DE3635569A1 - Sliding bearing for cylinders of printing machines - Google Patents

Abstract

The invention relates to a sliding bearing for cylinders, which can be engaged and disengaged, of printing machines. The aim of the invention is to provide a sliding bearing which, in the event of a changing loading in terms of amount and direction, prevents destruction of the bearing. The object of providing a sliding bearing which compensates for slight alignment errors of the bore in the frame, in the event of static and dynamic loading, and simultaneously serves as an actuating member is achieved in that at least the eccentric outer bearing is provided with an oscillating surface. <IMAGE>

Description

field of use

The invention relates to a plain bearing for adjustable and removable Cylinders of printing machines.

Characteristic of the known technical solutions

A bearing for cylinders is known to have a centering collar is provided and displaceable perpendicular to the cylinder axis and wedges positively connected to the bearing for Compensate for misalignment of the hole in the frame is (DD 1 42 951).

The disadvantage here is that the bearing compensates for misalignments only guaranteed with static load.  

Cylinder bearings in printing machines are subject to during printing Considerable dynamic load changes with one cylinder revolution. This leads to deformation of the frame parts and of the camp itself.

Furthermore, there is a device for printing on and off of cylinders known, the cylinder bearing as a plain bearing is trained (DD 86 631). The cylinder is doing this via an eccentric bearing to those interacting with the cylinder Cylinders, drums or rollers switched on and off.

The disadvantage here is that it turns on and off the pressure due to the misalignment of the hole in the frame for tilting of the cylinder journal that destroys the bearing can lead.

Aim of the invention

The aim of the invention is to provide a plain bearing which changing load in amount and direction a destruction excludes the camp.

Object of the invention

The invention has for its object to a plain bearing generate the slight misalignment of the hole in the frame compensated in static and dynamic load cases and at the same time serves as an actuator.  

Essence of the invention

The object of the invention is achieved in that at least provide the eccentric external bearing with a pendulum surface and the pendulum surface is curved outwards. The counter surface of the Pendulum area corresponds to the pendulum area. The camp is centered. The height of the pendulum surface corresponds at least 1.5 times the permissible misalignment, the The width of the pendulum surface is preferably 0.3. . . 0.5 times the hole length in the frame. The ratio of the distance to the radius is preferably 0.5. . . 0.5.

Embodiment

The invention is based on an exemplary embodiment are explained in more detail.

The associated drawings show in

Fig. 1 is a sectional view of a cylinder bearing

Fig. 2 is a side view of a cylinder bearing

Fig. 3 shows an embodiment of a bearing

Fig. 4 shows another embodiment of a bearing.

In Fig. 1, a frame 1 is shown, which has a bore 2 , in which a cylinder pin 3 is arranged via a bearing 4 . The centrally designed bearing 4 consists of an eccentric inner bearing 4.1 and an eccentric outer bearing 4.2 . The eccentric outer bearing 4.2 is provided with a pendulum surface 4.3 . The pendulum surface 4.3 is arranged in the center of the applied bearing force F _L. The width B of the pendulum surface 4.3 is preferably 0.3. . . 0.5 of the hole length 2.1 in frame 1 and the height H of the pendulum surface 4.3 is at least 1.5 times the permissible misalignment of hole 2 in frame 1 . The distance A between the line of action of the bearing force F _L and the plane of action of the on and off force F _{on / down} is such that tilting of the outer bearing 4.2 in the bore 2 is avoided when _starting and stopping. The ratio of the distance A to the radius R _{on / down} , which describes the distance between the center M of the bore 2 to the force application point F _{on / down} , should be 0.4. . . 0.5. The eccentric inner bearing 4.1 lying directly on the cylinder journal 3 is provided with a sliding collar 4.4 and a bearing handle 4.5 .

Fig. 2 shows a side view of the bearing with the cylinder journal 3 , the eccentric inner bearing 4.1 and the eccentric outer bearing 4.2 .

In Fig. 3, another embodiment of the pendulum surface 4.3 is shown. The pendulum surface 4.3.1 of the bearing 4 has an outwardly curved shape which bears against the inner wall 2.2 of the bore 2 of the frame 2 .

In FIG. 4, the same execution of the oscillating surface is shown 4.3.1 as shown in FIG. 3. In this embodiment, the counter surface 5 of a dome 6 lying against the inner wall 2.2 of the bore 2 corresponds to the outwardly curved pendulum surface 4.3.1 .

The alignment errors of the bore 2 are compensated for via the pendulum surface 4.3 on the eccentric outer bearing 4.2 and the eccentric inner bearing 4.1 , which are always aligned with the bearing journal 3 .

The advantages of the solution according to the invention are that, due to the pendulum surface 4.3 arranged centrally to the introduced bearing force and the execution of the pendulum surface 4.3 in a certain height and width ratio, a compensation of the alignment errors is achieved even in the operating state. At the same time it is achieved that the forces occurring during the pressure switching on and off as well as pressure regulation no longer have any influence on the formation of canting of the cylinder journal and thus destruction of the bearing is prevented. In addition, the warehouse can serve as a positioning bearing for printing on and off.

• Set of reference numerals 1 frame 2 bore 2.1 bore length 2.2 inner wall of bore 2 3 cylinder journal 4 bearings 4.1 eccentric inner bearing 4.2 eccentric outer bearing 4.3 pendulum surface 4.3.1 curved pendulum surface 4.4 sliding collar 4.5 bearing handle 5 counter surface 6 calotte

Claims (7)

1. plain bearing for cylinders of printing presses, wherein a cylinder can be turned on and off via one or more eccentric bearings on the cylinders, drums or rollers interacting with the cylinder, characterized in that at least the eccentric outer bearing ( 4.2 ) with a pendulum surface ( 4.3 ) is provided. 2. plain bearing according to point 1, characterized in that the pendulum surface ( 4.3 ) is curved outwards. 3. A plain bearing according to item 1 and 2, characterized in that the counter surface (5) corresponds to the oscillating surface (4.3) with the pendulum surface (4.3). 4. plain bearing according to item 1, characterized in that the bearing ( 4 ) is formed centrally. 5. plain bearing according to point 1, characterized in that the height H of the pendulum surface ( 4.3 ) corresponds to at least 1.5 times the permissible misalignment of the bore ( 2 ) in the frame ( 1 ). 6. plain bearing according to point 1, characterized in that the width ( B ) of the pendulum surface ( 4.3 ) preferably the 0.3. . . 0.5 times the hole length ( 2.1 ) in the frame ( 1 ). 7. plain bearing according to point 1, characterized in that the ratio of the distance ( A ) to the radius ( R _{an / ab} ) 0.4. . . Is 0.5.