This application claims the priority, under 35 U.S.C. §119, of German application DE 10 2006 033 105.2, filed Jul. 18, 2006; the prior application is herewith incorporated by reference in its entirety.
The invention lies in the printing technology field. More specifically, the invention relates to a sheet-fed offset printing press for double-sided multicolor printing, preferably on sheets of paper. The press comprises a first row of printing units arranged directly in line to print on the first side of the sheet, followed by a reversing device, which is in turn followed by a second row of printing units arranged in line to print on the other side of the sheet. These are followed, finally, by one or more varnishing units. In-line printing presses of this type, which include one or more varnishing units provided at the end of the press for varnishing the sheet side that was printed last, are known and are available from a number of manufacturers.
Commonly assigned German published patent application DE 42 13 024 A1 proposes varnishing both sides of the printed sheets in one machine run, i.e. in line, in presses of the type indicated above. For this purpose, a varnishing unit and a dryer are provided in the printing press upstream of the reversing device. Thus the first side of the sheet is varnished and dried before the sheet is reversed and printed on the second side.
In this press, the first side of the sheet is varnished before the sheet passes the printing nips of the perfecting units. Consequently, the shine effect created on the sheet surface as a result of the varnishing operation is reduced: the more perfecting units or printing nips are present, the less shine remains. In addition, problems occur in particular when the varnish applied to the first side of the sheet has not dried completely in the drying device. In this case, the surfaces of the impression cylinders in the perfecting unit, which are optimized for contact with oil-based offset printing units, may get soiled by residual varnish, mixed with paper dust etc., which means that they will have to be cleaned in a time-consuming process.
In another type of printing press, described in U.S. Pat. No. 6,338,299 B1 and European patent EP 0 976 555, for example, the sheet is printed with offset printing inks alternatingly by printing units that are arranged above and below the path of paper travel. Subsequently, the sheet is varnished on both sides by varnishing units arranged above and below the path of paper travel, respectively. Apart from the fact that this type of printing press is not very common because access to the printing units below the path of paper travel is difficult, these presses have the following problem: when the last color is printed onto the second side, the sheet has already passed all printing nips. In comparison with a press that prints first on one side and then on the other side completely, the printed image is widened to a greater extent (fan-out effect) because the sheet passes through twice the number of printing nips, and it is impossible to compensate for this effect by register adjustment.
In addition to in-line varnishing units, there are separate, stand-alone varnishing devices known in the art to varnish both sides of printed sheets. A disadvantage of stand-alone varnishing devices is, however, that the sheets must first be formed into a pile and then be fed to the varnishing device individually. When they are fed to the varnishing device, the sheets, coming from the delivery pile of the printing press, have already been powdered, a fact which may be detrimental to the shine effect created by the varnishing operation and may otherwise cause difficulties. In addition, stand-alone varnishing devices require more space and more equipment than an in-line solution because two feeders and two deliveries are necessary.
German published patent application DE 10 2004 058 596 A1 describes a device for two-sided finishing of printed products. In the device, the sheets are varnished by a coating unit arranged above the path of sheet travel and a coating unit arranged below the path of sheet travel (
It is accordingly an object of the invention to provide a sheet-fed offset printing press which overcomes the above-mentioned disadvantages of the heretofore-known devices and methods of this general type and which enables the production of high-quality sheets that are printed and varnished on both sides in an in-line process.
With the foregoing and other objects in view there is provided, in accordance with the invention, a sheet-fed offset printing press for double-sided multi-color printing, comprising:
a first row of in-line printing units for printing on a first side of a sheet;
a downstream reversing device following the first row of in-line printing units in a sheet travel direction;
a second row of in-line printing units for printing a second side of the sheet disposed downstream of the reversing device, the second row of in-line printing units including a last printing unit;
downstream varnishing units including at least two varnishing units of a common type following the last printing unit and configured to varnish the first side and the second side of the sheet on passing by, wherein one of the varnishing units is disposed below a sheet travel path followed by the sheet; and
at least two IR or hot-air dryers, said dryers including at least one dryer disposed below the sheet travel path.
Preferably, the varnishing units include varnishing blanket cylinders disposed to varnish the first side and the second side of the passing sheet, and wherein one of the varnishing blanket cylinders of one of the varnishing units is disposed below the sheet travel path.
In other words, the objects of the invention are achieved with a sheet-fed rotary printing press wherein the sheets are initially printed on one side, turned, and printed on the other side before they are varnished. The varnishing units are of the same type and are arranged above and below the path of sheet travel. In this manner, a sheet-fed printing press is created that can produce sheets that are varnished on both sides in an in-line process without the difficulties explained in the introduction hereto. A greater degree of glossiness can thus be achieved on both sides of the sheet, and the cylinder surfaces and cylinder jackets in the perfecting unit can be optimized for contact with oil-based ink without the necessity of special cleaning operations.
In accordance with an added feature of the invention, the press further comprises two sheet transport cylinders provided downstream of the last printing unit in the path of sheet travel, each of the two sheet transport cylinders associated with its own varnishing unit, a respective one of the varnishing blanket cylinders of each varnishing unit being arranged above and below the path of sheet travel, respectively.
In accordance with an added feature of the invention, at least one of the varnishing units associated with the two transport cylinders is constructed as a removable inserting unit.
In accordance with an added feature of the invention, the connecting line of the axes of two successive transport drums of the printing press is inclined in an angle of more than 30° relative to the horizontal.
In accordance with an added feature of the invention, further transport cylinders follow the transport cylinders associated with the varnishing units and wherein a dryer is associated with two of the further transport cylinders.
In accordance with an added feature of the invention, the two sheet transport cylinders associated with the varnishing units immediately follow each other.
In accordance with an added feature of the invention, a dryer unit is arranged between the two transport cylinders of the two varnishing units.
In accordance with an added feature of the invention, precisely two sheet transport drums or transfer devices are arranged between the impression cylinders of the successive varnishing units. Preferably, a dryer is assigned to at least one of the two sheet transport drums. It is also possible for one of the two sheet transport drums to be a transfer device.
In accordance with an added feature of the invention, at least two of the varnishing units are arranged in such a way that their varnishing blanket cylinders form a nip through which the sheets to be varnished on both sides are guided. In a preferred embodiment, one of the two varnishing blanket cylinders has grippers for transporting the sheets to be varnished. It is preferred that the sheets to be varnished on both sides are moved/conveyed through the nip between the two varnishing blanket cylinders by gripper bars. Preferably, the grippers on the gripper bars hold the sheets on the two side edges thereof.
In accordance with an added feature of the invention, the grippers on the gripper bars hold the sheets at the leading edges thereof and convey them through the nip between the two varnishing blanket cylinders, one or both of the varnishing blanket cylinders having an axial gap into which the grippers or gripper bars dip.
In accordance with an added feature of the invention, pairs of gripper bars are provided that include grippers for holding the sheets conveyed through the nip between the varnishing blanket cylinders at the leading and trailing edges thereof.
In accordance with an added feature of the invention, the gripper bars are part of a drum the diameter of which is a multiple of the diameter of the form cylinders of the printing units and which is open in the region of the sheet surface and includes a varnishing unit on the inside of the drum. In an embodiment of the invention, a waste sheet container associated with the multiple-diameter transport drum. It is further possible to have a dryer device associated with the multiple-diameter transport drum. In one embodiment, a dryer device that is associated with the multiple-diameter transport drum is arranged partly on the inside and partly on the outside of the drum.
In accordance with an added feature of the invention, the varnishing blankets received on the varnishing cylinders are tubular jackets or are applied to tubular jackets. In a preferred embodiment, the spacing between the two varnishing blanket cylinders is adjustable so as to accommodate jackets of different thickness. It is possible to provide the jackets as gapless sleeves or as gapped sleeves.
In accordance with an added feature of the invention, the press comprises IR or hot-air dryer devices disposed downstream of the last varnishing unit as viewed in the direction of sheet travel for drying both sides of the sheets varnished on both sides.
In accordance with an added feature of the invention, at least one of the varnishing units is assigned a dryer unit arranged inside one of the drums transporting the sheets.
In accordance with an added feature of the invention, one or more of the varnishing units are designed to apply water-based varnish or dispersion varnish.
In accordance with an added feature of the invention, two or more of the varnishing units have a screen roller with a doctor blade. It is also possible to provide fountain roller-type varnishing units.
In accordance with again an added feature of the invention, the impression cylinder of the last printing unit is followed by the impression cylinder of the first varnishing unit.
In accordance with again another feature of the invention, the varnishing blanket cylinder of the first varnishing unit is arranged below the path of sheet travel.
With the above and other objects in view there is also provided, in accordance with the invention, a method of printing multiple colors on both sides of sheets, preferably sheets of paper. The novel method comprises the following steps:
feeding sheets in a sheet pile individually to a number of in-line printing units and printing on a front side of the sheets,
turning the sheets that have been printed in this way and printing multiple colors on the back side of the sheets in a number of further in-line printing units,
applying one or more coats of varnish to the printed front and/or back side of the sheets by identical-type varnishing units arranged above and below the path of sheet travel and drying the front and/or back side by IR and/or hot-air dryers arranged above and below the path of sheet travel,
delivering the sheets that have been printed and varnished on both sides to a pile or for further processing the sheets.
In accordance with a further feature of the invention, the method includes a step of drying the sheet side that has been varnished first before varnishing the second side of the sheets. Alternatively, or in addition, the two sides of the sheets are dried after having varnished both sides.
In accordance with a concomitant feature of the invention, the drying step comprises applying radiation and/or hot air to the sheet side that faces the transport cylinder in a concave shape.
In accordance with yet a further feature of the invention, during the drying step, a dryer device arranged below the path of sheet travel applies radiation and/or hot air to the sheet side that convexly faces away from the transport cylinder.
Preferably, the printed front sides of the sheets are varnished first before the back sides of the sheets are varnished.
Other features which are considered as characteristic for the invention are set forth in the appended claims.
Although the invention is illustrated and described herein as embodied in sheet-fed offset printing press, it is nevertheless not intended to be limited to the details shown, since various modifications and structural changes may be made therein without departing from the spirit of the invention and within the scope and range of equivalents of the claims.
The construction and method of operation of the invention, however, together with additional objects and advantages thereof will be best understood from the following description of specific embodiments when read in connection with the accompanying drawings.
Referring now to the figures of the drawing in detail,
The varnishing unit 9a is followed by a drying tower 10a. In this drying tower, the second side of the passing sheet is dried in the region of the cylinder 110a by hot air and IR light.
Downstream of the drying tower 10a, as viewed in the direction of sheet travel, there is disposed a second varnishing unit 9b of the same type as the varnishing unit 9a and of substantially identical construction with the first varnishing unit 9a in terms of the screen roller 19b, varnish applicator cylinder 17b, and chambered doctor blade 20b. However, the varnish applicator cylinder 17b contacts the sheet transport drum 109b, embodied as a varnish impression cylinder, from below the path of sheet travel. The varnishing unit 9b is used likewise to coat the entire surface of the first side of the sheet with an aqueous dispersion varnish.
The varnishing unit 9b is followed by a second dryer 10b, which dries the varnished first side of the sheets with IR light and/or hot air. This dryer 10b includes an IR light emitter 113, which is arranged inside the sheet transport drum 120 and is consequently located below the path of sheet travel, just as the varnishing unit 9b.
The dryer 10b is followed by the delivery 5, 105 of the printing press. The delivery 5, 105 includes revolving gripper bars driven by a chain conveyor 15, 115. These gripper bars 16 take over the sheets that have been varnished on both sides and guide them through dryer sections 11a-h, where both sides of the sheets are again dried by IR light and/or hot air to harden the dispersion varnish. The sheets, which been varnished and dried on both sides in this way, are then deposited on a sheet pile 6 in the delivery 5.
While the sheets are transported through the printing units 7a to 7d and 8a to 8d, the printed sheets do not get into contact with varnish. The surfaces of the sheet-guiding impression cylinders 108a-d in the printing units 8a-d and the guide plates of the transfer devices arranged between the printing units 8a-d may thus be coated with ink-repellent layers that are adapted to or optimized in terms of the properties of the oil-based offset inks. The viscous dispersion varnish that causes soiling is not introduced until the end of the press, when the process of printing with offset printing ink is completed. Thus compared to configurations wherein the varnishing unit is located upstream of the first reversing device 4, the useful life of the cylinder jackets and the intervals between cleaning operations can be increased considerably.
In the exemplary embodiment shown in
As one transfer device and the separate drying tower downstream of the first varnishing unit 9a are dispensed with, the press is shorter and requires less floor space than the press described with reference to the exemplary embodiment shown in
The exemplary embodiment of
As described above with reference to
Like the varnishing unit 29a, the varnishing unit 29b comprises a removable and exchangeable unit 18b that includes the varnish applicator roller 17b, the screen roller 19b, and the chambered doctor blade 20b. However, the unit 18b is mirror-inverted relative to the unit 18a and is engaged with the impression cylinder 109b below the path of sheet travel to varnish the first side of the passing sheets.
The varnishing unit 29b is followed by a transfer device and a second dryer 10b. Under the sheet-guiding drum 125 of the second dryer 10b, an IR light source 126 and a hot-air box 127 are provided to dry the first side of the sheet before the sheet is fed to a further sheet transport drum 128. The axis of the sheet transport drum 128 is arranged considerably above the axis of the transport cylinder 125. The connecting line of the two axes of these cylinders forms an angle α>30° with the horizontal. Thus the transported sheets are conveyed upward to the level of the gripper bars 116 revolving horizontally on the guide chains 115, which may consequently be of relatively simple and cost-efficient structure because they need not be deflected from an inclined guide region to a horizontal guide region.
An examination camera 141 and a powdering device 142 are arranged above the side of the transport drum 128 on which the transported sheets lie. As the sheets lie on the transporting cylinder 128 in a defined position, the sheet surface can be easily examined by the camera 141 because the focusing distance is constant and is not affected by fluttering movements of the sheet to be examined. In addition, the powder emitted by the powdering device 142 can hit the sheet, which rests on the cylinder 128, at a high speed without the danger of smearing because the sheet, which has been dried in the dryer 10a on the second side, rests on the surface of the cylinder 128, which is ink and varnish repellent, without relative movement.
In the exemplary embodiment of
The entire surface of the second side of the sheet transported by the varnishing blanket cylinder 208 is varnished by a second varnishing blanket cylinder 218. The dispersion varnish, for example, is supplied to the varnish applicator roller 218 by a screen roller 219a with a chambered doctor blade. At the same time, the varnishing blankets fastened to the first varnishing blanket cylinder 208 by non-illustrated fixing devices are provided with a layer of varnish by a second screen roller 219b in connection with a chambered doctor blade 220b. The sheets held by the grippers 218a and 218b, respectively, and conveyed through the printing or rather varnishing nip 221 are then deposited on the layer of varnish.
Once the sheets have passed the varnishing nip 221 and have thus been varnished on both sides, they are taken over by a transfer device 217, which peels the sheets off the varnishing blankets on the cylinder 208 and transfers them to a dryer 210. The latter is constructed like the dryer 110b of
The exemplary embodiment of
On both sides of the plane that is formed by the revolving chain pairs in the delivery, a double varnishing unit 309 consisting of two varnish blanket cylinders 309a and 309b is provided. Each of the varnish blanket cylinders is coated with varnish by a respective associated screen roller 319a and 319b, respectively, in connection with chambered doctor blades 320a and 320b, respectively.
The varnish blanket cylinders 309a and 309b include gaps embodied in such a way that the gripper bars 316 can pass without touching the cylinders 309. For this purpose, the cylinders 309 are synchronized with the drives of the sprocket 317 by non-illustrated gear transmissions.
The sheets, which are passed between the varnishing blankets of the varnish blanket cylinders 309a and 309b by the gripper bars 316 and are thus varnished simultaneously on the front and back sides are then dried on both sides in dryer modules 21a and 21b, respectively, as described with reference to
Compared to the exemplary embodiment of
The axes of the varnish applicator cylinders 309a and 309b may be supported in such a way that they are separable from each other as indicated by the double arrows. As a result, it is possible to embody the parts carrying the varnishing blanket as exchangeable jackets that can be replaced by jackets of different thickness and outer diameter. The jackets may also be replaced by jackets that have a particularly long gap recess so that it is possible, if desired, to varnish sheets that are held on their leading and trailing edges simultaneously by double gripper bars, that is to say that both the leading edge bar and the trailing edge bar can be accommodated in the gap of the varnishing blanket cylinders even if different formats are processed.
The embodiment of
The chambered doctor blade 420b and the screen roller 419b of the second varnishing unit are located inside the drum 425, which is easily accessible from the side of the sheet pile 406. In addition, the space between the gripper bars 416 is clear, which means that the varnished sheets can be dried after the varnishing operation by combined IR and hot-air dryers 421a and 421b arranged above and below the path of paper travel.
A container 426 for waste sheets is provided underneath the drum 425. If the opening instant of the grippers on the three gripper bars 416a-c is suitably controlled, it is possible to transfer non-defective sheets to the chain conveyor 415 of the delivery 405, whereas defective sheets are not released until they reach the container 426. In-line examination systems provided in the path of sheet travel downstream of the last printing unit 8d of press 1 are suited for recognizing non-defective and defective sheets.
What has been said with reference to the varnishing blanket cylinders 309 also applies to the varnishing blanket cylinders 409, i.e. as described with reference to
Two further exemplary embodiments of the invention, which are particularly advantageous, are represented in
The second varnishing unit 9a is followed by a delivery, as it has been described with reference to
Compared to the exemplary embodiment shown in
As varnishing is carried out from below directly after the last printing unit 8d, a very compact design can be implemented. The exemplary embodiment in accordance with
Thus by varnishing the sheets at first “from below” after the last printing unit 8d, advantageous configurations both in terms of the required floor space of the press and in terms of the development work and costs of the machine can be implemented.
Further modifications and variations are possible in addition to the exemplary embodiments of the invention as described above. Depending on the type of varnish that is used, varnishing units including a fountain roller may be used instead of the varnishing units with chambered doctor blade. In addition, it is possible to use additional printing units in the straight-printing and perfecting portions of the press for printing, for example, 2×2 special or spot colors, instead of only four printing units for the four process colors. The gripper bars 316, 416, which hold the leading edges of the sheets in the delivery of the printing press, may be replaced by gripper bar arrangements that hold the sheets on both of their side edges as described, for example in the commonly assigned U.S. Pat. No. 6,923,119 B1. There, the varnishing blanket cylinders 309a, b and 409a, b, respectively, do not require gaps, and if jackets are used that are applied to the varnishing blanket cylinders 409, these jackets may be seamless and have thin walls.
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10 2006 033 105 | Jul 2006 | DE | national |
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Number | Date | Country | |
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20080017056 A1 | Jan 2008 | US |