DE19840466A1 - Assembled drive shaft, in particular, for motor vehicles comprises socket joints between the shaft section and the end pieces which have been produced by a combined joining process - Google Patents

Abstract

The assembled drive shaft comprising a shaft section (1) and at least one end piece (2) with gear teeth (3) joined to the shaft section by means of a socket joint with a mutual overlap in the zone (F) is characterized by the fact that the shaft section and the end piece are joined to one another by means of a combined joining process.

Description

The invention relates to a pluggable drive shaft, especially for a motor vehicle, according to the preamble of the 1st claim. Doing so with a hollow Shaft section at least one having a toothing End piece connected via a plug connection.

DE 197 23 038 A1 already describes a pluggable Drive shaft for motor vehicles described. It points the end piece has an internal toothing and is in the Hollow shaft inserted. It is a conventional press connection. To with dynamic load which in this conventional press connection in the press joint occurring tribocorrosion and the associated Avoid negative effects will be added Parts at the joining position with a suitable one Apply a lubricant layer. For example Molybdenum disulfide oil paste or zinc phosphate paste used. However, due to the use of lubricants Transmission ability, especially the torque transmission limited under high dynamic loads. In addition, the negative comes with cross-press connections  Effects of the lubrication padding. When dry Joined press connections occurs at dynamic local Destructive tribocorrosion slips on. The usage such lubricants continue to pollute the environment.

The object of the invention is a pluggable drive shaft, especially for a motor vehicle to develop a has high dynamic resilience, tribocorrosion in avoids the joining position and can be manufactured in an environmentally friendly manner is.

This object is achieved with the features of first claim solved.

With the pluggable drive shaft for a motor vehicle a shaft section and at least one over it a connector connecting end piece, which a Has internal teeth or external teeth according to the invention for the first time in the joining area between the End piece and the hollow shaft section a combined Joint connection in the form of a press connection and one cohesive connection generated. The tail and / or the hollow shaft section are at least in the Joining area with a load capacity increasing and provide the tribocorrosion preventing layer. The layer advantageously consists of one composite-stable conversion layer with high tendency to adhere,  which are cold-welded when the press connection is made or cold soldered. For this purpose, a surface is preferably used coating in the form of a zinc layer, one Copper layer, a metal alloy or a metal mixed chosen. Lead through this layer in the joint area the relative displacement in the pressing surface between the Shaft section and the end piece to form local or complete material connections in the form of Cold press soldered connections or cold press welded connections, without the negative occurring during dry joining Seizure symptoms occur. Through this in addition to non-positively generated material joint connection can the load capacity compared to conventional joining bindings where lubricants are in the joint area is used to be significantly increased.

The required relative movement between the hollow shaft and the end piece, by means of which a cohesive joint connection is produced in addition to the frictional connection of the press connection, can be generated by the following different measures:

• - putting the two parts together,
• - Local sliding in the area of the joining position as a result static and / or dynamic operating load,
• - one-time static or dynamic rotation and / or Axial displacement of the end piece with respect to the  Hollow shaft or vice versa in one or changing Direction,
• - Defined dynamic loading of the press connection with an alternating load amplitude that a static Load may be overlaid, being a targeted training of the transferability of the Connection acts (generation by torque, Bending moment or axial load or their Combinations).

The layer can be applied by chemical Metal deposition, plasma spraying or other suitable Procedure.

In a further advantageous form of training can either shaft section or end piece completely or in Joining area consist of the coating material.

In addition to the use of surface coatings in the form metal can also be adhesives, preferably adhesives with contained metal particles from one or several metallic materials (e.g. zinc, copper, Metal alloys) find application.

Low-viscosity adhesives are preferably used a viscosity of around 150 centipoise. So that is  a noticeable increase in torsional strength to approx. double that arising from the press fit Torsion resistance is given.

The shaft section is preferably tubular Hollow part formed and has arranged on both sides Tails on.

The end pieces are advantageously provided with external teeth and

• - solid throughout or
• - hollow throughout
• - massive in the area of gearing and in the area of Hollow joint

educated.

The invention is based on Exemplary embodiments and associated drawings explained. Show it:

Fig. 1 drive shaft with end pieces inserted into the hollow shaft section

Fig. 2 drive shaft with the hollow shaft section attached to the outer diameter end pieces

Fig. 3 with the expanded drive shaft in the direction of the hollow shaft portion of the hollow end pieces.

The drive shaft shown in Fig. 1 consists of a hollow shaft portion 1 and two end in the inner diameter of the shaft portion 1 inserted end pieces 2 with an outer toothing 3. The variant of a hollow end piece was shown on the left and the variant with an end piece 2 made of solid material was shown on the right. The hollow shaft section 1 has on its outer diameter and its inner diameter a continuous layer z. B. in the form of a zinc layer 4 . In the joining area 5 - the overlapping joining area F between each end of the shaft section 1 and in each case one end piece 2 - a combined joining connection was produced in the form of a longitudinal press connection and a material connection, so that either a cold press solder connection or a cold press weld connection was produced. Compared to simple press connections, this has a much higher load-bearing capacity, so that for the first time these connections withstand the very high torque loading of motor vehicle drive shafts.

By a relative movement between one or both End pieces and the hollow shaft, e.g. B. by a very high Torque, the cold solder connection between the yourself parts moving relative to each other in the area of  Joint connection even more intimately, so that the resilience of the combined joint connection is further increased.

In addition to the embodiment shown above, gem. Fig. 2, the end pieces 2 are also plugged onto the outer diameter of the hollow shaft area 1 . The hollow shaft area 1 has a feed 6 at both ends. The resulting paragraph 7 also serves as a stop when pushing on the end pieces 2nd The central area with the larger diameter can also be produced, for example, by internal high pressure forming.

It is possible to feed only on its outside diameter in the joining area F with a coating (metal or To provide adhesive with metal particles).

In both exemplary embodiments, the wall thickness of the end pieces 2 decreases in the plug-in direction, so that in the initial phase of the joining there is an easier insertion into or plugging onto the hollow shaft section 1 . Gem. Fig. 3, it is also possible to use end pieces 2, which are flared toward the joining area F. A variant with a hollow end piece 2 is shown on the left-hand side; on the right side of Figure 2 is the end piece. 3 fully formed in the region of the toothing 3 and has a blind hole 8 in the joining region. This can e.g. B. generated by extrusion.

The hollow shaft section 1 has a larger outer diameter than the end pieces in all 3 design variants outside the joining area F. As a result, the torque acting on the wall thereof is reduced and it is possible to reduce the wall thickness.

The solution according to the invention makes it possible to completely prefabricate the end pieces 2 including surface hardening, then to insert the drive shaft into the ends of the hollow shaft section 1 and thereby to produce the combined joint connection. The end pieces 2 and the hollow shaft section 1 can also be made of different and / or non-weldable materials. This makes it possible for the hollow shaft section 1 z. B. by pulling work hardened material.

A major advantage of the invention is also that that those that are cold-welded when joining or those that are cold-soldered Share no delay, which direction or Rework results.  

The drive shaft is inevitably joined without Seizures, causing lubricants such as oils or Fats and the like are necessary.

If the drive shaft is overloaded to a certain extent, the joining connection is not destroyed, but the transmission capacity between the central shaft section 1 and the end pieces 2 is surprisingly increased.

Claims (14)

1. Pluggable drive shaft, in particular for a motor vehicle with a shaft section ( 1 ) and at least one end piece ( 2 ) adjoining it via a plug connection, which has a toothing ( 3 ), the shaft section ( 1 ) and the end piece ( 2 ) overlap in the joining area (F), characterized in that the shaft section ( 1 ) and the end piece ( 2 ) in the joining area (F) are connected to one another by a combined joining connection. 2. Plug-in drive shaft according to claim 1, characterized characterized in that the combined joint connection in the Kind of a press connection and a material Ver bond is formed. 3. Plug-in drive shaft according to claim 1 or 2, characterized in that the shaft section ( 1 ) and / or the end piece ( 2 ) at least in the joining area (F) are provided with a layer which increases the load-bearing capacity and prevents tribocorrosion. 4. Plug-in drive shaft according to claim 3, characterized characterized in that the layer is made during manufacture  the press connection cold welding or cold soldering Material exists. 5. Plug-in drive shaft according to claim 3 or 4, characterized in that the layer as a composite stable Conversion layer is formed. 6. Plug-in drive shaft according to one of the claims of 3 to 5, characterized in that the layer in the form a layer of zinc, a layer of copper, a metal alloy or a metal mixture is formed. 7. Plug-in drive shaft according to one of the claims of 3 to 5, characterized in that the layer of Adhesive is formed. 8. Pluggable drive shaft according to claim 7, characterized characterized in that the adhesive contains metal particles. 9. Plug-in drive shaft according to claim 8, characterized characterized in that in the adhesive metal particles one or different materials can be used.   10. Plug-in drive shaft according to claim 8 or 9, characterized in that metal particles made of zinc, copper or metal alloys are used. 11. Plug-in drive shaft according to one of claims 1 to 10, characterized in that the shaft section ( 1 ) and the end pieces ( 2 ) consist of different materials. 12. Plug-in drive shaft according to one of claims 1 to 11, characterized in that the shaft section ( 1 ) and end pieces ( 2 ) are joined in a completely finished state. 13. Plug-in drive shaft according to one of claims 1 to 12, characterized in that the shaft section ( 1 ) is designed as a tubular hollow part. 14. Plug-in drive shaft according to claim 13, characterized in that the end piece ( 2 ) has an external toothing and

• - solid throughout or
• - hollow throughout or
• - Solid in the area of the external teeth and hollow in the area of the joint

is trained.