EP0324118A2 - Printing unit for a rotary printing machine - Google Patents

Abstract

The invention relates to a printing unit for rotary printing presses with inking unit and dampening unit and at least two ink-guiding cylinders such as. B. plate cylinder and blanket cylinder. According to the invention, such a printing unit should manage almost without the printing of waste when setting the pre-pressure-appropriate state. The solution is that one or more ink-guiding cylinders is assigned an adjustable or reducing ink-reducing unit, which removes approximately the same part of the ink and dampening solution film from the ink-guiding cylinder that the continuous paper would otherwise have removed.

Description

The invention relates to a printing unit for rotary printing presses with at least one inking unit, at least one ink-guiding cylinder, such as e.g. Plate cylinder and blanket cylinder, and with at least one paper-guiding cylinder, e.g. the printing cylinder, with at least one of the ink-guiding cylinders being adjustably mounted.

In offset rotary printing presses, the setting of the production status within the printing unit requires two conditions to be met: in the inking unit, the color profile and in the entire printing unit, the ink / fountain solution emulsion must have assumed the stationary state appropriate for the printing unit. This is referred to as equilibrium in the following. With high-pressure or dry offset processes that do not require the addition of dampening solution, the problem of ink / dampening solution equilibrium is eliminated. The problems described in the rest of the text, which result from the correct color profile setting in offset printing, can be applied to both portrait and dry offset printing without exception.

In the case of known printing units in offset rotary printing presses (brochure Heidelberger Speedmaster machines (4/81), the setting of the production status at the new start of printing is achieved in several steps, starting from an empty inking unit. The inking unit presetting is carried out first, with the inking rollers being set off the plate cylinder. PS 33 38 143 describes a possible method in which first a defined one Basic ink layer thickness is generated on all inking rollers. In a second step, the color profile is applied. Once the color profile has been set up, the dampening unit and pressure plate are pre-moistened. The blanket cylinder is switched off from the plate cylinder and impression cylinder. Then the inking rollers are placed on the plate cylinder. To avoid a build-up of ink on the printing plate, you must start printing immediately afterwards.

A disadvantage of the process described in DE-PS 33 38 143 is that it must always be assumed that the inking unit is empty, and that the color profile and the ink / fountain solution emulsion have not yet been set at the start of printing. The ink / fountain solution flow within the printing unit, which is required for the steady state of production, is only achieved by removing a larger amount of ink from the blanket cylinder by means of paper. So-called waste sheets are created. The problem of waste generation due to the not yet stable ink / fountain solution balance in offset printing does not only occur at the start of printing or profile changes. Printing interruptions often occur in production. These can be predictable, such as the interruptions for blanket washing, which must take place approximately every 3000 prints. They can also be caused unexpectedly, for example by stoppers. Each of these printing interruptions disturbs the sensitive ink / fountain solution balance, in that the ink and fountain solution partially separate from one another within the printing unit and the printing properties of the emulsion change. If printing is to be continued after the print interruption, the printing emulsion of the color emulsion is therefore generally no longer available.

If the printer does not stop the entire machine because of an error, but only interrupts the paper transport, the ink and dampening solution application rollers are automatically switched off from the plate cylinder and the blanket cylinder is separated from the printing cylinder and the plate cylinder. Since the inking unit continues to work, ink is also transported in the direction of the plate cylinder, which leads to an evening of the color profile within the inking unit and also changes the ink / fountain solution emulsion.
Before a new start of printing, the color profile and the ink / fountain solution emulsion must be built up again.

If the print sheet has insufficient coloring or if the print job is changed, the ink gap thicknesses on the duct roller are changed by readjusting the dosing elements. Before the printing unit is again in the production printing state that corresponds to the new subject, a defined ink layer thickness and the required ink / fountain solution emulsion must have been set on all rollers within the inking unit.

In each of these cases, waste paper is printed in conventional printing units until the necessary balance has been restored.

Proceeding from this prior art, the object of the invention is to get by almost without printing waste when setting the print-ready state. This object is achieved according to the invention in a genus, as set out above, in that one or more ink-guiding cylinders can be switched on or off Color reduction unit is assigned that the color reduction unit consists of one or more adjacent rollers, a squeegee and an ink collecting tray, that a roller of the color reduction unit when printing is stopped, but with continued ink and dampening solution supply and ink and dampening unit employed on the plate cylinder, each at the ink leader Cylinder is applied, whereby the color reduction unit removes the same or approximately the same part of the ink and dampening solution film from the ink-carrying cylinder, which would otherwise be removed from the paper.

By using the measures according to the invention, the waste output can be reduced from the current 150-200 prints at the start of printing or major profile changes to 2-3 sheets of waste per print interruption.

This results in a reduction in the cost per print job since the cost of the paper is saved.

An advantageous development of the invention consists in that the roller attached to the blanket cylinder or the plate cylinder is driven by frictional engagement from the blanket cylinder or the plate cylinder. This creates the possibility of getting by without a separate roller drive.

Advantageous further developments of the printing unit according to the invention also result from the selection of the surface materials for the rollers of the color reduction unit. A rigid roll surface has several advantages. It has the positive property of having a high wear resistance compared to the doctor blade. This enables the design of a simple spring steel knife as a doctor blade, the use of which results in a clean doctoring of the roller surface. In addition, the The heat generated by scraping, which otherwise flows into the printing unit and disturbs the ink / fountain solution balance, is negligible. Chromium oxide or aluminum oxide can preferably be used as the material for the roller surface. If a resilient material, such as rubber, is used for a roller that is attached to the plate cylinder, this results in protection of the printing plate against wear.

If a roller of the color reduction unit can be driven separately, it can be operated in such a way that it cleans itself when cleaning solution is brought onto the rotatably mounted roller. In addition, the color reduction unit can also be used as a cylinder washing device.

Four exemplary embodiments are shown schematically in the drawing.

• Fig. 1 eine schematische Darstellung eines Druckwerks mit erfindungsgemäßer Vorrichtung,
• Fig. 2 eine Variante der Ausführungsform nach Figur 1,
• Fig. 3 und 4 weitere Varianten.

Show it:

• 1 is a schematic representation of a printing unit with a device according to the invention,
• 2 shows a variant of the embodiment according to FIG. 1,
• 3 and 4 further variants.

Fig. 1 shows the structure of the printing unit according to the invention. The plate cylinder 1 is supplied with ink and dampening solution by the inking unit 2 and the dampening unit 3. The blanket cylinder 4 is located on the plate cylinder 1 and bears either on the impression cylinder 5 or on the roller 6. The roller 6, which is driven by friction from the blanket cylinder 4, is part of the ink reduction unit 7a, which also includes a doctor blade 8, which carries out a traversing movement, and a removable ink collecting tray 9.

The system may also include a solvent feeder 10. This applies solvent to the surface area of the roller 6, which, viewed in the direction of rotation of the roller, lies between the blanket cylinder 4 and the doctor blade 8. This makes it easier to scrape off the ink from the roller 6. A brush 11 can also be provided in order to remove any remaining ink from the roller. This brush rotates either counter to the roller 6 or in the same direction of rotation at a different speed. In order to avoid squeegee marks, the squeegee executes a traversing movement. When you start printing again, the color profile presetting within the inking unit follows first. The inking rollers 12 to 15 are switched off from the plate cylinder 1. Then the dampening unit 3 and plate cylinder 1 are pre-moistened. For this purpose, the dampening solution application rollers 16 and 17 are placed on the plate cylinder 1. Then the inking rollers 12 to 15 for printing plate inking are also placed on the plate cylinder 1. At the same time, the solvent supply is started and the blanket cylinder 4 is placed on the plate cylinder 1 and on the roller 6. From this the ink and dampening solution portion, which would otherwise be transferred to the paper, are scraped off until the color profile and a stable ink / dampening solution balance have been established. Then the blanket cylinder 4 is placed against the impression cylinder 5 and the sheet feed is started. The solvent supply to the roller 6 is stopped. If the stability of the ink profile is no longer guaranteed during printing due to a change in the ink gap thickness setting, or if a stopper on which the ink / fountain solution balance has disturbed occurred, the paper supply is stopped and the blanket cylinder 4 is switched off by the printing cylinder 5 and placed on the roller 6 . The color reduction unit 7a works until the Production status has been set both in the color profile and in the ink / fountain solution balance. Then the blanket cylinder 4 is set down by the roller 6 and placed on the impression cylinder 5. At the same time, the paper feed is started again.

The print-ready state is reached when the machine is started after a long pause in printing, for example overnight, after about two hundred machine revolutions. The number of revolutions after the machine has started can be evaluated here as a relevant machine parameter for evaluating the setting of the production pressure status. The number of machine revolutions required after the standstill is highly dependent on the subject, the zone-wide ink gap thicknesses on the duct roller and the downtime. These parameters can be used to determine a defined, necessary number of machine revolutions for setting the production pressure status. If a counter has counted these defined machine revolutions, there is a signal to the actuating device of the color reduction unit 7a, and the blanket cylinder 4 is turned off by the roller 6 and set against the printing cylinder 5. At the same time, the sheet feed is started and the solvent feed is interrupted. The setting of the production pressure status can also be checked by means of a measuring system which then gives the signal for deactivating the color reduction unit. In order to avoid an undesired, locally offset ink back transfer from the roller 6 to the blanket cylinder 4 and thus a position-changing duplication of the printed image due to ink that is not completely scraped off, the roller 6 can be designed such that it has the same circumference as the blanket cylinder 4. The scraped-off ink, which collects in the removable ink collecting trough 9, can be fed back manually or by a pump device, if necessary after cleaning, to the ink fountain (not shown in the figure for reasons of clarity).

Fig. 2 shows another embodiment of the printing unit according to the invention. If the printing unit is in an out-of-print condition, either after a new start of printing or after a stop, the roller 18 of the ink reduction unit 7b is placed against the plate cylinder 1 and the solvent supply is started. The blanket cylinder 4 is turned off from the plate cylinder 1 and the impression cylinder 5. The roller 18 has a resilient surface, while the roller 19 is provided with an inflexible surface. The ink passes from the plate cylinder 1 by splitting to the roller 18 and from there again by splitting to the roller 19, from where it is scraped off. Here, too, it is possible to have the doctor blade 8 perform a traversing movement in order to avoid doctor blade traces. The ink removal from the roller 19 can also be supported here by a solvent supply device 10, which in this case is designed as a spray device. Since the ink reduction unit is attached to the plate cylinder here, a complete doctoring off of the ink is not so important, since the plate is offered ink everywhere by the inking unit.

When the production-ready state has been reached, the roller 18 is turned off from the plate cylinder 1, the blanket cylinder 4 is placed against the plate cylinder 1 and the printing cylinder 5, and sheet feeding is started. The color reducer 7b automatically cleans itself by maintaining the rotation of the rollers 18 and 19 and the solvent supply for some time. When cleaning is complete, the solvent supply is stopped and the roller rotation is interrupted.

3 shows a further embodiment of the printing unit according to the invention. In this case, the printing cylinder 5 is used as the roller of the color reduction unit 7c operated from which the paint is doctored off. In this case, a drip strip serves as the solvent supply device 10. In order to adjust the state appropriate to the printing press, the doctor blade 8 is placed against the printing cylinder and the solvent supply is started. If the color profile within the inking unit 2 is stable and the ink / fountain solution equilibrium has been established, the solvent supply is interrupted, the doctor blade 8 is switched off by the printing cylinder 5 and the sheet supply is started. When attaching the squeegee, care must be taken to avoid a collision with the grippers in the cylinder channel. To do this, either the squeegee movement or the movement of the grippers can be modified. A falling doctor blade 8 into the cylinder channel can be avoided by a suitable doctor guide.

4 shows a printing unit for high-pressure machines with the device according to the invention. The ink reduction unit 7d here consists of the roller 20, the doctor blade 8 and the ink collecting trough 9. The mode of operation here is analogous to that described in the previous embodiments.

PARTS LIST

• 1 plate cylinder
• 2 inking unit
• 3 dampening system
• 4 blanket cylinders
• 5 printing cylinders
• 6 roller, with unyielding surface
• 7a color reduction unit
• 7b color reduction unit
• 7c color reduction unit
• 7d color reduction unit
• 8 doctor blade
• 9 ink tray
• 10 solvent supply device
• 11 brush
• 12 inking roller
• 13 inking roller
• 14 inking roller
• 15 inking roller
• 16 dampening roller
• 17 dampening roller
• 18 roller, with flexible surface
• 19 roller, with unyielding surface
• 20 roller, with flexible surface

Claims (10)

1. Printing unit for rotary printing presses with at least one inking unit (2) and one dampening unit (3), at least two ink-guiding cylinders, such as plate cylinders (1) and blanket cylinders (4), at least one of the ink-guiding cylinders being adjustable,
characterized by
that one or more ink-guiding cylinders is assigned an adjustable or removable ink-reducing unit (7a; 7b; 7c), that the ink-reducing unit consists of one or more adjacent rollers (6; 18,19; 5) a squeegee (8) and an ink collector (9) is that a roller (6, 18; 5) of the ink reduction unit when printing is stopped, but with continued ink and fountain solution supply and with ink and dampening unit (2, 3) set on the plate cylinder (1), each on the ink-carrying cylinder (1,4) is applied, whereby the color reduction unit removes the same or approximately the same part of the ink and dampening solution film from the ink-carrying cylinder, which would otherwise be removed from the paper. 2. Printing unit for rotary printing machines with at least one inking unit (2), an ink-guiding cylinder such as plate cylinder (1) and a paper-guiding cylinder such as printing cylinder (5), the paper-guiding cylinder being adjustable,
characterized by
that the ink-carrying cylinder is assigned an adjustable or removable color-reducing unit (7d), that the color-reducing unit (7d) consists of a roller (20), a Squeegee (8) and an ink drip pan (9) is that the roller (20) of the ink reduction unit when printing is stopped, but with continued ink supply and with the inking unit (2) employed on the plate cylinder (1), lies against the ink-guiding cylinder, whereby the ink reduction unit the same or approximately the same part of the ink film from the ink-carrying cylinder, which would otherwise be removed from the paper. 3. Printing unit for rotary printing machines according to claim 1 or 2,
characterized by
that the surface of the rollers (6; 18, 20) which can be adjusted to the ink-guiding cylinder is compliant if the ink-guiding cylinder is made of an unyielding material and that the surface of the roller which can be adjusted to the ink-guiding cylinder is rigid when the ink-guiding cylinder is made of a resilient material Material exists. 4. Printing unit for rotary printing machines according to one or more of claims 1 to 3,
characterized by
that the ink reduction unit (7a; 7b; 7c; 7d) is assigned a solvent supply device (10), by means of which a solvent is applied to the roller (6; 18; 5; 20) of the ink reduction unit while this roller is attached to the ink-carrying cylinder (1 , 4) is employed. 5. Printing unit for rotary printing machines according to one or more of claims 1 to 4,
characterized by
that the rollers (6; 17, 18; 20) of the color reduction unit are designed so that they have the same diameter as the ink-carrying cylinder to which they are assigned. 6. Printing unit for rotary printing presses with a printing cylinder (5) according to claim 1 and one or more of claims 3 to 5,
characterized by
that the printing cylinder (5) is operated as a roller of the ink reduction unit (7c) and that the doctor blade (8) of the ink reduction unit (7c) assigned to the printing cylinder (5) is adjustably mounted. 7. Printing unit for rotary printing machines according to one or more of claims 1 to 6,
characterized by
that the color reduction unit (7a; 7b; 7c; 7d) can also be used as a cylinder washing device. 8. Printing unit for rotary printing machines according to one or more of claims 1 to 7,
characterized by
that the color reduction unit (7a; 7b; 7c; 7d) is assigned an actuating device which is controlled by a print quality measuring device, which automatically brings it into or out of the active position when at least one machine parameter relevant for determining the print quality reaches its predetermined target value or deviations from it are found. 9. Printing unit for rotary printing presses according to one or more of claims 1 to 8,
characterized by
that the roller (6; 16; 5; 20) of the ink reduction unit (7a; 7b; 7c; 7d), which is attached to the ink-guiding cylinder (1,4), is driven by this by friction. 10. Printing unit for rotary printing machines according to one or more of claims 1 to 8,
characterized by
that one of the rollers (6; 16, 17; 5; 20) of the color reduction unit (7a; 7b; 7c; 7d) can be driven separately.

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