DE10066156B4 - Shaft for synchronizing a positioning movement - Google Patents

Abstract

Synchronous shafts, which are mounted in the two side frames of the printing machine, are arranged for switching on or off both ends of a cylinder relative to a second cylinder of a rotary printing press on both sides. The shaft of the invention allows easy disassembly / assembly of the shaft or a partial disassembly of the shaft, without changing the default setting. This is achieved by the arrangement of a shaft, wherein the actual, the actuating gear synchronizing shaft is rotatably mounted on at least one axis arranged in the shaft and does not penetrate the side walls themselves.

Description

The The invention relates to a shaft for synchronizing an actuating movement a rotary printing machine according to the preamble of claim 1.

The DE 40 13 075 C1 discloses a device for pressure-on or Abbstellen a blanket cylinder. The eccentric bearings arranged on both sides of the cylinder are each coupled via a toggle mechanism with a take-off shaft, which extends across the width of the machine and is mounted in both frame walls. The toggle mechanism is actuated by pneumatic cylinders and pivots both eccentric bearings coupled by the release shaft by the same angular amount. Similarly, the DE 195 43 494 C1 an adjustment for printing cylinder. The two eccentric bearings are each connected via a coupling and a lever with a Abrückwelle, which extends from a first side frame to a second, opposite side frame.

The EP 03 52 483 B1 discloses, inter alia, a device for parallel displacement of a first cylinder relative to a second, wherein the movement is linear and parallel to the frame walls via slides. A running between the frame walls spindle drives the arranged on both frame walls slide synchronously. The spindle penetrates the frame walls or the frame walls attributable attachments.

By the DE 512 033 C a shaft for synchronizing an actuating movement of two actuating gear is known, wherein the actuating gear are connected to a shaft. The shaft is shorter than a distance of the side frames, has axial bores at both ends and is pivotally mounted on the side frames.

Of the Invention is based on the object, a shaft for synchronization To create a positioning movement, which high demands on the two-sided synchronous movements.

The The object is achieved by the Characteristics of claim 1 solved.

One In particular, the advantage obtainable with the invention is that that the Device for attaching or stopping cylinders in a simple manner too disassemble or assemble. The rotatable shaft itself is shorter than the distance between the side frames and does not penetrate. By Disassembly of an inner axis, therefore, the shaft is freely removable.

Advantageous is further that through Separation of the actual wave of the mounted in the frame walls Storage a basic setting even with a disassembly or in particular a partial disassembly is maintained, as an example before remote axle for mounting in a simple manner in the intended Introduce position and at the same time the shaft is brought into the desired position.

In a preferred embodiment with a continuous axis is of particular advantage that the disassembly or assembly only activities on one side of the press required.

at Using a solid axis is easy in these ways can also be used as a crossbeam or spacer between the side frames.

One embodiment The invention is illustrated in the drawing and will be described below described in more detail.

It demonstrate:

1 a schematic representation of a wave between two side frames;

2 a schematic side view according to 1 ;

3 a schematic representation of a staged executed shaft and axis.

In a rotary printing machine is a cylinder 01 For example, a plate or blanket cylinder in side frames 02 ; 03 rotatably mounted and movable on both sides almost in the radial or tangential direction. The storage is done for example by in the side frames 02 ; 03 arranged eccentric bushes 04 ; 06 , z. B. as parts of a three-ring or four-ring bearing, which the front side of the cylinder 01 arranged cones 07 ; 08 take up. The movement of the cylinder 01 , or more cylinders 01 relative to each other, can also be done by linearly displaceable slide or other mechanisms.

The two eccentric bushes 04 ; 06 are via respective actuating gear 09 ; 11 and one the actuating gear 09 ; 11 connecting shaft 12 coupled together so that a synchronous movement of both eccentric 04 ; 06 is guaranteed.

At each end face of the pins 07 ; 08 receiving eccentric bushing 04 ; 06 is, for example, in each case on one eye 13 ; 14 , a paddock 16 ; 17 positively and rotatably about an axis which is almost parallel to the axis of rotation of the cylinder 01 runs, arranged. The paddock 16 ; 17 connects the eye 13 ; 14 with the wave 12 , which at their ends drive parts 18 ; 19 having. These are for example as two-armed lever 18 ; 19 executed. The paddock 16 ; 17 can also be designed differently as part of a rocker or a planar adjusting gear and engages at a first end 21 ; 23 of the respective lever 18 ; 19 at. The wave 12 assigned levers 18 ; 19 can also be designed with one arm, or be part of another adjusting gear, which is the rotational movement of the shaft 12 in a translation of the cylinder 01 reshapes.

At a second end 22 ; 24 of the two-armed lever 18 ; 19 each engages an actuator 26 ; 27 , z. B. a working cylinder (eg., Pneumatic or hydraulic cylinder) or a motor-driven threaded spindle on. The actuator 26 ; 27 is fixed to the frame, preferably on the inside of the side frame 02 ; 03 arranged. He is advantageously rotatable about a frame-fixed pivot on the side frame 02 ; 03 arranged.

The wave 12 extends nearly parallel to the axis of rotation of the cylinder 01 and connects the actuating gear 09 and 11 together. It is preferably torsionally rigid and as a hollow shaft or as a tube with corresponding levers 18 and 19 executed. But it can also be designed as a solid body having the front side at both ends in each case axial bores. Also, the wave can 12 without holes outside the pivot axis of the two levers 18 ; 19 be arranged.

A length I12 of the shaft 12 is dimensioned so that it is less than or equal to the distance a of the two side frames 02 ; 03 is. In the event that on the inside of one or both side frames 02 ; 03 Recesses, grooves or inwardly projecting attachments or surfaces are arranged, as the distance a as the inside diameter of the immediate end faces of the shaft 12 opposite inner surfaces of the side frames 02 ; 03 to understand.

The wave 12 is pivotable in or on the side frames 02 ; 03 stored. In training the wave 12 as a hollow shaft 12 this is pivotable on an axis 28 arranged in the interior of the hollow shaft 12 runs in the longitudinal direction. The axis 28 protrudes with both ends 29 ; 31 from the hollow shaft 12 out and in or on the side frames 02 ; 03 attached.

In the side frame 03 , For example, the drive side of a rotary printing machine, the axis rests 28 in a hole 32 on the inside of the side frame 03 , The hole 32 For example, a blind hole can be centered on its bottom surface 33 as a fit, in the one on the front side of the axis 28 arranged bolt 34 intervenes. The bolt 34 can also be designed as a threaded bolt, the blind hole 33 in this case has an internal thread. Also the hole 32 itself can be designed as a fit when on bolts 34 and cooperating blind hole is dispensed with.

The side frame 02 , For example, on the operating side of the printing press, has a nearly vertical bore 36 on, in which the axis 28 with her end 29 is arranged. Preferably, in the bore 36 a socket 37 , For example, a brass bush, arranged, which is the dismantling of a strained axis 28 facilitated. The diameter of the hole 36 or the inner diameter of the bush 37 is greater than or equal to the maximum diameter of the side frame 03 lying part of the axis 28 , The outer closure forms, for example, by means of screws releasably on the outside of the side frame 02 attached lid 38 that the bore 36 covers to the outside and the axis 28 prevents it from slipping out. Advantageously, the length of the axis 28 chosen in this embodiment, that bolt 34 and blind hole 33 on the one side, as well as the front side of the end 29 and the lid 38 on the other side the axis 28 as free of play and fit in the side frames 02 ; 03 hold.

In a preferred embodiment, the end 29 the axis 28 for fixing the axle 28 , in particular for precise fixing, frontally an axial bore 39 with an internal thread, with one through the lid 38 guided screw 41 works together. Are subject hole 33 and bolts 34 provided with cooperating thread, so can on the side frame 02 facing end face of the axis 28 a head piece 42 , For example, a four- or hexagon bolt be attached. Between head piece 42 and lid 38 can a slice 46 , z. B. a shim of defined thickness, be arranged to fit the position of the axis 28 , or the setting of a certain distance between the two side frames 02 ; 03 to ensure. screw 41 , Lid 38 as well as the axis 28 with her bolt 34 in the blind hole 33 can thus as Durck- and tensile forces receiving spacers between the side frames 02 ; 03 Act.

In a further embodiment ( 3 ) are the wave 12 and the axis 28 so formed that the wave 12 not on their entire length the axis 28 is stored. So z. B. the shaft 12 in wide ranges a larger inner diameter d12 than an outer diameter d28 of the axis 28 , The bearing of the shaft 12 on the axis 28 takes place only by one of the shaft 12 associated level 43 , z. B. a socket 43 that between wave 12 and axis 28 adjacent to the inside of the side frame 03 on the shaft 12 is arranged, as well as a section 44 the axis 28 with enlarged outer diameter d44, which is adjacent to the inside of the side frame 02 on the axis 28 is arranged. The enlarged outer diameter d44 of the axle 28 is preferably by one on the axis 28 arranged, and connected to it jack 44 reaches and forms on the axis 28 a step 44 , The geometry of the axis 28 as well as the wave 12 can also be performed in other ways stage or with paragraphs, so that when partially pulling out the axis 28 as a bearing between axle 28 and wave 12 move together interacting bearing surfaces relative to each other and the shaft lowers. Alternatively to the bearing of the axle 28 in a socket 37 is the end 29 the axis 28 in 3 mounted directly in a bore, wherein the bore can be provided with an internal thread and the axis with an external thread. The trained example as a hexagon head piece 42 the axis 28 sticks out of the side frame.

Is the wave 12 formed as a solid body having the front side at both ends of each axial holes, so are in both side frames 02 ; 03 Axles, such as journals, arranged with the holes in the shaft 12 work together. The bearing of the bearing pin can, according to the example with a continuous axis, as a bore 36 be executed. She can have a jack 37 and a lid 38 on the respective outside of the side frame 02 ; 03 exhibit.

Disassembly of the shaft 12 For example, by loosening the screw 41 and the lid 38 , At the headpiece 42 becomes the axis 28 twisted so that the bolt 34 out of the blind hole 33 is solved. The axis 28 gets out of the side frames 02 ; 03 pulled out and gives the shaft 12 free. The assembly is almost in reverse order. When using shims 46 for adjusting the distance between the side frames 02 ; 03 can by means of the lid 38 Pressure and by means of the screw 41 Train on the axle 28 be applied.

A partial dismantling of the shaft 12 For example, in a winder of the paper in the printing press, for example, by the jack 37 towards the outside of the side frame 02 out of the hole 36 is pulled and then the axis 28 far from the side frame 03 is pulled, that the bolt 34 no longer in the blind hole 33 but on the edge of the hole 32 to come to rest. The axis 28 and with it the wave 12 lower and allow, for example, a removal of paper. At gradual training of the wave 12 and the axis 28 ( 3 ) may affect the removal of the socket 37 be waived. For example, the axis 28 on the head piece 42 far from the side frame 02 turned until the socket 44 the axis 28 in the hole 36 of the side frame 02 disappears. At the same time the bolt is running 34 so far from the blind hole 33 out until the socket 43 the wave 12 on the bolt 34 to come to rest. By the offset between shaft 12 and axis 28 the wave lowers.

01

cylinder

02

side frame

03

side frame

04

eccentric

05

06

eccentric

07

spigot

08

spigot

09

actuating mechanism

10

11

actuating mechanism

12

Wave, hollow shaft

13

eye

14

eye

15

16

paddock

17

paddock

18

Lever, driving part

19

Lever, driving part

20

21

End, first ( 18 )

22

End, second ( 18 )

23

End, first ( 19 )

24

End, second ( 19 )

25

26

actuator

27

actuator

28

axis

29

End, first ( 28 )

30

31

End, second ( 28 )

32

Drilling ( 03 )

33

Blind hole ( 03 )

34

Bolt ( 28 )

35

36

Drilling ( 02 )

37

Rifle ( 36 )

38

cover

39

Drilling ( 29 )

40

41

screw

42

Head piece, square ( 28 )

43

Socket, stage ( 12 )

44

Section, socket, step ( 28 )

45

46

Disc, shim

a

Distance ( 02 . 03 )

d12

Inside diameter ( 12 )

d28

Outer diameter ( 28 )

d44

Diameter ( 44 )

I12

Length ( 12 ; 17 ; 18 )

Claims (7)

Wave ( 12 ) for synchronizing an actuating movement of two actuating gears ( 09 ; 11 ) in a rotary printing machine, wherein the two actuating gear ( 09 ; 11 ) with the wave ( 12 ) and the wave ( 12 ) in or on side frames ( 02 ; 03 ) of the rotary printing press is pivotally mounted, wherein a length (I12) of the shaft ( 12 ) is smaller than a distance (a) of the side frames ( 02 ; 03 ) and where the wave ( 12 ) at both ends in the axial direction has a bore, characterized in that two separate, in the holes of the shaft ( 12 ) engaging journal coaxial with the shaft ( 12 ) in the side frames ( 02 ; 03 ) are arranged, and that one of the journals in a through the side frame ( 02 ; 03 ) through hole ( 36 ), and that the two actuating gears ( 09 ; 11 ) each by an actuator ( 26 ; 27 ). Wave ( 12 ) according to claim 1, characterized in that the shaft ( 12 ) with a device for changing a center distance of two cylinders ( 01 ) of the rotary printing machine cooperates. Wave ( 12 ) according to claim 1, characterized in that the shaft ( 12 ) with a device for pressure-on-setting and pressure-off of a cylinder ( 01 ) of the rotary printing machine cooperates. Wave ( 12 ) according to claim 1, characterized in that the shaft ( 12 ) with eccentric bushes ( 04 ; 06 ) of the cylinder is connected. Wave ( 12 ) according to claim 4, characterized in that the eccentric bushings ( 04 ; 06 ) Are parts of a three-ring or four-ring bearing. Wave ( 12 ) according to claim 1, characterized in that the actuators ( 26 ; 27 ) are designed as a working cylinder. Wave ( 12 ) according to claim 1, characterized in that the actuators ( 26 ; 27 ) on inner sides of the side frames ( 02 ; 03 ) are arranged.