|Publication number||USRE41048 E1|
|Application number||US 09/315,796|
|Publication date||Dec 22, 2009|
|Filing date||May 20, 1999|
|Priority date||Aug 14, 1995|
|Also published as||US5630363, US20040079246|
|Publication number||09315796, 315796, US RE41048 E1, US RE41048E1, US-E1-RE41048, USRE41048 E1, USRE41048E1|
|Inventors||Bill L. Davis, Jesse S. Williamson|
|Original Assignee||Williamson Printing Corporation|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (110), Non-Patent Citations (27), Referenced by (3), Classifications (37), Legal Events (4)|
|External Links: USPTO, USPTO Assignment, Espacenet|
1. Field of the Invention
The present invention relates in general to printing machines and processes and in particular to a combined lithographic/flexographic in-line printing apparatus and process.
2. Description of Related Art
As used herein, the following terms have the meanings indicated:
A steel or ceramic ink metering roller. Its surface is engraved with tiny, uniform cells that carry and deposit a thin, controlled layer of ink film or coating material onto the plate. In flexo flexograhic presswork, anilox rollers transfer a controlled ink film from the rubber plate (or rubber-covered roller) to the web to print the image. Anilox rollers are also used in remoistenable glue units and to create “scratch-and-sniff” perfume ads.
The inking method commonly employed on flexographic presses. An elastomer-covered fountain roller supplies a controlled ink film from the ink pan to the engraved metering roller. After ink floods the metering roller, the fountain roller is squeezed or wiped usually with a doctor blade to remove the excess ink. The ink that remains on the metering roller is then transferred to the rubber printing plate.
A device with a pan to contain the coating material, a pan roller partially immersed in the coating material contained in the pan, and a coater roller to meter off a uniform film of the coating material and apply it to the printing plate.
An unbroken, clear film applied to a substrate in layers to protect and seal it, or to make it glossy.
A quick-drying, fluid ink that is highly volatile or an ink that can be water based and nonvolatile.
A method of rotary letterpress printing characterized by the use of flexible, rubber, or plastic plates with raised image areas and fluid, rapid-drying inks.
Dot-pattern images that have the appearance of continuous-tone images because of the limited resolving power of the human eye. This limitation accounts for an optical illusion; small halftone dots, when viewed at the normal reading distance, cannot be resolved as individual dots but blend into a continuous tone.
A lithographic plate is precoated with a light-sensitive or otherwise imageable coating, and the separation between the image and nonimage areas is maintained chemically. The image areas must be ink receptive and refuse water and the nonimage areas must be water receptive and refuse ink. The wider the difference maintained between the ink receptivity of the image areas and the water receptivity of the nonimage areas, the better the plate will be, the easier it will run on the press, and, consequently, the better the printing. There are several types of lithographic plates. The plate is an image carrier that is said to be planographic, or flat and smooth.
A printing process in which the image carrier or plate is chemically treated so that the image areas are receptive to ink.
An indirect printing method in which the inked image on a press plate is first transferred to a rubber blanket, that in turn “offsets” the inked impression to a press sheet. In offset lithography, the printing plate has been photochemically treated to produce image areas receptive to ink.
A water suspension of fibers or the suspension of pigment and adhesive used to coat papers. It may also include a suspended metallic material such as uniform-sized metal particles or nonuniform-sized metal particles.
Printing inks containing an activator that causes the polymerization of binders and solvents after exposure to a source of ultraviolet radiation.
Offset lithography is a process that is well known in the art and utilizes the planographic method. This means that the image and nonprinting areas are essentially on the same plane of a thin metal plate and the distinction between them is maintained chemically. There are two basic differences between offset lithography and other processes. First, it is based on the principle that grease and water do not mix. Second, the ink is offset from the first plate to a rubber blanket and then from the blanket to a substrate on which printing is to occur such as paper.
When the printing plate is made, the printing image is made grease receptive and water repellent and the nonprinting areas are made water receptive and ink repellent. The plate is mounted on the plate cylinder of the press which, as it rotates, comes in contact successively with rollers wet by a water or dampening solution and rollers wet by ink. The dampening solution wets the nonprinting areas of the plate and prevents the ink from wetting these areas. The ink wets the image areas which are transferred to the intermediate blanket cylinder. The inked image is transferred to the substrate as it passes between the blanket cylinder and the impression cylinder. Transferring the image from the plate to a rubber blanket before transfer to the substrate is called the offset principle.
One major advantage of the offset principle is that the soft rubber surface of the blanket creates a clear impression on a wide variety of paper surfaces and other substrate materials with both rough and smooth textures with a minimum of press preparation.
Offset lithography has equipment for short, medium and long runs. Both sheetfed and web presses are used. Sheetfed lithography is used for printing advertising, books, catalogs, greeting cards, posters, labels, packaging, folding boxes, decalcomanias, coupons, trading stamps, and art reproductions. Many sheetfed presses can perfect (print both sides of the paper) in one pass through the press. Web offset is used for printing business forms, newspapers, preprinted newspaper inserts, advertising literature, catalogs, long-run books, encyclopedias, and magazines.
In offset lithography, the rubber blanket surface conforms to irregular printing surfaces, resulting in the need for less pressure and preparation. It has improved print quality of text and halftones on rough surfaced papers. Further, the substrate does not contact the printing plate thereby increasing plate life and reducing abrasive wear. Also, the image on the plate is right for reading rather than reverse reading. Finally, less ink is required for equal coverage, drying is speeded, and smudging and setoff are reduced. Setoff is a condition that results when wet ink on the surface of the press sheets transfers or sticks to the backs of other sheets in the delivery pile.
Thus, in summary, conventional lithographic offset printing machines or presses comprise one or more image printing stations each having a printing roller or a plate cylinder to which is fastened a thin hydrophilic, oleophobic printing plate having image areas which are oleophilic and hydrophobic and background areas which are oleophobic and hydrophilic. The plate surface is continuously wetted with an aqueous damping solution which adheres only to the background areas and inked with oleo-resinous inks which adhere only to the image areas of the plate as wet ink. The ink is offset transferred to the rubber surface of a contacting blanket cylinder and then retransferred to the receptive surface of a copy web or a succession of copy sheets, such as paper, with an impression cylinder and the ink air dries by oxidation and curing after passing through a drying station.
It is also known to provide the printing machine with a downstream coating station having a blanket roller associated with a coating application unit for the application of an overall protective coating over the entire printed area of the copy sheets or web.
It is known to apply pattern coatings of protective composition by means of blanket rolls by cutting into the rubber surface of the blanket to create raised or relief surface areas which selectively receive the coating composition from the application roll for retransfer to selected areas of the copy sheets in form of pattern coatings. See U.S. Pat. No. 4,796,556.
Lithographic inks are formulated to print from planographic surfaces which use the principle that grease and water do not mix. Lithographic inks are generally very strong in color value to compensate for the lesser amount applied. They are among the strongest of all inks. The average amount of ink transferred to the paper is about half that of letter press because of the double split of the ink film between the plate cylinder and the blanket cylinder and the blanket cylinder and the substrate on the impression cylinder.
Problems occur in the offset lithographic process when attempting to print certain colors such as white and in particular white on other colors such as yellow because the color white will be faint and not sufficiently strong. In such cases, the sheet or paper or substrate requiring the white ink usually has to be run through the same printer several times before the white becomes sufficiently strong.
Further, such colors are not generally printable in an offset lithographic printing process. This means that the sheets or substrate must be removed and transferred to a second type of machine using the flexographic process to apply greater amounts of ink in successive printing runs to achieve the desired print quality.
A like situation occurs with the printing of slurry-type materials such as “scratch-and-sniff” materials which is a liquid vehicle with a slurry containing an encapsulated essence. Such liquid vehicles, because of the nature of the slurry, must be printed with a flexographic process because the anilox roller can supply greater amounts of ink to the flexo flexographic plate on the plate cylinder.
Again, when a liquid vehicle with a slurry having suspended material therein such as metallic particles is to be printed, an offset lithographic process cannot be used without the mixing of the aqueous solution with metallic inks which cause a dulling of the image. Further, the above-mentioned double split of the ink film adds to the dulling of the image. Therefore, to achieve desired results, the printing must take place with a flexographic printing machine.
Thus, liquid opaque coatings or inks such as white colored ink, scratch-and-sniff vehicles, and slurries with metal particles do not achieve desired results when printed in an offset lithographic process and must be transferred from the offset lithographic in-line machines to a separate machine for printing in a separate run.
Such requirements not only hinder the speed of the printing process but also require additional time and thus increase the cost of the printing.
It would be advantageous to have a continuous in-line process in which not only offset lithographic printing could take place but in which, in the same in-line process, liquid printing vehicles including opaque coatings, such as white ink, and slurries containing encapsulated essences or metallic particles could also be printed and dried not only before the printing of the offset lithographic inks but also in which, after the liquid opaque coatings have been applied, an overcoating could be applied to the printed liquid vehicle image using the lithographic process in the continuous in-line process.
The present invention provides for a continuous in-line printing process having a plurality of successive printing stations for printing color images on a substrate. At least one of the stations prints a liquid vehicle image on a substrate with an opaque coating using the flexographic process and at least one of the successive printing stations printing a second color image over the liquid vehicle image on the printed substrate using the lithographic process in the continuous in-line process.
In the novel inventive system, a single in-line continuous printing process is used. One of the stations may print a liquid vehicle image on a substrate that contains a slurry with an encapsulated essence therein utilizing the flexographic process. Another one of the stations may apply an overcoating over the liquid vehicle image on the printed substrate using a lithographic process. Still another of the stations may print an aqueous-based vehicle image including a suspended metallic material therein using the flexographic process to form a metallic coating and thereafter at least one of the successive printing stations prints a color image over the aqueous-based vehicle image using the lithographic offset process in the continuous in-line process.
Whenever a station is used for flexographic printing, a flexographic plate image is placed on the blanket cylinder for receiving the liquid vehicle and transferring the liquid vehicle to the receptive surface of the copy web or succession of copy sheets on the impression cylinder for printing. An anilox roller is associated with the flexographic plate for supplying the liquid vehicle which may be an aqueous-based vehicle.
In addition, in such case, a high-velocity air dryer is associated with the impression cylinder of one or more of the printing stations where the printing on the substrate is occurring to assist in drying the ink or liquid vehicle printed on the substrate while it is on or near the impression cylinder, before the substrate arrives at the next successive station for additional printing, or before printing occurs at the next successive station.
Thus, if a liquid vehicle such as white ink is to be printed, it is printed with a flexographic process which deposits a greater amount of ink on the substrate, the ink is dried with a high-velocity air dryer while the substrate is on or near the impression cylinder and prior to the substrate being received by the next successive station. If desired, at the next successive station the printing of the white liquid vehicle may again take place thus ensuring the desired intensity of whiteness on the substrate. Subsequently, at the next succeeding station a printing may take place on top of the white printing and such printing may continue at the remaining successive stations.
Thus, it is an object of the present invention to provide a plurality of successive printing stations for printing color images on a substrate in a continuous in-line process and in which some of the stations print using the flexographic process and other of the stations print utilizing the offset lithographic process.
It is also an object of the present invention to print an aqueous-based vehicle image including a suspended metallic material therein using the flexographic process at one printing station and at least one successive printing station printing a color image over the aqueous-based vehicle image using a lithographic process in a continuous in-line process or placing an overcoating over the aqueous-based vehicle image using the flexographic process and then printing at successive stations using the lithographic process.
It is yet another object of the present invention to provide a continuous in-line printing process in which one of the stations prints a liquid vehicle image on the substrate with a slurry containing an encapsulated essence using the flexographic process and at least one of the successive printing stations applies an overcoating over the liquid vehicle image on the printed substrate using the offset lithographic process in a continuous in-line process.
These and other features of the present invention will be more fully disclosed when taken in conjunction with the following DETAILED DESCRIPTION OF THE PRESENT INVENTION in which like numerals represent like elements and in which:
As disclosed in U.S. Pat. No. 4,796,556, offset lithographic printing machines generally have a plurality of in-line liquid application stations at least one of which is an ink image printing station for printing lithographic ink images on to suitable receptive copy sheets. The final downstream liquid application station is a coating application station for printing a protective and/or aesthetic coating over selected portions of or over the entire ink-image printed surface of the copy sheets and can also be used to print metallic coatings or slurry. As stated in U.S. Pat. No. 4,796,556, two liquid application stations are shown, the latter including a coating apparatus and the first station being a conventional offset image printing station. The coating application printing station is one that can be modified to convert it either permanently or intermittently to a coating station from an offset lithographic station.
Such a station is illustrated in
As stated previously, the offset lithographic machine of
Thus, as shown in
Further, the modified flexographic printing station 30 shown in
The present invention is especially useful when a liquid opaque coating must be printed such as a whole color ink. In that case, it may be desirable to have both stations 56 and 58 modified as shown in FIG. 3 and as illustrated in detail in FIG. 2. In such case, the anilox roller 46 at each station delivers the white ink in the same pattern to the flexographic plate 41 on the blanket cylinder 40 for transfer to the substrate on the impression cylinder 42. As the substrate passes the high-velocity drying station 50, the ink is dried and the second station may again print the same white pattern on the substrate to increase the quality of the white ink appearance after is applied to the substrate.
Thus, the station or stations that are converted to flexographic printing stations may have an ink-providing means 46 at the printing station for applying a flexographic ink to the blanket cylinder to form the image. A substrate receives the flexographic ink image transfer from the blanket cylinder and at least one subsequent printing station in the in-line process receives the image-printed substrate and prints an additional coated ink image on the substrate on top of the flexographic ink image using offset lithography. The additional colored ink images that can be printed on top of the flexographic ink images can be conventional lithographic inks or waterless inks.
Further, the colored ink images may be printed with halftone screening processes. The flexographic ink image and the colored ink images may also be printed in solids and/or halftone printing plates in sequence and in registry in successive printing stations to produce a multicolored image on the substrate. Further, the printing apparatus may include a sheetfed press or a web press.
In the present invention, at least one of the flexographic printing stations prints an image with liquid vehicle slurry containing an encapsulated essence. In another embodiment, at least one of the printing stations prints an image with a water-based liquid vehicle containing suspended particles that are either uniform or nonuniform in size. The suspended particles may be metallic particles up to substantially 16 microns in diameter.
The present invention may also use the metallic color printing process as disclosed in commonly assigned U.S. Pat. No. 5,370,976 incorporated herein by reference in its entirety.
In one aspect, the novelty of the present invention is to create a flexographic printing station that can be used at one of a plurality of printing stations in a continuous in-line process and in which, at a subsequent printing station, a lithographic process may be used to print over the liquid vehicle printed by the flexographic station.
Thus, there has been disclosed an apparatus for a combined lithographic/flexographic printing process that includes a plurality of successive printing stations for printing color images on a substrate in a continuous in-line process and wherein one of the stations prints a first color image using the flexographic process and at least one of the successive printing stations prints a second color image over the first color image using the lithographic process in the continuous in-line process.
While the invention has been described in connection with a preferred embodiment, it is not intended to limit the scope of the invention to the particular form set forth, but, on the contrary, it is intended to cover such alternatives, modifications, and equivalents as may be included within the spirit and scope of the invention as defined by the appended claims.
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|DE4213024A1||Apr 21, 1992||Oct 28, 1993||Heidelberger Druckmasch Ag||Multicolour sheet printing machine - has separate trains of printing and lacquering rollers for each side|
|DE4311834A1||Apr 8, 1993||Oct 13, 1994||Roland Man Druckmasch||Einrichtung zum Beschichten von Bedruckstoffen in Druckmaschinen|
|DE9305552U1||Apr 16, 1993||Jun 3, 1993||Man Roland Druckmaschinen Ag, 6050 Offenbach, De||Title not available|
|EP0270054A2||Nov 30, 1987||Jun 8, 1988||Komori Corporation||Slip sheet insertion-delivery apparatus for sheet-fed printing press|
|EP0293586A2||Apr 20, 1988||Dec 7, 1988||M.A.N.-ROLAND Druckmaschinen Aktiengesellschaft||Divided inking unit for flexographic printing machine|
|EP0741025A2 *||May 3, 1996||Nov 6, 1996||DeMoore, Howard W.||Retractable inking/coating apparatus having ferris movement between printing units|
|1||"Busch Zeigt Innovation für den Offset in Dörtmund", Offsetpraxis, Mar. 1993, pp. 12-15 (translated).|
|2||"Lackier-Aggregat für Speedmaster-Maschinen", 4560 Papier & Kunstoff Vernbei 26 (1991), Jne, No. 6.|
|3||"Liquid Application System (LAS(R))" Dalgren(R) Dampener Division, (C)Dahlgren(R) Mfg. Co. 1981.|
|4||"Pantone(R) Metallic Integrated Process Color Selector, Pantone Metallic-Buntdruck-Farbskala", The PANTONE Library of Color, (C)Pantone, Inc. 1990, pp. MIPP VI-VIII.|
|5||"The Versatile Two in One-Dahlgren Coater Dampener", printed by Intenso Offset bv, Amsterdam, with Dahlgren Dampening system, 1978.|
|6||Brochure "IBC Blanket Coating System" (1984), International Blending Corporation, Minneapolis, MN.|
|7||Brochure "IVT Colordry Blanket Coater" (early 1990's), IVT Colordry, Inc., Fairfield, Connecticut.|
|8||Brochure, "Dahlgren Blanket Coater", Product Data Bulletin (Approx. 1990), Dahlgren Mfg. Co., Dallas, Tx.|
|9||Brochure, "Dahlgren Coater Dampener" (1978), Dahlgren Mfg. Co., Dallas, Tx.|
|10||Brochure, "Dahlgren Coater Printer" (1986), Dahlgren Mfg. Co., Dallas, Tx.|
|11||Brochure, "Dahlgren Groupe De Vernissage Blanchet" (1987), Dahlgren Mfg. Co., Dallas, Tx.|
|12||Brochure, "Dahlgren Liquid Application System (LAS*)" (1981) Dahlgren Mfg. Co., Dallas, Tx.|
|13||Brochure, "Dahlgren, the Greatest Performance In Printing" (early 1990's), Dahlgren Mfg. Co., Dallas, Tx.|
|14||Brochure, "HVP Show Informer" (Oct. 1995), Dahlgren Mfg. Co., Dallas, Tx.|
|15||Brochure, "Oxy-Dry Blanket Coater" (1987), Oxy-Dry Corporation, Elk Grove Village, Illinois.|
|16||Brochure, "Super Blue PBC Plate/Blanketed PC Plate Coater" (c. 1994), Printing Research, Inc., Dallas, Tx.|
|17||Brochure, Dahlgren Single Roll Coater (1992), Dahlgren Mfg. Co., Dallas, Tx.|
|18||Brochure, Dahlgren's new Lithoplus Coating System, (1990), Dahlgren Mfg. Co., Dallas, Tx.|
|19||Brochure, Epic 3 Roll Coaters, Epic Products Int'l. Corp. (1991), Arlington, Tx.|
|20||Brochure, LF 200 Flexo Press, RDP Marathan, Inc., Quebeck Canada, (English) Printed Aug. 19, 1994.|
|21||Brochure, Product Data Dahlgren Blanket Coater (Approx. 1988+), Dahlgren Mfg. Co., Dallas, Tx.|
|22||Dahlgren LithoPlus Coater, Sep./Oct. 1995.|
|23||Druckindustrie (Magazine for the Graphic Industry of Switzerland, Zürich), 9001 St. Gallen, No. 5, Mar. 11, 1993, "Nach Golde drängt am Golde hängt doch alles", Title page, Masthead, pp. 22-23 (translated).|
|24||Erwin Schulz "Flexodruck von A bisz", at p. 160, Reference Book and Practical Guide, Polygraph Publishers (Frankfurt) (translated).|
|25||Magazine, "Flexodruck", Feb. 1993, pp. 42-43, "Goldlackdruck löst Metalilronzierung ab" (translated).|
|26||Pictures of Rapidac Blanket Coater (early 1990's or late 1980's) Rapidac Mfg. Co.|
|27||Retraction System Designs by James E. Taylor and D.R. Selby, 1984-1985.|
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US9180483 *||Aug 27, 2013||Nov 10, 2015||Korea Institute Of Machinery & Materials||Integrated coating system|
|US20100282102 *||May 10, 2010||Nov 11, 2010||Mehdizadeh Sharmin||Label printing cylinder and process|
|US20140076233 *||Aug 27, 2013||Mar 20, 2014||Korea Institute Of Machinery & Materials||Integrated coating system|
|U.S. Classification||101/141, 101/174, 101/424.1, 101/DIG.29, 101/424.2, 101/142, 101/135, 101/138, 101/183, 101/416.1, 101/479, 101/143, 101/DIG.49, 101/483, 101/137, 101/136, 101/181, 101/491, 101/450.1|
|International Classification||B41M1/18, B41M7/00, B41M1/04, B41F11/00, B41F23/00, B41M1/06|
|Cooperative Classification||Y10S101/49, B41P2200/12, B41M1/18, B41M1/04, B41M1/06, B41M7/0027, B41F11/00|
|European Classification||B41M7/00, B41M1/18, B41M1/04, B41M1/06, B41F11/00|
|Jun 8, 2010||CC||Certificate of correction|
|Feb 22, 2012||AS||Assignment|
Owner name: QUAD WILLIAMSON, LLC, WISCONSIN
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:WILLIAMSON PRINTING CORPORATION;REEL/FRAME:027745/0549
Effective date: 20120201
|Mar 15, 2012||AS||Assignment|
Owner name: QUAD/GRAPHICS, INC., WISCONSIN
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:QUAD WILLIAMSON, LLC;REEL/FRAME:027867/0130
Effective date: 20120224
|May 23, 2014||AS||Assignment|
Owner name: JPMORGAN CHASE BANK, N.A., ILLINOIS
Free format text: SECURITY INTEREST;ASSIGNOR:QUAD/GRAPHICS, INC.;REEL/FRAME:033012/0762
Effective date: 20140428