WO2013034135A1 - Installation for producing extruded components and semi-finished products - Google Patents

Abstract

Installation for producing extruded components and semi-finished products The invention relates to an installation for producing extruded components and semi-finished products made of light metal or light metal alloys, preferably from a magnesium alloy, which installation comprises a device for producing blooms, billets or slugs, and at least one installation for processing these components or semi-finished products that are to be produced. According to the invention, the installation consists of an interlinked structure of a device (1) for producing extrusion billets, a device (2) for storing the extrusion billets in which the extrusion billets are maintained at a temperature between 250°C and 580°C, and at least one extrusion press device (3), the devices (1, 2, 3) being interconnected by means of transfer devices.

Description

 Plant for the production of extruded components and semi-finished products

The invention relates to a system for producing extruded components and semi-finished products from light metal or light metal alloys, preferably from a magnesium alloys comprising a device for producing blocks, bolts or billets and at least one system for processing these components or semifinished products.

The simplest permanent mold-making process for producing billets, billets or billets for extrusion is tumble casting, which is primarily used for low melting point alloys. A usually two-part mold, the inside of which reproduces the contours of the casting is filled with melt, after a short time forms a solidification layer and the casting is removed after further cooling of the mold. Such

produced blocks, bolts or billets are then supplied for further processing to appropriate companies for use in extrusion presses. There, the blocks, bolts or billets, which may have a variety of prismatic shapes, heated to deformation temperature and in

Extrusion machines processed.

Significant disadvantages of these manufacturing processes are on the one hand in the decentralized production sites and on the other hand in a relatively low productivity. Furthermore, another disadvantage is a relatively high

Bestätigungskopiel Energy requirement for heating the blocks, bolts or billets to deformation temperature. Another possibility of producing bolts consists in continuous casting. The continuous casting process can be carried out as a batch or continuous process. In the discontinuous process Preßbolzen- also called blanks are prepared by the system in a predetermined length. At the

continuous process, the cast strand is broken after reaching a certain length, for example, by a flying saw and the continuation of the casting process. According to the mold arrangement, a distinction is made between horizontal and vertical continuous casting. When casting of Preßbolzen preferably Kokillensysteme are used. These

allow the casting of several press studs simultaneously. The molds have a primary cooling circuit, through which the strand cools outwardly rapidly. For further cooling and solidification, the strand is drawn off into a cooling tank (secondary cooling). Due to the size of the cooling pool, the length of the strand to be cast is limited. Such a system is known for example from DE 196 33 620 C2. Another possibility is the continuous casting with a plant the one

Bogenstranggießabschnitt has. Such systems are known for example from DE 41 39 242 C3, DE 10 2010 007 660 AI, EP 0804 981 Bl or WO 2006 056 423 AI. Here, the cast strand is transferred from the vertical to the horizontal. The casting plants comprise a continuous casting mold with a

downstream Bogenstranggießabschnitt and a conveyor of the casting strand to the downstream processing line, where the strand

transformed, directed and further promoted. Optionally, further processing such as reducing or rolling the cast strand join here.

During the exit of the casting strand from the Bogenstranggießabschnitt and the promotion through the processing line this is continuously cooled, preferably by spraying with cooling water. All known solutions have the disadvantage that the production of the blocks. Bolt or billet and the further processing of this takes place in extrusion plants at different production sites, whereby the blocks, bolts or billets must be reheated to deformation temperature before extrusion, creating a negative energy balance. This is where the invention starts.

The object of the invention is a system for producing extruded components made of light metal or light metal alloys, preferably from a

To provide magnesium alloy, which combines the time and space, the production of blocks, bolts or billets for the strand process and the processing of these strand processing plants to be manufactured components or semi-finished products in a plant, the waste heat from the manufacturing process for the blocks, bolts or billets is exploited to get a positive energy balance.

According to the invention, the object is achieved in that the system consists of a concatenation of a device for producing press studs, a device for supporting the press stud, in which the press studs are maintained at a temperature of 250 ° C to 580 ° C, and at least one extrusion wherein the devices are interconnected by means of transfer devices.

The device for producing press stud from a mold bearing, a Gießformtransporteinrichtung, a cooling device and a

Demoulding device exists. The transport device can be used as a circulating transport device or as a carousel with receptacles for the casting molds be educated. The transport device is provided with a separate device for cooling the mold when filling the molds with the melt, which is designed to be movable in height.

The means for cooling the mold on the transport means is positioned below the spout of the molten metal feed and may consist of a liquid bath or a nozzle ring for spraying liquid onto the mold. The cooling device on the transport device and / or the separate cooling device can be connected to at least one heat exchanging device. The heat exchanging device may be coupled with an absorption refrigeration system for controlling the temperature of the cooling media

The heat exchanging device may be connected to the bearing device and / or the tools of the extrusion molding. The storage device fulfills two tasks in the system according to the invention. On the one hand it serves as a buffer for the press studs and on the other hand it serves to keep the press studs to a corresponding processing temperature. The waste heat from the cooling device of the transport device and the separate cooling device is removed from the cooling medium via a heat exchanging device. The waste heat can be used on the one hand for keeping the press studs in the storage facility and on the other hand for preheating tools of the extrusion presses. Furthermore, part of the

Waste heat to be supplied to an absorption chiller, with the help of the cooling media for the cooling device of the transport device and the

Cooling device can be tempered. Reference to an embodiment of the invention will be described in more detail.

The associated figure 1 shows the schematic diagram of the system according to the invention. The plant for the production of extruded components and semi-finished products consists essentially of a device 1 for the production of press studs, a bearing device 2 for the press stud, in which the press studs are at a corresponding processing temperature and an extrusion 3, which are linked together by transfer devices. The device 1 for the production of press studs consists of a mold bearing 4, a transport device 6 for the molds, a metal melt supply 5, a cooling device 7 and a device 8 for demolding.

The transport device 6 is as a circulating transport device with

Shooting formed for the molds. The molds are designed as block molds with a length / diameter ratio of 3.5: 1, wherein the inner wall is slightly conical. This means that with a diameter of 250mm, the length of the compression bolt is about 800 mm. To improve the heat dissipation, the outer surface of the mold may be provided with ribs. The molds are removed from the mold bearing 4 and in the

used appropriate recordings of the transport device 6 and transported in the direction of the metal melt supply. Below the

Transport device 6 is a cooling device in the form of a

Water bath. During the casting process, the cooling device is moved in the direction of the spout of the metal melt supply 5, in such a way that the liquid level of the cooling device is always at the height of the

Melting mirror is located in the mold.

The mold initially has a large amount of cold material, to whose

Heating a considerable amount of heat is required. This amount of heat is removed during casting and after the casting of the melt by placing in the Casting wall flows off. Due to the during the filling of the mold tracking cooling device does not take place as in the conventional casting process, where the mold is cooled suddenly over the entire length, but there is virtually a disk-wise cooling of the press pin to be cast. Here, those parts of the melt, which are located in the vicinity of the mold wall, most of the heat removed and it forms a solid outer skin. After completion of the filling of the mold, the cooling device is moved down and the filled molds can be in the cooling device. 7

be transported, where a further cooling of the mold and thus of the Preßbolzens to a temperature level of about 450 ° C, this temperature level corresponds to the temperature level of the press pin of a magnesium alloy during extrusion. After the passage of the cooling device 7, the mold is passed to a device 8 for demolding. Here, the press pin is removed from the mold and stored in a storage facility 2. The casting mold is subsequently returned to the casting mold bearing 4. The storage device 2 fulfills two tasks in the system according to the invention. On the one hand it serves as a buffer for the press studs and on the other hand it serves to keep the press studs to a processing temperature of about 450 ° C. The waste heat from the cooling device of the transport path 6 and the cooling device 7 is removed via the heat exchanging device 9 the cooling medium. The waste heat can be used on the one hand for keeping the press studs in the storage device 2 and on the other hand for preheating tools. Furthermore, a portion of the waste heat of an absorption chiller can be supplied, by means of which the cooling media for the cooling device of the transport device 6 and the cooling device 7 can be tempered, wherein the

heat exchanging device 9 consists of a combination of heat exchangers and an absorption refrigeration system. Bezugszeichenausteilung

 1 - device for the production of press studs

2 - storage facility

 3 - extrusion device

 4 - Molded bearing

 5 - Metal melt supply

 6 - Casting conveyor

 7 - Cooling device

 8 - Device for demolding

 9 - Heat exchanging device

Claims

claims 1. Plant for the production of extruded components and semi-finished products Alloy or light metal alloys, preferably one Magnesium alloys by means of extrusion, characterized in that the plant consists of a linking of a device (1) for the production of Preßbolzen, a device (2) for the storage of the press pin, in which the Preßbolzen be maintained at a temperature of 250 ° C up to 580 ° C, and at least one extrusion device (3), wherein the means (1,2,3) are interconnected by means of transfer means. 2. Plant according to claim 1, characterized in that the means (1) for the production of press stud from a mold bearing (4), a Mold transport device (6), a cooling device (7) and a Demoulding device (8) consists. 3. Plant according to claim 2, characterized in that the  Casting mold (6) is provided with a separate means for cooling the molds when filling the mold with the melt, which is designed to be movable in height. 4. Plant according to claim 3, characterized in that the means for cooling the mold consists of a liquid bath. 5. Plant according to claim 3, characterized in that the means for cooling the casting mold consists of a nozzle ring for spraying liquid onto the casting mold. 6. Plant according to claim 1 and at least one of the preceding claims, characterized in that the cooling device to the transport device (6) and / or the cooling device (7) are connected to at least one heat exchanging device (9). 7. Plant according to claim 6, characterized in that the heat exchanging device (9) is coupled to an absorption refrigeration system. 8. Installation according to claim 1 and at least one of the preceding claims, characterized in that the heat exchanging device (9) with the bearing device (2) and / or the tools of the extrusion device (3) is connected. 9. Plant according to claim 1 and at least one of the preceding claims, characterized in that the transport device (6) is designed as a circulating transport device with receptacles for the molds. 10. Plant according to claim 1 and at least one of the preceding Claims, characterized in that the transport device (6) is designed as a revolving carousel with receptacles for the casting molds.