EP1103324A1 - Process for manufacturing a casting piece, particularly for a casting piece for a convertible vehicle - Google Patents

Abstract

In order to be able to produce inexpensive castings with plane-parallel functional surfaces with simple means, a two-part tool (6) with two adjacent tool halves (7, 8) and an inclined parting plane (9) between the tool halves (7, 8) is used, whereby after At the end of the casting process, the two tool halves (7, 8) must be removed in opposite directions and at an angle to the functional surfaces. <IMAGE>

Description

The invention relates to a method for producing a Casting.

Castings are made using the stationary casting method, centrifugal casting or die casting process, using liquid, heated Metal poured into a mold enclosing a cavity which is removed after the metal has cooled. For the The casting can be shaped using models and molds which have a positive or negative impression of the Represent the cast part and enable the complex shapes. These different casting processes have in common that the castings due to inaccuracies in shape, cooling shrinkage or other tolerance violations usually have to be reworked so that the required manufacturing tolerances can be met.

From the book "Druckgieß-Technik" by Frommer / Lieby, Springer-Verlag Berlin, Heidelberg, New York 1965, volume I, pages 156/157, it is known that for casting precise batches of one Die-cast part multi-part cores are used, which according to the casting can be removed in a graduated motion. At deep recesses and holes are made for this Slidable cores used to withstand large deformations Avoid shrinkage or shrinking forces. You can also such two-stage core and slide movements also applied when certain precise batches of a die-cast part should be poured without a seam and the latter would result from the necessary shape division.

In the event that a component to be manufactured has two plane-parallel ones Should have contact surfaces, but is also in the known two-part cores for manufacturing reasons Machining post-processing unavoidable because of the space in between model core to be inserted between the contact surfaces is usually tapered so that the model core can be easily removed after the casting process. Accordingly, the contact surfaces close together Angle one, with the result that plane parallel and each other facing contact surfaces only with the help of a cutting Post-processing can be achieved.

The invention is based on the problem, with simple means To produce castings with two plane-parallel contact surfaces.

This problem is solved according to the invention with the features of the claim 1 solved.

According to the innovation, it is provided that a two-part tool - a model or a model core - in the space inserted between the system or functional surfaces of the casting with the two tool halves opposite their Envelopes have a sloping parting plane. The Outer walls of the tool are parallel to each other. The tool fills the space between during the casting process the functional surfaces to be cast, which lie accordingly the facing functional surfaces of the casting in parallel to each other. To make sure that after graduation of the casting process the tool from the gap without problems can be removed, the two tool halves each in opposite directions from the gap removed, with the removal direction for each half of the tool with the functional surfaces or the envelope of the tool encloses an angle. The angle inclusion, which by the sloping parting plane between the tool halves ensures that each tool half is off a position directly adjacent to the functional surface can be removed at an angle, which ensures that the tool when removing it from the space from the contact surface the wall of the cast workpiece is removed. This prevents the tool from being removed from the space in the workpiece parallel to the contact surfaces taken out what is due to the liability between tools and casting to a significant reduction in surface quality the contact surface can lead. The investment areas are plane-parallel to each other and have a high surface quality, which means a cutting Post-processing usually becomes obsolete.

Due to the elimination of post-processing considerable cost advantages can be realized, which in particular for castings to be produced in large quantities leads to significant cost reduction. Such castings are for example in the automotive sector in the manufacture of convertible vehicle roofs manufactured and used.

The diagonal that enables the angled removal Parting plane between the two tool halves divides advantageously the tool in two complementary tool halves, whereby such a symmetrical training on the one hand production and Offers assembly advantages and on the other hand ensures that the removal forces for both tool halves are approximately the same are great.

The removal angle at which the two tool halves are made the space in relation to the functional surfaces are removed, preferably takes a value greater than zero and is at most the same as the angle of the parting plane in relation on the envelope of the tool or the functional surfaces of the Casting. In a preferred embodiment, the removal angle is correct with the angle of the parting plane, so that at least the first half of the tool along the parting line from the space can be removed.

Further advantages and practical designs are the description of the figures and the drawing in which a Cast part with parallel walls, between which a two-part Tool is used, is shown in section.

The casting 1, for example one made in the die casting process Die-cast aluminum component, which is particularly suitable for a convertible vehicle roof is used, has approximately parallel Walls 2 and 3, whose facing plant resp. Functional surfaces 4, 5 immediately after casting even without machining post-processing with high dimensional accuracy in parallel should be arranged to each other. To achieve this The target is the space 11 between the walls to be cast 2, 3 of the workpiece or casting 1 with a model or tool 6, which is made in two parts and two tool halves 7, 8, which are advantageously complementary are formed to one another and via a parting plane 9 are separated. Both lie to carry out the casting process Tool halves 7, 8 directly against each other. Each half of the tool is wedge-shaped. The opposite outsides both tool halves 6, 7 are in the assembled state, where the tool halves are directly adjacent to each other, aligned parallel to each other in order to be plane parallel To achieve functional surfaces of the walls 2 and 3.

To ensure that after the casting process, the Tool 6 while maintaining plane-parallel surfaces 4, 5 with comparatively high surface quality from the intermediate space 11 be removed between the walls 2, 3 of the casting 1 can, the tool halves 7 and 8 are in opposite Removal directions 10 removed from the casting 1. The removal directions 10 advantageously close with the functional surfaces 4, 5 an angle α that is greater than zero, however corresponds at most to the angle that the parting plane 9 with the Includes functional areas 4, 5. Each half of the tool is advantageous 7, 8 against their wedge-shaped taper taken from the maximum possible angle α in the removal direction 10, by each tool half 7 or 8 along the parting plane 9 is removed from the space 11. To be an easy one Removal of the tool halves on both sides of the space 11 to enable the workpiece 1 on both End faces of the space 11 are open.

The described method using a two-part The tool can also be used to produce non-parallel walls be used in workpieces by using a tool with appropriate non-parallel opposite outsides is used.

Claims (4)

Method for producing a cast part, in particular a cast part for a convertible vehicle roof, in which For the production of parallel functional surfaces (4, 5) in the casting, a two-part tool (6) with two tool halves (7, 8) lying against each other and an inclined parting plane (9) between the tool halves (7, 8) is used, which divides the space ( 11) fills between the functional surfaces (4, 5), the parting plane (9) forming an angle with the functional surfaces (4, 5), after completion of the casting process, the two tool halves (7, 8) are removed from the intermediate space (11) in opposite directions and at an angle to the functional surfaces (4, 5). Method according to claim 1,
characterized,
that the tool halves (7, 8) are removed from the intermediate space (11) at an angle which lies between zero and the angle of the parting plane (9) between the two tool halves (7, 8). The method of claim 1 or 2,
characterized,
that the tool halves (7, 8) are removed from the intermediate space (11) at an angle which corresponds to the angle of the parting plane (9) between the two tool halves (7, 8). Method according to one of claims 1 to 3,
characterized,
that complementarily shaped tool halves (7, 8) are used.

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