DE2332633A1 - SMALL MACHINE WITH SUPPORT PARTS FOR STORING A MACHINE SHAFT - Google Patents

Description

R. 15 29

7.6.1973 Sat / Ma.

Annex to the i

Patent application with
Utility model auxiliary registration

ROBERT BOSCH GMBH, 7 Stuttgart

Small machine with support parts for storing a machine world

The invention relates to a small machine with support parts for supporting a machine shaft, v / above each support il has a receptacle for a plain bearing bush and at least one plain bearing bush with at least one approximately cylindrical section penetrates the support part in an opening.

In known machines of this type, at least one Side of the main shaft in a spherical plain bearing bush so that alignment errors in the shaft bearings are automatically compensated because the Can adjust spherical bearings accordingly. Such camp

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places serve this purpose, but are quite expensive and also require a bearing pan that is matched to the spherical cap .

The invention is based on the task of storing such To simplify machine shafts, but the self-adjustment of the bearing bush continues to be guaranteed should be.

According to the invention, this is achieved in that the Plain bearing bush is tiltably mounted in the opening.

With such a storage, the bearing pressure is still absorbed by the support part. At the same time, the However, the plain bearing bush automatically compensates for misalignments compared to the other bearing bush. A spherical bearing training compared to the storage according to the invention is much cheaper because of the special There is no need to shape the dome or pan.

In a further development of the inventive concept, the edge is of the breakthrough in the manner of a knife-edge bearing.

If the support part is too thick, however, in a further embodiment of the invention, the tendon can have an idenlager effect can be achieved in that the opening in the support part has a bevel on at least one side.

So that the plain bearing bush is secured against wandering out in one axial direction, the plain bearing bush unilaterally open a covenant.

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The plain bearing bushing expediently consists of a spring-elastic one Plastic.

A particularly simple assembly of the plain bearing bush is given if this is a further development of the inventive concept is einknöofbar in the support part. To do this, protrude in advantageous Way at a distance from the collar locking cams from the outer surface of the sliding bearing bush, which when pressed in the bushing resiliently into the opening in the support part avoid unintentional reading of the socket from the support part.

So that the plain bearing bush can tilt without being hindered by the collar, the one facing the support part closes Shoulder of the collar with the outer surface of the plain bearing bush an obtuse angle. To prevent rotation, the plain bearing bush has a on its outer surface at least approximately radially directed approach, the one provided in the support part, open towards the breakthrough Groove is assigned. -

The invention is explained in more detail below with reference to the exemplary embodiments shown in the drawing. Show it:

1 shows the bearing point of a machine shaft, not shown, in a view,
Fig. 2 shows a section through the bearing point of FIG. 1. Along the line II-II and

3 shows another embodiment of the inventive Storage.

In the illustrated in Fig. 1 bearing point ff ÜR an unshown motor shaft is assisted by the reference numeral Di verseher .. ¹ S support member 11 may for example through the

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Bearing shield of an electric motor or the cover of a gear housing can be formed. In the support part 11, a bore 13 is provided for receiving a plain bearing bush 12. The outer jacket surface 14 of the plain bearing bush 12 is cylindrical and the diameter of this cylinder is adapted to the diameter of the bore 13 so that the plain bearing bush sits in the bore 13 without radial play. So that the plain bearing bush 12 cannot be pushed through the bore 13, it has a stop collar 15 at one end. At a distance from the stop side of the collar 15 facing the support part 11, latching cams 16 protrude from the cylindrical outer surface Ik of the plain bearing bushing 12. The distance between the locking cams 16 and the collar 15 corresponds to the thickness of the support part 11 in the area of the receiving bore 13.Since the sliding bearing bushing is made of a resilient plastic and the locking cams 16 only protrude slightly beyond the outer surface 14 of the sliding bearing bushing 12, the bushing can enter the receiving bore 13 of the support part 11 has been pressed in. When penetrating the receiving bore 13, the locking cams 16 are deformed in such a way that the plain bearing bush 12 can be pressed into the support part 11 up to its stop collar 15. If the plain bearing bushing 12 is now in its prescribed position, the locking cams l6 spring outward again and thus prevent the plain bearing bushing 12 from inadvertently wandering out of its receiving bore 13 (FIG. 2). The plain bearing bush 12 is so to speak buttoned into the receiving bore 13 of the support part 11.

The ratio between the diameter of the receiving bore and the thickness of the support part 11 is such that the plain bearing bush tiltable in the receiving bore 13 within certain limits is. To solve the problem it is sufficient if the possible

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Tilt angle on all sides is 2 °. So that the tilting movement of the plain bearing bush 12 is possible without difficulty, the shoulder 17 of the collar 15 facing the support part 11 forms an obtuse angle OC with the lateral surface HJ of the plain bearing bush 12.

However, if, as shown in Fig. 3, the support part 21 so thick 13t that it would be difficult or even impossible to tilt the plain bearing bushing 22, it is useful to provide the bore 23 in the support part 21 with a bevel 2k so that the bearing area of the bore 23 is so narrow that the tilting movement of the plain bearing bush 22 is possible within the required limits. In this case, of course, the locking cams 25 must be arranged at a distance from the collar 26 of the plain bearing bush 22 which corresponds to the depth of the cylindrical part of the bore 23.

The supporting area of the bore 13 or 23 thus forms a cutting edge bearing for the cylindrical outer surface of the plain bearing bush 12 or 22.

So that the plain bearing bush 12 is also secured in the radial direction in its receiving bore 13, the plain bearing bush has 12 at least approximately one on its lateral surface I ^ radially directed extension 17, to which a groove 18 provided in the support part 11 and open towards the opening 13 is assigned is (Fig. 1).

The construction and assembly of such a bearing point is very simple because the bearing bushing is only in its receptacle needs to be buttoned. In their regular It is then secured in the axial as well as in the radial direction. Nevertheless, a certain tilting movement is the

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Bushing possible in its receptacle due to the misalignment of the two bearing bushes belonging to a single machine shaft can be balanced because the tiltable bearing bush can adjust accordingly. Regardless of this, even with such a storage, the small machines occurring bearing pressures are absorbed by the support part. In certain cases it can also be an advantage both sliding bearings belonging to a single shaft are designed in the manner according to the invention.

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Claims (9)

Expectations 1.) Small machine with support parts for mounting a machine shaft, each support part has a receptacle for a plain bearing bush and at least one plain bearing bush with an at least approximately cylindrical section penetrates the support part in an opening, characterized in that the plain bearing bush (12) in the opening (13) is tiltable. 2. Small machine according to claim 1, characterized in that the edge of the opening (13) in the manner of a Blade bearing is formed. 3. Machine according to one of claims 1 or 2, characterized in that that the opening (23) in the support part (21) has a bevel (24) on at least one side. 4. Small machine according to one of claims 1 to 3 * thereby characterized in that the plain bearing bush (12) is on one side one x. Has federal government (15). 5. Small machine according to one of claims 1 to 4, characterized in that the plain bearing bush (12) consists of one resilient plastic is made. 6. Small machine according to one of claims 1 to 5 *, characterized in that that the gloit bearing bush (12) can be buttoned into the support part (11). 7. Small machine according to one of claims 4 to 6, characterized in that with Abctand from the collar (15) locking cams (Jö) from the outer surface (14) of the plain bearing bushce protrude. »" 9883/0678 8. Kleiraaschine according to "? I.ne; n of claims 3 to 7, characterized in that the t; t * '5tzteil (11) to ^ ev / aridte shoulder of the federal government" (15) ns.it the lateral surface ( I ² O of the plain bearing bushing (12) includes ^{an obtuse angle r} X. 9. Kl einmaschiri '? according to '? i'.i5in dir claims 1 eis ti, characterized in that the plain bearing beechee (Ι2 ^λ ι an üiror ManteTläehc (14) an at least approximately radial ^ e- . directed approach (17), the one in the O "Ut;: part (I]), sum Dwr ^ hbnich (IJi-) open Nur. (Associated with l'O. ■ vÄ