EP1112185A2

EP1112185A2 - Roller

Info

Publication number: EP1112185A2
Application number: EP99968650A
Authority: EP
Inventors: Günther Josef HOIER
Original assignee: Koenig and Bauer AG
Current assignee: Koenig and Bauer AG
Priority date: 1998-09-07
Filing date: 1999-09-01
Publication date: 2001-07-04
Anticipated expiration: 2019-09-01
Also published as: US6418846B1; DE19840806C1; WO2000013902A2; DE59901218D1; JP2002524692A; JP3609343B2; EP1112185B1; WO2000013902A3

Abstract

In a lifting drive for a friction roller (02) which can reciprocally move in an axial direction, an adjustment can be carried out using simple means during operation. To this end, the friction roller is connected in an articulated manner in the area of the rotational axis (06) thereof to a first end (07) of a connecting rod (08). The second end (22) of the connecting rod is connected in an articulated manner to the peripheral area of a rotatable lever (13) which can be driven. A rotational axis (27) of the shaft (18) of the lever is arranged such that it forms an angle with regard to the rotational axis of the friction roller.

Description

description

roller

The invention relates to a roller for a rotary printing press according to the preamble of claim 1.

From DE-PS 12 40 888 a device for axially reciprocating an ink roller with a device for changing the axial stroke has become known.

The invention has for its object to provide a roll changeable in the axial direction.

The object is achieved by the features of claim 1.

The advantages that can be achieved with the invention consist in particular in that the stroke frequency and / or the stroke length can be optionally adjusted during operation.

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

The only drawing shows a schematic side view of the changeable roller with its Hubant ri eb.

In two side frames 01 (a side frame 01 is shown) both roller journals 03 of a drivable roller 02, for. B. a friction roller, rotatable and axially displaceable. The desired stroke ± h of z. B. ± 25 mm, is gradually or continuously adjustable.

For storage of the roll neck 03 bearings 04, z. B. slide bearing provided in holes in the side frames 01.

At the end of one of the roller journals 03, e.g. B. on an end face 05 of the end of the roll neck 03 is in the region of the axis of rotation 06 of the roll neck 03 a joint 19, z. B. with mobility (degrees of freedom) f = 4 attached. The hinge 19 is, for. B. executed as a tensile and shear resistant ball l pipe. Its ball pin 09 is attached to the end face 05 and its ball sleeve 10 to a first end 07 of a rigid coupling rod 08.

A ball bushing 21 is attached to a second end 22 of the rigid coupling rod 08.

At an outer end 12 of a rotatably drivable one-armed lever 13 or on a high radius of a disc, a joint 11, z. B. with a mobility (Degrees of freedom) f = 4 provided. The joint 11 is, for. B. executed as a tensile and shear resistant ball l pipe. Its ball pin 15 sits at the outer end 12 of the lever 13 and is in a positive connection with the ball bushing 21.

A first end 25 of the lever 13 is on a shaft 18 rotating about its axis of rotation 18 of a drive 23, for. B. a speed-controlled electric motor 23, fixed against rotation. The shaft 18 can be the drive shaft of an electric motor 23.

The axes of rotation 06 and 27 can be aligned so that they coincide in a first extreme case and in the second extreme case an angle alpha, z. B. 30 ° include. The angle alpha can be adjusted gradually or continuously and can be held.

The angle alpha can be set directly by tilting the drive, in the exemplary embodiment of the drive motor 23. For this purpose, e.g. B. at the bottom of the drive motor 23 front, ant r ebswe l lenendnaen feet are provided which are attached to a rocker 24. The rocker 24 is via a joint, for. B. swivel, with a degree of freedom 1, pivotally connected to the side frame 01. The links of the joint 26 are in a form-fitting manner that a lateral tilting is not possible when the force is transmitted. In addition, a rear bearing 31 in the form of an eye is provided at the bottom of the drive motor 23, that is to say antriebswe l lenendenf, which is connected in an articulated manner to a fork head 14 of a linear drive 28.

The linear drive 28 can, for. B. consist of a handwheel 37 or motor driven in two directions threaded spindle 29, the upper end of which is rotatably tied in the clevis 14. The thread of the threaded spindle 29 is in engagement with an internal thread of a threaded nut 20. The threaded nut 20 is fastened in a be tenste l If most holder 32.

A pivoting of the drive 23 and thus the drive element in the desired direction, -. H. of the lever 13 - takes place by corresponding actuation of the linear drive 28. If the threaded spindle 29 is rotated left or right, the drive 23 rises and falls at its end and the lever 13 also swings. This exerts pressure or tension on the coupling rod 08, and thus on the roll neck 03.

A rotation of the threaded spindle 29 therefore has the consequence that the stroke h changes accordingly.

The stroke ± h becomes zero as soon as the drive 23 is out of operation or the angle Alpha is zero. The lever 13 can be designed as a one-armed lever or as a two-armed lever. Instead of the lever 13, a rotating disk can also be provided.

In order to set the stroke frequency, the drive 23, z. B. an electric motor, designed as a speed-controlled or regulated drive. If the speed of the drive 23 is increased, the stroke frequency increases proportionally; if it is reduced, the stroke frequency decreases proportionally. If the drive 23 is switched off, the friction roller 02 no longer performs a stroke.

According to one embodiment variant, it is also possible to place an energy accumulator, for example, between the side frame 01 and the right end face of the friction roller 02. B. to arrange a compression spring, not shown. As a result, the coupling rod 08 is only subjected to tension. This happens when the friction roller 02 moves from left to right and the compression spring compresses in the process. When the friction roller 02 is subsequently moved from right to left, the compression spring relaxes again and releases its stored force.

However, a compression spring can also be arranged between a left end face of the friction roller 02 and a left side frame. The result is that the coupling rod 08 is only subjected to pressure. Reference numerals list

01 Be gesture 11

02 grater, roller

03 roll neck

04 warehouse

05 end, end (03)

06 axis of rotation (02)

07 end, first (08)

08 coupling rod

09 ball stud (19)

10 ball bushing (19)

11 joint

12 end, outer

13 lever l, one arm g

14 clevis

15 ball studs (11)

16 -

17 -

18 shaft, shaft end (23)

19 joint

20 thread nut

21 ball bushing (11)

22 end, second (08)

23 drive, electric motor, drive motor (13)

24 seesaw

25 end, first (13)

26 swivel

27 rotation axis (23) 8 Li nantant drive 9 threaded spindle (28) 30 31 bearing, eye (29) 32 bracket 33 lever, one arm (13) 34 lever, two arms (13) 35 36 37 hand rim (29) 38 counterweight (34)

A stroke direction

B swivel direction

± h stroke

Alpha angle (06; 27)

Claims

Expectations

1. roller (02) with a drive (23) for generating an adjustable stroke (h), the roller (02) being connected to a first end (07) of an articulated coupling (08) and a second end (22) the coupling (08) is connected eccentrically to a drive (23) with respect to its axis of rotation (27), characterized in that the speed of the drive (23) and the speed of the roller (02) can be changed relative to one another.

2. roller (02), characterized in that at one end (05) of a roll neck (03) of the roller (02) a coupling rod (08) with its first end (07) is articulated that to generate a rotational movement of the coupling rod ( 08) around the axis of rotation (06) of the roller

(02) a speed-adjustable drive (23), which is supported on the side frame (01), is provided such that the drive (23) via its driving shaft end (18) is form-fitting via an element (13) producing a leverage effect, with the second end ( 22) the coupling rod

(08) is connected so that the drive (23) is pivotable with respect to the axis of rotation (06).

3. Roller (02) according to claim 1, characterized in that the drive (23) is a speed and / or position-controllable motor.

4. roller (02) according to claim 1, characterized in that the axes of rotation (06, 27) of the roller (02) and cut the shaft end (18) of the drive (23) at an acute angle (Alpha).

5. roller (02) according to claim 4, characterized in that the angle (alpha) is adjustable.

6. roller (02) according to claim 1, characterized in that the speed of the drive (23) is infinitely adjustable.

7. roller (02) according to claim 2, characterized in that as a lever-generating element (13) a one-armed lever (13) or a two-armed lever or a disc is provided that they are each rotatably connected to the shaft end (18).

8. roller (02) according to claim 2, characterized in that the coupling rod (08) is articulated directly or indirectly on a disc, that the disc on the shaft end (18) is rotationally fixed.

9. roller (02) according to claim 2, characterized in that a spring force accumulator is arranged between a bale end face of the roller (02) and one of the side frames (01).