DE102005035622A1 - Device for emergency operation of printing machine has coupling elements which in event of failure of individual drive connect driving toothed pinion to rotational component in predetermined relative rotational angular position - Google Patents

Abstract

The device for emergency operation of a printing machine with one or more rotational components has driving toothed pinions (5) in drive communication with a drive wheel train (ARZ) and mounted coaxially and rotationally movable in relation to the rotational components (1) with individual drive (3). Coupling elements acting in a positive locking or non-positively locking manner are allocated to the driving toothed pinions and in the event of failure of an individual drive connect the driving toothed pinion to the rotational component in a predetermined relative rotational angular position.

Description

The The invention relates to a device and a method for emergency operation a printing press with one or more rotating bodies with permanent Single drive and with a drive wheel for the central drive another Rotating body.

Printing material and printing image leading rotary body in the printing units of printing presses are either jointly (centrally) driven by a continuous drive wheel train or mechanical longitudinal shafts of a main motor and / or are equipped with separate drives (single drives). Are known drives for printing machines in which the previously customary mechanical drive coupling of the plate cylinder and / or blanket cylinder is permanently canceled with the central drive wheel train and these rotary bodies are each driven separately separately ( DE 196 23 224 A1 . DE 199 03 869 A1 ). Furthermore, drive solutions are known in which individual rotational body are removed only temporarily for faster implementation of certain auxiliary processes by means of clutches from the drive wheel train and connected to a single drive and coupled after completion of the auxiliary process again in the Antriebsräderzug ( DE 19723147 A1 ).

If a cylinder group, eg all plate cylinders, is driven separately by single drives, the functionality of the machine expands (eg parallel plate change in all printing units). The disadvantage, however, is that in case of failure of one of the modules that are necessary for a permanent single drive (motor, drive controller, rotary encoder ...), the individually driven rotating body in the printing unit of the machine control can not be synchronized with the other bodies of revolution and therefore his Function is no longer fulfilled and the press is thus up to a repair is no longer available in full functionality, ie not all colors are printed or jobs with large color gamut can not be edited. From the DE 197 02 963 A1 It is known to connect the failed individual drive with other individual drives by means of detachable mechanical longitudinal shafts and mechanical standing waves in case of failure of an electrically synchronized permanent single drive in a web press. A disadvantage is the cost of the additional shafts and couplings.

From the DE 197 08 985 C1 It is known in the case of networked individual drives and failure of the cross-bus system for the transmission of the command values of the axial positions to use a motor position feedback from a technologically upstream drive for accurate angular position control and transfer to the respective nachge single drive , However, this solution only compensates for errors in the conductance transfer and requires the functionality of the individual drives.

Of the Invention is based on those known from the prior art Disadvantages underlie the task, a printing machine with permanent Individual drives with the simplest means in such a way that the functional scope of the printing press at least in printing operation remains in case of failure of a single drive.

According to the invention Task by a device having the features of the first claim or a method with the features of the second claim solved.

For permanent Single drives, i. in individually driven bodies of revolution, the not by means of clutches for the realization of certain modes with the drive wheel train can be coupled, is a simple and space-saving feasible possibility created, at least for the continuation of the printing operation all individually driven rotating body mechanically with the drive wheel train to pair. In case of failure, the single drive can be out of operation be set and the associated rotary body is conventional in emergency operation of Main drive over the drive wheel train driven.

The inventive solution the advantage that in case of failure, for example, of the single drive motor, the drive controller or a rotary encoder is possible, through a cost-effective, easy producible mechanical connection of the previously individually driven rotating body with the drive wheel train the printing press continues until the arrival of a spare part operate.

The Invention is based on the example of a plate cylinder with single drive be explained in more detail in the printing unit of an offset rotary printing machine. The associated Drawing shows

1 Representation of a section of the drive of a plate cylinder of an offset rotary printing press

Like from the 1 can be seen, is a permanent single drive 3 with the drive shaft 2 one plate cylinder 1.P connected in a printing unit of an offset rotary printing machine. From single drive 3 only the drive motor is shown, with a torque arm 4 is mounted on a side frame. On the drive shaft 2 are still a rotatably mounted drive gear 5 and a rotatably mounted Antriebsele element 6 arranged side by side. The rotatable drive wheel 5 is part of a continuous drive wheel train ARZ, the cross-works all central to be driven cylinders, rollers and drums connects, and is used in the embodiment of the transmission of the drive torque to an associated inking Fa. Since the plate cylinder 1.P is released from the central drive, transmits the drive gear 5 in normal operation no torque on the plate cylinder 1.P , The rotatably mounted drive element 6 may for example be an existing gear or an additional disc. If the single drive 3 of the plate cylinder 1.P coupled in an advantageous drive variant with the associated dampening Fe, the gear is used to forward the drive torque of the single drive 3 to the dampening unit Fe. Between the drive gear 5 and the drive element 6 is a coupling element 7 arranged, the only in a predetermined rotational angle relative position between the drive gear 5 and drive element 6 produces a positive or non-positive connection.

For example, this can be done by a threaded bolt 7.B happen to do so in the driven by the drive wheel of the printing press drive gear 5 is arranged eccentrically and axially parallel in a threaded bore and for torque coupling with the drive element 6 by turning so far in the direction of the drive element 6 is shifted until it is in a corresponding hole 8th in the drive element 6 intervenes. The threaded bolt 7.B is centrally screwed at its end with a cylindrical piece whose cross-section is adapted to the torque to be transmitted. The hole 8th is adapted to the cylinder cross-section.

With the help of the threaded bolt 7.B can by a simple intervention of the printing personnel a mechanical connection between the plate cylinder 1.P and the drive wheel train ARZ be produced. The coupling option is advantageously designed so that for the purpose of ease of use by the printing staff, the necessary parts for coupling are already available as standard equipment and only need to be coupled with minimal effort. A particularly advantageous coupling possibility then arises, although the drive element 6 already part of the usual printing press equipment and, for example, to drive the dampening Fe with the single drive 3 serves.

Instead of the threaded bolt 7.B are also other easy to implement positive or non-positive drive connections suitable.

The coupling can be configured in a further development such that the coupling within a rotation angle range with respect to the rotational angle relative position between plate cylinder 1.P and drive wheel train ARZ is adjustable in order to adjust the position of the print start line if necessary.

For the operation of the device according to the invention:
If a single drive fails 3 for a plate cylinder 1.P During a brief printing stoppage, the plate cylinder becomes off 1.P turned into the correct rotational angle relative position to the drive wheel ARZ and the threaded bolt 7.B into the hole 8th of the drive element 6 screwed. The threaded bolt 7.B has to the cylinder piece on a centering slope. This is a simple way a rotationally fixed connection of the previously rotatable drive gear 5 with the drive shaft 2 via the drive element 6 manufactured and the plate cylinder 1.P is now driven in emergency mode until the arrival of a replacement drive in a known manner centrally from the drive wheel ARZ.

As it is in printing units with single drive 3 no mechanical Umfangsregisterstellmöglichkeit is, has the centrally driven in emergency operation plate cylinder 1.P also no possibility for a mechanical circumferential register adjustment. The task of producing the circumferential register between the printing units within the printing press is achieved in that the circumferential register in the factory in which the plate cylinder 1.P was mechanically coupled with the drive wheel train ARZ, is not adjusted. Instead, the printing unit with the central plate cylinder drive serves as a reference for the circumferential register setting in the other printing units.

Instead of the plate cylinder 1.P the device according to the invention is suitable for each rotary body with single drive, such as for blanket cylinder, impression cylinder or transfer drums.

For adjustment or service work on a rotating body 1 with single drive 3 or even with emergency stop circuit is the single drive 3 de-energized. The then missing braking torque entails a risk of injury due to the freely rotating body of revolution 1 and the danger of crushing. For acting on the rotating body 1 with a braking torque or for safe rotation angle fixation, the drive connection between the rotary body 1 and the drive gear 5 by means of coupling element 7 also for adjustment and service work be prepared.

1

body of revolution

1.P

plate cylinder

2

drive shaft

3

individual drive

4

torque arm

5

swivelable Drive gear within the drive wheel train

6

rotationally fixed driving element

7

coupling element

7.B

threaded bolt

8th

drilling

ARZ

drive wheel

fa

inking

Fe

dampening

Claims (8)

Device for the emergency operation of a printing machine with one or more bodies of revolution with permanent single drive and with a drive wheel for the central drive further rotation body, characterized in that - with the drive wheel train (ARZ) in a drive connection standing drive gears ( 5 ) coaxial and rotatable with the bodies of revolution ( 1 ) with single drive ( 3 ), - positively or non-positively acting coupling elements ( 7 ) the drive gears ( 5 ), which in case of failure of a single drive ( 3 ) in a predetermined rotational angle relative position of drive gear ( 5 ) and rotational body ( 1 ) the drive gear ( 5 ) with the rotary body ( 1 ) rotatably connect. Method for operating a printing machine with a device according to claim 1, characterized in that - in the event of failure of a single drive ( 3 ) by the coupling element ( 7 ) a drive connection between the rotary body ( 1 ) with failed single drive ( 3 ) and the drive gear ( 5 ) and otherwise - the drive gears ( 5 ) no drive torques on the rotary bodies ( 1 ) with single drive ( 3 ) transfer. A method according to claim 2, characterized in that the drive connection between the rotary body ( 1 ) and the drive gear ( 5 ) also for adjustment and service work, whereby the single drive ( 3 ) is de-energized. Apparatus according to claim 1 or method according to claim 2, characterized by eccentrically on the drive gears ( 5 ) arranged coupling elements ( 7 ), in a predetermined rotational angular position range in rotation with the drive shaft ( 2 ) the rotating body ( 1 ) connected drive elements ( 6 ) intervene. Device according to claim 1 or method according to claim 2, characterized in that the rotational bodies ( 1 ) Plate cylinder ( 1.P ) and the drive gears ( 5 ) Drive inking units (Fa). Device or method according to claim 4, characterized in that a coupling element ( 7 ) each by an axially adjustable threaded bolt ( 7.B ) formed in a corresponding bore ( 8th ) in the drive element ( 6 ) intervenes. Device or method according to claim 4 or 6, characterized in that the drive element ( 6 ) is a drive gear for a dampening unit (Fe). Apparatus according to claim 1 or method according to claim 2, characterized in that upon actuation of a coupling element ( 7 ) the associated printing unit serves as a reference printing unit for the circumferential register setting of the other printing units.