Printing – Processes
Reexamination Certificate
2002-09-09
2003-12-30
Eickholt, Eugene H. (Department: 2854)
Printing
Processes
C101S148000, C101S207000, C101S351100, C101S350400, C101S352130, C101S367000, C101SDIG029
Reexamination Certificate
active
06668724
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a method for controlling a quantity of medium transferable between two rollers, such as from a screen roller of a printing machine onto a roller in contact with the screen roller.
So-called short inking units, such as anilox inking units, for example, which are installed in printing machines, have become known heretofore from the published German Patent Document DE 198 40 613 A1. They comprise a screen roller, also known as an anilox roller, which is formed on the circumference thereof with depressions capable of being filled with ink or varnish. The screen roller has a chambered doctor blade assigned thereto which wipes or scrapes the ink or varnish off the screen roller. The screen roller co-operates with an ink applicator roller, onto which a constant quantity of ink/varnish is transferred due to the depressions. In the event of an increase in the printing and machine speed, respectively, a slight decrease in the ink density measured on a print carrier occurs because of the normally high-viscosity offset ink. This may result from the fact that the depressions are no longer filled correctly at higher printing speeds, because the depressions are no longer emptied so effectively upon contact with the ink applicator roller or because the transfer of ink from the screen roller onto the ink applicator roller and, via a plate cylinder, onto a blanket cylinder and from the latter onto the print carrier is impaired.
In order to have an effect upon the printed ink density, also called the optical density, in anilox inking units, it has become known heretofore to exert an influence upon the slip between the screen roller and the ink applicator roller. When the two rollers have the same circumferential speeds, i.e., there is no slip, an optimum transfer of ink from the screen roller onto the ink applicator roller takes place. When slip occurs between these rollers, the printed ink density decreases due to the diminishing ink quantity transferred from the screen roller onto the ink applicator roller.
It has become known from the hereinaforementioned published German Patent Document DE 198 40 613 A1 that it is unimportant whether the slip is positive or negative, and that only the absolute size thereof is critical. By an adjustment of the slip, therefore, the printed ink density can be changed relatively quickly.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a method of the type mentioned in the introduction hereto, wherein, even at different printing speeds, a preferably uniformly good transfer of ink between the rollers is realizable.
With the foregoing and other objects in view, there is provided, in accordance with the invention, a method for controlling a quantity of medium transferable from a screen roller of a printing machine onto a roller that is in contact with the screen roller, which comprises exerting an influence upon a difference in circumferential speed between the screen roller and the roller in contact therewith, and further comprises controlling the difference in the circumferential speed as a function of the printing speed of the printing machine, so that printed medium density remains at least approximately constant at least within a wide printing speed range.
In accordance with another mode, the medium controlled by the method is a medium selected from the group thereof consisting of ink and varnish.
In accordance with a further mode of the method, the difference in circumferential speed is zero at a standard printing speed.
In accordance with an alternative mode of the method, the difference in circumferential speed is zero at a printing speed higher than a standard printing speed.
In accordance with an added mode, the method further comprises determining, for the difference in the circumferential speed dependent upon the printing speed, a characteristic curve at which the printed medium density remains constant.
In accordance with an additional mode, the method further comprises storing the characteristic curve in a control device.
In accordance with yet another mode, the method further comprises controlling the difference in the circumferential speed as a function of a circumferential speed of a cylinder selected from the group thereof consisting of a printing-form cylinder and a blanket cylinder capable of being supplied with the medium by the screen roller.
In accordance with yet a further mode, the method further comprises increasing the temperature of the screen roller so as to raise the printed medium density.
In accordance with a concomitant mode, the method further comprises lowering the temperature of the screen roller so as to reduce the printed medium density.
Accordingly, the quantity of medium, which is capable of being transferred from a screen roller of a printing machine onto a roller, for example an ink applicator roller, which is in contact with the screen roller, is controlled by exerting influence on a difference in circumferential speed between the screen roller and the roller in contact therewith. The method is distinguished in that the difference in circumferential speed is controlled as a function of the printing/machine speed of the printing machine, so that the printed medium density remains constant or approximately constant at least within a wide printing speed range. This makes it possible to ensure that the transfer of medium from the screen roller onto the succeeding or following roller is uniformly good at virtually all printing speeds.
In connection with the invention of the instant application, by the “printed medium density” there is meant the density of a printed image transferred onto a print carrier. It is also known as optical density. Consequently, “printed medium density” does not refer to the material density of the printing medium.
The printing machine may be a sheet-fed or web-fed machine which is operated in wet offset or dry offset. The medium is preferably liquid, but may also be pasty, and is preferably an ink or a varnish.
In a preferred embodiment, provision is made for the circumferential speed difference to be zero at a standard printing speed and preferably at a printing speed higher than the standard printing speed. At the standard printing speed, therefore, the screen roller and the roller co-operating with the latter run synchronously. The standard printing speed is the speed at which the printing machine mainly operates. It may amount, for example, to 2.5 m/s in the case of a sheet-fed press and to 9 m/s in the case of a web press. In this mode of the method, it is assumed that, in the speed range lying above the standard printing speed, the printed medium density is no longer kept exactly constant. Here, however, instead, the printing unit can also operate most of the time without slip between the rollers. The wear of the rollers is correspondingly low here. A circumferential speed difference between the screen roller and the succeeding or following roller occurs here too, while the printing machine is being set up, i.e., during the commencement of the run-off of a printing order and while the printing machine is accelerated to the standard printing speed. This period of time is relatively short, when compared with the duration of the run-off of the entire printing order.
A method can also be realized readily wherein the circumferential speed difference is zero at the maximum printing/machine speed. In this case, although the printed medium density would be capable of being set at a constant level at all printing speeds lower than the maximum printing speed, most of the time there would nevertheless be slip between the screen roller and the succeeding or following roller, with the result that the useful life of the rollers is reduced.
Furthermore, a mode of the method is preferred, wherein a characteristic curve at which the printed medium density remains constant is determined for the circumferential speed difference dependent upon the printing speed. The characteristic curve may be determined
Callahan Martin John
Schönberger Wolfgang
Eickholt Eugene H.
Greenberg Laurence A.
Heidelberger Druckmaschinen AG
Locher Ralph E.
Stemer Werner H.
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