EP0807520B1 - Tripping device for a printing cylinder - Google Patents

Abstract

The pressure switch is for a press in which the cylinder is fitted relative to the other cylinders with which it operates by eccentric bearings able to turn in the walls of the mounting. An operating device for the bearings is acted on by the pressure switch. There are also stops to set the axial clearance and turning limits of the bearings. There is an operating device on both the A side and the B side of the cylinder (1) for its eccentric bearings (2). There is also an adjustable stop (6,7) on each side for the pressure-setting position of the eccentric bearings, with identical setting drives (5).

Description

The invention relates to a pressure switching device according to the preamble of claim 1.

In printing press construction, it is generally known that printing couple cylinders can be pivoted Eccentric bearings on and with other cylinders interacting with these cylinders can be stored in a parkable position. In sheetfed offset presses, the one with the Plate and counter-pressure cylinder interacting rubber cylinder by appropriate Swiveling the eccentric bearing against the impression cylinder on and turned off and opposite the plate cylinder interacting with the blanket cylinder turned on and off. Often subordinate to sheetfed offset presses Painting facilities or painting plants, in which the paint application by means of one opposite the impression cylinder can be turned on and off, the will also Forme cylinder via swiveling eccentric bearings (A and B side) in the machine frame carried. In such a painting device or in such a coating unit can it is sufficient to only remove the form cylinder from the impression cylinder when printing is interrupted turn off and vice versa to turn on the still turned off Place the forme cylinder back on the impression cylinder (single-stage pressure circuit). In offset printing units (sheetfed offset printing press) the blanket cylinder is over one so-called two-stage gearbox on and against the impression cylinder adjustable, with constant contact to the plate cylinder, and in a second step additionally can also be switched on and off from the plate cylinder.

The well-known pressure shift transmission both in the printing units of sheet-fed offset printing machines as well as the known painting devices or coating units have for production the actuating devices which can be acted upon by pressure medium, especially in the form of pneumatic cylinders. These trained as working cylinders Actuators are attached to one side of the machine (A side or B side) and act on a between the side frame walls supporting the cylinder extending moving shaft. This pull-off wave is over at the end attached levers and any intermediate transmission links directly with the pivotable eccentric bearings of the adjustable and detachable cylinder connected. For on and off Parking a forme cylinder in a painting device or in a coating unit is called Actuator a so-called double-acting, single-stage working cylinder (Pneumatic cylinder) is used, through which the forme cylinder to the impression cylinder can be switched on and off again. By additionally in this pressure switching mechanism integrated adjustment devices is the center distance of the forme cylinder opposite the impression cylinder adjustable, which allows adaptation to different substrate thicknesses serves.

The mechanism described above for a printing unit of a sheet-fed offset printing press usually differs only in that a so-called actuator two-stage, double-acting cylinder is used to move over the release shaft the two eccentric bearings of the blanket cylinder in a total of three positions pivot, in a first position the blanket cylinder on both plate and also operated on impression cylinder, in a second position with the same Contact to the plate cylinder is turned off by the impression cylinder and in a third Position of both the impression cylinder and plate cylinder is turned off. Also at The pressure switching devices in sheetfed offset printing units are these pressure switching mechanisms Assigned adjusting devices, by means of which one of the substrate thickness dependent change in distance via appropriate pivoting of the eccentric bearing Blanket cylinder is achievable.

A disadvantage of the previously described pressure switch devices for printing units of sheet-fed offset printing machines or for coating facilities / coating units of sheetfed offset printing machines is that a extending shaft extending between the frame walls is to be provided, via which the pivoting movement of the eccentric bearings on the A and the B-side is caused by an actuator. Such a course Move-off shaft in the vicinity of the printing zone between the blanket cylinder and the impression cylinder or the pressure zone between the forme cylinder and the impression cylinder (Coating device / coating unit), there is a risk that the incoming or outgoing sheet comes into contact with this shift shaft and lubricated if necessary. As a result, there are additional ones Measures for substrate management required, which increases the construction effort elevated. In order to prevent this problem, there is still the possibility of the release shaft in one of the contact zones between the blanket cylinder and the impression cylinder or to move the forme cylinder and impression cylinder distant area, however again the disadvantage of additional transmission elements in such pressure switching devices conditionally. The known pressure switching devices build in particular from the Equipment used for printing material thickness adjustment is relatively complex, which means high production costs conditionally.

From DE-A-3 904 336 is a device for turning on and off Printing cylinder known in which the blanket cylinder on both sides in pivotally mounted eccentric bearings and each of the Eccentric bearing is pivotable via its own working cylinder.

A printing unit for a rotary printing press is known from DE-U-9 320 813, where the cylinders are turned on and off via eccentrics. The two ends drives for swiveling are assigned to the cylinder.

DE 4 401 289 A1 describes a cylinder starting and stopping method, together with a corresponding one Device known for two impression cylinders, in which the adjustable cylinder bearing eccentric bearings are pivoted by an actuator and this interacts with an adjustable stop. By setting this appropriately A stop is compared to an adjustment of the cylinder that is dependent on the substrate thickness the cylinder interacting with it. Disadvantageous from this Known pressure switching device step is in addition to that set out in the variants described Plenty of necessary parts in addition, that a simple transfer to painting facilities / coating units or sheetfed offset printing units because of the problem described above the lubrication of a sheet on an extending between the A and B side Moving wave is not possible. Furthermore, it is considered disadvantageous that this Pressure switch device the actuating device either indirectly (e.g. with interposition a gear pair) acts on the eccentric bearing (s) or the interaction to the pressure defining stop with the corresponding one Swivel mechanism is chosen structurally unfavorable. There is also an inclination the cylinder against each other (across the format width of different line pressure) not possible when the machine is running.

The object of the present invention is therefore a pressure switching device according to the Preamble of claim 1 to develop such, so that avoiding the above Disadvantages mentioned offering an inexpensive and flexible adjustment options Solution is created.

This problem is solved by the characterizing features of claim 1. Further training the invention emerge from the subclaims.

According to the invention it is provided that both on the A and on the B side of the Printing machine (the offset printing unit or the coating device / coating unit) both an actuating element acting to pivot the respectively assigned eccentric bearing as well as an adjusting device for each interacting with the actuating element Stop is provided. This is what happens for pressure switching The actuating elements on the A and B sides are triggered simultaneously. To set the Forme cylinder opposite the impression cylinder or the blanket cylinder opposite the impression cylinder according to the substrate thickness are the most A and B-side arranged adjustment devices (remotely controllable servomotors) accordingly controlled at the same time. It is an additional advantage of the invention that the actuators adjusting the stops are also driven by different position amounts can be, so that there is an intended inclination of the forme cylinder or the blanket cylinder compared to the impression cylinder interacting with it can be achieved. This serves to adapt the line print to the substrate or depending on the subject to be printed. A different and across the format width especially one-sided stronger setting of the forme or blanket cylinder compared the impression cylinder is used in particular in coating facilities or coating units Use, for example, to apply a uniformly strong, uniformly thick paint film on the To produce printing material.

The present invention can be used both in painting devices or coating units apply, in which a forme cylinder compared to a sheet-guiding impression cylinder is arranged on and off, as well as in the printing units of sheetfed offset printing machines, in which a blanket cylinder opposite the impression cylinder as well as the plate cylinder can be turned on and off. This is advantageous in the latter case, a two-stage, double-acting cylinder as an actuator used on A and B side.

Fig. 1 - 3

die an der A- und B-Seite der Maschine (des Zylinders) in gleicher Weise ausgebildete Druckschaltvorrichtung gemäß der Erfindung,

Fig. 4

die Erweiterung der erfindungsgemäßen Druckschaltvorrichtung bei Verwendung eines zweistufigen Arbeitszylinders als Betätigungseinrichtung, und

Fig. 5

die einzelnen Stellungen eines Gummituchzylinders bezüglich der mit ihm zusammenwirkenden Gegendruck- bzw. Plattenzylinder entsprechend der Stellungen der Fig. 1 - 4.

Furthermore, an embodiment of the invention is explained with reference to the drawings. It shows:

1 - 3

the pressure switching device according to the invention, which is formed in the same way on the A and B sides of the machine (the cylinder)

Fig. 4

the expansion of the pressure switching device according to the invention when using a two-stage working cylinder as an actuating device, and

Fig. 5

the individual positions of a blanket cylinder with respect to the counter-pressure or plate cylinder interacting with it in accordance with the positions of FIGS. 1-4.

In Figures 1 to 4, for example, the A side of the pressure switching device according to the invention on a printing unit, not shown, of a coating device, a coating unit or a sheetfed offset machine. A cylinder 1 is both on the A- also rotatable on the B side of the printing unit via the pins in eccentric bearings 2 added, these eccentric bearings 2 pivotable in side walls, not shown of the printing unit are stored. In Figures 1 to 4 with MZ are the center of the cylinder 1 and marked the center of the eccentric bearing 2 with ML (swivel or rotation axis).

By pivoting the pivotable on the A and B side in the not shown Eccentric bearing 2 mounted on the frame walls can thus be the cylinder 1 in its center distance compared to the cylinders not shown in Figures 1 to 4 (Fig. 5).

The eccentric bearings 2 on the A and B sides each have a lever designed as an arm 3, at the free end of which the piston rod of a one- or two-stage design, double-acting working cylinder 4 is articulated. The working cylinder 4 is supported with a pivot point from the frame. Both on the A and B sides are the Levers 3 of the eccentric bearings 2 are each assigned an adjustable stop 6 via an actuator 5, so that the pivoting movement of the eccentric 2 / the lever 3 in each case Extended position of the piston rod of the working cylinder 4 can be limited. In the Position according to Figure 1 is the lever 3 of the eccentric bearing 2 on the stop 6 of the Actuator 5 on (A and B side), which is the so-called pressure-on position corresponds to at which (except for a distance due to the substrate thickness) the cylinder 1 (Blanket cylinder / forme cylinder) on the cylinder or cylinders interacting with it is employed.

In the actuator 5 or that of the actuator 5 adjustable relative to the lever 3 of the Eccentric bearing 2 movable stop 6 can be an electrically remote controlled Act spindle drive, the rotatable threaded spindle by a corresponding screwed to the frame is screwed through.

Starting from a position according to Figure 1, in which the cylinder 1 in the extended Position of the piston rod of the working cylinder 4 on the stop 6 of the frame drive 5 is present (pressure on position) by retracting the piston rod of the working cylinder 4 and thus the eccentric bearing 2 of the cylinder 1 can be turned off. In particular, can a further stop 7 (each on the A and B side) as additional end position damping be arranged. Figure 3 shows the position in which the cylinder 1 through corresponding pivoting of the eccentric bearing 2 (at stop 7) completely from the or the cylinder interacting with it is turned off. Starting from the position According to FIG. 3, the pressure is turned on by extending the piston rod of the working cylinder 4 of the cylinder 1 by the lever 3 again in contact with the stops 6 of the actuators 5 located on both the A and B sides. For printing on as the cylinders 4 (A and A) are also pressurized B side) simultaneously or synchronously.

As can be seen from FIG. 2, by actuating the actuators 5 accordingly A and B side (at the same time) the stroke of the piston rod of the working cylinder 4 when extending and thus pressure-on-places are limited. This results in a on the A and B side moving the actuators 5 in the same direction, an overall parallel center distance adjustment of the cylinder 1 relative to the cylinder or cylinders cooperating with it. According to the invention can also be provided, e.g. the actuator 5 on the A side with different actuating commands than actuator 5 on the B side (with machine running), so that the stops 6 a different pivot position the eccentric bearing 2 cause what an inclination of the axis of the cylinder 1 compared the other cylinder axes.

An embodiment of the invention according to the invention has been described above with reference to FIGS Pressure circuit described in the form of a single-stage pressure circuit. The working cylinders 4 were therefore designed as so-called single-stage, double-acting working cylinders. By using two-stage, double-acting working cylinders (series connection two corresponding single-stage working cylinders) results in a two-stage pressure circuit, in which, for example, a blanket cylinder of an offset printing unit both against and against the impression cylinder as well as against the plate cylinder can be switched off. Such a position is shown in FIG. 4, the piston rod here Working cylinder 4 occupies the so-called center position and consequently the lever 3 Eccentric bearings 2 have neither contact with the stops 6 nor with the stops 7.

Figure 5 shows the possible positions of a blanket cylinder G relative to the Impression cylinder D and plate cylinder P of an offset printing unit. It is indicated furthermore the sheet-like printing material resting on the impression cylinder D. Above The so-called pressure-on position, in which the Blanket cylinder G both contact the plate cylinder P and the impression cylinder D takes. To the right is shown a position in which by pivoting the eccentric bearing 2 (FIGS. 1 to 4) of the blanket cylinder in the same direction G stronger on the impression cylinder D with constant contact compared to the Plate cylinder P is employed. This corresponds to a greater pressure provided by the blanket cylinder G compared to the impression cylinder D. The positions of the blanket cylinder G with different provision (center distance) compared to the impression cylinder D correspond to the positions of the eccentric bearings 2 according to FIGS. 1 and 2.

The first pressure-down position is described at the bottom left in FIG Activate the working cylinder 4 (Figures 1 to 4) of the blanket cylinder G is switched off from the impression cylinder D, but still contact to the plate cylinder P having. Such a position of the blanket cylinder G corresponds to the position of the Eccentric bearing 2 according to FIG. 4. An action on the other working chambers of the working cylinders 4 causes a further shutdown movement by pivoting the eccentric bearing 2 the blanket cylinder G, so that it is now also from the plate cylinder P is turned off. This corresponds to a pivoting of the eccentric bearing 2, starting from 4 to the position according to FIG. 3.

In conclusion, it should be noted that in the embodiment described above the invention, in particular in connection with Figure 5, a two-stage pressure circuit has been described, in which a blanket cylinder G compared to the The impression cylinder D and the plate cylinder P can be turned on and off. Under use of single-stage working cylinders 4 on both the A and B sides as well as the otherwise constant components (actuators 5, stops 6, 7) is now also a Forme cylinder of a painting device, a coating unit or another to and adjustable Cylinder finishing device can be actuated.

Reference list

1

cylinder

2nd

Eccentric bearing

3rd

lever

4th

Working cylinder

5

Actuator

6

attack

7

attack

P

Plate cylinder

G

Blanket cylinder

D

Impression cylinder

MZ

Middle (cylinder 1)

ML

Middle (eccentric bearing 2)

Claims (4)

1. Print tripping device for a cylinder of a printing press, preferably the blanket cylinder (G) of an offset printing press or the forme cylinder of varnishing devices, wherein the cylinder (1) is mounted on both sides via eccentric bearings (2) mounted in each case swivellably in the frame walls against the cylinders (P, D) cooperating with it and fitted to the eccentric bearings (2) are an actuation device (4) for print tripping as well as stops (6) adjustable for axial distance adjustment and limiting the amount of swivelling of the eccentric bearings (2), characterised in that both on the A side as well as the B side of the cylinder (1), the eccentric bearings (2) are equipped in each case with an actuation device (4) as well as for axial distance adjustment of the position corresponding to the print on position of the eccentric bearing (2) in each case an adjustable stop (6), wherein the stops (6) on the A and B side of the cylinder (1) in each case are fitted with identical adjustment drives (5) and that the stops (6) on the A and B side of the cylinder (1) can be adjusted via the fitted adjustment drives (5) both by the same and also by differing amounts.
2. Print tripping device according to Claim 1,
   characterized in that the actuation devices of the eccentric bearings (2) on the A and B side of the cylinder (1) are constructed as single-stage double-acting working cylinders.
3. Print tripping device according to Claim 1,
   characterised in that the actuation devices of the eccentric bearings (2) on the A and B side of the cylinder (1) are constructed as two-stage double-acting working cylinders.
4. Print tripping device according to one of the preceding Claims, characterised in that for actuation of the actuating device (4) on the A and B sides of the cylinder (1) a control is provided actuating the actuation devices (4) simultaneously and in the same sense.

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