DE10235290A1 - Printing press cylinder bearing has inner ring set at an angle to a surrounding outer ring compensating for axle bend - Google Patents

Abstract

A printing press cylinder rests on a bearing (1) and rotates about an axis (2). The bearing has an inner ring (3) separated by roller bearings (9) from an outer ring (4) which has a number of bearing races (5, 6, 7) about an axis (8). The bearing race axis (8) is esp. inclined at an angle alpha to the outer ring (4) axis (2).

Description

The invention relates to a bearing for storing a machine part for rotation about an axis, with at least one inner ring, at least one outer ring, which has a raceway or Has raceways through a bore or multiple bore sections is or are formed with an axis, and between the inner ring and outer ring arranged rolling elements.

Especially when storing Printing cylinders in printing machines are bearing arrangements with several Rows of rolling elements used to the forces transferred from the impression cylinder into the housing to be able to and a precise Ensure storage of the printing cylinder. In operation, the Printing cylinders of a high load, which is why there is some deflection of the impression cylinder and that arranged at the axial end of the impression cylinder Cone is coming. The deflection leads to different loads in the individual rows of rolling elements the multi-row bearing arrangement. This has a lifespan reduction the bearing, since at least one row of rolling elements is a relatively higher load must record.

From the DE 33 23 900 A1 is known a multi-row (here: three-row) bearing arrangement with which the pins of a roller are stored. Three bearing inner rings are arranged on the conical pin of the roller, the diameter of the raceways being different in each case. The associated three bearing outer rings are all geometrically identical, so that rolling elements with different diameters are used to ensure stable and precise bearing of the roller.

Similar solutions for the bearing of the pin of a roller are from the DE 200 11 947 U1 , the DE 200 11 948 U1 and the DE 200 16 713 U1 known.

With all of these previously known solutions however no special measures taken to ensure that even if the roller deflected and, if necessary, the spigot as evenly as possible the bearing forces on the several rows of rolling elements the bearing arrangement.

The invention is therefore the object based on the further development of a bearing arrangement mentioned at the beginning, that it is ensured that even if the shaft bends, i.e. especially when the printing cylinder bends in a printing press, one if possible even load distribution on the individual rows of rolling elements the bearing arrangement is made to the life of the bearing arrangement to increase.

The solution to this problem by Invention is characterized in that the axis of the track or raceways of the outer ring and form an angle with the axis of rotation of the machine part.

According to the invention, the deformation of the As a result, the shaft axis is designed for the loads to be expected "Provided" that the axis of the career or the career of the outer ring and the axis of rotation of the machine part is not - as usual - identical, but are arranged so that they have a slight angle connect with each other. This ensures that the expected deflection of the Shaft (bending line) an optimal distribution of forces the at least one row of rolling bearings the bearing arrangement results. "Edge carrying" is prevented.

According to a first training it is provided that the bearing has at least two rows of rolling elements.

The angle between the axis of the Raceway or raceways of the outer ring and the axis of rotation of the machine part is preferably in a range between 1 angular minute and 0.5 °.

It can also be provided that the distance between the raceways of the inner ring and the raceways the outer ring in each row of rolling elements is the same size.

To implement the idea of the invention is advantageously provided that the outer ring has a cylindrical outer periphery has, which is arranged in a bore of a housing, the Axis of the outer circumference the outer ring and the axis of rotation of the machine part are identical.

An alternative solution is that the outer ring a cylindrical outer circumference has, which is arranged in a bore of a housing, wherein the axis of the outer circumference the outer ring and the axis of the raceway or raceways of the outer ring are identical.

The outer ring can be with a flange be connected, the flange being attached to the housing.

The concept according to the invention comes in particular good to use if the bearing is a cylindrical roller bearing is.

With the proposed design A bearing arrangement ensures that one row of rolling elements of the camp or - in Case of multiple rows - that all rows of rolling elements the bearing arrangement with an assumed or expected deflection the wave according to their (Predictable) bending line is or will be evenly loaded. As a result, the bearing arrangement has a significantly longer service life achieved, one compares it with previously known solutions. In the state of the art was previously an "edge stretcher" of the rolling element row or individual rolling element rows accepted, but as a result, the affected rows of rolling elements failed prematurely.

Exemplary embodiments are shown in the drawing presented the invention. Show it:

1 the section through a bearing arrangement which is provided for the storage of the pin of a printing cylinder in a printing press,

2 the printing cylinder of a printing machine with bilateral storage in a three-dimensional representation and

3 one too 1 corresponding representation of an alternative embodiment.

First up 2 Referring to where it can be seen how a printing cylinder of a printing press is supported by two bearings arranged at the axial ends of the printing cylinder. The end of the pressure cylinder has a pin, which is enclosed by a bearing inner ring and is mounted relative to the housing.

In 2 is schematically illustrated with dash-dotted lines as the axis 2 around which the impression cylinder rotates deforms when forces act on the impression cylinder. The result is the "bending line", which in the axial end regions of the pressure cylinder results in the journal axis entering the bearing at a slight angle.

In 1 it can be seen how the procedure according to the invention is carried out in order to absorb the anticipated and predictable deflection of the pressure cylinder in such a way that there is no "edge bearing" of the rolling elements of the bearing arrangement.

The warehouse 1 has an inner ring 3 and an outer ring 4 on, the camp 1 serves to store a machine part (here: the pin of the pressure cylinder) so that it is about an axis 2 can rotate. The warehouse 1 is designed as a three-row cylindrical roller bearing. For this purpose, the outer ring 4 three career sections 5 . 6 and 7 on which rolling elements 9 roll in the form of cylindrical rollers; the three career sections 5 . 6 and 7 are formed here by a uniform cylindrical surface of the outer ring 4, which is why the bearing 1 is designed here as a floating bearing.

The inner ring 3 also has three careers 14 . 15 and 16 on where the cylindrical rollers 9 be able to walk. Around the cylindrical rollers 9 To be able to guide axially, the raceways in their respective axial end region have rims that are not labeled.

The outer ring 4 is in a hole 17 of a housing 18 housed and has a side flange 19 on which it is connected to the housing by means of a screw connection 18 is set.

While the axis 2 designates the axis around which the mounted machine part (here: the pressure cylinder) should rotate defines the axis 8th the axis of symmetry of the bearing outer ring 4 and the axis 13 the axis of symmetry of the bearing inner ring 3 ,

How out 1 the axis closes 2 on the one hand and the axes 8th and 13 on the other hand, a slight angle α, which is usually between 0.02 ° and 0.5 ° and which corresponds to the inclination of the pin of the printing cylinder to be expected during operation.

The angle α is realized in that the raceway bore (for the raceways 5 . 6 and 7 ) in the outer ring 4 is incorporated at this angle; the inner ring 3 the bearing is, however, made without any modification.

It follows that the distance α between the raceways 5 . 6 respectively. 7 the outer ring 4 and the careers 14 . 15 and 16 of the inner ring 3 are the same size (a ₁ = a ₂ = a ₃ ); So there are equal distances between the outer ring and inner ring raceways for all three rows of bearings 10 . 11 and 12 in front.

The same result is obtained if, according to another embodiment, the in 3 is sketched, provides that although a conventional hollow cylindrical bearing outer ring 4 is used, but by the angle α relative to the axis of the flange 19 is rotated so that in the installation situation outlined - as with 1 - The design results, according to which the angle α between the axis of rotation 2 of the impression cylinder and the axis 8th or the axis 13 of the outer or inner ring results.

Due to the proposed design of the bearing, it follows that when the shaft of the pressure cylinder bends according to the bending line to be expected, the three rows of rolling elements are loaded evenly 10 . 11 and 12 he follows. All three rows of bearings are therefore equally loaded, so that no premature wear occurs in one row of bearings. The service life of the entire bearing arrangement is thus increased. This also applies in principle if only a single row of bearings is provided; for them "edge stretcher" is then prevented by the measures according to the invention.

1

camp

2

axis

3

inner ring

4

outer ring

5

career the outer ring

6

career the outer ring

7

career the outer ring

8th

axis

9

rolling elements

10

bearing series

11

bearing series

12

bearing series

13

axis

14

career of the inner ring

15

career of the inner ring

16

career of the inner ring

17

drilling of the housing

18

casing

19

flange

α

angle

a1

distance

a2

distance

a3

distance

Claims (9)

Camp ( 1 ) for storing a machine part for rotation about an axis ( 2 ), with: - at least one inner ring ( 3 ), - at least one outer ring ( 4 ) who have a career or careers ( 5 . 6 . 7 ) which has one or more bore sections with an axis ( 8th ) is or will be formed, and - between the inner ring ( 3 ) and outer ring ( 4 ) arranged rolling elements ( 9 ), characterized in that the axis ( 8th ) the running ahn or running tracks ( 5 . 6 . 7 ) of the outer ring ( 4 ) and the axis ( 2 ) enclose an angle (α) with the rotation of the machine part. Bearing according to claim 1, characterized in that there are at least two rows ( 10 . 11 . 12 ) Rolling elements ( 9 ) having. Bearing according to claim 1 or 2, characterized in that the Angle (α) is between 1 'and 0.5 °. Bearing according to one of claims 1 to 3, characterized in that the axis ( 13 ) the career (s) ( 14 . 15 . 16 ) of the inner ring ( 3 ) with the axis ( 8th ) the career (s) ( 5 . 6 . 7 ) of the outer ring ( 4 ) coincides. Bearing according to one of claims 1 to 4, characterized in that the distance (a ₁ , a ₂ , a ₃ ) between the raceways ( 14 . 15 . 16 ) of the inner ring ( 3 ) and the careers ( 5 . 6 . 7 ) of the outer ring ( 4 ) in each row ( 10 . 11 . 12 ) is the same size. Bearing according to one of claims 1 to 5, characterized in that the outer ring ( 4 ) has a cylindrical outer circumference, which in a bore ( 17 ) of a housing ( 18 ) is arranged, the axis of the outer circumference of the outer ring ( 4 ) and the axis ( 2 ) the rotation of the machine part are identical. Bearing according to one of claims 1 to 5, characterized in that the outer ring ( 4 ) has a cylindrical outer circumference, which in a bore ( 17 ) of a housing ( 18 ) is arranged, the axis of the outer circumference of the outer ring ( 4 ) and the axis ( 8th ) of the career or careers ( 5 . 6 . 7 ) of the outer ring ( 4 ) are identical. Bearing according to one of claims 1 to 7, characterized in that the outer ring ( 4 ) with a flange ( 19 ) is connected, the flange ( 19 ) on the housing ( 18 ) is attached. Bearing according to one of the claims 1 to 8, characterized in that the bearing is a cylindrical roller bearing is.