EP0453844A2 - Auxiliary drive for the fountain roller of an offset printing machines - Google Patents

Abstract

An auxiliary drive for the ductor roller of a sheet-fed offset press continues to advance the ductor roller in small angular steps during press stoppages. The damping unit drive which continues to run during press stoppages drives the ductor roller stepwise by way of an eccentric drive linkage and a ratchet wheel disposed on the ductor roller journal. When the press is running, a rocker lever in the drive linkage can be pivoted away from the throw zone of the eccentric for example, by a piston actuated by oil pressure of the press's oil supply system. In alternative embodiments, the lever arm can be pivoted away by a compressed air cylinder or a suction cylinder which become operative when the press is running.

Description

The invention relates to an auxiliary drive for the ink fountain roller of an offset printing machine, in particular sheet-fed offset printing machine, according to the preamble of claim 1.

In inking units of offset printing presses, the ink requirement is adjusted over the length of the ink fountain roller using ink knives or dosing elements. The ink fountain roller rotates when the machine is running in adjustable angle steps.

For the drive of the ink fountain roller in large offset printing presses, a separate motor is usually provided along with the gearbox and control electronics. In the case of small offset printing presses, the drive is often carried out mechanically, in which, for example, a shaft derived from the machine drive has a crank pin and a drive rod articulated thereon carries out oscillating movements corresponding to the speed. The other end of the drive rod is articulated on a freewheel (detent gear) mounted on the drive pin of the ink fountain roller and thus causes angular step movements of the ink fountain roller. Examples of this are known from DE-PS 1 000 400 and DE-Gbm 8 628 071.

In the event of a machine standstill, and accordingly the ink fountain roller also came to a standstill, the printing ink would run out through the gap between the ink knife / metering element and the ink fountain roller in a time dependent on its toughness / toughness and thus contaminate machine parts located underneath. This can be avoided if the ink fountain roller remains driven during machine downtimes. This creates a stationary ink film on the ink fountain roller and prevents it from running out.

In the case of large offset printing presses with their own ink fountain roller drive, this only has to remain activated when the machine is at a standstill, for example in order to continue rotating the ink fountain roller in steps. In the case of small offset printing machines with an ink fountain roller drive derived from the main drive, however, a separate drive must be provided in the event of a machine standstill. This suggests e.g. the subject of U.S. Patent No. 4,007,683. When the machine comes to a standstill, an auxiliary drive in the form of a separate motor continues to drive the ink fountain roller. The auxiliary drive is connected via a freewheel to the drive pin of the ink fountain roller, so that this is automatically uncoupled when the machine is running and the auxiliary drive is switched off. It also belongs to the state of the art not to arrange a separate auxiliary drive in the form of an auxiliary motor on each ink fountain roller in several printing units, but rather to have several ink fountain rollers driven by only one auxiliary motor when the machine is at a standstill, for example by means of flexible shafts.

A disadvantage of such solutions, however, is that auxiliary motors only have to be provided for driving the ink fountain roller when the machine is at a standstill. In the case of small offset printing machines in particular, the drive expenditure is reduced by the fact that the ink fountain roller is driven mechanically by the rotation of the machine itself.

The object of the present invention is therefore to provide an auxiliary drive for the ink fountain roller of an offset printing machine according to the preamble of claim 1, which takes over the gradual rotation of the ink fountain roller during machine downtimes with the least technical effort and also turns itself on and off.

The object is achieved by the characterizing features of claim 1. Advantageous refinements result from the subclaims in conjunction with the description and the drawings.

The invention is explained in more detail below using an exemplary embodiment.

Fig. 1

eine Druckmaschine nach dem Stand der Technik,

Fig. 2

eine Ausführungsform eines Hilfsantriebes nach der Erfindung,

Fig. 3 a-e

weitere Ausführungsformen.

In the accompanying drawings:

Fig. 1

a printing machine according to the prior art,

Fig. 2

an embodiment of an auxiliary drive according to the invention,

Fig. 3 ae

further embodiments.

1 shows a printing unit of an offset printing machine according to the prior art. The ink fountain roller 1 is rotated gradually, for example as known from DE-Gbm 8 628 071 or DE-PS 1 000 400, when the machine is running via a gear. Printing ink thus reaches the printing plate mounted on a plate cylinder P via a siphoning roller and further rollers and inking rollers F (not shown). In the direction of rotation of the plate cylinder P in front of the inking unit, a dampening unit 2, 3, 4 is arranged, which is designed as a film dampening unit with its own dampening unit drive 5. A film dampening system with its own drive is known for example from the book: "Offsetdrucktechnik", 6th edition 1989, Fachschriftenverlag 7012 Fellbach, page 437ff. A scoop roller 3, which is infinitely variable in speed by its own dampening unit drive 5, is partially immersed in a dampening solution tank 4 and delivers the dampening solution to the other dampening unit rollers 2. Since an adjustable gap is formed for metering between the scoop roller 3 and a dampening unit roller 2, such a dampening unit can still be driven even when the machine is at a standstill and continues to be driven so that a damp film is always present on the scoop roller 3. Other dampening units known in the prior art can also be used for the invention described further below, these merely having to have a drive that can also be operated when the machine is at a standstill.

For the lubrication of mechanical parts during machine operation, in particular the bearings of the printing couple cylinders, the printing press has an oil supply system which delivers oil under pressure to the corresponding lubrication points. An oil pump 6, the drive of which can be derived from the main drive of the printing press, delivers oil via pressure lines 7 the corresponding lubrication points; 1 to the bearings of plate cylinder P and blanket cylinder G. Because of the coupling of the oil pump 6 with the main drive of the printing press, oil delivery under pressure only takes place when the machine is running. When the machine is at a standstill, the oil lines 7 are then depressurized.

According to the invention it is now provided to drive the ink fountain roller 1 from the dampening unit drive when the machine is at a standstill. Ink fountain roller 1 is rotatably mounted on both sides with pins in the frame walls. A freewheel 9 with a lever 10 (FIG. 2) sits on one side of its drive pin 8. The direction of rotation in which the freewheel 9 acts non-positively corresponds to the direction of rotation of the ink fountain roller 1. On the drive pin 8, a further freewheel can be provided to drive the ink fountain roller 1 during machine operation, which then moves the ink fountain roller 1 step by step, as described in the beginning of the description writings mentioned, drives.

An embodiment of the invention is shown in FIG. 2. There, a drive rod 11 is articulated at its lower end to a rocker arm 12 which is rotatably mounted about a bolt 13 fixed to the frame. With its upper end, the drive rod 11 is connected to the lever 10. When the machine is at a standstill, the rocker 12 lies by its own weight, so that the drive rod 11 with a bearing surface 14, which is preferably formed as a concave recess for reasons of space, rests on an eccentric 15 which is seated on a shaft 16 of the dampening unit drive 5 of the dampening unit. Shaft 16 can be an extended journal of scoop roller 3, but it can also be another gear shaft of dampening unit drive 5 that does not run at high speed. The eccentric 15 is advantageously provided with a roller along with needle or ball bearings.

If the dampening unit drive 5 continues as intended when the machine is at a standstill, then the eccentric 15 generates rocking movements in the drive rod 11 via rocker arm 12, which then gradually drive the ink fountain roller 1 via lever 10 and freewheel 9. The speed at which the dampening unit drive 5 runs when the machine is at a standstill can be preset and Furthermore, dampening unit drive 5 can be connected to the machine control of the printing press in such a way that it then continues to run automatically at a predetermined, for example reduced speed.

According to what has been described above, the rocker 12 rests on the eccentric 15 due to it and the weight of the drive rod 11 with the bearing surface 14. In addition, spring-loaded means can also be provided, which pull the rocker 12 onto the eccentric 15 when the machine is at a standstill.

So that the ink fountain roller 1 can only be driven by the actual drive of the ink fountain roller, i.e. is automatically decoupled from the auxiliary drive, when the printing machine is running or restarting, a single-acting pressure cylinder with a piston, which can be acted upon by the oil pressure of the oil supply system, can for example be located in a frame 17 attached to the frame 18 may be arranged. so that when the machine is running, the rocker 12 with the bearing surface 14 can be pivoted away from the stroke area of the eccentric 15 by the oil pressure. Eccentric 15 now rotates freely and because of freewheel 9, the ink fountain roller 1 is only driven by its main drive.

The piston 18 is dimensioned with respect to its stroke and the lifting force so that even with low oil pressure (starting the machine in slow speed) the stroke required to free the eccentric 15 is exerted on the system drive rod 11 and rocker 12 against their weight. The single-acting pressure cylinder and piston embedded in the bridge 17 are acted upon by oil from the oil supply system directly through an oil line 7 of the oil supply system.

If the oil pump 6 is not driven directly by the main drive of the printing press, but rather, for example, by its own electric motor and oil is also delivered when the machine is at a standstill, the pressurization of the single-acting pressure cylinder can be controlled by an electrically switchable solenoid valve. The switching signals for the solenoid valves can easily be found in the main drive or machine control. The pressure oil is then applied electrically controlled when the machine starts to run.

Instead of switching the auxiliary drive on or off by the oil pressure or electrically controlled in connection with the oil pressure of the oil supply system, the rocker arm 12 can also be pivoted away by an electromagnet 19 (FIG. 3a). Other actuating means 22 can also be used, which take effect when the machine is running. For example, Compressed air is used, which e.g. the switching on and off of the inking rollers F (Fig. 1) causes (single-acting pneumatic cylinder).

An actuating means 22 that becomes effective in the event of negative pressure can also be used. The vacuum can then be provided by the suction air of the feeder (suction head, lifting vacuum). In the last-mentioned types of actuating means 22, the auxiliary drive is also advantageously switched off in connection with electrically switchable valves.

In the form described above, the auxiliary drive is driven by an eccentric 15 arranged by a dampening unit drive 5 and formed from a lever 10, drive rod 11 and rocker arm 12 as a four-bar linkage. Swing arm 12 is to be designed so that the stroke of the eccentric 15 is transmitted sufficiently strongly in the stroke movement of the drive rod 11. Of course, the four-bar linkage in conjunction with the eccentric 15 driven by the dampening unit drive 5 not only enables an ink fountain roller 1 to be alternatively driven when the machine is at a standstill and is located almost directly vertically above the dampening unit 2, 3, 4. Drive rod 11 does not have to run vertically, as shown in FIG. 2, but can of course also be inclined to the vertical. It is then also possible to drive an ink fountain 1, which is further from the dampening unit drive 5 in relation to the horizontal.

3b shows further variants for the auxiliary drive of the ink fountain roller 1 from the dampening unit drive 5. According to Fig. 3b, the rocker 12 is arranged below the eccentric 15 and with its free end via a cable 20 with a lever 10, which, as already described, sits with a freewheel 9 on the drive pin 8 of the ink fountain roller 1. The Cable 20 can be designed as a simple rope (wire rope) or as a chain. Lever 10 is pulled in the drive direction of the ink fountain roller 1 via a tension spring 21 articulated to the frame. The lifting movements of the eccentric 15 stretch the tension spring 21 periodically, since this rocker 12 pulls on the eccentric 15. In this variant, the ink fountain roller 1 is moved by the expansion energy of the tension spring 21. This expansion energy was previously stored in the tension spring 12 by the expansion (eccentric stroke). This must be interpreted accordingly. By means of an actuating means 22 which becomes effective when the machine is running (single-acting working cylinder, pressurized oil, compressed air, negative pressure of the feed air, electromagnet), the rocker arm 12 is pivoted away when the machine is running.

3c shows a further variant for the auxiliary drive of the ink fountain roller 1 from the dampening unit drive 5. This arrangement is equivalent to that of FIG. 3b, except that here the stroke of the eccentric 15 or that of the free end of the rocker 12 directly effects the movement of the ink fountain roller 1. The tension spring 12 pulls the lever 10 in the free-running (not force-transmitted) direction of free-wheel 9 here. This is achieved by a deflection roller 23.

Instead of lever 10, the cable 20 can be articulated directly on a roller 24, said roller being seated on the drive pin 8 with a freewheel 9 (FIGS. 3d and 3e). The effect of the variant according to FIG. 3d corresponds to that of FIG. 3b, that of FIG. 3e or 3c.

The advantage of the invention thus lies in the simplicity of the auxiliary drive for the ink fountain roller 1, which is activated automatically when the machine is at a standstill. When the machine is at a standstill, the dampening unit drive 5 takes over the drive of the ink fountain roller 1 without any great technical effort.

Reference symbol list

1

Ink fountain roller

2nd

Dampening roller

3rd

Scoop roller

4th

Fountain solution container

5

Dampening system drive

6

Oil pump

7

Oil pipe

8th

Drive pin

9

Freewheel

10th

lever

11

Drive rod

12

Swingarm

13

bolt

14

Contact surface

15

eccentric

16

wave

17th

bridge

18th

piston

19th

Electromagnet

20th

Cable

21

Tension spring

22

Positioning means

23

Pulley

24th

role

P

Plate cylinder

G

Rubber cylinder

F

Inking roller

Claims (15)

Auxiliary drive for the ink fountain roller of an offset printing machine, in particular sheet-fed offset printing machine when the machine is at a standstill, this having a dampening unit with a separate dampening unit drive which can be controlled independently of the machine run,
characterized by
that when the machine is at a standstill, the ink fountain roller (1) can be driven by the continuing dampening unit drive (5), in that a shaft (16) of the dampening unit drive (5) has an eccentric (15) that the lifting movements of the eccentric (15) via one on the drive pin (8 ) the ink fountain roller (1) seated freewheel (9) can be converted into angular step movements of the ink fountain roller (1) and that only when actuating means (22) become effective, the transmission of the stroke movements of the eccentric (15) into angular step movements of the ink fountain roller (1) can be interrupted. Auxiliary drive according to claim 1,
characterized by
that on eccentric (15) a rocker (12) mounted on a frame-fixed bolt (13) rests, that the free end of rocker (12) is coupled via a drive rod (11) to a lever (10) engaging on the freewheel (9) and that when the machine is running, the rocker (12) can be pivoted away from the lifting range of the eccentric (15) by the adjusting means (22) against the weight of the rocker (12) and drive rod (11). Auxiliary drive according to claim 2,
characterized by
that additional spring means are provided through which the rocker (12) rests on the eccentric (15) when the machine is at a standstill. Auxiliary drive according to claim 1,
characterized by
that on the eccentric (15) bears about a frame-fixed bolt (12), which with its free end over a Cable (20) is coupled to a lever (10) acting on the freewheel and a tension spring (21) is articulated on the lever (10), which pulls the rocker (12) via the cable (20) to the eccentric (15) and that by the adjusting means (22) Swing arm (12) against the force of the tension spring (21) from the stroke range of the eccentric (15) is pivotable. Auxiliary drive according to claim 4,
characterized by
that cable (20) acts on lever (10) via a deflection roller (23). Auxiliary drive according to claim 4 or 5,
characterized by
that cable (20) is designed as a chain or as a rope (steel rope). Auxiliary drive according to one of the preceding claims,
characterized by
that the eccentric (15) has a roller-mounted roller, in particular with a needle bearing. Auxiliary drive according to one of the preceding claims,
characterized by
that the dampening unit drive (5) is coupled in terms of circuitry to the main drive of the printing press, so that the dampening unit drive (5) runs at a predetermined speed when the machine is at a standstill. Auxiliary drive according to one of the preceding claims,
characterized by
that eccentric (15) sits on a shaft (16) of the dampening unit drive (5), which is the elongated pin of a driven dampening unit roller or another gear shaft of the dampening unit drive (5). Auxiliary drive according to one of the preceding claims,
characterized by
that the adjusting means (22) is a single-acting, pressurizable working cylinder with a piston (18), which is embedded in a bridge (17) fixed to the frame. Auxiliary drive according to claim 10,
characterized by
that the working cylinder can be acted upon by the oil pressure of an oil supply system of the printing press. Auxiliary drive according to claim 10,
characterized by
that the working cylinder can be pressurized with compressed air, for example with that through which the inking rollers (F) on the plate cylinder (P) can be turned on and off. Auxiliary drive according to one of claims 1 to 9,
characterized by
that the actuating means (22) is activated by negative pressure, in particular by suction air from the feeder (suction head). Auxiliary drive according to one of claims 10 to 13,
characterized,
that electrically switchable valves (solenoid valves) are provided and can be controlled by the main drive of the machine or the machine control when the machine is running. Auxiliary drive according to one of the preceding claims,
characterized by
that the adjusting means (22) is an electromagnet that can be activated when the machine is running.

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