head duplicator with alternate simplexing capability
US4409894 *Mar 1, 1982Oct 18, 1983M.A.N.-Roland Druckmaschinen AktiengesellschaftRotary offset sheet selective prime, verso or multicolor printing machine and method
US4414896 *Mar 1, 1982Nov 15, 1983M.A.N.-Roland Druckmaschinen AktiengesellschaftSheet-fed rotary prime and verso offset printing machine & method
US4620480 *Nov 24, 1980Nov 4, 1986Publishers Equipment CorporationConversion of letterpress to offset printing
US4677911 *Jun 21, 1985Jul 7, 1987Publishers Equipment CorporationConversion of letterpress to offset printing
US4875936 *Jul 1, 1987Oct 24, 1989Publishers Equipment CorporationConversion of letterpress to offset printing
US4932321 *Aug 30, 1989Jun 12, 1990Publishers Equipment CorporationConversion of letterpress to offset printing
US4960049 *Jul 12, 1989Oct 2, 1990Ryobi Ltd.Offset printing machine having two printing units
US5125336 *Jun 24, 1991Jun 30, 1992De La Rue Giori S.A.Device for transferring individual sheets to the impression cylinder of a sheet-fed rotary printing machine
US5289768 *Mar 15, 1993Mar 1, 1994Keller James JGripper bar conveyor for multiple color offset rotary printing press
US5477780 *Mar 1, 1994Dec 26, 1995Keller; James J.Horizontal sheet transfer multiple color offset rotary printing press with horizontal slide access
US5590598 *Dec 22, 1995Jan 7, 1997Keller; James J.Horizontal sheet transfer multiple color offset rotary printing press with horizontal slide access
US5794531 *Jan 7, 1997Aug 18, 1998Keller; James J.Multiple color offset rotary printing press with horizontal slide access
US5915300 *Jun 13, 1997Jun 29, 1999Heidelberger Druckmaschinen AktiengesellschaftPrinting machine with a sheet-transport belt
US6923118 *Jul 23, 2003Aug 2, 2005Man Roland Druckmaschinen AgDrive for impression cylinders of a rotary press
US7127991 *Aug 4, 2004Oct 31, 2006Man Roland Druckmaschinen AgMethod and printing unit for influencing lateral web spreading in particular in rotary presses
US7152527 *Jul 22, 2002Dec 26, 2006Mitsubishi Heavy Industries, Ltd.Module for sheet-fed perfecting multi-color printing press, printing unit and sheet-fed perfecting multi-color printing press, and manufacturing methods therefor
US7240614Sep 18, 2006Jul 10, 2007Man Roland Druckmaschinen AgMethod for influencing lateral web spreading in a printing unit in a rotary printing press
US7270057 *Jan 28, 2004Sep 18, 2007Rdp Marathon Inc.Rolling element adjustment system
US7823506 *Dec 22, 2006Nov 2, 2010Goss International Montataire SaPrinting unit having different extents of movement of the blanket cylinders in order to reach a throw-off configuration and corresponding printing press
US7841275 *Dec 22, 2006Nov 30, 2010Goss International Montataire SaPrinting unit having an idle throw-off configuration and a blanket changing throw-off configuration and corresponding printing press
US7845275 *Dec 22, 2006Dec 7, 2010Goss International Montataire SaPrinting unit having a throw-off configuration which allows the risks of damage to the cylinders caused by winding the web of paper to be limited and corresponding printing press
US7918161 *Dec 22, 2006Apr 5, 2011Goss International Montataire SaPrinting unit having a tubular blanket-changing throw-off configuration allowing the passage of a web of paper and corresponding printing press
US8141489Jun 23, 2008Mar 27, 2012Goss International Americas, Inc.Variable cutoff printing unit and method of printing
US8424454Mar 4, 2011Apr 23, 2013Goss International Montataire SaPrinting unit having a tubular blanket-changing throw-off configuration allowing the passage of a web of paper and corresponding printing press
CN101687413BJun 25, 2008Dec 28, 2011高斯国际美洲公司可变裁切的印刷单元和印刷方法
EP2160292A1 *Jun 25, 2008Mar 10, 2010Goss International Americas, Inc.Variable cutoff printing unit and method of printing
Classifications
U.S. Classification101/247, 101/137, 101/184
International ClassificationB41F13/24, B41F7/00, B41F13/36, B41F21/08, B41F21/00, B41F31/30, B41F7/12, B41F31/00
Cooperative ClassificationB41F7/12, B41F31/301, B41F21/08, B41F13/36, B41P2213/734
European ClassificationB41F13/36, B41F7/12, B41F21/08, B41F31/30B