DE102008045378A1 - Pneumatic cylinder bearing unit has bearing block provided for rotative bearing of pivot of printing-press cylinder, where electromagnet is provided as holding unit - Google Patents

Abstract

The pneumatic cylinder bearing unit (1) has a bearing block (2) provided for rotative bearing of a pivot (4) of a printing-press cylinder. The printing-press cylinder is slid along of an operating displacement orthogonal to the rotational axes (A,A') of the printing-press cylinder. An electromagnet is provided as holding unit.

Description

Field of the invention

The The invention relates to a rotative and - with respect the axis of rotation - radially displaceable mounting a Printing press cylinder provided for printing cylinder storage unit after the preamble of claim 1.

Background of the invention

A generic pressure cylinder bearing unit is for example from the patent DE 10 2004 063 944 B4 known. In particular, on the 18 and 19 as well as on the heels 113 to 130 referenced the said patent. A designed as a carriage bearing block of the printing cylinder bearing unit can be moved by means of an actuator, wherein on the opposite side of the actuator axis of rotation of the printing cylinder, a wedge forms an adjustable stop for the bearing block. The wedge can be fixed in a desired position by means of an unspecified holding or clamping means.

Object of the invention

Of the Invention is based on the object, a printing cylinder storage unit indicate which a radial adjustment as well as a determination a printing cylinder with very high reliability allows.

Summary of the invention

These The object is achieved by an impression cylinder bearing unit with the features of claim 1. This impression cylinder bearing unit has a rotary bearing for a On the journal of a printing machine cylinder, which along one to the axis of rotation of the printing press cylinder orthogonal Stellweges is displaced. For shifting the bearing block is one of those directly or indirectly attacking, for example pneumatically actuated, actuator provided. On the Actuator opposite side of the bearing block is the Travel is limited by a sliding wedge, with the wedge by at least one - preferably two - electromagnets can be fixed as a holding means.

To In a preferred embodiment, the wedge has a first section, which abuts the bearing block, and a second Section, which can be fixed directly by the retaining means is, on, with the two sections being integral with each other are connected. The first section is - towards the Travel measured - preferably thinner than the second section. In contrast, the first section is both in axial as well as in the tangential direction of the printing press cylinder in a preferred embodiment more extensive than the second section. The first section, like the second section, preferably a prismatic basic form.

According to one advantageous development, the first section has a structured Surface on. The surface can be, for example form a groove structure or a diamond pattern. In any case can by the type of structuring the on the relevant section of the wedge and acting on the adjoining surface Surface pressure can be influenced.

following an embodiment of the invention with reference to a Drawing explained in more detail. Herein show:

Short description of the drawing

1 a printing cylinder storage unit in a sectional view,

2 a detail of the printing cylinder storage unit after 1 , and

3 a wedge as an individual part of the printing cylinder storage unit.

Detailed description the drawing

An in 1 total with the reference numeral 1 characterized printing cylinder storage unit has a bearing block 2 on which in a machine frame 3 a printing press not shown along a travel S is displaceable. The travel S is orthogonal to the rotation axis designated A, of a printing machine cylinder, for example a plate cylinder or a blanket cylinder, which is only partially shown: Only a hollow pin in the illustrated embodiment 4 of the press cylinder is in 1 played. Inside the warehouse block 2 is the pin 4 whose axis of rotation A is identical to the axis of rotation of the entire printing press cylinder, with a double-row cylindrical roller bearing 5 stored.

The storage block 2 can by using an actor 6 , which on the one hand at the storage block 2 and on the other hand on the machine frame 3 supports, be moved so that the axis of rotation A is displaced radially. A rotational axis offset from the original axis of rotation A is in FIG 1 denoted by A '. The storage block 2 has an overall frame-like shape. On the the actor 6 opposite side of the bearing block 2 is the sen displacement S by a sliding wedge 7 limited, with the wedge 7 in the tangential direction of the printing press cylinder, that is orthogonal to the axis of rotation A and to the travel S, is displaced.

For fixing the wedge 7 on the machine frame 3 is an in 2 recognizable holding means 8th provided, which in the form of two electromagnets 9 is realized. Furthermore, in 2 two holes 10 shown, which for carrying electrical lines to the electromagnet 9 are suitable.

The in 3 isolated illustrated wedge 7 has two integrally connected sections 11 . 12 on, namely a first section 11 , also referred to as a wedge section, on which the bearing block 2 supports, and a second section 12 , Also referred to as a holding section, which by means of the holding means 8th on the machine frame 3 is held in a desired position. During the wedge section 11 the basic shape of a prism with a parallelogram as a base, is the second section 12 essentially cuboid.

Measured in the direction of the travel S, that is, in the radial direction, based on the axis of rotation A, is the second section 12 thicker than the first section 11 , The minimum thickness of the first section 11 is at least 40% and the maximum thickness of the first section 11 at most 80% of the thickness of the second section 12 , The direction of displacement of the wedge 7 is in 3 denoted by V. In the arrangement according to 1 is the wedge 7 displaceable perpendicular to the section plane shown. The first paragraph 11 shows how both off 1 as well as out 3 shows along the axis of rotation A has an extent which is greater than the measured in the same axial direction expansion of the second portion 12 , Also in the tangential direction, that is in the direction of displacement V, is the wedge portion 11 broader than the holding section 12 ,

While on the holding means 8th fixed surface of the second section 12 smooth, that is unstructured, has a surface 13 of the first section 11 a structuring 14 , namely a groove structure, on. One from the warehouse block 2 over the wedge 7 on the machine frame 3 acting force is over the surface 13 transfer. By the kind of structuring 14 is the surface pressure influenced. Alternatively or in addition to structuring 14 can the wedge 7 have a coating.

1

The printing cylinder support unit

2

bearing block

3

machine frame

4

spigot

5

Cylindrical roller bearings

6

actuator

7

wedge

8th

holding means

9

electromagnet

10

drilling

11

first section

12

second section

13

surface

14

structuring

A

axis of rotation

A '

Axis of rotation added

S

Travel Range

V

displacement direction

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102004063944 B4 [0002]

Claims (8)

Printing cylinder bearing unit, with a rotatably supporting a journal ( 4 ) of a printing press cylinder provided storage block ( 2 ) which is displaceable along an axis of rotation (A, A ') of the printing press cylinder orthogonal actuating path (S), wherein for displacement of the bearing block ( 2 ) an actor ( 6 ) and on which the actuator ( 6 ) opposite side of the bearing block ( 2 ) whose travel (S) by a sliding wedge ( 7 ), and wherein the wedge ( 7 ) by a holding means ( 8th ), characterized in that as holding means ( 8th ) at least one electromagnet ( 9 ) is provided. Printing cylinder bearing unit according to claim 1, characterized in that the holding means ( 8th ) by at least two electromagnets ( 9 ) is formed. Printing cylinder bearing unit according to claim 1 or 2, characterized in that the wedge ( 7 ) a first section ( 11 ), on which the storage block ( 2 ), and a second section ( 12 ), which by means of the holding means ( 8th . 9 ) is fixed. Printing cylinder bearing unit according to claim 3, characterized in that the first section ( 11 ) - measured in the direction of the travel (S) - thinner than the second section ( 12 ). Printing cylinder storage unit according to claim 3 or 4, characterized in that the first section ( 11 ) - measured in the axial direction of the printing press cylinder - more extensive than the second section ( 12 ). Printing cylinder bearing unit according to one of claims 3 to 5, characterized in that the first section ( 11 ) - measured in the tangential direction of the printing press cylinder - more extensive than the second section ( 12 ). Printing cylinder bearing unit according to one of claims 3 to 6, characterized in that the first section ( 11 ) a structured surface ( 13 ) having. Printing cylinder storage unit according to claim 7, characterized in that the surface ( 13 ) of the first section ( 11 ) a groove structure ( 14 ).