Printing – Inkers – Fountains
Reexamination Certificate
2000-04-26
2002-06-25
Eickholt, Eugene (Department: 2854)
Printing
Inkers
Fountains
C101S330000
Reexamination Certificate
active
06408751
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The invention lies in the field of printing technology. More specifically, the invention pertains to lithographic printing presses and, in particular, to ink levelers for open fountain printing presses.
In offset printing, ink is supplied via an ink train from an ink fountain to a plate cylinder and then to a blanket cylinder, at which the ink is transferred to the print substrate (e.g. paper). The ink train includes an ink fountain roller, also referred to as an ink pickup roller, which picks up the ink at the ink fountain and transfers it to an ink ductor roller. The ductor roller oscillates between the ink fountain roller and an ink vibrator roller and thereby transfers the ink from the ink fountain roller to the vibrator roller. From there, the ink is transferred via distributor rollers to other vibrator rollers, which distribute the ink onto several ink form rollers. The ink form rollers ink the printing plate on the plate cylinder by depositing the ink onto the oleophilic surfaces on the plate. From there, the ink is transferred onto the rubber blanket in accordance with the image to be printed.
The amount of ink that is transferred is most important for the print quality. Too much ink in the ink train leads to smearing and blurring of the printed image. Too little ink leads to faint print and uneven distribution of ink color.
The ink fountain is an ink reservoir from which the ink is transferred to the ink fountain roller. The ink fountain may be formed as an open well, as described, for example, in U.S. Pat. No. 5,085,144 to Lindstrom et al. There, the ink fountain roller dips into an open well underneath the roller and picks up the ink for transfer into the ink train. The amount of ink that is picked up by the roller is adjusted by the ink fountain blade, which essentially scrapes off any excess ink as the peripheral surface of the roller leaves the ink well. Any excess ink is drained into a drain chamber.
In a conventional prior art embodiment, the ink fountain is located laterally above the ink fountain roller, as described, for example, in U.S. Pat. No. 5,694,850 to Pickard. There, the ink well drains onto the ink fountain roller. The amount of ink that is transferred to the roller is adjusted by an ink fountain blade, which is set to open a defined gap between its blade tip and the ink fountain roller.
During the transfer of ink to the fountain roller it must always be assured that a sufficient supply of ink is present in the ink well. For that purpose, the prior art knows ink level control systems in which the ink level in the ink fountain is continually monitored. These devices are commonly referred to as ink levelers. One such ink leveler is disclosed in U.S. Pat. No. 5,103,728 to Barney. There, an ultrasonic transducer is employed to measure the ink level in the ink fountain.
All of the prior art systems have in common that only one type of color or process ink (heatset ink, coldset ink; hightack ink, low-tack ink) can be pumped into and out of a single leveler at a time. Also, before the color in a leveler can be changed, it must be thoroughly cleaned or else there must be ready for use one leveler for each of the colors to be printed in the printing unit. This leads to high demands in terms of manpower and to long delays in the make-ready between print jobs or print batches. Furthermore, a considerable amount of ink may be lost during the changeover to a new color ink or a new process ink.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a multi-color, multi-process automatic ink leveler for open fountain printing presses, which overcomes the abovementioned disadvantages of the heretofore-known devices and methods of this general type and which allows fast, automatic changeover between processes and colors in a printing process.
With the foregoing and other objects in view there is provided, in accordance with the invention, an ink leveler for an open fountain printing press, comprising:
an ink leveler bar formed with a plurality of chambers;
a plurality of ink supply lines each issuing into a respective one of the ink chambers via a respective inflow valve for supplying mutually different inks to the ink chambers;
a plurality of remote-controlled outflow valves communicating with the ink chambers for outputting therefrom ink to an ink fountain of a printing press.
In accordance with an added feature of the invention, the ink leveler bar is divided into a plurality of segments dividing the ink chambers into a corresponding number of segment chambers for supplying ink to a split ink fountain. Such split ink fountains are generally used in newspaper production, where four pages or more or from a single to multiple pages across the web width are printed in parallel on the paper web.
In accordance with an additional feature of the invention, the ink leveler bar is an extruded aluminum bar.
In accordance with another feature of the invention, a remote control system is connected to and controls the outflow valves. The remote control system comprises a processor, a sensor for measuring an ink level connected to the processor and supplying a sensor signal to the processor, an actuator for driving the outflow valves connected to the processor, and a device connected to the processor for setting a desired ink level.
In accordance with a further feature of the invention, the leveler bar is a flat leveler bar having all of the chambers formed on one level. In an alternative embodiment, the leveler bar has a substantially square cross section and the chambers are disposed in pairs one above another.
In accordance with again an added feature of the invention, the plurality of chambers are four chambers each for receiving a respective color ink. Typically, the different colors are black, magenta, cyan, and yellow.
In accordance with a concomitant feature of the invention, each of the chambers receives a respective color ink and the segments are four segments, defining sixteen sub-chambers each communicating with a respective one of the outflow valves.
Commonly on multi-color, coldset and heatset offset press systems, color ink piping is provided to each ink fountain. In other words, each of the colors black, cyan, magenta, and yellow (typical) have line drops at each ink fountain, but only a single leveler to deliver the ink to the fountain. The novel system according to the invention now allows semi-automatic or automatic color changes to the ink leveler. In the prior art, the leveler had to be removed and cleaned before a new process and/or color ink could be pumped through.
When the printing press is used for both heatset and coldset applications—as with color changes—the different process inks can be changed without cleaning the leveler in the same manner as in a color ink change.
In the newspaper production context, the invention allows multi-color processing in the same ink fountain (split ink fountain is commonly used in newspaper production). Further, it is possible to have different colors of ink leveled independently of each other in the same fountain.
In summary, the automatic multi-process ink leveler according to the preferred mode is essentially a duct with four chambers extending over the width of the ink tray. In the case of a split ink fountain, which is typically used in newspaper presses wherein the ink tray is split into four different sections, the automatic leveler is provided with a remote-controlled valve for each chamber associated with each of the segments. Accordingly, there are provided 4×4 valves for four colors at the bottom surface of the ink leveler. By opening the remote controlled valves for a desired color (i.e., black, cyan, magenta, yellow) in the segment, a quick color change in a split ink fountain can be obtained without cleaning the entire ink leveler. In addition, different types of ink (different tack, viscosity) can be used with the same result.
The implementation of the system with ultrasonic sensors for sensing the ink level in each of th
Eickholt Eugene
Greenberg Laurence A.
Heidelberger Druckmaschinen AG
Locher Ralph E.
Stemer Werner H.
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