EP1155828B1 - Driving mechanism for a cylinder of a rotary printing machine - Google Patents

Description

The invention relates to a drive for a cylinder a rotary printing press according to the preamble of Claim 1.

EP 06 44 048 A2 describes a drive Cylinder group of an offset rotary printing press by means of a toothed belt.

DE 37 04 314 C1 describes an arrangement for Adjustment of tooth play between the drive wheels of sheet transporting cylinders one Rotary printing press. Every cylinder is in Eccentric bushings pivotally mounted.

The invention has for its object a drive for a cylinder of a rotary printing press create.

The object is achieved by the features of Claim 1 solved.

The advantages that can be achieved with the invention exist especially in the fact that with cylinders their axis of rotation is changeable or changeable in the event of a change able to change a backlash between a gear of the cylinder and an associated one Drive pinion is minimized.

Fig. 1

eine schematische Seitenansicht eines Antriebes eines Zylinders;

Fig. 2

eine schematische Draufsicht eines Antriebes des Zylinders;

Fig. 3

einen vergrößerten Ausschnitt gemäß Fig. 1.

An embodiment of the invention is shown in the drawing and will be described in more detail below.
Show it:

Fig. 1

a schematic side view of a drive of a cylinder;

Fig. 2

a schematic plan view of a drive of the cylinder;

Fig. 3

2 shows an enlarged section according to FIG. 1.

A pin 01 of a rotating component 02, for. B. a roller of an inking or dampening unit or one Cylinder 02 of a printing unit or folder one Rotary printing machine is in a side frame 03 Can be moved using an eccentric bushing 04 stored. The pin 01 of the cylinder 02 by means of a bearing 06 in a bore 07 Eccentric bushing 04 stored. A longitudinal axis 08 of this Bore 07 of the eccentric bush 04 d. H. the axis of rotation 08 of the cylinder 02 is a to a longitudinal axis 09 outer lateral surface 11, d. H. a pivot axis 09 of the Eccentric bushing 04 offset by an eccentricity e4. This eccentric bushing 04 is in the side frame 03 by means of of a drive, not shown, can be swiveled arranged. On the pin 01 of the cylinder 02 is a first, e.g. B. spur gear 12 and a second, e.g. B. helical gear 13, z. B. a Drive wheel 13 arranged.

In the present exemplary embodiment, this is a cylinder 02 as a transfer cylinder 02 of a printing unit Offset rotary printing machine trained. this Transfer cylinder 02 is a forme cylinder 14 assigned. This forme cylinder 14 is on its pin 16 with a z. B. straight toothed Gear 17 provided. The gear 12 of the Transfer cylinder 02 and the gear 17 of the Forme cylinders 14 are in engagement with one another, so that Transfer cylinder 02 and forme cylinder 14 over the Gears 12; 17 positively coupled to the drive are and form a pair of cylinders 28.

This pair of cylinders 28 is preferably not included further cylinders for the drive are positively coupled.

The second gear 13 of the transfer cylinder 02 is assigned a drive pinion 18. This drive sprocket 18 is, for example, directly on a rotor 19 position and / or speed-controlled motor 21 arranged. The motor 21 is arranged fixed to the frame. The Drive pinion 18 can also have its own, from the rotor 19 of the motor 21 have independent storage and with the rotor 19 of the motor 21 connected via a clutch his. Between with the rotor 19 of the motor 21 connected drive pinion 18 and the gear 13 of the Transfer cylinder 02 can have additional gears interposed. This is preferred Drive pinion 18 assigned to rotor 19 of motor 21 directly into the gear 13 of the transfer cylinder 02 on.

A first straight line 22 is defined by an axis of rotation 23 of the drive pinion 18 and the pivot axis 09 of the eccentric bush 04.
A second straight line 24 runs through the axis of rotation 08 of the cylinder 02 and the pivot axis 09 of the eccentric bush 04 in the pressure-on position.

In the print-down position, the axis of rotation 08 is in a Position 08 'shifted and a straight line 24' runs through the axis of rotation 08 '.

The first straight line 22 and the second straight line 24 or 24 ' close in push-on position and in push-down position an opening angle alpha or alpha '.

An amount of this opening angle Alpha z. B. 15 ° in the print-on position is approximately the same (maximum difference ³ alpha - alpha ' ³ <10 °, preferably 5 °) an amount of the opening angle alpha', z. B. -15 °, in the pressure-down position.

The first straight line 22 and the second straight line 24 or 24 ' close an opening angle Alpha or Alpha 'im Range of +/- 20 °.

In the "print-down" position there is an axis of rotation 23 of one Drive pinion 18, a pivot axis 09 of the Eccentric bushing 04 and an axis of rotation 08 of the cylinder 02 approximately on a common straight line.

A third straight line 26 is through an axis of rotation 27 of a second cylinder 14, for. B. the forme cylinder 14 and the axis of rotation 23 of the drive pinion 18.
This third straight line 26 and the first straight line 22 include an opening angle beta of 160 ° to 200 °.

Is by swiveling the eccentric bushing 04 Transfer cylinder 02 from forme cylinder 14 on or turned off, there is a change in the backlash between Drive pinion 18 and gear 13 of the Transfer cylinder 02 minimal.

In the present exemplary embodiment, this is Drive pinion 18 of the transfer cylinder 02 assigned. It is also possible for the drive pinion 18 assign to the forme cylinder 14.

In the present exemplary embodiment, the printing unit is designed as a so-called bridge printing unit. In this bridge printing unit, a transfer cylinder 02 of the first pair of cylinders 28 interacts with a transfer cylinder 02 of a second pair of cylinders 29. These two pairs of cylinders 28; 29 are preferably not positively coupled to each other for the drive.
This pair of cylinders 28 can also be used in so-called H-printing units or satellite printing units.
It is also possible to drive only a single cylinder 02 or also a plurality of cylinders which are positively coupled to one another for driving by means of a drive pinion 18 arranged according to the invention.

Instead of the drive pinion 18 and the drive wheel 13 the cylinder 02 can also be arranged pulleys be, whose axes of rotation correspond to the axes of rotation of the Gears are arranged.

LIST OF REFERENCE NUMBERS

01

spigot

02

Cylinder, transfer cylinder

03

side frame

04

eccentric

05

-

06

camp

07

Bore (04)

08

Longitudinal axis (07), rotation axis (02)

09

Longitudinal axis (11), swivel axis (04)

10

-

11

Lateral surface (04)

12

Gear (02)

13

Drive wheel, gear (02)

14

form cylinder

15

-

16

Cone (14)

17

Gear (14)

18

pinion

19

rotor

20

-

21

engine

22

Straight (04; 18)

23

Axis of rotation (18)

24

Straight (02; 04)

25

-

26

Straight (18; 14)

27

Axis of rotation (14)

28

Pair of cylinders, first

29

Pair of cylinders, second

08 '

axis of rotation

24 '

Just

e4

eccentricity

alpha

opening angle

beta

opening angle

Alpha'

opening angle

Claims (10)

1. Drive for a first cylinder (02), mounted in an eccentric bush (04), of a rotary printing machine, a first drive gear (13) being provided on a journal (01) of the first cylinder (02), a drive pinion (18) cooperating with the drive gear (11), a straight line (22) defined by an axis of rotation (23) of the drive pinion (18) and a pivoting axis (09) of the eccentric bush (04) enclosing an opening angle alpha in the range from +20° to -20° with a straight line (24) defined by the pivoting axis (09) of the eccentric bush (04) and the axis of rotation (08) of the cylinder (02), characterized in that, coaxially with the first drive gear (13), a second drive gear (12) is provided on the journal (01), and in that the second drive gear (12) is arranged so as to cooperate with a first drive gear (17) of a second cylinder (14).
2. Drive according to Claim 1, characterized in that a magnitude of an opening angle alpha in the "print-on" position is approximately equal to a magnitude of an opening angle alpha' in the "print-off" position.
3. Drive according to Claim 1, characterized in that the drive gears (12; 13; 17; 18) are designed as gears (12; 13; 17; 18).
4. Drive according to Claim 1, characterized in that the drive gear (13) of the cylinder (02) and the drive pinion (18) are constructed as belt pulleys.
5. Drive according to Claim 1, characterized in that the cylinder (02) is designed as a transfer cylinder (02) of a rotary offset printing machine.
6. Drive according to Claim 1, characterized in that the cylinder (02) is designed as a forme cylinder (14).
7. Drive according to Claim 1, characterized in that the cylinder (02) is designed as an impression or satellite cylinder.
8. Drive according to Claim 5, characterized in that a forme cylinder (14) is coupled with a form fit to the transfer cylinder (02).
9. Drive according to Claim 1, characterized in that an axis of rotation (08) of the first cylinder (02), the pivoting axis (09) of the eccentric bush (04), and an axis of rotation (27) of a second cylinder (14) lie approximately on a common straight line (24') when in the "print-off" position.
10. Drive according to Claim 8, characterized in that an axis of rotation (08) of the transfer cylinder (02) lies approximately on a straight line (26) defined by an axis of rotation (23) of the drive pinion (18) and an axis of rotation (27) of the forme cylinder (14).

Images