CZ304852B6 - Sliding tilting-pad radial bearing - Google Patents

Abstract

The present invention relates to a sliding tilting-pad radial bearing consisting of a beading body, bearing pads and resilient defining elements whereby openings for adjusting screws are performed in the bearing body, wherein recesses are performed in the pads (2) on the side by which the pads (2) abut the bearing body (1). A rounded liner (4) is arranged in peripheral direction in the recesses, whereby in longitudinal direction, said liner (4) width is less than the width of the recess (7). The liner (4) is provided with threaded holes (8) corresponding by the mutual axial arrangement and by the diameter to the openings (6) in the bearing body (1) for fitting the same adjusting screw (5) and for determining extent of bearing of the liner (4) on the resilient defining elements (3) in the direction to away from the bearing center.

Description

Sliding radial bearing with tilting segments

Technical field

The invention relates to a sliding radial bearing consisting of a bearing housing, tilting segments, spring elements, inserts and set screws, wherein one end of the set screw is arranged in the bearing housing and the other is retained in the insert.

BACKGROUND OF THE INVENTION

In the case of plain bearings, the bearing of the tilting segments on the inner surface of the bearing is solved. GB 1397551 discloses a solution in which the individual segments on the contact surface with the inner surface of the bearing are provided with a spherical rounding which allows the segments to swing. In such an embodiment, however, wear problems arise, either due to high specific pressure or due to friction during vibration of the segment during operation. Expensive and difficult to machine materials must be chosen to achieve sufficient durability.

Furthermore, bearings are known in which the segments are tilted by rolling over their outer charge surface. Although there is no wear during rolling, the manufacturing technology is much more demanding compared to the previous case, since the centers of curvature of the inner and outer cylindrical surfaces of the segment are different. Especially at smaller bearing clearance values, it is very difficult to maintain the required tolerances, which is also annoying because the segments cannot tilt in the transverse direction.

A sliding bearing according to the solution described in CS 230535 discloses a solution in which the segments are rotatably mounted on pins mounted in the slots of the supports that are located in the bearing housing. The design of this bearing is relatively complicated and demanding on production accuracy. The lower segments are arranged on rigid supports, so that under impact load, e.g. rapid position changes, the segments can come into contact with the rotor.

From CS 264538 it is apparent from one of the plain bearing illustrations that the pin is one end in the bearing and the other in the segment, and in CS 230535 there is a similar arrangement from which the pin is sliding.

EP 0 368 557 (B1) discloses a bearing in which the segments are mounted off-axis on the pins.

From CZ 300719 (B1), a solution is known with segments mounted on resilient spacer elements through which adjusting pins provided with collars abutting on the resilient spacer elements are assembled. In this arrangement, the elastic spacer members deform in a manner that is not ideal in terms of free tilting of the segments.

It is an object of the present invention to provide a sliding bearing having such an arrangement which overcomes the drawbacks of the arrangement according to CZ 300719 while retaining all the advantages of this arrangement, in particular the flexible bearing of the segments and the possibility of adjusting the play.

SUMMARY OF THE INVENTION

The above-mentioned drawbacks are overcome by the sliding radial bearing according to the invention, which consists in that between the tilting segments and the elastic spacer elements there are arranged inserts with a rounded surface, in which are set screws with head arranged in the bearing housing. With this arrangement, the segments are tilted on surfaces with a precisely defined geometry, which guarantees completely free movement of the segments ensuring rotor stability. In doing so, the possibility of adjusting the position of the segments, reducing the demands on manufacturing accuracy, is retained, as well as the flexible spacers allowing the tuning of the bearing properties and additional damping.

Overview of the drawings

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of the bearing of the present invention; and FIG. 2 is a longitudinal cross-sectional view of the bearing of the present invention of FIG. 1.

DETAILED DESCRIPTION OF THE INVENTION

1 and 2 it is seen that the bearing consists of a bearing housing 1 in which the through holes 6 are provided and the adjusting screws 5 are arranged therein. In the segments 2, substantially semi-spherical recesses 7 are provided on the side adjacent to the housing 2, when viewed in longitudinal section - see Fig. 2, and there are inserts 4 also of hemispherical shape, in the same longitudinal section but with a slightly smaller radius. The inserts 4 are provided with a threaded hole 8 corresponding to the diameter of the holes 6 in the bearing housing 1. The holes 6 in the bearing housing 1 are threaded and the shank of the setscrews 5 is screwed into the holes 8 in the inserts 4.

Thus, after assembly, the set screws 5 engage both the bearing housing 1 and the inserts 4 housed in the recess 7 of the segments 2. In the positions of the heads of the screws 10), recesses 9 are also formed in the bearing housing.

The insert 4, which is arranged in the recess 7 of the segment 2 and since the insert 4 has a smaller width than the recess 7 in longitudinal section, creates a gap or clearance between the edge of the insert 4 and the recess 7. displacement of segment 2 in both circumferential and axial directions. The difference between the radii of curvature of the insert 4 and the recess 7 defines favorable conditions for the free tilting of the segment 2. The insert 4 can also be curved in the axial direction, allowing the segments to be tilted in the transverse direction. This is again made possible by the above-mentioned arrangement whereby the diameter of the recesses 7 would be larger than the diameter of the insert 4. The insert 4 abuts with its apex on the bottom of the recesses 7.

Due to the tightening of the screw 5, the insert 4 is in contact with the elastic spacer 3 which allows the segment 2 to be moved in the radial direction if the film thickness on any segment is reduced. The preload of the spring elements 3 and the position of the segments 2 with respect to the bearing axis is adjusted by means of screws 5.

Claims (1)

5 1. Sliding radial bearing with tilting segments, consisting of bearing housing, bearing segments, resilient spacers, with holes for adjusting screws in the bearing housing, characterized in that in the segments (2) they are on the side adjacent to the The recesses are formed in the circumferential direction, and in their longitudinal section the insert (4) has a smaller width than the width of the recesses (7), the inserts (4) being threaded holes (8) corresponding to relative alignment and diameter of holes (6) in the bearing housing (1), for inserting the same setscrew (5) and for aligning the inserts (4) on the elastic spacer elements (3) from the center bearings. Sliding-radial slide bearing radial bearing according to claim 1, characterized in that the inserts (4) are also rounded in the transverse direction.