DE3344249A1 - Arrangement for adjusting the axial play or the axial preloading force for the bearings of a rotor shaft - Google Patents

Abstract

To allow simple adjustment of the axial play of a rotor shaft mounted in plain bearings or the axial preloading force of a low-power motor rotor shaft (RW) mounted in a bearing bore (LB) in a ball bearing (KL) and preloaded axially via a resilient disc (FS), it is proposed that the axially inner front face of an adjusting disc (ES), which disc is rotatable through the bearing bore (LB) from a point axially to the outside, be movable up against the rotor shaft to give a defined axial play or defined preloading force by virtue of its axially outer front face - provided over its circumference with rows of supporting steps (ST1-ST4 and ST5-ST8 respectively) - being supported, in each case by means of a corresponding supporting step of the said row, against a stud (N1 and N2 respectively) projecting into the bearing bore and serving as an abutment. In this position, further rotation of the adjusting disc (ES) is prevented by the striking of a corresponding stop step (STI-STIV and STV-STVIII) arranged between two supporting steps which projects axially by the maximum installation height of the resilient disc (FS) beyond the next successive supporting step and by the minimum installation height of the said disc beyond the preceding supporting step. The invention is particularly suitable for use with low-power motors of all kinds with axial-play adjustment or preloading of the bearings.

Description

Arrangement for setting the axial play or the

axial bearing force of a rotor shaft (It is the inner priority of the German patent application P 33 35 647.5 of 09/30/1983) The invention relates to an arrangement for adjusting the axial play or the axial bearing adjustment force of a rotor shaft according to the preamble of the claim 1 or of claim 2; an arrangement according to the preamble of claim 1 is at a sliding bearing rotor shaft by DE-OS 31 50 572 and an arrangement according to The preamble of claim 3 is known from prior public use.

In the arrangement known from DE-OS 31 50 572 is used to limit the axial play of a motor-gear-shaft of a window regulator anti-friction bearing mounted in plain bearings an adjusting screw that can be screwed into the gearbox housing in front of the shaft end on the gearbox side with a frontal contact surface for the motor-gearbox shaft up to the defined, to be measured individually in each individual case due to the different tolerance dimensions screwed in axial depth and in this position after completion of the adjustment process determined separately.

In the apparently previously used arrangement, the axial adjustment force of the rotor shaft mounted in ball bearings, first the bearing point, at which the axial compensation is to be made, opened axially. Afterward a spring washer and e.g. three compensating washers are installed axially in front of the ball bearing for the purpose of the axial play compensation according to an assumed tolerance to be compensated inserted. Then the bearing point is through E.g. two screws to be secured cover closed. After the overall assembly of the motor is the axial adjustment force of the rotor bearing in a measuring device checked. If the axial adjustment force is outside the specified tolerance range, so the bearing cover must be opened again by loosening the screws and it must either additional shims are included or shims that were previously included be taken out. The axial adjustment force is then checked again in the manner previously described.

It is not excluded that such an adjustment process for adjustment a single bearing must be repeated several times.

The invention is therefore based on the object in manufacturing and In terms of assembly, it is much easier to set the axial play or the axial adjustment force of the rotor shaft of a small motor, which is mounted in a bearing bore to enable.

This object is achieved according to the invention with an arrangement according to the preamble of claim 1 or

of claim 3 in each case by the characterizing teaching of the corresponding Claim; advantageous embodiments of the invention are each subject matter of according to related subclaims.

The inventive arrangement enables a mounted engine Setting a defined contact force in the simplest way by turning the adjusting washer due to a counterpressure acting on them in a locking position can be brought. In particular, the arrangement according to the invention allows adjustment the axial adjustment force for a rotor shaft mounted in ball bearings without Intermediate assembly or disassembly of engine components by simple, of externally operable turning of the adjusting disk.

As a further means to simplify the setting, the help of additional measuring instruments and the need for several intermediate measurements superfluous during the adjustment of the adjustment force is, according to one embodiment, the Invention provided that the axially outer end face also over their Perimeter with each arranged between the support levels, each of the adjacent Support steps are provided with axially protruding stop steps by a certain amount, by every further rotation of the adjusting disk when reaching the defined axial adjustment force by striking a corresponding stop step against one the cam can be inhibited.

Appropriately, it is provided that the axial distance between the support surface of a support level and the stop height of the opposite to the setting direction of rotation next stop level of a series of levels of the maximum installation height of the spring corresponds or that the axial distance between the support surface of a support level and the stop height of the stop step opposite to the previous stop in the setting direction of rotation a series of steps corresponds to the minimum installation height of the spring. One between two The stop step provided for a series of steps extends beyond the support steps in each case axially the next following on the adjusting disk opposite to its setting direction of rotation Edition level around the maximum and the opposite direction of rotation on the Adjusting washer previous support level by the minimum installation height of the spring washer. The spring characteristic range is determined by the maximum or minimum installation height of the spring defined, in which the required pressure force on the ball bearing with certainty is guaranteed.

To achieve the most unaligned support of the support levels it is expediently provided on the cam that the circumference of an adjusting disk is at least divided into two halves so that two similar to each other opposite rows of steps arise. If on the one hand the number of stages and on the other hand the size of the circumference of the adjusting disk allows this to increase the security of the seating the setting dial also e.g.

divided into three, four or more similar step rows on the circumference be.

The invention and further advantageous embodiments of the invention are hereinafter based on an embodiment shown schematically in the drawing explained in more detail. They show: Fig.l in a partial section, the side view of a Small motor with the arrangement provided in the right-hand end shield for setting the Adjustment force of a rotor shaft mounted in a ball bearing, FIG. 2 an end face Top view of the small motor according to Fig.l, Fig. 3 an enlarged detail section from Fig.l in the area of the arrangement for setting the adjustment force, Fig.4 a Development of two similar ones on the outer face of the adjusting disk arranged rows of steps for setting the adjustment force according to the invention, FIG. 5 in a perspective exploded view of a bearing plate with in it Cams protruding from the bearing bore, a setting washer with two rows of steps on the face side of support steps and stop steps to the support or to the stop on the cams of the end shield as well as one arranged between the shim and the ball bearing Spring washer.

Fig.l shows a partial sectional view of the side view of a small squirrel cage motor. The right rotor shaft RW accommodating the rotor package RP is shown in FIG End stored in a ball bearing KL. The ball bearing KL is from the bearing bore LB of a bearing plate LS added, which extends over axially to the other bearing plate Stud bolts S1 or S2 against the stator laminated core SP of the small squirrel cage motor is clamped.

The inner ring of the ball bearing KL is fixed to the surface of the rotor shaft RW braced; against the right end face of the outer ring of the ball bearing KL on the front side a spring washer FS is pressed, its pressure force on the ball bearing KL and thus its contact force via one in the bearing bore LB on the end shield LS supporting shim ES is adjustable, their function in the following will be explained in more detail with reference to FIGS.

The shim comes on its axially inwardly directed end face with a flat face on the circumference of the spring washer FS to the plant. On hers axially outwardly directed end face is the adjusting washer ES - as in particular from the perspective illustration in FIG. 5 or from the development of this end face can be seen in Figure 4 - on each half of the circumference with a step row of support steps ST1-ST4 or ST5-ST8 provided.

The support height of the successive steps of each step row or the distance between the flat face and the respective support surface varies from level to level and increases against the direction of rotation of the setting D of the adjusting screw ES. Between the support levels ST1-ST4 and ST5-ST8 are each stop steps STI-STIV and STV-STVIII are arranged, which are also each counter to the setting direction of rotation D of the setting screw ES from step to step rise and both the previous and the next edition level each protrude axially by a certain amount. Depending on the axial play or adjustment force setting is a certain edition level the same level of each level row with their Contact surface against one of the two lugs N1 or

N2, which are molded onto the end shield and radially into the bearing bore LB protrude; when the defined contact force setting is reached, each additional Rotation of the setting disk ES in the setting direction of rotation D is inhibited in that a Contact step of each step row with its side flank against the side flank of one of the two cams N1 and N2 protruding into the bearing bore LB strike.

Based on an assumed total installation height tolerance for the spring washer FS becomes this installation height tolerance through the adjusting washer ES divided into several stages according to Fig. 4 according to the gradation of each tier row. The axial distance from the bearing surface of a bearing step to the upper axial one Limitation of the next stop step opposite to the setting direction of rotation D. corresponds to the maximum spring installation height. The distance between a support surface of a Support level up to the upper axial limit of the opposite direction of rotation The previous stop level corresponds to the minimum installation height of the spring; included is, as already explained earlier, by the limit values of the minimum and maximum The spring installation height defines the spring characteristic range through which the required Bearing pressure forces can be guaranteed. Depending on the selected distance from the support surface of a support level to the corresponding one intended for support Area of lugs N1 or N2 and the distance between the shim ES and the outer ring of the ball bearing KL can be any subdivided installation height tolerance by a corresponding gradation of the shim ES can be determined.

When installing the shim ES first the support steps ST1 and ST5 as the first stage of the two series of stages provided here in Engage cams N1 or N2 of the bearing bore. For setting the axial pressure is then inserted into the cross-slot KS by means of a fully assembled motor Tool for axial adjustment, the adjusting washer ES using the spring washer FS the axially pressed adjusting washer ES against the outer ring of the ball bearing KL bis pressed to the stop.

The shim ES is now marked with a direction arrow Adjustment turning direction D rotated until one of the in its axial height within Finally, for each row of steps increasing stop steps STI-STIV or STV-STVIII strikes against one of the two cams N1 or N2 and another rotation of the Shim ES inhibits; when turning the adjusting disk ES must be between a cam N1 resp.

N2 over a higher edition area one of the on the initial edition level ST1 or ST5 following support levels, e.g. ST2 or ST6, are moved, whereby the Adjustment washer ES by the corresponding axial step dimension between the support steps a row of steps is pushed axially deeper into the bearing bore. After withdrawing of the tool from the cross slot then come the axial bearing surfaces of the cams and the support step in front of the abutting stop step towards each other System. In this position there is then automatically no need to re-measure the desired or defined axial bearing adjustment force within the installation height tolerance the spring washer FS reached and at the same time the adjusting washer in this position IT secured.

The embodiment shows the arrangement according to the invention in use for setting the axial adjustment force for a ball bearing using one on the outer ring of the ball bearing on pressing spring washer, which at the same time also due to their counter pressure Adjusting washer against the Pressing the cam in the bearing bore. A corresponding pressure on the adjusting disk can in the case of adjusting the axial play, e.g.

in the case of a shaft with slide bearings, by a corresponding axial one Shaft pressure during adjustment of the adjusting washer or by one in the end shield held resilient axial counter-support of the adjusting washer in a simple Way to be achieved.

In addition, the setting is within the scope of the present invention an axial play or an axial adjustment force can be used where simple Way a defined, axial path limitation, e.g. with piston or sliding movements, is strived for.

Instead of the separate spring washer FS shown in the exemplary embodiment, a separate spring washer can advantageously be dispensed with, especially if the adjusting washer is manufactured as an injection-molded part or as a stamped and bent part, by simultaneously integrating spring struts.

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Claims (10)

Claims 1. Arrangement for adjusting the axial play or the axial bearing adjustment force of a rotor shaft with one in the rotor shaft receiving end shield with bearing bore adjustable by turning axially from the outside and then fixable adjusting device against which the rotor shaft indirectly or starts immediately, that is, as an adjustment device an adjusting disk (ES) which can be rotated from the outside through the bearing bore (LB) is provided is, which is defined with its axially inner end face thereby in the sense of a Distance or a defined pressing force in the corresponding distance position can be brought opposite the rotor shaft (RW) that it is axially outer, over their circumference with support steps (ST1-ST4 or ST5 ST8) with the direction of rotation opposite to the setting (D) the end face provided with increasing axial support height from step to step by means of a corresponding support level against at least one serving as an abutment Cam (N1 or N2) can be supported in the bearing bore (LB). 2. Arrangement according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the adjusting washer has a spring element against the acting as an abutment Cam is pressed. 3. Arrangement for setting the axial adjustment force of a rotor shaft, which is clamped against the inner ring of a ball bearing, against its outer ring a spring by means of a bearing plate accommodating the ball bearing Bearing bore supporting and fixable adjustment device with a defined pressure can be pressed, that is, as an adjusting device a shim (ES) that can be rotated from the outside through the bearing bore (LB) intended is, which with its axially inner end face thereby in the sense of a defined Pressing force against the spring (spring washer FS) can be pressed that they with their axially external, over their circumference with support steps (ST1-ST4 or ST5-ST8) with opposite to the setting direction of rotation (D) of the adjusting disk (ES) from step to Step of increasing axial support height provided end face each by means of a corresponding step against at least one cam serving as an abutment (N1 or N2) is supported in the bearing bore (LB). 4. Arrangement according to one of claims 1 to 3, d a -d u r c h g e it is not indicated that the axially outer end face also has their circumference with between the support levels (ST1-ST4 or ST5-ST8), each adjacent support step by a certain amount of axially protruding stop steps (STI-STIV or STV-STVIII) is provided, through which every further rotation of the adjusting disk (ES) when the defined axial pressure force is reached by striking a corresponding stop level can be blocked against one of the cams (N1 or N2). 5. Arrangement according to one of claims 1 to 4, d a -d u r c h g e it is not stated that one of two similar series of support levels or stop steps on each half of the circumference of the adjusting washer (ES) is arranged. 6. Arrangement according to one of claims 1 to 5, d a -d u r c h g e it is not indicated that the axial distance between the support surface of a Support level and the stop height of the next opposite to the setting direction of rotation (D) Stop step in a row of steps corresponds to the maximum installation height of the spring (spring washer FS). 7. Arrangement according to one of claims 1 to 6, d a -d u r c h g e k e n n z e 1 c h n e t that the axial distance between the support surface of a Support level and the stop height of the opposite to that in the direction of rotation (D) previous stop step of a series of steps of the minimum installation height of the spring (Spring washer FS). 8. Arrangement according to one of claims 1 to 7, d a -d u r c h g e k It is noted that the shim (ES) is made from a one-piece casting, in particular a plastic injection molded part. 9. Arrangement according to one of claims 1 to 7, d a -d u r c h g e It is not indicated that the adjusting disk consists of a stamped and bent part. 10. The arrangement according to claim 7 or 8, d a d u r c h g e k e n n z e i c h n e t that a separate one is attached to the injection molded part or the stamped and bent part Spring struts replacing the spring washer are integrally formed.