AT10156U1 - DEVICE FOR PROCESSING LIGHT METAL RIMS - Google Patents

Description

2 AT 010 156 U1

The present invention relates to an apparatus for processing alloy wheels, in particular to a precision tool for holding during the reworking of alloy wheels. All alloy wheels, regardless of how they were originally produced, whether cast or forged, need to be reworked very precisely, both in the automatic production process and in a process in which the blank is clamped in the tool. The clamping must be centered. For this purpose, it is known to perform the clamping centrally, either directly on the hub or in the region of the ribs or spokes, with which the hub is connected to the edge of the rim. The shape and design of the rim design is becoming ever more varied, so it is necessary to hold for each of the many individual forms of alloy wheels also correspondingly different clamping tools. Therefore, from the own utility model DE 20 2005 004 538 U1 it is known that an axial centering ring attaches to the rear peripheral outer edge of a blank, wherein projections arranged outside and evenly distributed on the edge of the axial centering ring engage correspondingly identically shaped recesses in the rear outer edge of the blank.

Now, however, there is still the task of sequentially clamp different rims, which have different diameters, that is, to fit different tire sizes. A difficulty consists in the fact that the different sizes are to be clamped indiscriminately one after the other, as they are indiscriminately inserted from the preliminary stage of a gripper. In the mentioned prior art, the tools holding the rim blank, the different diameters would have to be adjusted, that is replaced. This means an interruption of the processing flow.

For this reason, the task of further developing the prior art so that successively different size rim blanks can be clamped one after the other without tool change for machining.

The general solution to this problem arises from the main claim.

Further details, features and advantages will become apparent from the following description of the drawing, in which a preferred embodiment is shown.

Show it:

1 shows a schematic elevation with a small rim,

Figure 2 is a schematic elevation with a small rim and Figure 3 is a schematic plan view.

In each of FIGS. 1 and 2, a schematic representation with a clamping tool 10 for a cutting turning operation of a rim blank 12 can be seen. The rim blank 12 is prefabricated to fine machining with its rim 14 of the centering center 16, the openings for wheel nuts 17 and valve 18. The clamping should be done as in the prior art on the rim flange (rim rim) 20.

It is assumed for the illustrated example that rim blanks 12 having a wheel size 15 ", (FIG. 1) 17" or 18 "(FIG. 2) or 19", (FIG. 1) 20 "or 21" (FIG. 2) or 20 ", (FIG. 1) 21" or 22 "(FIG. 2) (inches) or in other three size mixtures of a gripper. According to the invention, the known axially movable and about its axis 24 out of the way away rotatable Spannfänger be replaced by a specially designed clamp 22, which is designed in the present example for the above three wheel sizes. In the two illustrations of Figures 1 and 2, a rim blank 12 is already inserted, but the tensioner 22 is still open.

As can be seen from the schematic plan view of FIG. 3, in the example shown here, the tension catcher 22 has three radially arranged radial arms. With a long away

Claims (4)

At the same time, the arm 26 bears peripherally an axially far-reaching punch 26a, with which it can clamp small rim diameters against short counter punches 26b, which are arranged in a plane 40 which is offset relative to the plane 50 which the tensioner 22 is axially movable. With a medium long-projecting arm 28 he wears peripherally an axially middle far downwardly projecting punch 28a, with which he can clamp middle rim diameter against central counter punch 28b, which are arranged in a plane 40 which is arranged offset from the plane 50, with which the tensioner 22 is axially movable. With a short-protruding arm 30 he carries peripherally an axially short downwardly projecting punch 30a, with which he can clamp small rim diameter against long counter punch 30b, which are arranged in a plane 40 which is arranged offset from the plane 50, with which the Clamp 22 is axially movable. In the schematic representation of FIG. 3, only one tension catcher 22 is shown, which is located in the removal position, in which a machined rim 12 can be removed. The schematic representation of Figure 3 is divided into six clamping sectors, which are each equipped with a collet 22 with respect to a respective set of circumferentially offset counter punch 30 in an axis 24. Depending on the inserted rim size of the tension catcher is brought into its associated angular position and brought against a corresponding counter punch 30 by turning in position. In this embodiment, a change in tool setting from one rim size to another may occur within 80 to 150 seconds. Of course, with a corresponding extension of the principle shown here, the clamping device can also be designed for a larger number of different rim sizes. Claims 1. A device for processing alloy wheels, in particular a precision tool for detecting a rim blank for machining with an axial centering and axially movable clamps evenly spaced around the circumference for gripping the inner edge of a light-alloy rim blank pivotable about its axis , characterized in that each tension catcher (22) has radial arms (26, 28, 30) of different lengths arranged in a star shape, each arm (26, 28, 30) having a punch (26a, 28a, 30a) of different length between itself and one in a plane under the rim edge (20) in the circumferential direction and radially offset from each other receives a rim edge (20) of different sizes rim diameter and clamps. 2. Apparatus according to claim 1, characterized in that a radially arranged radially projecting arm (26) carries an axially far downwardly projecting punch (26 a), with a short upstanding counter punch (26 b) cooperates to clamp small rim diameter. 3. A device according to claim 1, characterized in that a radially arranged radially projecting radially arm (28) carries an axially middle downwardly projecting punch (28 a) which cooperates with a medium short upstanding counter punch (28 b) to clamp average rim diameter , 4. The device according to claim 1, characterized in that a star-shaped arranged radially short-projecting arm (30) carries an axially shortly downwardly projecting punch (30) which cooperates with a long upstanding counter punch (30b) to clamp large rim diameter , 4 AT 010 156 U1 For 3 sheets of drawings