DE3344249C2 - - Google Patents

Description

The invention relates to an arrangement for adjustment the axial play or the axial bearing contact force of a Ro Torwelle according to the preamble of claim 1; such a The arrangement is in the case of a rotor shaft with a sliding bearing DE-OS 31 50 572 or in a ball bearing-mounted rotor wave known from FR-PS 11 73 771 and DE-AS 10 69 954.

In the arrangement known from DE-OS 31 50 572 to limit the axial play of a bearing in plain bearings Motor-transmission shaft of a power window drive before the ge drive-side shaft end into the gearbox screwable adjusting screw with an end face area for the motor gear shaft up to the defined, in each individual case due to the different tolerance measures individually screwed in axial depth and in this position separately after completing the setting process fixed.

In the case of FR-PS 11 73 771 or DE-AS 10 69 954 known device are to limit the axial play a rotor shaft mounted in roller bearings two together kende, adjustable from the outside against each other in the circumferential direction Washers with opposing screw surfaces and on their outer or inner edge of mutually bendable teeth provided an annular washer operationally on the inner ring one roller bearing receiving the rotor shaft and the other Washer on an axially upstream, in one recess the locking washer fixed to the shaft are supported.  

By US-PS 28 61 847 is a device for adjustment the axial play in a plain bearing by means of an annular disc known, with a row of steps on a first circumferential part immediately consecutive edition levels and on one opposite peripheral part in each case up to the number of copies highest circulation level has slots in the under Mediation of a spring cup a fixing pin fixable is stuck.

In the case of an apparently previously used arrangement, the setting becomes the axial contact force of the bearings in ball bearings Rotor shaft first the bearing point at which the axial Compensation should be made axially open. Then ßend a spring washer axially in front of the ball bearing and z. B. three shims for the purpose of axial play compensation according to an assumed tolerance to be compensated inserted. Then the deposit with a z. B. two screws to secure the lid closed. After this Overall assembly of the motor is the axial contact force of the Rotor bearing tested in a measuring device. Is that axial contact force outside the specified tolerance rich, so the bearing cover by loosening the screws opened again and either need more compensation washers or compensating washers previously included be taken out. Then there is another test the axial contact force in the manner described above. It is not excluded that such an adjustment process for Repeated setting of a single bearing point several times must become.

The invention has for its object in manufacturing and assembly technically particularly easy setting the Axial play or the axial contact force of one in a bearing allow bore mounted rotor shaft to be able to.  

This object is achieved according to the invention in one Arrangement according to the preamble of claim 1 through the characteristic teaching of Claim; are advantageous embodiments of the invention Subject of the related subclaims.

The arrangement according to the invention enables the setting of a defined axial play or one defined positioning force by simple, externally operated Engage and then turn the shim to to the last possible stop, which means that without the help of additional measuring instruments and the need for Zwi measurements of the spring characteristic range of the spring element is defined with which the required axial Position force or the required axial play guaranteed can be.  

In order to achieve the least possible edged edition of the Supporting stages on the cams is expediently provided see that the circumference of a shim at least in two halves is divided so that two of the same kind opposite rows of steps arise. If on the one hand the number of stages and on the other hand the size of the The scope of the shim allows this, he can Increase the support safety, the shim z. B. in three, four or more similar rows of steps on Scope be divided.

The invention and further advantageous refinements the invention are based on one in the Drawing schematically illustrated embodiment explained in more detail. It shows

Fig. 1 in a partially cutaway side view of a small motor provided with the right bearing plate assembly for adjusting the contact force of a bearing in a ball bearing rotor shaft,

Fig. 2 is an end plan view of the small motor accelerator as Fig. 1,

Fig. 3 is an enlarged detail view of FIG. 1, power in the range of the arrangement for setting the Anstell,

Fig. 4 is a developed view of two similar, at the outer end side of adjustment stages arranged rows SET to the inventive lung of the adjusting force,

Fig. 5 is a perspective exploded view of a bearing plate with the cam protruding in its bearing bore, a shim with two stirnsei term rows of stages of support stages and stop stages for support or stop on the cams of the end shield and one arranged between the adjusting disc and the ball bearing Spring washer.

Fig. 1 shows a partial sectional view of the side view of a small squirrel-cage motor. The rotor package RP taking rotor shaft RW is stored with its right in Fig. 1 end shown in a ball bearing KL . The ball bearing KL is received by the bearing bore LB of a bearing plate LS , which is firmly clamped against the stator lamination packet SP of the squirrel-cage small motor via stud bolts S 1 and S 2 running axially to the other bearing plate.

The inner ring of the ball bearing KL is firmly clamped to the upper surface of the rotor shaft RW ; against the right front side of the outer ring of the ball bearing KL , a spring washer FS is pressed on the end face, the pressing force on the ball bearing KL and thus its contact force can be adjusted via an adjusting disk ES which is supported in the bearing bore LB on the end shield LS , the function of which is based on the following of FIG. 2 will be explained in more detail to 5.

The shim comes on its axially inwardly directed end face with a flat end face on the circumference of the spring washer FS to the system. On its axially outward-facing end face, the adjusting disk be ES - as can be seen in particular from the perspective illustration in FIG. 5 or from the development of this end face in FIG. 4 - on each circumferential half, each with a row of steps ST 1 - ST 4 or ST 5 - ST 8 provided. The contact height of the successive steps of each step row or the distance between the flat end face and the respective contact surface differs from step to step and increases counter to the direction of rotation D of the adjusting screw ES . Between the support levels ST 1 - ST 4 and ST 5 - ST 8 , stop stages ST I- ST IV and ST V- ST VIII are arranged, which also rise from level to level against the direction of rotation D of the adjusting screw ES and axially protrude both the previous and the following support stage by a certain amount. Depending on the axial play or adjusting force setting, there will be a certain contact step of the same step height of each step row with its contact surface against one of the two lugs N 1 or N 2 , which are formed on the end shield and project radially into the bearing bore LB ; when the defined setting force setting is reached, every further rotation of the setting disk ES in the setting direction of rotation D is inhibited by the fact that a system stage of each step row with its side flank against the side flank of one of the two cams N 1 or N projecting into the bearing bore LB 2 strikes.

Based on an assumed total installation height tolerance for the spring washer FS , this installation height tolerance is divided by the adjusting washer ES into several stages according to FIG. 4 according to the gradation of each row of stages. The axial distance from the support surface of a support step up to the upper axial limit of the next stop step opposite the setting direction of rotation D corresponds to the maximum spring installation height. The distance from a support surface of one support step up to the upper axial limit of the stop step preceding the opposite direction of rotation D corresponds to the minimum spring installation height; As already explained earlier, the limit values of the minimum or maximum spring installation height define the range of spring characteristics 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, provided for support surface of the lugs N 1 or N 2 and the distance of the shim ES to the outer ring of the ball bearing KL , any subdivided installation height tolerance can be achieved by a corresponding step Setting disc ES can be set.

When installing the shim ES , the support stages ST 1 and ST 5 should first snap into the cams N 1 and N 2 of the bearing bore as the first stage of the series of stages provided here. To adjust the axial pressure is then pressed with a fully assembled motor by means of a tool used in the cross recess KS tool for axial adjustment, the adjusting washer ES, the spring washer FS by means of the axially pressed adjusting washer ES against the outer ring of the ball bearing KL until it stops. The adjusting disc ES is now rotated in the direction of rotation S marked with a directional arrow until one of the stop stages ST I- ST IV or ST V- ST VIII, which increases in axial height within each row of stages, finally against one of each strikes both cams N 1 and N 2 and further rotation of the adjusting disc ES inhibits; with the rotation of the shim ES must a cam N 1 or N 2 over a higher contact surface one of the beginning of the support stage ST 1 or ST 5 subsequent stages, z. B. ST 2 or ST 6 , are moved, whereby the setting be ES ES by the corresponding axial step dimension between the support stages of a series of steps is pressed axially deeper into the bearing bore. After pulling the tool out of the cross recess, the axial contact surfaces of the cams and the contact step lying in front of the striking stop come to rest against each other. In this position, the desired or defined axial bearing contact force within the installation height tolerance of the spring washer FS is then automatically achieved without the need for re-measurement, and at the same time the adjusting washer ES is secured in this position.

The embodiment shows the invention Arrangement in use for setting the axial type force at a ball bearing using a on the outer ring of the ball bearing pressing washer, which at the same time the  Shim against the cams in the bearing bore presses. A corresponding pressure on the setting plate be can in the case of adjustment of the axial play, for. B. in the case of a shaft with sliding bearings, by a the axial shaft pressure during the adjustment of the on set screw or also by one in the bearing plate tene resilient axial counter support of the settings disc can be easily reached.

Instead of the spring washer FS shown in the exemplary embodiment, it can be dispensed with in an advantageous manner, in particular if the adjusting washer is produced as an injection molded part or as a stamped and bent part, by simultaneous molding of spring struts on a separate spring washer.

Claims (6)

1. Arrangement for setting the axial play or the axial bearing contact force of a rotor shaft with a in a bearing plate receiving the rotor shaft with a bearing bore by turning axially adjustable and then definable adjusting device against which the rotor shaft starts up directly or indirectly, thereby characterized is characterized in that as an adjusting device from the outside through the bearing bore (LB) rotatable, by a spring element (spring washer FS) against at least one provided as an abutment in the bearing bore cam (N 1 or N 2 ) pressable step setting disc (ES) with over the circumference of their axially outer end face distributed support levels (ST 1 - ST 4 or ST 5 - ST 8 ) with increasing axial support height from step to step contrary to the setting direction of rotation (D) and with between the support levels (ST 1 - ST 4 or ST 5 - ST 8 ) arranged stop steps (ST I- ST IV or ST V- ST VIII) with one of the maximum E each Installation height of the spring element (spring washer FS) corresponding axial distance between the contact surface of a support step and the stop height of the next stop step against the setting direction of rotation (D) of a row of steps and with an axial distance between the minimum installation height of the spring element (spring washer FS) the support surface of a support step and the stop height of the stop step of a row of steps contrary to the previous stop step in the direction of rotation (D) . 2. Arrangement according to claim 1, characterized in that when the rotor shaft (RW) is clamped against the inner ring of a radial ball bearing, the spring element (FS) is supported against the outer ring of the radial ball bearing. 3. Arrangement according to claim 1 or 2, characterized in that one of two identical series of stages of support stages or stop steps on each circumferential half of the shim (ES) is distributed. 4. Arrangement according to one of claims 1 to 3, characterized in that the step adjusting disc (ES) consists of a one-piece casting, in particular an injection molded plastic part. 5. Arrangement according to one of claims 1 to 3, characterized characterized that the step shim consists of a stamped and bent part.   6. Arrangement according to claim 4 or 5, characterized in that a separate spring element (spring washer FS) replacing struts are integrally formed on the injection molded part or the stamped and bent part.