EP0195008A1

EP0195008A1 - Mold element for caterpillar type mold

Info

Publication number: EP0195008A1
Application number: EP85902431A
Authority: EP
Inventors: Urs BÄNNINGER
Original assignee: Lauener Engineering AG; Alusuisse Holdings AG
Current assignee: LAUENER ENGINEERING AG
Priority date: 1984-06-15
Filing date: 1985-05-31
Publication date: 1986-09-24
Also published as: AU4356685A; CA1229716A; US4617980A; WO1986000034A1; DE3422654C1; NO860556L; JP2559365B2; JPS61502386A; ZA854336B

Abstract

Dans un moule sous forme de bande continue pour une machine a couler, pour la coulée en continu de métal avec une plaque (5) sur la surface de travail (6) de l'élément de moule, cette plaque est biseautée en au moins un de ses bords longitudinaux (7) tournés vers la surface de travail. Par ce moyen, au moment de l'utilisation de la machine à couler, les éléments de moule sont protégés contre les déformations occasionnées par les changements de température.In a mold in the form of a continuous strip for a casting machine, for the continuous casting of metal with a plate (5) on the working surface (6) of the mold element, this plate is bevelled in at least one from its longitudinal edges (7) facing the work surface. By this means, when using the casting machine, the mold elements are protected against deformation caused by temperature changes.

Description

Mold member of a caterpillar mold

The invention relates to a mold member of a caterpillar mold for a casting machine for the continuous casting of metal with a plate having the actual mold work surface.

Such casting machines are used to an increasing extent today in the continuous casting of strips made of aluminum and steel, but can also be used for other metals. The liquid metal is fed via a trough into an intermediate container (tundish) and from this is fed through a nozzle into a casting gap formed by two caterpillar molds. These caterpillars consist, in simplified terms, of an upper run or lower run, on each of which a large number of block-like mold members are arranged. In the actual area of the casting gap, these mold members lie close together, while they diverge in the curve areas. Outside of the casting gap, devices for cooling the mold work surface in particular are also provided. This reaches a temperature of approx. 400 ^β C in the casting gap and is cooled down to about 80 - 100 ° C before it enters the casting gap again. It is easy to understand that such temperature fluctuations in short intervals mean a very high thermal load on the mold work surface or the plate having it. It is subject to thermal deformation in any direction. A curvature of the plate has hitherto been counteracted, for example, by placing it on a clamping device which supports in particular the areas of the plate which are particularly stressed. However, the plate also expands in the casting gap when it warms up to about 400 ° C., so that two plates that are there inevitably interact with one another from the start with increasing pressure in order to maintain a faultless surface of the cast strip. The consequence of this is that the mold work surfaces give way at their meeting longitudinal edges and these are pressed out in a jag-like manner into the casting gap. This deformation is then transferred to the surface of the cast strip and affects its quality.

The inventor has set himself the goal of creating a mold member of the type mentioned at the outset, in which the mold work surface does not deform and corresponding defects in the surface of the cast strip are avoided.

To solve this problem, a mold member of the type mentioned leads, in which the plate is chamfered on at least one of its longitudinal edges towards the mold work surface.

This simple measure of chamfering or chamfering means that when the mold worktop, which is usually made of copper, is expanded, it can give way at its edges without any protrusions that are transferred to the cast strip produced. The chamfer preferably has a depth of about 5/100 mm.

Further advantages and details of the invention result from the following description of a preferred exemplary embodiment shown in the drawing. They show schematically:

1 shows an illustration of a section of a side view of a crawler belt;

2 shows a perspective illustration of a mold member.

A casting machine for the continuous casting of metal, which is not shown for the sake of clarity, has a caterpillar mold with two opposing bands 1, one of which is shown in detail in FIG. 1 with mold members 2 arranged thereon.

Such a mold member 2 hangs on the belt 1 with a support beam 3. A clamping device 4, which is made up of individual segments (not shown) and is detachably connected to the support beam, which in particular involves thermal bracing of a plate 5, the surface of which forms the actual mold work surface 6 , counteracts. According to FIG. 1, this plate 5 is chamfered on both longitudinal edges 7 towards the mold work surface 6. In the enlarged FIG. 2 it can be seen that the longitudinal edge 7, formed on one or both sides of the plate 5, is chamfered at a depth t of approximately 5/100 mm. The chamfer (s) extend over the entire length of the plate.

Claims

PATENT CLAIMS

1. mold member of a caterpillar mold for a casting machine for the continuous casting of metal with a plate having the actual mold work surface,

characterized,

that the plate (5) is chamfered on at least one of its longitudinal edges (7) towards the mold work surface (6).

2. Mold member according to claim 1, characterized in that the chamfer on the longitudinal edges (7) is a depth (t) of about 5/100 mm.