This application claims the priority, under 35 U.S.C. ยง119, of German Patent Application DE 10 2011 012 282.6, filed Feb. 24, 2011; the prior application is herewith incorporated by reference in its entirety.
The present invention relates to a method for controlling inking in a printing press with compensation of an ink requirement in an inking unit and/or compensation of a dampening solution requirement in a dampening unit of the printing press, in the event of a change in printing speed.
A satisfactory print quality is set in offset printing presses only when ink metering and dampening solution metering are adapted to the printing subject and are set correctly during the continuous printing phase. As soon as the continuous printing speed of the printing press is changed, the ink metering and dampening solution metering have to be adapted. Misprinted sheets or waste paper is produced in that transition phase, with the result that it is an aim, in the development of inking control systems in offset printing presses, to keep the transition phase as short as possible in the event of speed changes. One approach is so-called speed compensation which is known from German Published Patent Application DE 197 01 219 A1. In the method disclosed therein for controlling the inking, it is provided that the metering of the fluid which is to be applied to a printing material is changed as a function of the printing speed. In addition, in the event of a change in the printing speed, the fluid is transferred simultaneously with the printing speed change in a temporarily overdriven manner. The so-called speed compensation takes place by way of such overdriving, with the result that the time for carrying out speed changes in the transition phase of a printing press is reduced, as a result of which the print quality is improved during and after the performance of speed changes and the proportion of misprinted sheets or waste paper is reduced. In that speed compensation, substantially the continuous printing speed before the speed change and the continuous printing speed after the speed change are taken into consideration. However, it has been proven in practice that there are also further influencing variables which have an effect on the ink and dampening solution metering in the event of a change in the printing speed.
It is accordingly an object of the invention to provide a method for controlling inking in a printing press with machine-dependent compensation in inking and dampening units, which overcomes the hereinafore-mentioned disadvantages of the heretofore-known methods of this general type, which follows an integrated approach in the event of changes in the printing speed and, as far as possible, takes all factors which have an influence on inking into consideration in the event of a printing speed change.
With the foregoing and other objects in view there is provided, in accordance with the invention, a method for controlling inking in a printing press. The method comprises compensating an ink requirement in an inking unit and/or a dampening solution requirement in a dampening unit of the printing press upon a change in printing speed, and taking a printing speed profile or course or a machine state prevailing before an instant of change in the printing speed into consideration in a compensation of metering of ink and/or dampening solution.
The method according to the invention presupposes the use of a control computer for controlling the ink and/or dampening solution metering in a printing press. In this case, the control computer detects the printing speed profile and/or the machine state of the running or stationary printing press and, as a function of the detected printing speed profile or detected machine state, decides which compensation is carried out in the metering of ink or dampening solution in the event of printing speed changes, in order to keep misprinted sheets or waste paper as low as possible during the printing speed change. The machine state is to be considered, in particular, as the stopping of the printing press and the restarting without washing of a rubber blanket in the printing unit of the printing press, stopping of the printing press and restarting with preceding washing of the rubber blanket in the printing unit of the printing press, start-up of the printing press after an ink input, and start-up after a print job change. The printing speed profile is to be considered as all changes in the printing speed before the instant of the current change in the printing speed. This detection and evaluation of the machine states and printing speed profiles before the instant of the change in the printing speed make optimum speed compensation possible with regard to the metering of ink or dampening solution and thus reduce the production of misprinted sheets or waste paper to a minimum in the event of a change in the printing speed. The present invention can be used in all offset printing presses, in particular sheet-fed printing presses, web-fed rotary printing presses as well as offset printing presses with anilox inking units.
In accordance with another mode of the invention, a different speed compensation during the ink metering or dampening solution metering is carried out as a function of the machine state or the speed profile before the instant of the speed change. According to the present invention, the speed compensation for metering dampening solution and ink does not necessarily take place at the same time and in parallel as in the prior art, but rather the speed compensation of ink and dampening solution can be configured differently, depending on which machine state or speed profile was present before the instant of the speed change. The number of machine states and the speed profile thus result in numerous possible combinations for the different actuation of ink metering and dampening solution metering during the speed compensation. In this way, a different speed compensation during the ink metering and dampening solution metering is carried out depending on the machine state and speed change and the preceding speed profile.
In accordance with a further mode of the invention, if there is too much ink in the inking unit, the speed compensation of the ink metering is carried out in a delayed manner in the event of an increase in the printing speed, but the compensation of the dampening solution metering is carried out immediately. In this way, the excess of ink is first of all reduced, before more ink passes into the inking unit again as a result of the speed compensation of the ink metering during the speed change. However, the dampening solution metering is carried out immediately, independently of the former.
In accordance with an added mode of the invention, if there is too little ink in the inking unit, the speed compensation of the ink metering is carried out immediately in the event of an increase in the printing speed, but the speed compensation of the dampening solution metering is carried out in a delayed manner in contrast. In this case, first of all the lack of ink in the inking unit is rectified by the immediate speed compensation of the ink metering, and the dampening solution metering is likewise only raised later. This avoids having too much dampening solution applied to the printing plate in comparison with the ink as a result of an immediate speed compensation of the dampening solution metering.
In accordance with an additional mode of the invention, the delay takes place proportionally to the speed difference. This means that the greater the speed change, the later the occurrence of the speed compensation of that component which is carried out in a delayed manner in the respective method step.
In accordance with yet another mode of the invention, if the machine speed during the ink input is greater than the continuous printing speed or the printing press is started up after washing of the rubber blanket on the blanket cylinder, the speed compensation of the ink metering and the speed compensation of the dampening solution metering are carried out immediately. In the machine states ink input and washing of the rubber blanket, the machine is situated in an unstable state with an empty inking unit, with the result that both ink and dampening solution can be metered immediately in an increased manner through the control of the speed compensation, in order to thus minimize the time of the production of misprinted sheets or waste paper.
In accordance with yet a further mode of the invention, if the machine speed during the ink input is lower than the continuous printing speed or a change is made during the print job change to an identical or higher continuous printing speed than in the preceding print job, the speed compensation of the ink metering is carried out immediately and the speed compensation of the dampening solution metering is carried out in a delayed manner. In this refinement of the invention, the initially also continuous printing speed of the preceding print job is evaluated and, in the case of an identical or higher continuous printing speed in comparison with the preceding print job, an immediate speed compensation during the ink metering is carried out with delayed speed compensation during the dampening solution metering.
In accordance with a concomitant mode of the invention, during start-up of the printing press without washing of the rubber blanket on the blanket cylinder or in the case of the print job change at a lower continuous printing speed than in the case of the preceding print job, the speed compensation of the ink metering is carried out in a delayed manner and the speed compensation of the dampening solution metering is carried out immediately. If the continuous printing speed during the following print job is lower than during the preceding print job, first of all a certain dissipation of ink is to take place in the inking unit, before the speed compensation of the ink metering is carried out. This is not the case for the dampening solution metering, with the result that the dampening solution metering is carried out immediately.
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 a method for controlling inking in a printing press with machine-dependent compensation in inking and dampening units, 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 drawings in detail and first, particularly, to
The control computer 5 of the printing press 1 is connected over communications links 22 to all of the electric adjusting motors of the printing press 1, in order to be able to perform the desired adjusting operations. In particular, the control computer 5 can adjust individual inking zones in the inking units 16, 17 in order to meter the ink. Moreover, a display screen 15 is connected to the control computer 5. The operating state of the printing press 1 is shown on the display screen 15 and inputs of the operating staff are possible through the display screen 15. Furthermore, an external color measuring instrument 20 is connected to the control computer 5 through a communications link 22. The color of finished printed sheets 9 which are deposited in the delivery stack 7 can be measured by way of the external color measuring instrument 20. To this end, the printed sheets 9 have to be removed from the delivery stack 7 by the operating staff and have to be placed under the color measuring instrument 20. Furthermore, the printing press 1 has an inline color measuring device 21 at the outlet or exit of the second printing unit 4, which can likewise measure the color of the printed sheets 9. The produced printed sheets 9 can have their color measured continuously by way of the inline color measuring device 21, with the result that color measured values can be transmitted continuously to the control computer 5 by the inline color measuring instrument 21. In the control computer 5, the color measured values which are detected in this way are compared with a setpoint coloring S which is predefined by the operating staff and is dependent on the respective print job and the associated printing original. The setpoint coloring S serves as a target value for a corresponding ink presetting characteristic curve in the inking units 16, 17 of the printing press 1.
In
A further machine state illustrated in
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Machine translation of DE 19701219 to Anweiler et al. published on Jul. 23, 1998. |
Number | Date | Country | |
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20120216695 A1 | Aug 2012 | US |