WO2001068292A1 - Transfer installation for deposing continuously transported cast metal pigs on a secondary transport organ - Google Patents

Abstract

The aim of the invention is to provide a transfer installation for deposing continuously transported cast metal pigs (12) of a strip casting machine to a secondary transport organ (15) that has a simple design and that is operated without malfunctions caused by solidified pigs that have been deposed and that chock or jam the installation, as well as with a machine wear that is reduced to a minimum. To this end, the secondary transport organ (15) is disposed in the transfer installation directly below the return strand of the casting strip in an approximately tangential relation to the lower periphery of the casting strip deflection roller (13). The secondary transport organ (15), in the area of the transfer installation and at the time of transfer of the pig from the casting strip mold (11) to the transport organ, moves in the same direction as the casting strip (10) and at a speed that corresponds to the rotational speed of the casting strip deflection roller (13). The belt wrap of the casting strip (10) around the casting strip deflection roller is more than 180 DEG , that means that in the area of the transfer installation the return strand of the casting strip moves from the lower periphery of the deflection roller upward at an angle.

Description

 Transfer station for the storage of continuously moving solidified metal cast tassels on a further transport organ

DESCRIPTION

The invention relates to a transfer station for depositing the solidified cast ingots loosened from the molds of a moving casting belt onto a further transport member, the casting belt having two chain strands running in parallel and carrying the ingot molds between them, in the deflection area of which from the upper strand to the back strand solidified pigs released from their molds are deposited on the further transport organ.

Ingots, in particular from smelting or recycled aluminum, are today mostly produced in casting machines with a continuously rotating casting belt, the two parallel chain strands of which carry the correspondingly continuously moving chilled ingot molds, which are distributed via a casting distributor, e.g. B. can be filled with the molten metal via a casting wheel provided on its periphery with casting nozzles, the peripheral speed of the casting wheel being tunable to the transport speed of the casting belt. As the molds are continuously moved through the casting machine, the heat is removed from the ingots, which solidify after a cooling section. The solidified pigs are then removed from the casting machine and thrown onto a continuously rotating transport member, which feeds the pigs to further processing stations, a stacking device, etc. In known casting machines, the transfer station for depositing the ingots solidified in the casting belt onto the further transport member is designed as follows:

In the deflection area of the casting belt from the upper run to the rear run (lower run) around the deflection wheel, the solidified ingot is first held in its respective mold by a retention mechanism during the casting belt deflection, and the ingot moves approximately in a circular path about the axis of the deflection wheel. After the ingot has run through half the circular path and has arrived at the lower periphery of the casting belt deflection wheel, the restraining mechanism releases the ingot, which can now be transferred to the further transport element such as a belt conveyor via a slide or a mechanical lifting or lowering device is thrown off, which conveys in the same direction as the casting belt. That is, the moment the solidified ingot is released from its respective mold in the lower peripheral region of the casting belt deflection wheel and the ingot falls down due to the action of gravity over a relatively large drop height, the movement of the ingot is stopped and / or it suddenly their direction of movement changes, namely from the direction of movement of the casting belt rear strand into the exactly opposite direction of movement of the upper strand of the further transport member. It is understood that the pigs in the transfer station experience considerable deceleration or acceleration, and there is a high relative movement in the area of the transfer station between the solidified pigs and the further transport member, which accelerates the pigs in one direction, as explained above. which is opposite to the direction in which the pigs were previously dropped from the caster. With such a transfer station there was therefore the risk of canting and / or Jamming of jetted stones may not be excluded with the formation of jams.

The invention has for its object to provide a simply constructed transfer station for depositing continuously moving solid cast metal ingots of a casting machine on a further transport organ, which can be operated without interference by tilting or jamming deposited solidified ingots and with minimized machine wear.

This object is achieved according to the invention with a transfer station with the features of claim 1. Advantageous embodiments of the invention are specified in the subclaims.

In the transfer station according to the invention, the further transport member is brought just below the casting belt return strand approximately tangentially to the lower periphery of the casting belt deflection wheel and it moves approximately parallel to the casting belt and in the same direction and with the same at the moment of transfer of the ingot Speed like the casting belt. This means that at the transfer station according to the invention, the casting belt, ingot and further transport member move at the same speed and in the same direction at the moment of delivery and that no ingot drop height and no relative movement between the ingot and the further transport member occurs. In the transfer station according to the invention, there is no mechanical ingot lowering device for the purpose of placing the ingot on the conveying device. Because the wrap angle of the casting belt around the casting belt deflection wheel in the transfer station according to the invention is more than 180 °, ie because the casting belt return run is initially inclined upwards from the lower periphery of the deflection wheel, it lies from the respective mold of the casting belt to the further one trans- portorgan stored without relative movement then freely, so that the individual successively deposited pigs can be removed without problems with the further transport organ.

The invention and its further features and advantages are explained in more detail with reference to the exemplary embodiment shown schematically in the drawing.

The drawing shows a side view of the transfer station according to the invention for depositing continuously moving solid cast metal ingots on a further transport member, namely arranged at the right end of a casting machine with a continuously rotating casting belt 10, which consists of two ingot molds running in parallel and between them 1 1 carrying continuously circulating chain strands. At the left end of the casting machine, not shown, the empty molds are filled with the molten metal via a casting distributor. The ingots 12 solidified in the respective mold 11 arrive at the transfer station and are held in the mold 11 by a retaining mechanism 14 in the lower outer peripheral region during the deflection of the casting belt 10 around the deflection wheel 13 until the ingots 12 become approximately the lower one Have reached the peripheral region of the deflection wheel 13, to which a continuously moving further transport member 15 is brought approximately tangentially close below.

The retention mechanism 14 guides the pig 12 to the lower periphery of the deflection wheel 13 and deposits the pig there on the further transport member 15. According to the invention, at the moment of transfer of the ingot, the casting belt 10, ingot 12 and further transport member 15 move in the same direction of movement and at the same speed, so that no relative movement occurs between the ingot 12 and the transport member 15. After Bulk deposit, the return strand of the casting belt 10 is guided diagonally upwards, the ingot 12 is now exposed on the further transport member 15 and the return strand 16 then runs back below the solidification section of the casting machine to its pouring area.

Until it is deposited on the further transport member 15, the ingots 12 are guided through their respective mold 11, only comparatively very small forces act on the machine components and ingots, and the danger of the ingots moving, jamming and / or jamming and premature machine wear are eliminated the transfer station according to the invention practically excluded.

The further transport member 15 can be a continuously moving rotating conveyor belt with the upper run and the rear run. According to a special feature of the invention, however, there is also the possibility of circulating the conveyor belt 15 in an approximately horizontal plane in a circle, in an oval, etc., which makes it possible in a simple manner that the pigs 12 deposited on the conveyor belt 15 without interference also in to transport a direction that adjoins this as an extension of the casting machine line. Instead of a rotating belt, a rotating table that can be rotated approximately in the horizontal plane, on the edge region of which the pigs 12 are deposited according to the invention, can also be used as a further transport member 15.

Claims

Transfer station for depositing continuously moving solid cast metal ingots on a further transport element EXPECTATIONS Transfer station for depositing the solidified cast iron (12) loosened from the molds (1 1) of a moving casting belt (10) onto a further transport element (15), the casting belt (10) having two parallel and between them the ingot molds (1 1) has load-bearing, continuously rotatable chain strands, in the deflection area of the upper run to the rear run, the masses loosened from their molds are deposited on the further transport element, characterized by the following features: a) in the transfer station, the further transport member (15) is arranged just below the casting belt rear strand approximately tangentially to the lower periphery of the casting belt deflection wheel (13) b) the further transport member (15) moves in the area of the transfer station at the moment of transfer of the ingot from the casting belt mold (11) to the transport member in the same direction as the casting belt (10) and at a speed that the The circumferential speed of the casting belt deflection wheel (13) corresponds c) the wrap angle of the casting belt (10) around the casting belt deflection wheel is more than 180 °, d. H. in the area of the transfer station is the casting belt return strand from the lower one Periphery of the deflection wheel led obliquely upwards. 2. Transfer station according to claim 1, characterized in that the further transport member (15) is a rotating conveyor belt with the upper strand and the rear strand. 3. Transfer station according to claim 1, characterized in that the further transport member (15) is an approximately horizontal plane circulating in the transport member (without upper run and back run). 4. Transfer station according to claim 1, characterized in that the further transport member (15) is an approximately horizontal plane rotatable turntable.