EP0026371A1 - Apparatus for suspension and vertical guiding of floats in the vertical continuous casting of non-ferrous metals - Google Patents

Abstract

1. In the vertical continuous casting of non-ferrous metals, a device to suspend and guide vertically a float (6) arranged at the outlet of a downspout tube (3) to control the metal level and distribute the metal in the mould (5), said device comprising on the one hand a vertical guide sleeve (2) surrounding the downspout tube (3) and ending downwards above the highest possible metal level and on the other hand a suspending element (7) attached floating to the guide sleeve (2) and being able to be coupled with the float (6), whereby the lowering of said suspending element (7) is limited by a stop dog (4) fastened to the guide sleeve (2).

Description

The invention relates to a device for the suspension and vertical guidance of floats in the vertical continuous casting of non-ferrous metals, in particular in the multiple continuous casting of round bars made of aluminum or aluminum alloys.

The floats seated on the liquid pouring head at the outlet opening of the metal feed nozzle serve in the vertical continuous casting of non-ferrous metals the purpose of automatically regulating the inflow of the liquid metal introduced via the metal feed nozzle from the distributor trough into the casting head and thus adjusting a constant metal level in the mold. At the same time, they also ensure that the liquid metal flowing into the casting head is evenly distributed over the bar cross-section.

To determine its height at the start and end of the casting process, the float must be suspended at a certain height. It must also be guided so that it can move smoothly in the vertical direction so that it can fulfill its task, namely the fine regulation of the metal inflow at the outlet opening of the metal feed nozzle.

As is known (German patent application No. M 157530), arms are attached to the float to hang it by means of which it rests on the edge of the mold at the start and end of the casting. The arms also serve as handles for inserting and removing the float before and after watering.

No special devices are provided as a vertical guide; rather, the float, as is known (Modern Metals, Chicago, July 1970, pp. 30-39), is guided on its cylindrical cavity along the metal feed nozzle protruding into the casting head.

Although these known types of suspension and vertical guidance of the float are simple, they have considerable disadvantages.

The light and relatively long suspension arms are deformed over time, which leads to a shift in the center of gravity of the float and thus to the swimmer's inclined position. However, a non-horizontally seated float cannot evenly distribute the liquid metal over the bar cross-section, which in turn leads to a reduction in the casting quality.

Another disadvantage of suspending the float on the edge of the mold is that the float can freeze in the casting head at the end of the pouring process and thus get lost if the operating personnel do not lift it out of the still liquid pouring head in time, which is common with today's large number of castings Round bars is a difficult task.

With the known known type of vertical guidance of the float, it inevitably comes into contact with the metal feed nozzle at its hollow, and under the unfavorable sliding conditions in the liquid metal, it can then tilt or get stuck on the metal feed nozzle, despite the usual considerable play provided between them (5-10 mm). There is also a risk of the two parts freezing together, particularly when cast on, in which the heat removal is fed by the relatively small one most amount of metal is very strong. The simultaneous casting of a large number of round bars is a very problematic process today, precisely because of the difficulties in guiding the float, even if the number of operating personnel is increased considerably in order to enable rapid manual intervention. In spite of the stronger casting team, the disturbances mentioned - especially in the sprue - cannot always be avoided, so that individual molds often have to be stopped, which affects the output of the casting installation.

A device has also become known (Hermann, E .: Handbuch des Stranggießens, Aluminum-Verlag Düsseldorf, 1958, p. 496, pictures 1603 to 1605), in which the float is detachably attached to a template of the distribution channel via two hanging rods on one side Rocker arm with counterweight hangs and is guided vertically by the pivoting movement of the rocker arm. Although this device does not have the disadvantages of the known solutions mentioned, it is very complex, unwieldy and, because of its large space requirement, completely unsuitable for the multiple strand casting of round bars, since the molds are arranged as close as possible to one another.

The object of the invention is to provide a device for suspending and guiding a float vertically, with a simple structure, which does not have the aforementioned shortcomings of the known solutions and therefore enables a simultaneous casting of a large number of round bars without interference, while at the same time providing good casting quality to have to intervene manually.

The solution to this problem according to the invention is characterized in that the device surrounds the metal feed nozzle downwards above the highest possible me Tallstandes ending vertical guide sleeve and a, along the guide sleeve movably attached, can be coupled to the float suspension member, the movement of the suspension member is limited by a stop arranged on the guide sleeve.

According to the invention, the suspension member can be designed as a rigid angle, one leg of which is tilted in a recess formed in the float by the spring force of a compression spring attached to the other leg of the suspension member and supported on the float.

In a further embodiment of the invention, magnets can be attached to the suspension member, which magnetically adhere to the float made of magnetizable material or having magnetizable receiving elements.

• Fig. 1 einen Vertikalschnitt der Gießeinrichtung mit dem an einem winkelförmigen Aufhängeglied gekoppelten Schwimmer,
• Fig. 2 eine Draufsicht des Schwimmers mit einem gekoppelten, winkelförmigen Aufhängeglied,
• Fig. 3 einen Vertikalschnitt des Schwimmers mit einem gekoppelten, Magnete aufweisenden Aufhängeglied und
• Fig. 4 eine Draufsicht des Schwimmers mit einem gekoppelten, Magnete aufweisenden Aufhängeglied.

The invention is explained on the basis of the exemplary embodiments depicted in the figures, and specifically shows

• 1 is a vertical section of the casting device with the float coupled to an angular suspension member,
• 2 is a top view of the float with a coupled angular hanger,
• Fig. 3 is a vertical section of the float with a coupled, magnet-containing link and
• Fig. 4 is a plan view of the float with a coupled, magnet-containing link.

A guide sleeve 2 made of steel or cast iron is welded to the bottom of a distribution channel 1. At its upper part, the bore of the guide sleeve 2 is flared so that it can receive the metal feed nozzle 3, which has a conical head and is preferably made of a refractory insulating material.

On the guide sleeve 2, a suspension member 7, which is bent from a sheet metal strip into an angular shape and has a cylindrical bore 7c, is pushed over this bore 7c and secured against falling down by a locking ring 4. The suitable play (1-2 mm) present between the guide sleeve 2 and the bore 7c enables a smooth vertical movement of the suspension member 7 along the guide sleeve 2 without the risk of any tilting. The length of the guide sleeve 2 is chosen so that it and thus the entire guideway is above the highest possible metal level.

A gap-shaped recess 6a is formed in the float 6, which is preferably made of a refractory insulating material. To couple the float 6 to the suspension member 7, the vertical leg 7a of the suspension member 7 is inserted into the recess 6a while simultaneously compressing the compression spring 8 attached to the other, horizontal leg 7b of the suspension member 7. Due to the spring force of the compression spring 8 supported on the float 6, the vertical leg 7a is tilted in the recess 6a, and thus the float 6 forms a firmly connected unit with the suspension member 7. If there is no liquid metal, the float 6 hangs over the suspension member 7 in the lower end position, and the tilting effect is further increased by the weight of the float 6.

The asymmetrical suspension member 7 is designed so that its center of gravity lies exactly in the plane of symmetry of the float 6, whereby an inclined position of the float 6 is avoided. Because of the precise and concentric guidance of the Float 6 above the highest possible metal level and due to the sufficient distance between the cavity 6b in the float 6 and the metal feed sleeve 3, contact between the two parts is excluded. This ensures that the float 6 can be easily moved at any time.

The magnet 10 on its underside, symmetrical suspension member 9 is formed from a non-magnetizable sheet metal strip. It also has a cylindrical bore 9a for attachment to the guide sleeve 2. For positioning when coupling with a float 6 made of magnetizable material, the float has shallow recesses 6c at the connection points which receive the magnets 10 and thus the suspension member 9. In the event that the float 6 is made of non-magnetizable material, for example of a refractory insulating material, magnetizable receiving elements 11 are attached to it. The coupling is done by magnetic adhesion.

• Die Schwimmer werden abseits der Gießanlage mit je einem, seinerseits an einer Führungshülse hängenden Aufhängeglied gekoppelt. Danach wird die Verteilerrinne mit den nun an ihr hängenden Schwimmern mittels Kran auf den Kokillentisch gesetzt, und es wird mit dem Gießen begonnen. Durch die präzise und glatte Führung regeln die Schwimmer sowohl beim Anguß als auch während des Gießvorganges störungsfrei. Ein manuelles Eingreifen ist nicht erforderlich. Nach Beendigung des Gießens wird die Verteilerrinne mit den Schwimmern wiederum mittels Kran rechtzeitig hochgehoben, damit die Schwimmer im erstarrenden Gießkopf nicht einfrieren können. Sodann wird die Verteilerrinne abtransportiert, und die Schwimmer -werden von den Aufhängegliedern abgekoppelt.

When using the device according to the invention, the casting process proceeds as follows:

• The floats are coupled apart from the casting system with one suspension link, which is in turn suspended from a guide sleeve. Then the distribution channel with the floats now attached to it is placed on the mold table by means of a crane, and pouring begins. Due to the precise and smooth guidance, the floats regulate both during the sprue and during the casting process. Manual intervention is not necessary. After the pouring has been completed, the distribution channel with the floats is again lifted in time by crane so that the floats in the solidifying pouring head cannot freeze. The distribution channel is then removed and the floats are uncoupled from the suspension links.

Since the device according to the invention completely eliminates the sources of interference of the conventional devices, the number of bars cast simultaneously and thus the performance of the casting installation can now be increased practically indefinitely. With a simultaneous improvement in the ingot quality, a better output is achieved and the automation of the casting process is made considerably easier. The personnel-intensive process of multi-strand casting of round bars, including casting, can now be performed by a single operator. Last but not least, the proposed device enables the use of cheap, cast or pressed disposable floats, which in turn do not need to have any suspension and guide elements. With the use of disposable floats, the costly cleaning and repairing of the floats is eliminated, and new and thus flawless floats are available for each casting.

Publications considered:

German patent application No.M 157530 Modern Metals, Chicago, July 1970, pp. 30-39 Hermann, E .: Handbuch der Stranggießens, Aluminum-Verlag Düsseldorf, 1958, p. 496, pictures 1603 to 1605

Claims (3)

1. Device for suspending and vertically guiding a float arranged as a metal level controller and metal distributor at the outlet opening of a metal feed nozzle during vertical continuous casting of nonferrous metals, characterized in that the device surrounds a vertical guide sleeve surrounding the metal feed nozzle (3) and ending above the highest possible metal level ( 2) and a along the guide sleeve (2) movably attached, with the float (6) couplable suspension member (7) or (9), the movement of the suspension member (7) or (9) downwards by one on the Guide sleeve (2) arranged stop (4) is limited. 2. Apparatus according to claim 1, characterized in that the suspension member (7) is designed as a rigid angle, one leg (7a) in a float (6) formed recess (6a) by the spring force of the other leg (7b ) of the master link (7) attached and tilted on the float (6) supporting compression spring (8). 3. Apparatus according to claim 1, characterized in that on the suspension member (9) magnets (10) are attached which receive the float (6) made of magnetizable material or magnetizable receiving elements (11) having magnetic adhesion.

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