DE4022091A1 - Printing machine ink spreading roller adjuster - has two=way servomotor coupled to following transmissions via spur gear and two drive gears - Google Patents

Abstract

The ink spreading roller (1) of a rotary printing machine is adjusted w.r.t. the forme cylinder (1) by a servomotor which drives two worms (10,21) through freewheels. The worms drive worm wheels (7,20) respectively. Each worm wheel also serves as the cage of an epicyclic drive, with the two epicyclic drives interconnected by a system of gears and levers, enabling the position of the ink spreading roller to be adjusted axially w.r.t. the forme cylinder. ADVANTAGE - Automatic adjustment for each spreading roller.

Description

Field of application of the invention

The invention relates to an adjusting device for Friction rollers in printing machines for adjusting the distribution stroke and trituration while the machine is running.

Characteristic of the known prior art

In most inking units, the color becomes continuous or discontinuously relatively evenly from the ink fountain in the inking unit, d. H. conveyed to the ink rollers. The Decrease in color occurs through the paper, in particular  in sheet printing machines, unevenly. They are the cause Cylinder channels in the area of which no color acceptance takes place, as well as not over the entire print length uniform subject distribution. Because of this difference occur between ink supply and ink removal Color density fluctuations on, which negatively affect the Impact print quality. An essential means of Eliminating these color density fluctuations is the side Rubbing the grater alongside their rotational movement execute an oscillating movement. Latest Insight is the size of the Farbverreibhubes of importance for the formation of Pressure disorders in the form of color templates or Ghosting. Depending on the subject, the size is advantageous the ink rubbing stroke to eliminate stenciling vary. DE-OS 22 28 939 is a device for axial trituration, in which by means of of a transmission organ the phase position of the Rubbing movement of two rubbers each against the Rotation of the plate cylinder during the Machine run is adjustable.

The disadvantage of this facility is that mutual influence of the graters, as by the Connection of both graters via roller lever always on constant stroke or phase offset arises.

Another device for axial trituration, in which each grater has its own drive for the axial Rubbing movement possesses and the rubbing both in their Stroke as well regardless of their phase position is adjustable, discloses the US-PS 33 45 941.

Apart from the fact that the advantages of this facility are only come into their own when every distributor roller has only one Applicator roller is assigned, there is the essential Disadvantage in that a lifting or  Spreader insert adjustment an opening of the side wall required to the eccentric when the machine is turned off to be able to adjust manually, with which the increasing Automation process on the printing press negative being affected.

Aim of the invention

The aim of the invention is to create a Adjustment device for friction rollers, which for Improve the coloring quality and increase the Production output contributes.

State the nature of the invention

The object of the invention is to create a Adjustment device for distribution rollers, with which a automatic adjustment of the distribution stroke, as well regardless of the adjustment of the distribution insert, for each distribution cylinder separately when the machine is running can be carried out.

According to the invention the object is achieved in that a servomotor that can be moved in two directions via one Spur gear and two drive wheels coupled with freewheels each with downstream separate gears for Adjustment stroke and insert adjustment of a friction roller connected is.

The gear for adjusting the distribution stroke is as Coupling gear with frame point shift and the gear to adjust the distribution insert as Orbital gear train, each gear self-locking worm gears are assigned. The rotor of the servomotor is via a clutch with a handwheel connected.  

Embodiment

The invention is intended in one Embodiment will be explained in more detail. In the Drawing shows

Fig. 1 shows a schematic representation of the adjustment device,

Fig. 2 side view according to Fig. 1,

Fig. 3 roller diagram of an inking unit part.

The invention is based on the fact that a plate cylinder 1 is assigned four inking rollers, two inking rollers each interacting with a rubbing roller 2 or 2 ' . Only one system of inking rollers - friction rollers 2 - is described below, since the setting of the second system of inking rollers - friction rollers 2 ' - is carried out analogously.

According to Fig. 1 of the plate cylinder 1 is mounted a gear 3 on the leg, which stands with a double-sized crank wheel 4 is engaged. The crank wheel 4 corresponds to a fixable epicyclic gear 13 , consisting of sun gear 5 , epicyclic gears 6, 8 and a web, which is designed as a worm wheel 7 . The worm wheel 7 works together with the worm 10 . The planetary gear 8 meshes with a second crank gear 9 , which forms a four-bar transmission with a coupling 14 and a rocker 16 .

On this four-bar linkage, a two-stroke, consisting of a fork lever 15 and an angle lever 23 , is arranged. The six-link coupling gear 17 for transmitting the displacement stroke movement from the second crank wheel 9 to the friction roller 2 is designed such that the frame point of the first four-bar linkage 9, 14, 16 can be displaced.

This is done by a further four-bar transmission consisting of the segment 18 , the coupling 19 and a crank wheel designed as a second worm wheel 20 . The second worm wheel 20 is fixed by the second worm 21 . The worm 10 and 21 carry drive wheels 27, 28 on their axis, which are connected to clutches, which in this exemplary embodiment are designed as freewheels 11, 22 .

The drive wheels 27, 28 are coupled via a spur gear 12 to a servomotor 24 which can be moved in two directions of rotation.

The freewheels 11, 22 are switched so that the connection to the screws 10, 21 is made alternately when the servomotor 24 runs counterclockwise or clockwise. The function of the color distribution and adjustment of the stroke and the phase position is as follows.

The axial rubbing is initiated by the half-speed crank movement of the second crank wheel 9 . This movement is transmitted to the friction roller 2 via the six-link coupling gear 9, 14, 16, 15, 19, 23 . The displacement stroke is changed by shifting the frame point of the four-bar linkage 9, 14, 16, 18, 19 by means of the worm 21 .

The distribution insert is changed by the web of the epicyclic gear 13 by rotating the worm wheel 7 and the worm 10 .

The self-locking adjustment of the displacement stroke and insert, which is possible via the two screws 10, 21, starting from the spur gear 12 via the drive wheels 27, 28 with the freewheels 11, 22 is possible purely manually and by motor.

For this purpose, the servomotor 24 , which can be moved in two directions of rotation, is connected to the spur gear 12 either directly or via a gear stage. The control motor 24 is controlled from the central control panel. The rotor of the servomotor 24 can be connected to a handwheel 26 via a clutch 25 .

If the servomotor 24 is now actuated in clockwise rotation, the second freewheel 22 is decoupled and the freewheel 11 is blocked, as a result of which the worm 10 is rotated and a displacement insert adjustment of the friction roller 2 results. Correspondingly in the counterclockwise rotation of the servomotor 24 , the decoupling of the freewheel 11 and consequently the blocking of the second freewheel 22 takes place , which results in a displacement stroke adjustment of the friction rollers 2 . By utilizing the two directions of rotation of a servomotor 24 in connection with the freewheels 11, 22 , the adjustment of the distribution stroke and the distribution insert of a friction roller 2 is achieved automatically or manually with an adjusting means without any problems.

If a certain setting value for stroke or operation has been exceeded, the servomotor 22 must travel another 360 degrees in the same direction of rotation in order to achieve the desired value. This fact arises from the self-locking worm gears 7, 10 and 20, 21 , which have the great advantage that a certain setting does not have to be fixed with screws or the like and the function-related freewheels 11, 22 .

List of reference numbers

1 plate cylinder
2, 2 ' friction roller
3 gear
4 crank wheel
5 sun gear
6 planet gear
7 worm wheel
8 second planet wheel
9 second crank wheel
10 snail
11 freewheel
12 spur gear
13 epicyclic gear
14 paddocks
15 fork lever
16 swingarm
17 coupling gear
18 segment
19 paddock
20 second worm wheel
21 second snail
22 second freewheel
23 angle lever
24 servomotor
25 clutch
26 handwheel
27 drive wheels
28 drive wheels

Claims (3)

1. Setting device for distribution rollers in printing machines for adjusting the distribution stroke and distribution insert while the machine is running, with each distribution roller being assigned two inking rollers, characterized in that a servomotor ( 24 ) which can be moved in two directions of rotation via a spur gear ( 12 ) and two with freewheels ( 11 ) and ( 22 ) coupled drive wheels ( 27, 28 ) are each connected to downstream separate gears for the displacement stroke and insert adjustment of a friction roller ( 2 ). 2. Adjusting device according to claim 1, characterized in that the gear for adjusting the distribution stroke is designed as a coupling gear ( 17 ) with frame point displacement and the gear for adjusting the distribution insert as a planetary gear ( 13 ), each gear ( 17, 13 ) self-locking worm gear ( 7, 10 ) and ( 20, 21 ) are assigned. 3. Adjusting device according to claim 1, characterized in that the rotor of the servomotor ( 24 ) via a clutch ( 25 ) is connected to a handwheel ( 26 ).