DE703196C - Movable plain bearing - Google Patents

Description

The invention relates to a movable slide bearing for transmission shafts, which one Change of position of the shaft stored in it can follow in which. the bearing shell outside is provided with a radially directed collar, which in the axial direction by means of a Spring is pressed against a wall of the bearing housing.

The invention consists in that the collar of the bearing shell, which has flat side faces has a cylindrical surface, its length approximately one third of the bearing shell length and it is in a groove provided in the bearing housing with little

'5 radial and large axial play is held, the collar of the bearing shell spring pressing against a boundary wall of the groove in the large axial play is housed and the side surface of the

so covenant against which the pen rests in a plane that is perpendicular to the longitudinal axis of the bearing and almost through the center of the Bearing shell runs, and that this side surface of the beyond the bearing Continuation of the wave is facing and is in the area of this continuation of the wave facing half of the bearing shell is located.

In a known bearing, the bearing shell with spherical surfaces lies against accordingly spherical compartments of the bearing housing. Since the spherical surfaces of the bearing shell Can be supplemented to a ball, the bearing shell is movable. The disadvantage of this known bearing is that the. Friction occurring between the spherical surfaces affects the mobility of the Strongly opposed to bearing shells. The consequence of this is that the bearing shell to their both edges is highly stressed by the adjusting forces acting on them. Around The aim was to reduce the adjustment forces acting on the bearing shell edges about running the bearing shell quite long. But a long camp takes a lot Room. This is particularly undesirable in transmission engineering. With another known

th bearing, the bearing shell, which is provided with a spherical outer surface, is replaced by a Spring against an inner surface of the bearing housing corresponding to the spherical outer surface drawn. Here, too, occur when the position of the shaft changes between the mentioned Areas large frictional forces that are supported against the edges of the bearing shell. So that these support forces do not become too great,

ίο is here too the bearing shell in relation to their diameter is made quite long.

The invention is apart from one

short design and easier mobility of the bearing shell that the contact pressure is always directed at least approximately through the middle of the bearing length. This gives a guarantee that the camp is up its entire surface is specifically evenly loaded.

A well-known ball bearing, which in the axial direction by a. Spring against one inner wall of the housing enclosing the ball bearing is printed on the entire width of its outer surface executed spherically. If you would accordingly use the Outer surface of a plain bearing, which is very wide in relation to a ball bearing, form spherical, so in the event of a change in position, the bearings in the plain bearing would change

v> Wave constantly change the direction of the contact pressure depending on the migration of the contact point between the plain bearing and the bearing housing. The plain bearing would then be continuously and specifically unequal

3- ^{r> be} moderately stressed.

In the drawing, an embodiment of the invention is shown as an example.

The shaft ι is mounted with its end pin 14 in a bearing shell 3 which is cast with bearing metal 2 and secured against rotation in a known manner. The bearing shell 3 has a radially directed cylindrical collar 4 on the outside. The cylindrical collar 4 is held in a groove 7 provided in the bearing housing 5, 6 with a small radial play S and a large axial play 9. A spring is accommodated in the large axial play 9, which pushes the collar 4 in the axial direction against the boundary wall 11 of the groove 7

Ί <· presses. The side surface 12 of the collar 4, against which the spring 10 rests, lies in a plane a-ci which runs at right angles to the bearing longitudinal axis bb and approximately through the center of the bearing shell 3. The side surface 12 of the collar 4 of the shaft 1 is trimmed and is located in the area of the bearing shell half facing the shaft. The length of the collar 4 is chosen so that it is approximately one third of the length of the bearing shell 3.

The operation of the bearing according to the invention is as follows:

. If the shaft 1 bends as a result of a force acting on it, the bearing shell 3 can ^{follow the change in position of the 6} S wave ι by being around the edge 13, which is formed by the outer jacket and the side surface 12 of the collar 4, tilts. Since the edge 13 lies approximately in the middle with respect to the length of the bearing shell 3, the bearing shell 3 is evenly loaded by the shaft 1 over its entire bearing surface even if it has changed its position. Because only very small forces are sufficient to tilt the bearing shell 3, the bearing shell 3 does not need to be made unnecessarily long, but can keep its normal dimensions, which result from the calculation of the permissible surface pressure. In this way you can get by with normal bearing lengths in gear construction and still have a bearing that follows the change in position of the wilt stored in it.

Claims (1)

Claim: Movable slide bearing for gear shafts, which can follow a change in position of the shaft mounted in it, in which the bearing shell is provided on the outside with a * · "radially directed collar which is pressed in the axial direction by means of a spring against a wall of the bearing housing, characterized in that that the flange ″ (4) of the bearing shell (3) having flat side faces has a cylindrical surface, its length is approximately one third of the bearing shell length and it is in a groove (7) provided in the bearing housing (5, 6) with little ra- "^{> o} dialem play (8) and large axial play (9) is held, wherein the collar (4) of the bearing shell (3} against a boundary wall (11) of the groove (7) pressing spring (10) ^{is housed in the large axial play lo5} and the side surface (12) of the collar (4) against which the spring stands (10), lies in a plane (aa) which runs at right angles to the longitudinal axis of the bearing (bb) and almost through the center of the bearing ^llü shell (3), and that this side surface (12) of the continuation of the shaft going beyond the bearing (1) and is located in the area of this continuation of the shaft (1) facing ^U 5 bearing shell half. 1 sheet of drawings