DE3316120C2 - Pattern set-up for casting molds - Google Patents

Abstract

Two corresponding pairs of model plates (14, 16, 15, 17) are arranged on a model plate carrier (11) so that their rear surfaces enclose a cuboid, the edges of which run parallel to the longitudinal axis of the model plate carrier (11). When using the pattern device in a vacuum forming system, the cavity enclosed by the pattern plates (14, 15, 16, 17) is divided by diagonal partitions (18) into four chambers (19, 20, 21, 22), of which only the two opposite one another Chambers with the suction line (23, 24) are in communication, which belong to the model plates located in the molding position.

Description

The invention relates to ei-ie Moi'Jleinrichtung for Production of foundry molds in molding systems with vertical or horizontal pr or direction.

In the case of automated molding systems, both halves of the mold are often produced at the same time. For this In the case of the two matching model plates for the molding of the two sand mold halves are so on a model plate carrier arranged that their backs are facing each other. If the model plate carrier is designed as a frame, there is a certain distance between the backs for assembly reasons of the model plates from each other. The model plate carrier is usually mounted on an arm with which it Can be moved back and forth in the longitudinal direction to set the pattern for molding in the To spend molding area and to remove the casting molds from this, and around his Can be rotated lengthways to make changing plates easier. Whenever the The model plate change required for the mold program not only requires a considerable amount of work, but each time it also causes a correspondingly long interruption in operation for the entire Molding plant, since the entire workflow on the molding and casting line is stopped during this time. To this one Numerous and sometimes costly measures have been implemented to reduce lost time as much as possible.

For example, a model plate carrier of the same design, protruding in the opposite direction, was attached to a fashion plate carrier and the resulting double-armed model plate carrier was mounted on a horizontally lying turntable, with which the other model equipment can be brought into the working position by rotating it by 180 degrees. Since the double-armed model plate carrier not only has to be swiveled 180 degrees on the turntable when changing the plate, but also has to be moved in and out of the molding system with each molding process, this requires a very complex system of high precision, just by only one pair of plates to exchange for another.
The present invention is therefore based on the object of enabling a rapid pattern plate change with the simplest means without additional structural effort.

According to the invention, this is done in such a way that on

ίο a model plate carrier two belonging together Pairs of model plates are arranged so that their rear surfaces form a cuboid with parallel to the longitudinal axis of the model plate carrier enclose running edges.

The four model plates thus form the four sides of a "model plate cube", although the clarifying term "model plate cube" is only justified in a strictly geometric sense if the model plates are square. However, since the model plates are usually rectangular with different side lengths for technical reasons, they enclose a cuboid. The two pairs of model plates are of course arranged in such a way that the two model plates that belong together are attached to the opposite sides. Since the model plate carrier is usually designed to be rotatable from the outset, the whole process of changing the model plate only consists of rotating the model plate carrier by 90 degrees around its longitudinal axis in order to bring the other pair of plates into the forming position instead of one pair of plates, without interrupting the workflow of the Molding line.
The model plate arrangement according to the invention is particularly advantageously used for molding systems in which the molding sand is injected by a vacuum applied to the processing device. In these model devices, the model plates already enclose a vacuum-tight cavity, which is now only enlarged so much that all four model plates surround the cavity. With such an arrangement it is necessary to cover the air intake nozzles of the model plates that are not in the molding position. In order to save time when changing plates and to bring the other pair of model plates into the shape position by simply rotating the model plate carrier, according to a further feature of the invention, the vacuum space enclosed by the model plate cube can be crossed out by inserting diagonal partitions running in the axial direction and thus in four against each other Sealed chambers are subdivided / grounded, of which only the two chambers belonging to the model plates in the molding position are connected to the vacuum line. This division into chambers and thus a reduction in the size of the vacuum space within the model set-up is also advantageous for reasons of vacuum technology. The vacuum connection only to the two chambers of the model plates in the molding position can be established in such a way that the in the model plate carrier _; integrated suction line is only connected to the two chambers concerned.

For example training and application possibilities of the invention are based on the F i g. 1 and 2 shown:

F i g, 1 shows schematically a model plate arrangement according to the invention, cut in the middle in axial

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direction of the model plate carrier seen. On a tubular model plate carrier 1 is on the end faces 2 a model plate support frame 3 is attached, on the four sides of which the four model plates covered with models 4, 5, 6 and 7 are attached, of which the 5 opposing plates 4 and 6 and 5 and 7 belong together. During the molding process, the model equipment is moved in the axial direction of the model plate carrier 1 Moved in and out of the molding machine, the model cube becomes easy for a Mcdell plate change rotated by 90 degrees around the axis of the model plate carrier 1.

In Fig. 2 is a pattern plate arrangement according to the invention with subdivided vacuum chambers in section shown, seen in the suction direction. The two are on the four sides of the model plate support frame 13 Matching pairs of model plates 14, 16 and 15, 17 attached. The one from the model plates and the The space enclosed by the end walls is divided into four chambers 19, 20, 21 by diagonal partition walls 18. 22 divided In the model plate carrier 11 indicated by dashed lines run the two suction lines 23,24, which lead to the vacuum container, not shown, with which only the two chambers via openings in the front wall of the model plate cube are in communication, the model plates of which are in the molding position; in Fig.2 it is the chambers 20 and 22, while the openings of the other two chambers 19 and 21 have no connection to the Have a vacuum and, for example, open into the free interior space of the tubular model plate carrier 11 or are closed by sealing surfaces. When changing the model plate, it is not necessary to to cover the air nozzles 25 of the free model plate pair, because only those are in the form position Müuel'piaiien via their associated chambers with the Suction line connected; rather, a simple rotation of the model plate cube is sufficient by 90 degrees around the axis of the model plate carrier 11.

In a further embodiment, two or more model plate carriers, each with a model plate cube be assembled to a turnstile, in which by pivoting about a vertical axis of rotation a different model cube can be used in each case. In this way it is possible on one double-armed model plate carrier, four pairs of model plates and thus four shape programs, on a four-armed model plate carrier already eight pairs of model plates and thus to have a comprehensive program of forms in immediate readiness for use.

Chamber Chamber Chamber Chamber Suction line Suction line Air nozzles

For this purpose 2 sheets of drawings

List of reference symbols Model plate carrier 1 End faces 2 Model plate support frame 3 Model plate 4th Model plate 5 Model plate 6th ^ Model plate 7th 'Model plate carrier 11th Model plate support frame 13th Model plate 14th Model plate i5 Model plate 16 Model plate 17th partition wall 18th

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Claims (3)

Patent claims: 1. Pattern set-up for the production of foundry molds in molding systems with vertical or horizontal pressing direction with on a model plate carrier arranged model plates enclosing a cavity on the back, characterized in that that on a model plate carrier (1, 11) two corresponding pairs of model plates (4, 6; 5, 7) are arranged in such a way that their rear surfaces have a parallelepiped parallel to the Longitudinal axis of the model plate carrier (1,11) extending Enclose edges. 2. Pattern device according to claim 1 for vacuum forming systems, characterized in that the one enclosed by the model plates (14, 15, 16, 17) The cavity is divided into four chambers (19,20,21,22) by diagonal partitions (18) each of which only the two chambers belonging to the model plates in the mold position are in connection with suction lines (23,24). 3. Model device according to claim 1 or 2, characterized in that two or more model plate carriers (1, 11) with two pairs of model plates each as a double or multi-ring turnstile with vertical axis of rotation are summarized.