EP0726146B1 - Control for a printing machine - Google Patents

Abstract

The control system for a print machine, especially an offset litho machine having a single revolution angle encoder or sensor uses this sensor to control the main operation. The angle sensor determines the plate cylinder position, for example to position for exchange of the plate. So as to position the plate cylinder (P) sensors (SR) are fixed to scan markings on the cylinder, and connected to the control unit (S). The command angle is stored for the desired position, and a difference is calculated between the command angle and the detected angle from the sensor for cylinders not in position to generate a new command angle.

Description

The invention relates to a control for a printing press according to the preamble of Claim 1.

Sheet-fed offset printing machines generally have a device on the plate cylinder to decouple the plate cylinder from the drive gear and the gear train. Devices are known in which the plate cylinder up to one entire rotation can be rotated relative to the drive gear. Such facilities are often called circumferential coarse register adjustment. Has a sheetfed offset press an angle encoder (incremental encoder, absolute angle encoder), by means of in connection with the downstream main drive of the printing press the plate and blanket cylinders can be moved into certain positions, so this is only possible if the plate cylinders in the so-called Are zero position, i.e. a previous coarse circumference register adjustment again has been canceled. The reason for this is that in the control for the individual printing unit cylinders are given angle values, which are then over the Main drive to be started, for example to insert a new pressure plate to achieve a favorable position of the pressure start clamping rail of the plate cylinder. This applies in particular to printing presses that are semi or fully automatic Have printing plate changing devices.

The same problem with moving to certain plate or blanket cylinder positions arises in sheetfed offset presses with convertible sheet turning devices. The plate and blanket cylinders in the printing units after the In the operating condition, perfecting and reverse printing are accordingly format-dependent rotated relative to the basic position, so that via an angle encoder - for example on first printing unit - the specified positions can no longer be reached.

DE 3 342 662 A1 describes a device on a printing press consisting of a Plate and / or blanket cylinder known, in which on the plate cylinder Actual position encoder is attached, by means of this in connection with predetermined target values the plate cylinder and / or the blanket cylinder in predetermined positions can be moved. This actual position encoder can be an angle encoder or but it can also be a contactlessly scanning switch. On the problem of Adjustability of plate cylinders is not dealt with in this document, so that at one To arrange printing machine with several printing units according to several angle encoders are what can be regarded as disadvantageous due to the high construction costs.

From DE 3 940 796 C2 it is also known to have a rotating cylinder with the plate cylinder To provide an angle encoder for an automatic pressure plate change. Also in this document addresses the problem of the circumferentially adjustable plate cylinder not received, so that the disadvantages mentioned above also apply.

DE 9 202 899 U1 describes a device for detecting the plate cylinder position known, which consists of a frame-mounted, non-spaced sensing sensor, who feels a mark made on the plate cylinder. Like the signals that come with everyone Rotation of a plate cylinder arise, but is processed, is in this Scripture not described.

The object of the present invention is therefore a control device according to the preamble of claim 1 to further develop such that in a simple manner compared to Main drive adjustable cylinders can be moved exactly to specified positions can.

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 with the drive of the printing press and a control unit connected to a rotary encoder rotating in addition still receives the signals from sensors, which markings on the plate cylinders scan. Various angle values are stored in the control, which serve, for example, the plate cylinders provided in the individual printing units Positions to move. Angle values are also stored in the control, which correspond to the values of the angle encoder when the individual sensors emit signals, the plate cylinders are in their zero position. Are now one or more Plate cylinder in the circumferential direction with respect to the respective zero position twisted like that can be determined by the control that the stored angle value for a plate cylinder with the angular position determined by the sensor when the marking is detected does not match. This difference is now reflected in the control Target angular values for positioning the plate cylinder in predetermined positions are included. These positions are again approached by the angle encoder detected actual position values of the printing press in connection with those modified in this way Target values.

Furthermore, an exemplary embodiment of the invention is explained using the Drawing. The figure shows the first five printing units of a sheetfed offset press in a row. An angle encoder WG is attached to a system drum A, which is designed as an absolute encoder according to the exemplary embodiment. The position signals this angle encoder WG are fed to a controller S. The control S is connected to the main drive HA of the printing press and gives to it appropriate commands to move to specified target positions. These are in the controller S stores a plurality of (first) target angle values which determine Positions of the plate cylinder P in the individual printing units correspond. Here it can be provided that several target angle values for a plate cylinder are present So around this plate cylinder, for example, in a position for inserting one Pressure plate in the pressure start clamping rail, for inserting the pressure plate trailing edge position in the print end clamping rail etc. Furthermore, in the control S target angle values for the individual plate cylinders are also stored in the printing units, which serve the cylinder-related activation of certain actuators. Be here for example, the turning on and off of dampening and / or inking rollers.

In the individual printing units, the plate cylinders P are assigned fixed sensors SR, which feel the markings made on the individual plate cylinders P. The individual sensors SR give a signal with each rotation of the plate cylinder P. when the mark passes the respective sensor.

The control S also contains (second) angular position values for the individual plate cylinders P stored, which correspond to those angle values when the sensors SR detect the markings on the plate cylinders P in the undisguised basic state. The controller S now performs a comparison of the actual angular position for each sensor SR when emitting a signal with the associated stored angle value. Is this difference is zero, the plate cylinder is not adjusted, so it is in its basic position. Now this plate cylinder is to be moved to a predetermined position be, e.g. B. for inserting a pressure plate leading edge into the pressure start clamping rail, the control S does this with the corresponding stored (first) Target angle values in connection with those recorded via the angle encoder WG Actual angle values by.

In the case of an adjusted plate cylinder P, that is correct when the corresponding signal is emitted Sensor SR detected angle value does not match the stored (second) angle value, so that there is a difference. This difference is now with the associated target angle value a position to be approached by this plate cylinder, i.e. under Consideration of a sign (direction of rough register adjustment) added. If this adjusted plate cylinder P is, for example, in the printing start position method a new setpoint angle value for starting is now given to this position (determined angle difference plus stored first setpoint angle value). In a known way Control S now controls the main drive HA until the over the angle encoder WG recorded actual angle value of the machine equal to the newly calculated and target angular value for the corresponding position.

To check the functional state of the individual sensors SR, provision is also made for that during a machine run - this can be done by querying a suitable signal, for example, the main drive HA - the presence of edge changes is checked. In the absence of an edge change of a sensor SR, a fault can then occur can be concluded, for example, that the sensor SR itself is defective is or that the suspension of the sensor SR is bent.

Reference list

A

Feed drum

HA

Main drive

Flat share

Angle encoder

S

control

P

Plate cylinder

SR

sensor

Claims (2)

1. Control device for a printing press, particularly an offset sheet printing press, which has a single turn running angle transmitter, which is connected with a control and via the control operatively connected with the main drive of the printing press a moving to preset cylinder positions takes place by comparison of the actual angle value provided by the angle transmitter with stored desired angle values, characterised in that sensors (SR) fixed with respect to the frame are arranged relative to the plate cylinders (P), which sense in contact-free fashion markings applied to the plate cylinders (P), that the sensors (SR) are connected with the control (S) and this contains as well as first desired angle values for moving to preset positions second angle values in stored form, which emerge if the sensors (SR) detect a marking on a non-adjusted plate cylinder (P), and that the control (S) is constructed for this to calculate in each case a difference between the actual angle value on signal output of a sensor (SR) and the respective stored second angle value with unadjusted plate cylinder (P) and to calculate this for moving this plate cylinder (P) into a preset position in combination with the respective desired angle value.
2. Device according to Claim 1, characterised in that by the control (S), checking of the signals of the sensors (SR) can be carried out in the presence of a change of side during press running.

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