DE9218285U1 - Workpiece made by forming - Google Patents

Description

GKN Automotive AG 06 September 1993

Main Street 150 ENP/Wi-sr

53797 Lohmar 0176.1/92

Description Workpiece produced by forming

1. The invention relates to a cone-shaped workpiece produced by forming using a two-part forming tool, having a convexly curved outer circumference in axial section with an axially directed burr caused by the parting line of the forming tool.

It is known to press or forge workpieces using a two-part tool (DE-OS 2 107 459). In this publication, in order to avoid a press or forging burr, it is suggested that the amount of material be measured in such a way that no forging or press burr is created during production. However, the disadvantage of this suggestion is that the amount of material cannot be measured so precisely, so that either a press or forging burr, albeit a small one, is created or the die is not completely filled, so that unfilled areas arise and the workpiece ultimately cannot be produced in the correct shape.

The invention is based on the object of designing a tenon-shaped workpiece with a convexly curved outer circumference in such a way that the pressing or forging burr does not have a disruptive influence on the subsequent use and machining is unnecessary.

According to the invention, this object is achieved in that the outer contours are drawn radially inwards on both sides in the area of the ridges, with flattened areas being formed at the corresponding points.

In the embodiment according to the invention, it is advantageous that bearing rings, for example, can be placed on the pin-shaped workpieces without any machining.

In an advantageous embodiment of the invention, it is provided that in the case of an inner joint part of a tripod joint produced by forming with tripod pins pointing radially outwards for receiving rollers, the flattened areas are provided on the tripod pins.

This avoids any reworking of the inner joint part that supports the tripod pins.

In a method for forming tenon-shaped workpieces with a convexly curved outer circumference in axial section, which are produced by means of a two-part forming tool, the flattenings are applied to the tenon-shaped workpiece during the forming process by appropriately shaping the two-part forming tool.

This allows the flattenings to be provided in a simple and cost-effective manner.

· I

In an advantageous embodiment of the invention, the cone-shaped workpieces are produced by forging.

According to a further embodiment of the process, the cone-shaped workpieces are manufactured by pressing.

In an advantageous application of the method, the flats are attached to the pins of an inner joint part.

According to a further feature of the process, the flats are attached to an outer roller to guide a pin of an inner joint part.

This design enables a simple and cost-saving production of the inner joint part of a tripod joint.

The invention is explained in more detail below using embodiments shown in the drawing.

It shows:

Figure la an inner joint part of a tripod constant velocity joint with a spherical tripod pin

Figure Ib a section AA through the spherical tripod pin

Figure 2a shows an inner joint part of a tripod constant velocity joint with a spherical tripod pin according to the invention.

·
· · 1

Figure 2b shows a section AA through the spherical tripod pin.

Figure 3 shows a bearing arrangement consisting of an inner roller, a needle bearing and an outer roller.

Figure 4a shows an inner joint part of a tripod constant velocity joint with cylindrical tripod pins.

Figure 4b shows a section AA through a cylindrical tripod pin

Figure 5 shows the arrangement of a bearing consisting of an inner roller, a needle bearing and an outer roller in a cylindrical tripod pin.

Figure 6a shows the application of the invention in the production of an outer roll.

Figure 6b shows the support of the outer roller in a guideway of an outer joint part.

Figure 7a shows an overall view of a tripod joint.

Figure 7b shows the use of an outer roller with a flattened area.

Figure 1a shows a conventional inner joint part of a tripod constant velocity joint 1, which is provided with spherical tripod pins 2. A bore 3 is arranged in the middle of the inner joint part 1, which serves to accommodate a shaft that transmits the torque.

In Figure 1b it can be seen that the burr 4 must be removed by machining in order to be able to accommodate an internally cylindrical part.

Figure 2a shows an inner joint part 1 also with a spherical pin 2, in which the flattening 5 according to the invention is provided. As can be seen from Figure 2b, the ridge is within the outer wrap circle of the pin and therefore does not have a disruptive influence on the accommodation of bearing rings or the like.

Figure 3 shows a spherical tripod pin 2 on which, as is usual with tripod joints, an inner roller 6, a needle bearing 8 and an outer roller 7 are mounted. Figure 3 shows the force support of the spherical tripod pin 2 within the inner roller 6.

Two load-bearing areas are visible in the flattening 5, which results in a better distribution of the surface pressure.

At the same time, it is advantageous that a long-term grease reserve can be stored in the flattened area, thus improving the lubrication conditions.

Figure 4a shows an inner joint part 1 with a cylindrical tripod pin 9.

In Figure 4b, which shows the section AA from Figure 4a, it can also be seen that the ridge 4 lies in the area of the outer wrap circle of the cylindrical tripod pin 9.

Figure 5 shows, analogously to Figure 3, the distribution of forces when the tripod pin 9 is supported on one side via a roller bearing.

Figure 6a shows an outer roller which was also produced according to the invention by pressing or forging. In the outer roller 7, the ridge is provided all the way around, i.e. the outer roller 7 is provided with a flattened area all the way around 5.

Figure 6b shows the support of the outer roller in a circular guideway 10 of a tripod joint.

Figure 7a shows a longitudinal section through a complete tripod joint. The outer joint part 13 is sealed by means of a bellows 11' that extends towards the shaft 12.

Fig. 7b shows the mounting of an outer roller 7 provided with a circumferential flattening 5 in a guide track 10.

GKN Automotive AG Hauptstrasse 537 97 Lohmar

06 September 19 93 ENP/Wi-sr 0176.1/92

LIST OF REFERENCE SYMBOLS

Inner joint part of a tripod constant velocity joint

Spherical tripod cone

Inner bore

ridge

Flattening

Inner roller

Outer roller

Needle bearing

Cylindrical tripod pin

Guideway

Bellows

Wave

Outer joint part

Claims (2)

GKN Automotive AG 25 October 1993 Hauptstraße 150 ENP/Wi-sr 53797 Lohmar 0176.1/92 Protection claims 1. A cone-shaped workpiece produced by forming using a two-part forming tool, with a convexly curved outer circumference in axial section and with axially directed burrs caused by the parting line of the forming tool, characterized in that the outer contour is drawn radially inwards on both sides in the area of the ridges (4), whereby flattened areas (5) are formed at the corresponding points. 2. Inner joint part of a tripod joint produced by forming with tripod pins pointing radially outwards for receiving rollers, according to claim 1, characterized in that the flats (5) are provided on the tripod pins (9).