EP1112185B1 - Roller - Google Patents

Description

The invention relates to a roller for a Rotary printing machine according to the preamble of Claim 1.

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

The invention has for its object a to create changeable roller in the axial direction.

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

The advantages that can be achieved with the invention exist in particular in that the stroke frequency and / or the Stroke length optionally adjustable during operation is.

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

The only drawing shows a schematic Side view of the changeable roller with its Linear actuator.

In two side frames 01 (one side frame is 01 shown), both roller journals 03 are one drivable roller 02, z. B. a friction roller, rotatable and axially displaceable. The desired stroke ± h from Z. B. + 25 mm, is gradual or stepless adjustable.

For storage of the roll neck 03 bearings 04, z. B. Plain bearings in holes in the side frames 01 intended.

At the end of one of the roller journals 03, e.g. B. on one End face 05 of the end of the roll neck 03 is in Area of the axis of rotation 06 of the roll neck 03 Joint 19, e.g. B. with mobility (degrees of freedom) f = 4 attached. The hinge 19 is, for. B. as train and shear-resistant ball tube joint executed. His Ball pin 09 is on the end face 05 and its Ball bushing 10 at a first end 07 one rigid coupling rod 08 attached.

At a second end 22 of the rigid coupling rod 08 a ball sleeve 21 is attached.

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

A first end 25 of the lever 13 is on one around it Rotation axis 27 rotating shaft 18 of a drive 23, e.g. 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 are relative to one another alignable that in a first extreme case coincide and in the second extreme case an angle Alpha, e.g. B. 30 ° include. The angle is alpha gradually or continuously adjustable and holdable.

The setting of the angle alpha can be done directly Tilt the drive, - in the embodiment of the Drive motor 23 -, done. For this purpose, e.g. B. below on the drive motor 23 front, near the drive shaft end Provided feet that are attached to a rocker 24. The rocker 24 is via a joint, for. B. swivel, with a degree of freedom 1, with the side frame 01 pivotally connected. The limbs of the joint 26 stand so in the form fit that a sideways tilting in their Power transmission is not possible.

In addition, at the bottom of the drive motor 23 there is a rear, - So distant from the drive shaft -, bearing 31 in the form of a Eye provided, the articulated with a clevis 14th a linear drive 28 is connected.

The linear drive 28 can, for. B. from a medium Handwheel 37 or motorized in two directions drivable threaded spindle 29 exist, the upper End is rotatably tied in the clevis 14. The Thread of the threaded spindle 29 is with a Internal thread of a nut 20 in engagement. The Threaded nut 20 is in a bracket fixed on the side frame 32 attached.

A pivoting of the drive 23 and thus the Drive element in the desired direction, -. H. of the lever 13 - is carried out by appropriate actuation of the linear drive 28. If the threaded spindle L 29 is on the left or twisted to the right, rises and falls at its end the drive 23 and thus also the lever 13. The exerts pressure or tension on the coupling rod 08, and thus on the roll neck 03.

Twisting the threaded spindle 29 therefore results in that the stroke h changes accordingly.

The stroke ± h becomes zero as soon as the drive 23 is out of operation is or the angle alpha is zero.

The lever 13 can be used as a one-armed lever or as two-armed lever are formed. Instead of the lever 13, a rotating disk can also be provided.

In order to be able to set the stroke frequency, the drive is 23, e.g. B. an electric motor, as a speed-controlled or controlled drive. Will the speed of the Drive 23 increases, the proportionally increases stroke frequency; if it is reduced, it decreases the stroke frequency is proportional to this. If the drive 23 switched off, the friction roller 02 no longer performs a stroke out.

According to a variant, it is also possible between the side frame 01 and the right Front of the friction roller 02 an energy accumulator, for. B. a compression spring, not shown, to be arranged. Thereby the coupling rod 08 is only on train claimed. This happens when the friction roller 02 moves from left to right and the compression spring thereby squeezing. With subsequent movement of the The rubbing roller 02 from right to left then relaxes the compression spring again and gives its stored power off again.

But it can also be a compression spring between a left Front of the roller 02 and a left Side frame can be arranged. As a result, the Coupling rod 08 is only subjected to pressure.

LIST OF REFERENCE NUMBERS

01

side frame

02

Grater, roller

03

roll neck

04

camp

05

End, end (03)

06

Rotation axis (02)

07

End, first (08)

08

coupling rod

09

Ball Stud (19)

10

Ball bushing (19)

11

joint

12

End, outer

13

Lever, one arm

14

clevis

15

Ball stud (11)

16

-

17

-

18

Shaft, shaft end (23)

19

joint

20

threaded 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)

28

linear actuator

29

Lead screw (28)

30

-

31

Bearing, eye (29)

32

bracket

33

Lever, one arm (13)

34

Lever, two-armed (13)

35

-

36

-

37

Hand edge (29)

38

Balance weight (34)

A

stroke direction

B

pan direction

± h

stroke

alpha

Angle (06; 27)

Claims (9)

1. Roller (02) having a drive (23) for generating an adjustable stroke (h), the roller (02) being connected to a first end (07) of a joint-mounted coupler (08), and a second end (22) of the coupler (08) being connected eccentrically to a drive (23), in relation to its axis of rotation (37), characterized in that the rotational speed of the drive (23) and the rotational speed of the roller (02) can be varied relative to each other.
2. Roller (02), characterized in that at one end (05) of a roller journal (03) of the roller (02) a coupling rod (08) is attached by its first end (07), in that in order to generate a rotational movement of the coupling rod (08) about the axis of rotation (06) of the roller (02), an adjustable-speed drive (23) supported on the side frame (01) is provided, in that the drive (23) is connected, via its driving shaft end (08), by a form fit via an element (13) that generates a lever action to the second end (22) of the coupling rod (08), and in that the drive (23) can be pivoted in relation to the axis of rotation (06).
3. Roller (02) according to Claim 1, characterized in that the drive (23) is a controllable-speed and/or controllable-position motor.
4. Roller (02) according to Claim 1, characterized in that the axes of rotation (06, 27) of the roller (02) and of the shaft end (18) of the drive (23) intercept at an acute angle (alpha).
5. Roller (02) according to Claim 4, characterized in that the angle (alpha) is variably adjustable.
6. Roller (02) according to Claim 1, characterized in that the rotational speed of the drive (23) can be adjusted continuously.
7. Roller (02) according to Claim 2, characterized in that the element (13) that is provided to generate a lever action is a one-armed lever (13) or a two-armed lever or a disc, and in that they are in each case connected firmly to the shaft end (18) so as to rotate with it.
8. Roller (02) according to Claim 2, characterized in that the coupling rod (08) is attached directly or indirectly to a disc, and in that the disc is fixed firmly to the end of the shaft (18) so as to rotate with it.
9. Roller (02) according to Claim 2, characterized in that a spring energy store is arranged between an end face of the barrel of the roller (02) and one of the side frames (01).

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