The present invention relates to a dampening unit for use in an offset printing press and, more particularly, to a dampening unit whereby dampening water alone or together with ink can switchably be furnished onto a printing plate via a dampening roller in rotational contact therewith.
The conventional dampening unit of this sort is so designed as shown in
The modes of furnishing dampening water are changed over in accordance with an image area factor of a print.
To wit, printing as desired requires dampening water to be furnished in the form of a film of uniform thickness onto the printing plate a and to be emulsified (mixed with ink) moderately in the inking unit e. And, such state of emulsification varies with a mode of furnishing water onto the printing plate a and also with an image area factor of a print. Accordingly, if the image area of a print is small, the ink accepting roller d is then spaced from the dampening roller c so that dampening water is directly furnished onto the printing plate a from the dampening roller c. Also, if the print image area is large, then the ink accepting roller d is brought into contact with the dampening roller c so that the dampening roller c furnishes the printing plate a with both water and ink (see JP Patent No. 2882966).
In the conventional dampening unit mentioned above, the ink supply path for a dampening roller is constituted by using only a single roller (ink accepting roller) which is adapted to come into and out of contact with the dampening roller. Thus, ink furnished onto the dampening roller is not fully kneaded in the ink supply path and not fully kneaded either in the water supply path from the dampening roller onto the inking roller. As a result, the problems arise that ink and water on both the dampening roller and the inking roller can hardly be filmed and emulsified and that if the printing plate is furnished with both water and ink as the image area factor becomes larger, then an excessive emulsification goes on to occur quickly so that occurrence of a printing stain soon appears.
With these problems taken into, it is an object of the present invention to provide a dampening unit in an offset printing press in which ink and water are fully kneaded or distributed together when the apparatus is brought into communication with the inking unit and ink can moderately be emulsified on a dampening roller and an inking roller in a mode of furnishing water in which water together with ink is furnished on a printing plate from the inking roller and the dampening roller.
In order to achieve the object mentioned above, there is provided in accordance with the present invention a dampening unit in a offset printing press in which a printing plate which is furnished with ink by an inking unit comprising an ink distributing roller, an ink oscillating roller and an inking roller, which is furnished continuously with dampening water via a water fountain roller, a metering roller and a dampening roller and which is provided with a dampening water communication path adapted to supply and cease supplying the inking roller with dampening water from the dampening roller, characterized in that: the dampening water communication path comprises a plurality of rollers including an oscillating roller in rotational contact with the ink distributing roller and an oscillating roller in rotational contact with the dampening roller and a roller interposed between them which is a bridging roller in rotational contact with one of these adjoining rollers and capable of coming in and out of contact with the other.
The roller in rotational contact with the dampening roller in the makeup mentioned above is a distributing or kneading roller.
According to the present invention, in an offset printing press, in a dampening unit which is provided separately of an inking unit and is adapted to be connected to and disconnected from the inking unit by a dampening water communication path, the dampening water communication path in the dampening unit comprises a plurality of rollers provided between a dampening roller in the dampening unit and an ink kneading or distributing roller in the inking unit and they include oscillating rollers in rotational contact with the ink kneading or distributing roller and the dampening roller, respectively, and an bridging roller interposed between the rollers whereby when the ink kneading or distributing roller is in communication with the dampening roller with the bridging roller connected thereto, an elongated path for dampening water to travel from the dampening roller to the inking roller can make an appropriate emulsified state of ink at an interface between the inking roller and a printing plate and make a print large in image area factor stably over an extended time period.
Also, where with the bridging roller isolated, dampening water is furnished onto the printing plate only from the dampening roller, the oscillating or distributing roller and the oscillating roller which remain in rotational contact with the dampening roller and the ink distributing roller, respectively, can act as distributing rollers so that water supplied onto the printing plate from the dampening roller and ink supplied onto the printing plate from the inking roller are well kneaded or distributed together and in such state furnished onto the printing plate.
In the drawings:
The inking unit 4 comprises a pair of inking rollers 6a and 6b each in rotational contact with the printing plate 1a, an ink oscillating roller 7 in rotational contact with both the two inking rollers 6a and 6b, an ink kneading or distributing roller 8 in rotational contact with the ink oscillating roller 7 and an ink supply and kneading or distributing roller 9 upstream of and in rotational contact with the ink kneading roller 8.
The dampening unit 5 has a dampening roller 10 in rotational contact with the printing plate 1a, and a water fountain roller 12 and a metering roller 13 for supplying the dampening roller 10 with dampening water from a water pan 11. And, the dampening roller 10 in this dampening unit 5 communicates with the ink kneading roller 8 via a dampening water communication path 17 comprising a first water oscillating roller 14 in rotational contact with the ink kneading roller 8 in the inking unit 4, a bridging roller 15 and a second water oscillating roller 16. The bridging roller 15 is constantly in rotational contact with the first water oscillating roller 14 but is adapted to come into and out of contact with the second water oscillating roller 16.
In the makeup mentioned above, when the bridging roller 15 in the dampening water communication path 17 is spaced away from the second water oscillating roller 16, communication between the inking unit 4 and the dampening unit 5 is cut off. Consequently, ink supplied onto the ink kneading roller 8 is furnished onto the printing plate 1a via the ink oscillating roller 7 and the inking rollers 6a and 6b. Then, the first water oscillating roller 14 in rotational contact with the ink kneading roller 8 remains unfurnished with water from the dampening unit 5 so that the ink kneading roller 8 acts to knead or distribute ink on the surface of the ink oscillating roller 7 circumferentially and axially while uniformly distributing the ink in these directions.
On the other hand, dampening water from the water pan 11 is then furnished onto the printing plate 1a directly via the dampening roller 10. And, dampening water then on the surface of the dampening roller 10 is metered by the metering roller 13 and at the same time is distributed uniformly not only circumferentially as a matter of course but also axially.
Next, if in the dampening water communication path 17 the bridging roller 5 in rotational contact with the first water oscillating roller 14 is moved to rotationally contact with the second water oscillating roller 16, then the dampening roller 10 in the dampening unit 5 and the ink distributing roller 8 are brought into communication with each other via the bridging roller 15.
This causes a part of dampening water supplied on the dampening roller 10 to be furnished onto the printing plate 1a directly via the dampening roller 10 and its other part to be move to between the two water oscillating rollers 16 and 14 via the bridging roller 15 and furnished to the ink distributing roller 8 and then to be moved from the ink distributing roller 8 onto the inking rollers 6a and 6b via the ink oscillating roller 7. Consequently, dampening water together with ink is furnished onto the printing plate 1a from the inking rollers 6a and 6b.
Then, ink on the ink distributing roller 8 in the inking unit 4 is moved to between two water oscillating rollers 14 and 16 via the bridging roller 15 and to the dampening roller 10 and is furnished onto the printing plate 1a together with dampening water from the dampening roller 10.
Since in the dampening water communication path 17 between the ink distributing roller 8 in the inking unit 4 and the dampening roller 10 in the dampening unit 5 when the bridging roller 15 in the dampening water communication path 17 is in rotational contact with the second water oscillating roller 16, namely when the inking unit 4 and the dampening unit 5 are brought into communication with each other, there are two oscillating rollers 14 and 16 and the bridging roller 15 interposed between them, and dampening water and ink moving through the communication path 17 are moved through this path while being fully kneaded and distributed by the two rollers 14 and 16 axially of these rollers.
And, an area in which the dampening roller 10 and the printing plate 1a are in rotational contact with each other when the bridging roller 15 is in rotational contact with the second water oscillating roller 16 is furnished on the printing plate 1a with dampening water supplied from the metering roller 13 and ink moved in the communication path 17 which are fully kneaded or distributed and moderately emulsified together in the communication path.
On the other hand, then in the inking unit 4, ink supplied from the ink supply and distributing roller 9 and dampening water from the communication path 17 join at the distributing roller 8 and then moving from the distributing roller 8 to the inking rollers 6a and 6b for supply onto the printing plate 1a from these inking rollers.
While in the form of implementation described above, the oscillating roller 16 is shown in rotational contact with the dampening roller 10, the oscillating roller 16 may be substituted by a kneading or distributing roller. Further, the rollers constituting the dampening water communication path are not limited to three as shown in
Number | Date | Country | Kind |
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2006-287649 | Oct 2006 | JP | national |
Number | Name | Date | Kind |
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4944223 | Ishii et al. | Jul 1990 | A |
4986176 | Ishii et al. | Jan 1991 | A |
5062362 | Kemp | Nov 1991 | A |
5435243 | Makino et al. | Jul 1995 | A |
20030172818 | Motard | Sep 2003 | A1 |
Number | Date | Country |
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2882966 | Apr 1999 | JP |
Entry |
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European Search Report issued Aug. 5, 2009 in corresponding European Patent Application 07254100. |
Number | Date | Country | |
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20080092759 A1 | Apr 2008 | US |