DE4034804C2 - Radial plain bearings - Google Patents

Abstract

In order to minimize the bearing friction, the bearing sleeve of a radial plain bearing has a bearing surface (1), the width of which varies over the circumferential direction in such a way that the specific bearing load is practically constant everywhere.

Description

The invention relates to a radial sliding bearing.

It is common for such plain bearings, as u. a. used in engines and transmissions to calculate the maximum bearing load and then diameter and Width to choose for the warehouse. The camp then becomes practical with the scope constant dimensions. This means that for plain bearings in which the maximum bearing load only in a certain angular position of the two the bearing forming parts (pin or bolt and sleeve) occurs, like this particularly apparently the case with only weight-loaded bearings or connecting rod bearings is the case that Bearings only for a certain circumferential area or a certain Cross-sectional angle range corresponding to the (maximum) load present here is designed, however, for all other circumferential or angular ranges oversized. This means an unnecessary one in these remaining peripheral areas Bearing friction, thereby increasing the oil temperature and reducing the Efficiency of, for example, an engine or a transmission, the or the plain bearing is equipped.

A generic plain bearing is already known from DE-AS 17 75 979, at which the width of the bearing surface in the area of maximum radial load is larger than in areas is smaller radial load. These different warehouse widths result solely from the Formation of the grooves that serve to supply the lubricating oil, but not from any Considerations regarding the optimization of the bearing through design the same.  

From JP 59 89818 A a generic plain bearing is known in which the width the bearing surface - measured in the axial direction - larger in the area of maximum radial load than in areas with smaller radial loads. For this purpose, the storage area has "interruptions", namely corresponding recesses, which - seen in the axial direction - in Smaller radial load range are larger than in the large radial load range. However, seen in the axial direction, the bearing surface is interrupted here on the one hand formed, on the other hand, the total width of the bearing sleeve over the circumference is constant. On the one hand, the production of this known plain bearing is very good labor-intensive, on the other hand, the production of the recesses means a lot Material consumed, so that the overall production is very expensive.

The invention has for its object to a generic radial slide bearing create, in which the losses, in particular material losses, with simple means the usual design described at the outset are avoided, preferably the radial plain bearing is inexpensive to manufacture.

This object is achieved by the features of patent claim 1.

The invention therefore goes from the usual dimensioning of the bearing with the entire scope more constant, due to the bearing load in the range of the maximum Radial load predetermined width and instead varies the width of the bearing surface about the scope or the processing of the bearing sleeve so that at all points Storage area has practically the same specific bearing load.

This avoids unnecessary bearing friction compared to the beginning described prior art, the oil temperature lowered, so that if necessary. an oil cooler can be saved and the efficiency increases, which for example Engines have a positive impact on performance, consumption and emissions. Moreover becomes advantageous with the invention weight by avoiding unnecessarily long Storage area areas saved.

An embodiment of the invention is described below with reference to the drawing explains the settlement of a storage area of an inventive Radial plain bearing in comparison to the usual design of the bearing surface.  

As can be seen directly from the drawing, the width of the bearing surface 1 in the invention, starting from the zone 2 of maximum bearing load, runs continuously to the center line 3 such that at the ends of the settlement, that is to say at 4 and 5, the bearing surface 1 is approximately half as much is wide as in area 2 of the maximum. This ensures an at least substantially constant specific bearing load over the entire course of the bearing surface 1 .

If, on the other hand, one considers the usual bearing design indicated by broken lines in the drawing, the width of the bearing surface is constant over the entire process; everywhere it has the value that is selected in the maximum load range 2 taking into account the bearing load occurring there. The invention, on the other hand, avoids the unnecessary storage area areas hatched in the drawing.

With the invention is accordingly a generic with simple means Radial plain bearings created, a reduction compared to the usual design the bearing friction and associated benefits, while adding unnecessary Material losses are avoided.

Claims (1)

1.Radial slide bearing with an inner bearing surface ( 1 ) defining a bearing sleeve for receiving a radial load that is designed differently over the bearing circumference, the width of the bearing surface measured in the axial direction being greater in the area of maximum radial load than in areas of smaller radial load, the bearing surface ( 1 ) in seen in the axial direction is continuous and designed such that a constant specific bearing load occurs at all points of the bearing surface ( 1 ), the outer contour of the bearing sleeve being formed over the circumference in accordance with the non-uniform width of the bearing surface ( 1 ).