DE9116324U1 - Arrangement with a profile toothing - Google Patents

Description

Löhr & Bromkamp GmbH' ¹ ^ '""—-· ₂ 5 June 1991 Carl-Legien-Strasse 10 Ne/Bl (1456A)

6050 Offenbach/Main 1 91.020 DE 0

Arrangement with a profile toothing

Description

The invention relates to an arrangement with a profile toothing between a shaft journal - in particular the end of a universal joint - and a hub - in particular a ball hub of a constant velocity joint. Such spline toothing profiles are designed with a transition fit and secured against each other by locking rings or snap rings engaging in grooves. The connection between the shaft journal and the hub should be a detachable connection for repair purposes.

One problem with such wedge profiles is the assembly, which can lead to jamming and thus possibly also to damage to the tooth ends. This also represents an obstacle to the automation of the assembly processes. The aim of the present invention is to design an arrangement of the type mentioned at the beginning in such a way that the joining is simplified, i.e. that the insertion of the profile teeth into one another is made easier and the risk of jamming is reduced. The solution to this is that at least one of the profile teeth - external teeth on the shaft journal or internal teeth on the hub - has a tapered tooth width at its front end when the teeth are joined, with the tooth height remaining unchanged. The simple measure provided here makes it easier to insert the teeth into one another, whereby jamming is avoided even with small angular errors.

and the gears automatically align themselves coaxially with each other. A significant advantage is that the spread of the pressing force can be reduced by 45 to 60%. This also facilitates the automation of the process.

In the state of the art, DE 27 21 571 A1 discloses gears that have such a design of the spline on the shaft journal at both gear ends. However, these are sliding profiles in which the ratios of the tooth load are to be improved. There is no problem with axial insertion due to the specified tolerances for such profiles. Likewise, there is no scattering of the pressing forces as with the above-mentioned generic profile gears with transition fit.

The aforementioned tapering of the tooth profiles, which is directed towards the front end in relation to the joining of the gear teeth, can be carried out according to the invention both on the external gear teeth of the shaft journal and on the internal gear teeth in the hub, whereby the former embodiment can be implemented particularly advantageously.

For small batch sizes, the design according to the invention can be achieved after producing a conventional gear by grinding or rolling, whereby the rolling tool determines the final shape by complementary formation of the taper of the tooth profiles, or by conventional profile drawing and additional grinding in the area of the taper of the tooth profiles. For larger batch sizes, during the drawing process, a further pressing can be carried out in the area of the tooth taper, i.e. a second drawing ring with the axial length of the taper area is pressed onto the end of the gear area.

which determines the final shape through complementary formation of the tapering of the tooth profiles. Due to the elastic behavior of the shaft material, the second drawing ring described here can also be used first and then a conventional drawing ring can be drawn over the entire length of the profile toothing.

In an advantageous embodiment, the angle «L between contour lines on the tooth flanks on the unchanged tooth on the one hand and on the tapered tooth on the other hand is approximately 1.5 degrees at the tooth end.

As a rule, the area of the tooth width reduction - starting from the unchanged tooth width up to the end of the gear - is about 20% of the total gear length. The tooth width reduction at the end of the gear will be about 12% in relation to the area of unchanged tooth width on the pitch diameter.

An arrangement designed in this way with a profile toothing has, in addition to the already mentioned advantages of the reduced risk of jamming and the reduction in the spread of the pressing forces, the further advantages that the retraction force, i.e. the force required during disassembly, corresponds approximately to the pressing force, that an improved abrasion behavior of the fitting toothing can be achieved, particularly in the area of the tooth end, and that less effort is required when classifying the parts with profile toothing, since joining is possible even with greater pressure in the area of the unchanged tooth width and is not prevented by the impossibility of guiding the toothing parts.

One embodiment is shown in the drawing as a section of an external toothing in the area of one end of the toothing in perspective. This shows three teeth 2 on a shaft journal 1, on which contour lines H and fall lines F are drawn. The fall lines Fi-, indicate the transition from the tooth area shown at the rear with an unchanged tooth cross-sectional shape to the tooth area with a tapering tooth width, where the contour lines H of each tooth form an angle with the corresponding contour lines in the unchanged tooth area. The length from the fall line Fy to the front side 4 of the toothing represents approximately 20% of the tooth length. In the plane of the contour line H^, i.e. at the height of the pitch circle of the toothing, the tooth width decreases by 12% from the fall line F _f ·. to the fall line F ₀ on the front side of the teeth. This results in an essentially identical reduction in the width of the tooth tips, as can be seen from the contour lines H , which represent the edges.

Claims (4)

Löhr & Bromkamp GmbH-" ■ &iacgr; ■■■>· r ■---■'' '-. 25 June 1991 Carl-Legien-Straße 10 Ne/Bl (1456A) Offenbach/Main 1 91.020 DE 0 Arrangement with a profile toothing Protection claims 1. Arrangement with a profile toothing between a shaft journal - in particular the end of a cardan shaft - and a hub - in particular a ball hub of a constant velocity universal joint, characterized, that at least one of the profile gears - external gearing on the shaft journal or internal gearing on the hub - has a tapered tooth width at its front end when the gears are joined, with the tooth height remaining unchanged. 2. Arrangement according to claim 1,
characterized, that the reduction in tooth width up to the end of the gear teeth on the pitch circle diameter is approximately 12%. 3. Arrangement according to claim 1,
characterized, that the area of the tooth width reduction - starting from the unchanged tooth width to the end of the toothing - is approximately 20% of the total tooth length. 4. Arrangement according to one of claims 1 to 3,
characterized, that the angle <L· of contour lines on the tooth flanks between the unchanged tooth cross-section and the tapered tooth cross-section on the pitch circle diameter is approximately "1.5" degrees.