EP0197494A1 - Method and apparatus for casting molten metals - Google Patents

Abstract

A method is disclosed for an apparatus for casting molten metals from a pouring device (2), designed in particular as a pouring ladle provided with an axially movable plug (1), into casting moulds (3). After the filling of the pouring device (2), a quantity of molten metal is emptied into a pouring basin (5) of the casting mould (3) via an outflow opening (4). The apparatus for casting is here equipped with a weighing device (6). The method according to the invention is distinguished by the fact that the quantity of metal to be introduced into the pouring device is first of all determined by the weighing device; after this, the pouring device is lowered via a lifting device in the direction of the casting mould (3) situated underneath the pouring device (2) until the final cross-section of an outlet channel (8) on the pouring device (2) has set down, up to a predeterminable set-down pressure detected by the weighing device, on the set-down face provided in the pouring basin (5) of the casting mould. <IMAGE>

Description

The invention relates primarily to a method of _A bgießen of molten metal from an opening formed in particular as a ladle pouring unit (2), which is preferably provided with an axially movable stopper, in foundry molds (3), wherein after filling of the casting equipment (2) a liquid amount of metal is emptied through an outflow opening (4) into a pouring funnel (5) of the foundry mold (3).

In addition, the invention relates to a device for pouring a molten metal into a foundry mold, which has in particular an axially movable stopper for closing and opening a pouring device having a pouring opening. A weighing device is assigned to the casting device.

When pouring liquid metals from casting pans into foundry sand molds, a so-called pouring pond is usually introduced into the top of the foundry mold, which serves as a reservoir for the molten metal during the casting process. The molten metal flows through a pouring funnel, a slag run and a gate into the corresponding cavity of the foundry mold. During the casting process, care must be taken to ensure that the pouring basin is always sufficiently filled with the molten metal in order to entrain slag particles in the To avoid foundry mold cavity. These slag particles must always float at the sufficiently high melt level within the pouring pool. Since the swallowing capacity of a foundry mold is not constant over the entire time of the pouring process, a different amount of metal has to be refilled into the pouring pan from the pouring pan per unit of time during the pouring process. Since the refilling of different amounts of metal in the amount required in each case presents considerable difficulties, the pouring puddle must therefore be dimensioned so large that after the metal melt has solidified, a considerable residual portion remains in this pouring puddle. This pouring pond is therefore largely responsible for the undesirable accumulation of the so-called circulation material. A high amount of circuit material has a negative impact on production costs.

In order to reduce the high volume of circulating material in particular, various methods for mechanized and automated casting of cast iron are known. These known automated casting processes, which work to a considerable extent with casting devices with a controlled stopper spout, have the common disadvantage that the pouring basin in the casting mold surface must also be dimensioned relatively large. As a result, there is still a significant amount of recycled material. It is also difficult and in many cases impossible in this known mechanized or automated casting process to prevent splashing of molten metal or overflow of _e ingußtümpels during a protracted casting process.

It is therefore an object of the present invention to propose a method and a device for pouring a molten metal which is able to get by with an extremely small pouring puddle in the foundry mold, thereby contributing to minimizing or saving the to enable so-called circulation material. In addition, the risk of overflowing during the casting process is to be effectively reduced and the casting mold can be filled with molten metal in order to avoid entrainment of slag particles into the cavity of the casting mold.

To achieve this object, the method according to the invention provides in a first step to fill the casting device from a storage container with the precisely weighed amount of molten metal required in each case. In order to weigh the amount of liquid metal, the pouring device is operatively connected to a weighing device. After the pouring device has been filled, the pouring device, together with a provided outlet channel, is automatically moved down into the pouring funnel of the foundry mold, the outlet channel end cross-section being determined or adjusted to a placement surface provided on the pouring funnel up to a predeterminable placement pressure - again via the weighing device that is operatively connected to the pouring device - is put on. In addition to the size of the contact surfaces, the contact pressure is primarily determined by the strength of the molding material used. After the sealing connection between the pouring funnel of the foundry mold and the outlet channel of the pouring device, the outlet opening is opened and the molten metal is emptied into the cavity of the foundry mold. This method according to the invention offers the advantages that a quiet filling of the foundry mold is possible and thus the risk of entraining slag particles into the foundry mold cavity is effectively reduced. An overflow of the molten metal and thus the risk of splashing overflow iron is excluded. In addition, a considerable saving of _K is tear running material made possible because of the sprue must be extremely sized low. In addition, all the requirements for a fully automated workflow are also met, so that the invention as a whole ensures an extremely efficient production process.

With regard to advantageous embodiments of the method according to the invention, reference is made to claims 2 to 8, which are explained in more detail in the context of the drawing description.

A generic device according to the invention is characterized in that the casting device has an outlet channel and is connected to the weighing device via a translationally movable lifting device. This device according to the invention enables the advantages presented in connection with the method features according to the invention in a completely analogous manner. The lifting device is to be connected in a suitable manner to the pouring device and the weighing device, with a carrying rod being particularly suitable. The lifting device is preferably designed as a hydraulically operating piston / cylinder unit. But there are also all other known lifting devices that allow a sufficient upward and downward movement of the _V ergieBeinrichtung possible. The lifting device is assigned a control unit which is connected to the weighing device in such a manner in control technical aspects in connection, that the casting equipment or to an _A uslaufkanal fixed predetermined contact pressure is placed on the pouring funnel or the foundry mold surface. When this fixed, predetermined contact pressure is reached, the downward movement of the lifting device is ended by the control unit. Further advantageous embodiments of the device according to the invention are specified in claims 12 and 13. A foundry mold, which can preferably be used in the method according to the invention and also in the device according to the invention, is characterized in more detail in patent claims 13 and 14.

• Fig. l in einer schematischen Schnittdarstellung ein Ausführungsbeispiel der Vergießeinrichtung in der Füllstellung;
• Fig. 2 die Vergießeinrichtung nach Fig. 1 in der Gießstel lung;
• Fig. 3 ausschnittsweise in einer schematischen Schnittdar stellung eine mit Standelementen versehene Vergieß einrichtung in der Gießstellung.

Structure and functional properties of the invention and their advantages will now be described in more detail with reference to the accompanying schematic drawings of an embodiment. In the drawings, only the elements of the potting device necessary for a direct understanding of the invention are shown. Show it:

• Fig. L shows a schematic sectional view of an embodiment of the potting device in the filling position;
• Fig. 2, the potting device of Figure 1 in the Gießstel development.
• Fig. 3 shows a detail in a schematic sectional view of a casting device provided with stand elements in the casting position.

In the drawings, parts that have the same effect are generally provided with the same reference numbers. 1 shows the pouring device 2 provided with an axially movable stopper 1 in its filling position, in which the stopper 1 closes the outflow opening 4 of the pouring device 2. Not shown in more detail, the plug 1 closing the outflow opening 4 via a have named automatic dosing system, so that when the pouring device 2 is emptied, the pouring speed can be controlled via the opening cross section of the pouring opening 4 and also the stopper opening time. A storage container 7 is arranged above the casting device 2, from which the molten metal is poured into the casting device 2. The storage container 7 can be a separate vessel, which in turn is fed with the molten metal from a holding furnace. However, it is also possible to fill the casting device with the molten metal directly from a holding furnace. In the filling position shown in FIG. 1, the pouring device is located above the foundry mold 3 at a distance from it. The foundry mold is provided with a pouring funnel 5 which, as can already be seen from the schematic drawing according to FIG. 1, is essentially adapted in its outer contour to the dimensions of the outlet channel 8 provided on the casting device 2 with its contact surface 10. A contact surface 10 for the outlet channel end cross-section 9 is formed within the pouring funnel 5.

The casting device 2 is loosely suspended in a linkage or a holder 16. A lifting device 14 is attached to this linkage 16, which in turn is attached to a weighing device 6. The lifting device 14 is displaceable in two axes in order to meet changing positions of the pouring funnel 5 of the foundry mold 3. Also not shown in detail in detail, the potting device is laterally z. B. at the end of the pouring or in the event of any malfunctions in the pouring section.

Fig. 2 shows essentially the same structure of the pouring device according to Fig. 1, but here the pouring device 2 is moved by means of the lifting device 14 in the direction of the foundry mold 3 so far that the outlet channel end cross-section 9 of the outlet channel 8 onto the contact surface provided in the pouring funnel 5 10 is brought into the system. The for set-up, which has been determined depending on the molding material of the mold 3 used previously, has been determined here by means of the weighing device 6, wherein a is provided on the weighing device 6, means not shown, upon reaching the predetermined _A ufsetzdrucks the downward movement of the lifting device is automatically terminated 14 .

In Fig. 3, the pouring position of the device is illustrated in an enlarged view, but only the pouring device and sections of the casting mold 3 are shown here for better clarity. In addition, the casting device 2 here also has standing elements 12 which, in the casting position, rest on the surface 13 of the casting mold 3 in specially molded niches 15. These stand elements are mounted around the outlet channel 8 so that the potting device can stand securely on them. The stand elements are dimensioned so that upon lowering of the casting equipment simultaneously with the Auslaufka _- nalendquerschnitt 9 impinge on the top of the mold 3 and the provided therein slots 5 and bring the pouring unit 2 and the casting mold 3 in a same plane. In addition, the embodiment shown in Figure 3 is that in Fig. Well and the _A ufsetzfläche 10 a refractory sealing element 11 is arranged between the still Auslaufkanalendquerschnitt. 9 Ig as especially from the view according to _F. 3 is the The pouring funnel 5 of the foundry mold 3 is dimensioned extremely small, so that considerable amounts of circulating material can be saved in the procedure according to the invention or in the device according to the invention.

The procedure according to the invention is as follows: Before the start of pouring, the pouring device 2 is filled with the molten metal from a storage container 7 or directly from a holding furnace in the manner shown in FIG. 1, the mechanically actuated stopper 1 closing the outflow opening 4. Here, the weighing device 6 controls the amount of molten metal filled into the casting device from the storage container 7. After the pouring device 2 has been filled with the quantity set for the respective application, the weighing device is automatically tared to +0 kg. The lifting device 14 is put into operation and the pouring device is lowered until the outlet cross-section 9 rests on the contact surface 10 of the pouring funnel 5. A suitable adjustment ensures that the central axes of the outlet channel 8 and the sprue 5 are aligned. The contact pressure of the outlet channel on the contact surface 10 of the pouring funnel 5 is transmitted to the weighing device. This touchdown pressure can be adjusted as required using a suitable device. When the set contact pressure is reached, the lowering movement of the lifting device 14 is stopped and the stopper 1 is moved upward, so that the molten metal can flow into the cavity of the foundry mold. Here, the stopper opening time or the stopper stroke can be regulated in a known manner. After the predetermined opening time has elapsed, the stopper 1 closes the outlet opening 4 and the pouring device 2 moves upwards into its starting position.

It should be pointed out that the pouring device can also be refilled from the storage container continuously, that is to say also during the pouring process, or in batches. The determination of the amount of liquid metal to be refilled can be carried out by known methods such as weighing, probe control and volume measurement.

Claims (15)

1.Method for pouring molten metal out of a pouring device (2), which is designed in particular as a ladle and which is preferably provided with an axially movable plug, in foundry molds (3), a liquid amount of metal being poured through an outflow opening (4 ) is emptied into a pouring funnel (5) of the foundry mold (3), characterized by the following process steps: a) filling the pouring device (2) with a liquid amount of metal from a storage container (7), the amount of the metal to be poured in can be determined by means of a weighing device (6) which is operatively connected to the pouring device (2); b) retracting an outlet channel (8) seen on the casting device (2) into the pouring funnel (5) of the foundry mold (3); c) placing the outlet channel end cross-section (9) on a sprue (5) provided Aufsetzflä surface (10) up to a predetermined by means of the weighing device (6) contact pressure; d) opening the outlet channel (8) and pouring a liquid amount of metal into the foundry mold (3). 2. The method according to claim 1, characterized in that the weighing device is tared kg to +0 (6) before the retraction of the _A uslaufkanals (8). 3. The method according to claim 1 and 2, characterized in that the casting device is held during the filling process above the foundry mold (3) with an _A -stand and that the entry of the outlet channel (8) into the pouring funnel (5) of the foundry mold ( 3) by a vertical lifting movement of the casting device (2). 4. The method according to any one of claims 1 to 3, characterized in that before the entry of the outlet channel (8) of the pouring device (2) into the pouring funnel (5) of the foundry mold (3) on the mounting surface (10) of the pouring funnel (5) a fireproof sealing element (11) is placed. 5. The method according to any one of the preceding claims, characterized in that the contact pressure which can be predetermined by means of the weighing device (6) can be changed. 6. The method according to any one of the preceding claims, characterized in that _ß with placing the Auslaufkanalendquerschnitts (9) provided for in the sprue (5) contact surface (10) simultaneously to the pouring unit (2) provided in stand elements (12) on the foundry ereiformoberfläche (13) are brought into the system. 7. The method according to any one of the preceding claims with a casting device (2) provided with an axially movable plug,
characterized in that the stopper opening time can be regulated via an actuating device. 8. The method according to any one of claims 1 to 6 with a potting device (2) provided with an axially movable stopper (1),
characterized in that the cross-sectional area of the outflow opening (4) of the pouring device (2) can be changed by means of the plug (1) which can be moved by a controllable actuating device. 9. Device for pouring a molten metal into a foundry mold (3) with, in particular, an axially movable stopper for closing and opening the pouring device (2) which has an outflow opening (4) and which is associated with a weighing device (6),
characterized in that the casting device (2) has an outlet channel (8) and is connected to the weighing device (6) by means of a translationally movable lifting device (14). 10. The device according to claim 9, characterized in that the lifting device (14) has a hydraulically operating piston / cylinder unit. 11. Device according to one of claims 9 or 10, characterized in that the lifting device (14) is assigned a control unit which actuates the lifting device (14) as a function of a measurement result of the weighing device (6). 12. Device according to one of claims 9 to 11, characterized in that on the bottom surface of the casting device (2) stand elements (12) are arranged for placement on a foundry mold surface (13). 13. Device according to one of claims 9 to 12, characterized in that the outlet channel (8) is substantially hollow cylindrical. 14. Foundry mold (3) with a pouring funnel (5) for filling a molten metal by means of a device according to one of claims 9 to 13,
characterized in that the sprue (5) substantially at the outer dimensions of _A usgußkanals (8) of the pouring unit (2) is adapted as well as having a contact surface (10) for the Ausgußkanalendquerschnitt (9) of the casting equipment (2). 15. Foundry mold according to claim 14, characterized in that in the foundry mold surface (13) recesses (15) for placing stand elements (12) of the casting device (2) are formed.

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