EP1166919A1 - Casting machine - Google Patents

Abstract

Casting machine has a casting chamber (4), in which liquid metal is poured into a mold (12) via a drain (8). Several molds are arranged in the casting chamber on planar bearing surfaces (11) of a casting wheel rotating about a horizontal axis. The casting wheel forms a polygon having a regular cross-section whose casing surface is formed by the bearing surfaces. Preferred Features: The casting chamber is a vacuum chamber connected to a melting furnace (1) via a sluice valve (6), and the drain is connected to a jet (7) traveling from the casting chamber through the valve into the furnace. A cast part collecting container (13) is arranged on wheels (15) below the casting wheel.

Description

The invention relates to a casting machine for casting Metal, which has a closed casting chamber in which over a spout of liquid metal into a below the Spout arranged mold is pourable, being in the Casting chamber of several molds on flat surfaces a casting wheel rotatable about a horizontal axis are arranged.

Such a casting machine is e.g. B. from DE 30 32 064 C2 known. This shows a device for feeding Mold bales (chill molds) into a ladle. The shape bales stand on contact surfaces of pallet carriers in one Paternoster or rotatable on a central axis held conveyor are arranged, being in the latter If the supporting axes of the pallet carriers are synchronized turn towards the central axis so that the pallet carriers and so that the contact surfaces for the shaped bales are always horizontal are aligned. The casting machine needs one Combined insertion and extension station (E1 / A1) for the shape bales. In this station the filled Mold bales are first removed from the casting wheel before new, still to be filled bales of shape on the contact surfaces can be postponed. This takes a long time, so that high bite rates cannot be achieved.

Such casting machines are used, for example, for the casting of thin castings made of alloys under protective gas or vacuum used by rare earth iron. This Castings are used in particular for the production of High performance magnets or storage tanks for hydrogen. It comes down to this with the casting machines of this type that the melt in the respective mold very much solidifies quickly to obtain a crystalline structure. That is why the melt is made from a vacuum induction furnace passed into the casting machine via a trough and there poured into a flat mold, which is placed on a water-cooled Support surface is attached. After freezing it will be a thin plate of 10 to 25, for example mm thick casting from the mold into a Casting container tilted.

Since the need for alloys, which are with such casting machines be poured off, has risen sharply lately there is a need for production output to increase the casting machines. You already have this so-called book molds used in casting machines. in this connection it is a combination mold made of several, water-cooled Plates. The disadvantage here is that the Disassembly and assembly of such carriage molds is very time consuming.

A general disadvantage of arranging several molds next to each other lies in the fact that this takes up space undesirably increased for the casting machine and the casting machine becomes complicated in construction.

The invention is based on the problem of a casting machine to develop the above type, which a pouring performance as high as possible without this Required area of the casting machine increases undesirably, and which allows the melt to solidify rapidly.

This problem is solved according to the invention in that the casting wheel, which forms a regular polygon in cross section, whose outer surface is formed by the contact surfaces is.

With such a casting wheel, several molds can be narrow Space to be accommodated, since only the one at a time horizontal upper mold located under the spout must be aligned. Cycles the casting wheel around a mold next, so the next mold below reaches the pouring spout, then the previously filled mold is placed in an inclined position in which the solidified cast can cool further before the casting at next following turn comes into such a steep position that the casting falls out of the mold. By cooling the casting in the mold therefore not the casting of the next casting delayed. Since the casting wheel has flat contact surfaces, can you provide them with water cooling, for example, so that the individual molds in a simple way are easy to cool and the required for some metals rapid solidification without undesirably high effort to achieve. The individual molds can be used one after the other fill by the casting wheel while pouring the top mold is stationary and after filling the top mold quickly clocked so that the next mold gets under the pouring stream. On Another advantage of the casting wheel is that with it individual molds exchanged independently of the others can be made so that repairs can be carried out quickly are.

The melt can be removed from the furnace under vacuum or Simply introduce protective gas into the casting machine, if according to a development of the invention Casting chamber one to a melting furnace via a lock valve connectable vacuum chamber and the spout on one from the casting chamber through the lock valve into the Retractable casting trough is provided.

The poured and removed from the mold Castings can initially be collected and periodically by the casting machine are discharged if below the Casting wheel on the side to which the molds are attached Move the turning wheel from the top, a cast part collection container is arranged.

As long as the castings have a temperature at which there must be reactions with the atmosphere Castings remain under protective gas or in a vacuum. The can be easily achieved if the Casting storage container on top of one on lock valve provided for it releasably with the casting chamber is designed to be connectable. Such an embodiment allows multiple cast part collection containers to be closed use so that the casting machine with one connected to it Casting canister can work while in another cast part collection container Cool down castings even further or castings out of them be removed.

The cast parts can be used with the cast part collection container easily move to a discharge position when the Casting container on wheels away from the casting chamber is designed to be movable.

The maintenance and repair of the casting machine is special easy to do if the casting chamber is from an upper, stationary part of the casting chamber with a trough chamber and a lower, movable casting chamber part with the casting wheel is formed. This makes it possible Casting wheel into one of the casting machine and the melting furnace move away from the maintenance position and within it the areas of the casting wheel easy to reach.

The movable casting chamber part needs before separating not lowered from the stationary casting chamber part horizontal movement is sufficient of the movable casting chamber part, if according to another Development of the invention of the stationary part of the casting chamber and the movable part of the casting chamber driven state with in the direction of travel of the movable Casting chamber part rising from bottom to top contact surfaces rest against each other.

The casting wheel can while the melt jet is flowing clocked from the spout after filling a mold be seen when viewed in the direction of rotation of the casting wheel a casting guide piece between the respective molds is used, which one between the molds depending on the position of the casting wheel leads one or another adjacent mold.

Fig.1

eine Vorderansicht einer Gießanlage mit einem Schmelzofen und der erfindungsgemäßen Gießmaschine,

Fig.2

eine Seitenansicht der Anordnung nach Fig.1,

Fig.3

einen Schnitt durch einen Teilbereich eines Gießrades der Gießmaschine.

The invention permits numerous embodiments. To further clarify its basic principle, one of these is shown in the drawing and is described below. They show in her

Fig.1

2 shows a front view of a casting installation with a melting furnace and the casting machine according to the invention,

Fig.2

2 shows a side view of the arrangement according to FIG. 1,

Figure 3

a section through a portion of a casting wheel of the casting machine.

FIG. 1 shows a vacuum induction furnace VIDP type trained furnace 1, which is a crucible 2 in which metal has melted by induction becomes. There is one on the side of the melting furnace 1 Casting machine 3 with a double-walled, water-cooled and closed casting chamber 4, which has a trough chamber 5 and a lock valve 6 with the melting furnace 1 connected is. Inside the trough chamber 5 is one Gutter 7 arranged which with one end through the Lock valve 6 protrudes into the melting furnace 1 and has a spout 8 at the other end. In addition, the Runner 7 shown in dashed lines in the operating position, in which they are within the trough chamber 5, however is located outside of the melting furnace 1.

Below the spout 8 is in the casting machine 3 Casting wheel 9 arranged, which by a rotary drive 10th can be rotated gradually about an axis 16. This Casting wheel 9 has octagonal in the example shown Cross-section and therefore forms eight flat contact surfaces 11, on each of which a mold 12 shown in FIG. 3 is held.

Below the casting wheel 9 is a cast part collecting container 13 arranged, a lock valve on its top 14, via which it can be connected to the casting chamber 4 is. The cast part collecting container 13 has wheels 15, which make it possible to remove the casting container 13 from to move the casting chamber 4 away into a removal position.

Figure 2 illustrates that the casting wheel 9 in cross section has the shape of a regular octagon, so that it has a total of eight contact surfaces 11. Farther Figure 2 shows that the casting chamber 4 from an upper, stationary casting chamber part 17 and a movable Casting chamber part 18 is formed. These casting chamber parts 17, 18 touch sealingly with contact surfaces 19, 20 which are aligned obliquely. The movable part of the casting chamber 18 has wheels 21 and can thus be seen in FIG. 2 are driven to the right into a maintenance position, in which the casting wheel 9 is freely accessible.

FIG. 3 shows a partial area on a greatly enlarged scale of the casting wheel 9 rotatable about the axis 16 there was the contact surface 11. This contact surface 11 is formed by grooves open at the top Cooling channels 22 interrupted, in which cooling water can flow. The respective mold 12 covers this Cooling channels 22 towards the top, the seal by means of seals 23 arranged in the contact surface 11 he follows. The space between the individual molds 12, 12 ' is filled by a cast guide piece 24, which has a liquid sheath 25 so that when turning of the casting wheel 9 about the axis 16 of the melt jet initially still to the mold 12 and after passing through the liquid sheath 25 passed to the next mold 12 ' becomes.

The spout 8 was shown in FIG. 3 above the mold 12 outlined. While casting flows from it into the mold 12, the casting wheel 9 stands still in the position shown. If the mold 12 is filled, then the casting wheel 9 is clocked as quickly as possible and in this embodiment by 45 ° continue without the spout 8 being blocked for this purpose. As a result of this further clocking, the mold 12 'comes under the spout 8 and can be filled while the mold 12 is in a 45 ° inclined position located. The mold gets on the next cycle 12 in a vertical position so that it froze in it Casting out of it down into the in the Figures 1 and 2 shown casting container 13th falls.

When the crucible 2 shown in Figure 1 is completely emptied , the trough 7 is moved into that in FIG. 1 Insert position shown in dashed lines and separates by means of the lock valve 6 the melting furnace 1 from the Casting machine 3, so that a new melting process in the melting furnace can start.

LIST OF REFERENCE NUMBERS

1

furnace

2

crucible

3

casting machine

4

casting chamber

5

Gießrinnenkammer

6

lock valve

7

launder

8th

spout

9

casting wheel

10

rotary drive

11

bearing surface

12

mold

13

Casting Clippings

14

lock valve

15

wheel

16

axis

17

stationary casting chamber part

18

movable casting chamber part

19

contact surface

20

contact surface

21

wheel

22

cooling channel

23

poetry

24

Gussleitstück

25

fluid separation

Claims (8)

Casting machine for casting metal, which has a closed casting chamber (4), in which liquid metal can be poured via a spout (8) into a mold (12) arranged below the spout (8), with several molds in the casting chamber (4) (12) are arranged on flat support surfaces (11) of a casting wheel (9) which can be rotated about a horizontal axis (16), characterized in that the casting wheel (9) forms a polygon of regular cross-section, the lateral surface of which is formed by the support surfaces (11) is. Casting machine according to claim 1, characterized in that the casting chamber (4) is a vacuum chamber which can be connected to a melting furnace (1) via a lock valve (6) and the spout (8) is connected to one from the casting chamber (4) through the lock valve (6) in the melting furnace (1) retractable casting trough (7) is provided. Casting machine according to claims 1 or 2, characterized in that below the casting wheel (9) on the side towards which the molds (12) move when the casting wheel (9) rotates from its upper side, a cast part collecting container (13 ) is arranged. Casting machine according to claim 3, characterized in that the cast part collecting container (13) is designed to be releasably connectable to the casting chamber (4) on its upper side via a lock valve (14) provided on it. Casting machine according to claim 4, characterized in that the cast part collecting container (13) is designed to be movable on wheels (15) away from the casting chamber (4). Casting machine according to at least one of the preceding claims, characterized in that the casting chamber (4) is formed from an upper, stationary casting chamber part (17) with a casting channel chamber (5) and a lower, movable casting chamber part (18) with the casting wheel (9). Casting machine according to claim 6, characterized in that the stationary casting chamber part (17) and the movable casting chamber part (18) bear against one another in the state in which they are moved against one another with contact surfaces (19, 20) rising from bottom to top in the direction of travel of the movable casting chamber part (18). Casting machine according to at least one of the preceding claims, characterized in that, seen in the direction of rotation of the casting wheel (9), a cast guide piece (24) is inserted between the respective molds (12, 12 ') and one between the molds (12, 12') depending on the position of the casting wheel (9), the impinging casting is guided to one or the other adjacent mold (12, 12 ').

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