AT504422A2 - PIVOTING OF A PASSENGER, CARDBOARD OR EQUIPMENT BENDING ROLLER - Google Patents

Description

Gelenklaaeruna of a paper mill. Carton or equipment machine

The subject of the present invention is a hinge bearing for a deflection roll of a paper, board or finishing machine, which roll has a rotationally fixed yoke extending axially through the roll, with the ends of this yoke protruding from the roll and inserted into bearing blocks.

The subject of the present invention is, in particular, a zone-controlled deflection adjustment roller to be used in paper or board machines in various positions, for example in the press section or in the calender, with a non-rotatable yoke, which is fixed to the yoke 9 9 • 9 · 99 • · • # • 9 • 9 • ♦ • 9 • 4 • · • 9 9 9 99 9 9 9 9999 ···· 99 the machine frame is mounted by means of pedestals with articulated bearings, and with one on the Yoke rotatable about this bearing mantle whose position to the yoke is fixed. On the yoke hydraulic support elements are arranged, distributed on zones, each comprising one or more support elements. The nip force is passed through the jacket on the support elements and further over the yoke on the stiffening. The nip force distribution can be varied by acting on the support elements of the individual zone oil pressure. The deflection adjusting roller of this type is used together with a mating roll to form a nip whose loading is effected, for example, by loading the mating roll with separate hydraulic cylinders against said deflection roll or, for example, by lifting the deflection roll from its journals against the backing roll. The transfer of the nip force on the yoke of the roller leads to a bending of the yoke and thus to a tendency of the yoke ends, which is compensated by the hinge bearing located in the bearing block. The hinge bearing also allows for example caused by thermal expansion axial movement of the yoke.

The natural frequency of the free roll is determined mainly by the stiffness, the mass and the support stiffness of the yoke. Because of the nip loads, the roller yoke is typically stiffer in the direction of the nip plane than transverse to that direction. Also, the support of the roller to the chair is in the machine direction typically a looser one. One of the problems involved is that the natural frequency and shape of the roll in the machine direction in snow machines, for example in the OptiLoad calender, fall into the running speed range of the machine when operating with the nip open.

This invention is based on the object to provide a solution with which increases the rigidity of the yoke support in a direction transverse to the nip force in a relatively simple manner and thus the natural frequency can be shifted above the operating range, and this solution is a reliable and advantageous Joint bearing supplies.

This object is achieved by the joint bearing according to the invention, the characteristic features of which emerge from the characterizing part of patent claim 1.

In the following, the invention will be described in more detail with reference to the accompanying drawings, in which Figs. 1-5 show, in the form of schematic outline drawings, different embodiments of the invention. • φφ · φ φφ • φ • φφφφ ♦ φφ / βφφφ - ^ * φφφφφφφφφφφφφφφφφφφφφφφφφφφφφφφφφ

Fig. 1 shows a joint bearing arrangement according to the invention, in which a bearing against this fixed outer ring 2 and in this outer ring, an inner ring 3 are arranged on the bearing block 1, wherein the sliding surface between the outer and inner ring forms part of a spherical surface. Laterally on the inner ring 3, for example, by removing the required part of the inner ring, substantially in the direction of the nip force F extending side surfaces 3a are formed. Correspondingly, flat portions 2a are formed on the sliding surface of the outer ring 2, for example, by providing the outer ring with side parts substantially corresponding to the part remote from the inner ring. In this case, the joint bearing, guided by the guide surfaces 3a, 2a, is able to rotate in the direction of the nip force F while its rotation in the transverse direction is blocked. Thereby, the rigidity of the roller yoke is increased transversely to the direction of the nip force, and when driving high speeds with open nips so the natural frequency is shifted to a range above the operating range. Reference numeral 20 denotes the roller mounted on the bearing block, the reference numeral 21 denotes its counter roller.

Fig. 2 and 3 show an alternative embodiment of the joint bearing in which directly in the bearing block 1, a square bearing housing is formed, in which vertical rotation permitting joint parts 5, 6 and vertical Seitengleitkörper 7, 8 are arranged. The · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · »# T« ··

Reference numeral 9 denotes the roller yoke surrounding protective parts.

FIGS. 4 and 5 show an alternative embodiment of the solution shown in FIGS. 2 and 3. In this embodiment, a relative to this rotatable outer ring 2 is arranged on the bearing block 1, in which a rectangular in cross-section bearing housing is formed, the corresponding joint bearing parts 5, 6 and Seitengleitkörper 7, 8 as the embodiment in FIGS. 2 and 3 has. On the bearing block 1 locking elements 11, 12 are arranged, with which the rotatable outer ring can be locked in different positions to the bearing block 1. This solution allows a deviating from the vertical nip force direction.

The hinge bearing parts 5, 6 are preferably made of bronze plates / plates, which are convexly shaped on its underside, wherein, by allowing rotation of the yoke end in the direction of the nip force causing the bending, the bending of the yoke is taken into account. By changing the proportions of the Seitengleit-body can be adjusted in a relatively simple manner, the position of the nip in the lateral direction. With such a square joint bearing is achieved in comparison to the round spherical plain bearing a higher load capacity, and the production and supply of spare parts are accelerated and cheaper. In addition, the storage is reliable.

claims:

Claims (5)

t ······································································································································································································· POTH Patent Attorneys OEG Dorotheergasse 7 - A-1010 Vienna - patent@aon.at Tel: +43 (1) 512 10 98 - Fax: +43 (1) 513 47 76 Claims 1. Articulated storage for a paper, board or A deflection adjusting roll to be used in equipment machines, having a rotationally fixed yoke extending axially through the roll, the ends (4) of which project from the roll and are inserted into bearing blocks (1), characterized in that the pivot bearing is designed such that the rotation of the roller in the bearing is blocked in the direction transverse to the plane of the nip force (F). 2. Spherical bearing according to claim 1, characterized in that φ 9 φ φ φφ ·· • · • t Φ 9 • Φ · ♦ · ·· Φ Φ • • • Ί 1 Λ * Φ 9 • • • 4 ► · Φ Φ ··· ···· ΦΦ ΦΦ ΦΦ are formed in the joint bearing parallel to the nip force (F) extending guide surfaces. 3. joint bearing according to claim 1 or 2, characterized in that the joint bearing of a stationary outer ring (2) and an inner ring (3) is formed on the spherical mating surfaces substantially parallel to the nip force (F) extending, cooperating planar portions (2a , 3a) are formed, which allow a rotation of the hinge bearing in the direction of the nip force (F), but prevent the rotation in the direction transverse thereto. 4. joint bearing according to claim 1 or 2, characterized in that the joint bearing is formed by incorporating a rectangular cross-section bearing housing in the bearing block (1) and in the bearing housing in the plane of the nip force rotatable joint bearing parts (5, 6) and the plane of Nipkraft parallel side slide (7, 8) are arranged. 5. joint bearing according to claim 1 or 2, characterized in that the joint bearing is formed by arranging a relative to the bearing block rotatable outer ring (2) in the bearing block (1) and the outer ring (2) has a rectangular cross-section bearing housing, in • • · # * T ••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••• Are arranged in the plane of the nip force rotatable joint bearing parts (5, 6) and parallel to the direction of the nip force running side sliding body (7, 8). The patent attorney: GIBLE R - & P > ° T H P a 1Ο E G Dorotheergasse 7 - A-1010 Vienna - patent@aon.at Tel: +43 (1) 512 10 98 - Fax: +43 (1) 513 47 76