DE2913708A1 - Starter pinion bearing bush - comprises rolled sheet metal with indented oil pockets forming tolerance absorbing and damping outer projections - Google Patents

Abstract

The bearing bush (3) e.g. for use in a starterpinion, has recesses (8) for lubricant formed in the bearing surface (12). The recesses are formed by indentations which prod. projecting areas (9) on the outside surface of the bush. The bush may be formed from a strip of sheet metal by rolling and have a continuous join (7) extending over its full length. The bush may have slightly converging tapered portions at both ends (10,11). The bush wall may be very thin relative to its dia. On insertion into a bearing bore, the bush may be slightly compressed and then secured by pressing it on to the bore wall using a mandrel calibrated for the shaft on which the bearing bush will run.

Description

Bearing bush prior art The invention is based on a bearing bush according to the preamble of claim 1. There are already sheet metal bearing bushes with smooth Known outer jacket, but they do not compensate for major manufacturing inaccuracies can, for example, in a housing designed as a starter pinion can occur. Conical, barrel-shaped and rough bore walls that are result from the type of production and treatment (non-clamping forming; hardening distortion), require additional processing before inserting the known bearing bush the housing bore. The same also applies to the well-known steel and bronze sintered bushings.

Advantages of the invention The bearing bush according to the invention with the characterizing Features of claim 1 has the advantage that one through the knobs improved tight fit of the bearing bush in the housing bore is made possible with a one economic large-scale production accommodating larger tolerance range and at least extensive damping of impacts exerted on the housing due to the elasticity of the studded sheet metal bearing bush.

The measures listed in the subclaims are advantageous Further developments of the bearing bush specified in claim 1 are possible. Particularly beneficial is that the bearing bush is calibrated after being inserted into the housing bore with the knobbed outer jacket of the shape of the housing bore so adapted that an improved A tight fit of the bearing bush is achieved.

Drawing An embodiment of the invention is shown in the drawing reproduced. FIG. 1 shows a bearing bush in a bore of a starter pinion formed housing in longitudinal section, Figure 2 a sheet metal strip provided with knobs, from which the bearing bush is rolled, FIG. 3 the bearing bush with butt joint and partially in longitudinal section and FIG. 4 an enlarged detail at IV in FIG.

Description of the exemplary embodiment In a housing 1 is a Bearing bore 2 formed.

The housing 1 has the shape of a starting pinion, as it is in starting devices is used for internal combustion engines. The starter pinion 1 is an extruded part produced, which is then hardened. By manufacturing and processing of the starter pinion 1 is a proportionate in an economical large-scale production large tolerance range for the diameter of the Housing bore 2 he wishes. For example, due to hardening distortion, the longitudinal bore can be conical or barrel-shaped rough bore walls can also arise.

A bearing bush 3 is inserted into the bearing bore 2.

The bearing bush 3 is rolled from a sheet metal strip 4 made of bronze. At one end of the strip is a tab 5 and at the other end of the strip is a corresponding one Recess 6 is formed so that when the bearing bush 3 rolls, the strip ends conclusively interlock and a closed butt seam 7 is created. Training of the lobe or several lobes and the corresponding counter-shape on the other However, the end of the strip is not limited to the shape of the exemplary embodiment. The only important thing here is the closed butt joint between the rolled strip ends.

In the sheet metal strip 4 are 8 serving as lubricant pockets depressions formed by non-cutting forming - for example embossing. That while forming displaced material of the lubricant pockets 8 is then on the back of the sheet metal strip 4 as knobs 9. The lubricant pockets 8 and thus the nips 9 are grid-like distributed over the entire sheet metal strip 4. The edge on the end faces 10 and 11 of the Bearing bush 3 is pulled in a little. The bearing bush 3 is thereby despite her to Insertion of the slightly compressed state into the bearing bore 2 of the starter pinion is easier 1 to be used. This is especially true with regard to a largely automated Bulk production. The bearing bush inserted into the bearing bore 2 of the starting pinion 1 3 is by calibrating the running surface 12 for a shaft not shown in detail the starting device on which the starting pinion 1 in a manner known per se is movably mounted, pressed into the bearing bore 2 with a tight fit. Are there the knobs 9 pressed against the wall of the bearing bore 2 to compensate for tolerances. Will when turning the internal combustion engine, not shown, blows on the teeth of the starting pinion 1 exercised, then prevents the bearing bush 3 due to its elasticity the transfer of the blows to the recorded in the bearing bush 3, too shaft not shown.

By choosing the material - for example bronze - the material thickness of the sheet metal strip 4 in relation to the diameter of the bearing bush 3 and the training the knobs 9 can reduce the elasticity of the tolerance-compensating bearing bush 3 ensure to a certain extent in the desired manner. Should for example when damping an impact exerted on the starter pinion 1 knobs 9 one parallel to the longitudinal axis of the bearing bush 3 extending row are pushed back, so remains but the running surface 12 for the shaft is undisturbed and thus the function of the bearing bush 3 completely preserved as a plain bearing and the bearing bush 3 is still seated with a tight fit in the bearing bore 2.

Bearing bushing summary There will be a bearing bushing with in the load-bearing Tread designed lubricant pockets proposed as plain bearings inserted into a housing and in which a shaft is rotatably mounted. The bearing bush is formed from a rolled sheet metal strip, in which this is achieved by non-cutting forming the lubricant pockets displaced material on the outer surface of the bearing bushing radially forms protruding knobs. The knobs allow a hole tolerance compensation Arrangement of the bearing bush in the housing.

The knobbed bearing bushing is also so elastic that it transfers largely prevented from impacts on the shaft exerted on the housing.

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Claims (5)

Claims bearing bush with formed in the supporting running surface Lubricant pockets, characterized in that when the lubricant pockets are formed (8) displaced material on the outer surface of the bearing bush (3) protruding knobs (9) forms. 2. Bearing bush according to claim 1, characterized by one with lubricant pockets (8) and knobs (9) provided sheet metal strip (4) which is rolled with the butt seam (7) the strip ends are closed along the entire length of the bushing. 3. Bearing bush according to claim 1 or 2, characterized in that the edges on the end faces (10; 11) are slightly constricted. 4. Bearing bush according to one of claims 1 to 3, characterized in that that the material thickness is very small in relation to the diameter of the bearing bush (3). 5. Bearing bush according to one of claims 1 to 4, characterized in that that the outer jacket provided with the knobs (9) for insertion into a bearing bore (2) compressed bearing bush (3) on the wall by means of a calibration process the bearing bore (2) is pressed.