DE7826315U1 - Pulley - Google Patents

Description

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August 30, 1978 Chr / -Sm

ROBERT BOSCH GMBH, TOOO Stuttgart 1

Pulley

summary

A sheet-metal belt pulley is proposed for attaching to a drive shaft of a generator, which is made from a few parts is made by simply pressing them together. Such a pulley is used in particular to drive used by generators in motor vehicles.

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R.

August 30, 1978 Chr / -Sm

ROBERT BOSCH GMBH, TOOO Stuttgart 1

Pulley

State of the art

The invention is based on a pulley according to the preamble of the main claim. Pulleys for V-belts are in many Forms known. They consist predominantly of, for example, rolled, forged or cast material, which by cutting or non-cutting machining is brought into the finished form. Recently, pulleys are often made of at least two stamped or drawn sheet metal parts, which are connected to one another by connecting means, for example rivets are connected. The finished pulley is then put on the

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Drive shaft of a 'generator shrunk on or on the Shaft pushed on loosely and finally connected to the shaft in a rotationally fixed manner by an inserted driver. Double • Grooved pulleys are usually either turned in one piece from one workpiece or from many individual parts Assembled sheet metal parts. Such a double-grooved pulley composed of individual sheet metal parts is for example from DE-OS 21; 1 * 1 173 (= R. 2257 of the applicant) known. A disadvantage of the known pulleys is that , they are relatively heavy and difficult to manufacture

and also cause high spare part costs. Double grooved pulleys are required when a single one Belt is insufficient to transmit power or if another unit is driven via a second belt groove shall be. Modern motor vehicles often have at least one of these requirements. One therefore has ways sought to avoid the disadvantages of the known pulleys.

Advantages of the invention

The pulley according to the invention with the characteristic Features of the main claim has the advantage that it requires very little V.) · Material expenditure, can be produced quickly and easily

and is only light in weight.

The measures listed in the subclaims are advantageous Further developments and improvements of the pulley specified in the main claim are possible. It is particularly advantageous that all parts can be assembled individually and in the correct order and that only the finished pulley is on the drive shaft of the generator is attached. The pulley can be already finished in its for spare parts needs

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assembled state are kept in stock. When assembling the pulley, the torque that occurs when tightening the usual fastening nut is created without any particular difficulty by holding the support part with a suitable tool to be compensated.

drawing

I An embodiment of the invention is shown in the drawing I and explained in more detail in the following description

; | purifies. Figure 1 shows an embodiment of the invention

I a double-grooved pulley in the installed state, Figure 2

fj? shows a cup-shaped sheet metal part and FIG. 3 shows a support part in the

I individual, in figure k is the type of knurling for a cup-

'■ j shaped sheet metal part shown.

· ■ Description of the embodiment

In Figure 1 a, the drive-side end shield of a generator is indicated. The other parts are then largely drawn in section. From the end plate 11 0 protrudes a machine shaft 12 '.) (In the machine shaft 12, a fan 13, and then a doppelrillige pulley according to the invention is first placed.

; ■: The pulley essentially consists of three individual parts,

>. ■ namely a belt layer part 14 with the two belt layers 14 a

!; ■: and 14 b, a cup-shaped sheet metal part 15 and a support part 16.

ÜÜ The belt layer part 14 is on the cup-shaped sheet metal part 15-

M. pressed. The edge 15 a of the cup-shaped sheet metal part 15 is useful

i moderately bent outwards so that it touches the flanks of the

f belt layer part 14 can support. In the cup-shaped sheet metal part 15

■ the support part 16 is pressed in. The support part 16 offers enough

Support surface for the cup-shaped part 15 that at least one

f belt layer 14 a directly and the other belt layer 14 b over the

j .; cup-shaped sheet metal part 15 is supported. The whole arrangement from I.

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the parts 14, 15 and 16 thus form a stable unit. In arrangements of this type, it has proven useful to prevent them from rotating on the machine shaft 12 with the aid of a wedge 17 to secure. The double-grooved pulley 14, 15, 16 is on the machine shaft 12 by means of a spring washer 18 and attached to a nut. In Figure 1 a, two belts 21 a, 21 b, which are located in the belt layers I4, a, 14 b, are shown.

Figure 1 b shows the double-grooved pulley,

placed on the machine shaft 12, in a plan view.

In Figure 2, the cup-shaped part 15 is shown in detail. One sees again the flared edge 15 a, the opening 15 b for inserting the machine shaft 12 and the recess 15c for the wedge 17 · In the sectional view according to FIG. 2 there is a knurling indicated, which will be discussed in more detail below. Figure 2b shows a plan view.

The support part 16 is shown in detail in FIG. In order to the support part 16 is pressed better into the cup-shaped sheet metal part 15 can be, it is chamfered at its later inner outer edge 16 a. Here, too, the opening 16 b are again to see through the machine shaft 12 and the recess 16 c for the wedge 17. In the exemplary embodiment according to FIG. 1 'The support part is designed essentially in the shape of a disk. In the detail according to FIG. 3, one can see both in the sectional view Figure 3 a as well as in the plan view Figure 3 b a specialty. On the side facing the opening of the cup-shaped sheet metal part 15, the support part 16 is offset. The stepped part 23 is provided with a polygonal circumference 24. On this polygonal A suitable tool can be used when assembling the double-grooved belt pulley 14, 15, 16

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to hold the pulley in place while the nut 19 is screwed onto the shaft 12. The stepped part 23 with the polygon-shaped circumference 2k _t performs the same service when the nut 19 is to be loosened from the machine shaft 12 again.

In Figure k , a detail of the cup-shaped sheet metal part 15 according to Figure 2a is shown on an enlarged scale along the indicated cutting line, namely the knurling 22. The knurling in Figure 1+ is both on the inside (22a) and on the outside (22b) carried out. The inner knurling 22a ensures a secure fit of the support part 16 in the cup-shaped sheet metal part 15 »the outer knurling 22b a secure fit of the belt layer part 1U on the cup-shaped sheet metal part 15. The measure of knurling is not absolutely necessary, it can be omitted entirely or only on on the inside or only on the outside, if the normal pressure is sufficient for cylindrically shaped parts.

The pulley can be designed with one or more grooves. In a single-groove version only a single belt layer Ik is used, in a multi-groove version a corresponding number of belt layers. The required number of belt layers, for example two - il * a, ikb - can be cut from a corrugated round tube.

Claims (9)

r α lit * '"ΓΒ ■ · ·« ft · R. 49-43 August 3, 1978 Chr / - Sm Robert Bosch GmbH, 7000 Stuttgart 1 claims 1. Belt pulley, preferably for V-belts, especially for driving generators in motor vehicles, for attachment to a suitably designed drive shaft of a generator, characterized in that the belt layer part (14) is made in one piece from sheet metal and the belt layer part (14) through a cup-shaped sheet metal part (15) and the cup-shaped sheet metal part (15) are supported by a support member (16). 2. Pulley according to claim 1, characterized in that the support part (16) in the cup-shaped sheet metal part (15) and the if (~) cup-shaped sheet metal part (I5) pressed into the belt layer part (14) are. 3 pulley according to claim 1 or 2, characterized in that that at least one of the transitions between the support part (16) and cup-shaped sheet metal part (ip) and between cup-shaped sheet metal part (15) and belt layer part (14) with a knurled surface (22a, 22b) is. 4. Pulley according to claim 1 or 2, characterized in that that at least one of the transitions between supports (16) and cup-shaped sheet metal part (15) and between cup-shaped sheet metal part (15) and belt layer part (14) carried out with a smooth surface is. 5 · Pulley according to one of the preceding claims, characterized characterized in that the support part (1Ö) has a stepped part (2] 5) has, which is provided on its outer circumference with flat surfaces (24) for attaching a holding tool. 6. Pulley according to one of the preceding claims, characterized in that the cup-shaped sheet metal part (15) at its edge ' (15a) is crimped to support the belt layer part (14). 7. Pulley according to one of the preceding claims, characterized characterized in that the pulley has a single groove and a single belt layer (1 ^). 8. Pulley according to one of claims 1 to 6, characterized in that the pulley is designed with two grooves and two Has belt layers (ika, 14b). 9. Pulley according to one of claims 1 to 6, characterized in that the pulley is designed with multiple grooves and one Has a plurality of belt layers (iUa, I4b).