DE1675743B1 - Horizontally split plain bearing, consisting of two mutually offset bearing shells - Google Patents

Description

The invention relates to a horizontally divided plain bearing, consisting from two horizontally offset bearing shells with the same bore radii.

In the known oval or lemon game bearings the distance between the cylindrical journal and the sliding surface of the bearing moves in the bearing clearance in the circumferential direction continuously Zvi-C, see in the maximum and minimum values, provided that the pin is situated concentrically in the bearing.

From G. Niemann, "Machine elements", Vol. 1, Springer-Verlag ', 1950, p. 248, Fig. 15114 c, a plain bearing is known in which the running surface of the two-part bearing shell is drilled eccentrically to the outer surface. The bearing shells are installed in an upside-down position so that, as with the oval bearing, two wedge surfaces are formed between the journal and the bearing.

The smallest diameter in the bearing play in such bearing types that have become known to this day is in the same direction as the main load, or it is at right angles to it, or it can be rotated 2 to 31 out of the plane of the main load.

It is also known to build an elliptically designed sliding bearing from cylinder-like bearing shells, the axis of the ellipse being inclined against the direction of rotation of the bearing pin ( USA. Patent 2 901297).

Also known is a cylindrical slide bearing consisting of two halves, in which the upper half of the slide bearing is designed in a flexible manner. This moves the part -, is displaced transversely by the pressure of the oil film that builds up during the rotation of the shaft, so that a wedge gap is formed that extends over one bearing half (US Pat . No. 2,093,521).

The invention is based on the object of a plain bearing reliable operation, higher loads and lower operating temperatures achieve.

This object is achieved according to the invention in that the two center points of the bore radii are equally spaced on both sides of the dividing plane in a radial plane which is rotated in the direction of rotation of the pin by an angle y of 10 to 30 ' from the plane of the main load.

The angles 7, are advantageously to be used proportionally to the speed in terms of size. With high bearing loads, smaller angles y are more favorable.

Compared to the known plain bearing forms, the invention has Slide bearings a maximum achievable guidance accuracy. Another benefit arises by the fact that the shape of the plain bearing completely suppresses the vibrations causes the journal in the camp. In this way, an operationally reliable run, allows higher loads and lower operating temperatures. The drawing illustrates an embodiment of the inventive concept.

The F i g. 1 shows a sliding bearing divided along the dividing plane T, consisting of two horizontally offset bearing shells H and H2 with the same bore radii R, the centers M of which lie opposite the smallest diameter a of the bearing at the same distance from the bearing center point, -tN. The bearing shells H and H are inserted into the housing with a cylindrical bore F, which is ordered from two halves Gl and G2. The center point N of the bearing bore coincides with the center point of the housing. The smallest diameter a of the bearing is rotated out of the plane of the main load P by the angle y in the direction of rotation of the pin Z. The largest bearing diameter in the direction of rotation of the journal is accordingly rotated out of the dividing plane T of the bearing shells H and H by the same amount CI el. The smallest diameter a of the bearing intersects the bearing shells H, and H2 in their greatest wall thickness W, from where the thickness of the bearing shells H, and H, decreases to the parting plane T. U indicates the direction of rotation of the pin Z, the radius of which is denoted by r.

In the inventively designed bearing is the location of the closest bearing play S "i, predetermined on the most favorable & CD sien place. The pin is guided in the camp very narrow and can therefore only much smaller movements run than in the known bearings. This the wedge-shaped Schmierspaltforin by the choice of the radius of curvature R of the bearing running surface in relation to the journal radius r can be varied within wide limits and can thus be adapted to the most favorable lubrication conditions of the bearing according to load and speed. Tests with the bearings according to the invention have shown that the operating behavior was best when the ratio was within the limits of 0.8-10-3 to 6.10-3, preferably from 10-3 to 2.5.10-3 .

Claims (1)

Patent claim: Horizontal split plain bearing, consisting of two horizontally staggered bearing shells having the same bore radii, d a d u rch in that the two middle points (M) lie at the same distance on both sides of the parting plane (T) in a radial plane in the direction of rotation of the pin (Z) rotated out of the plane of the main load by an angle (y) of 10 to 30 '.