EP0737118A1 - Conveyor belt for use in a continuous strip-casting plant for the production of metal strip - Google Patents

Abstract

PCT No. PCT/DE94/01545 Sec. 371 Date Jul. 22, 1996 Sec. 102(e) Date Jul. 22, 1996 PCT Filed Dec. 21, 1994 PCT Pub. No. WO95/17988 PCT Pub. Date Jul. 6, 1995A conveyor belt of a continuous strip-casting device for casting strips of metal, particularly steel, which belt is guided by a driven drum and a drum horizontally adjacent to the driven drum and displaceable for tensioning the belt. The belt rests in this connection on a support arranged between the drums and the side thereof facing away from the cast strip is cooled. The conveyor belt has, on the side remote from the cast strip, uniformly distributed blind holes. The blind holes are separated by webs of a minimum width. The total surface area of the webs is 0.15 to 0.4 times the total surface area of the belt. The bottoms of the blind holes have a wall thickness which, upon heating by the cast strip with simultaneous cooling of the inside surface of the blind holes, permits a bulging of the bottom of less than 1 mm.

Description

Conveyor belt of a continuous strip caster for casting strips of metal

The invention relates to a conveyor belt of a continuous strip casting device for casting strips of metal, in particular steel, which is guided in a drivable drum and from this horizontally adjacent to the belt tension adjustable drum and is supported on a support arranged between the drums, and that the side facing away from the cast strip is cooled. Such a conveyor belt is known for example from DE 34 23 834 C2, in which a metal belt is guided over support rollers and cooled on its surface facing away from the cast strand. The metal strip is guided around several support rollers, of which at least one serves as a tension roller for the metal strip and at least one of which is driven in rotation. When the molten metal strikes from the storage container, which is open at the bottom, the conveyor belt on the side facing the cast strand heats up to such an extent that there are exploitations which protrude into the cast strand and deform it. The bulges that occur in this case reach dimensions perpendicular to and away from the plane of the conveyor belt in orders of magnitude and a multiple thereof. In the conveyor belt level, these dents can reach dimensions of 10 to 20 times the conveyor belt thickness and in the plane perpendicular to

REPLACEMENT LEAF Conveyor belt direction have a size of 0.8 to 0.9 of the cast strand width.

From the document DE-OS 27 09 540 a method and a device required for this are known in which mold belts are cooled with a cooling liquid from the side facing away from the casting chamber, hydrostatic forces being generated by the cooling liquid which act on the back of the mold ¬ band act, prevent throwing of the mold belt in the area of the casting space and hold and guide it in a predetermined position. For this purpose, a guide plate is arranged at a short distance behind the mold belt, which has inlet and outlet openings for the cooling liquid, flows through the cooling liquid onto the back of the mold belt and cools it over the entire surface, with respect to the surrounding area Atmosphere generates a positive and a negative hydrostatic pressure field, so that the mold belt takes a certain distance from the guide plate and is thus held and guided stably over the entire area of the casting space.

The thickness of the mold belts is between 0.5 and 2 mm. The proposed device is used in the case of downwardly inclined casting devices in which, in the deep metal sump in the cast material, the metallostatic pressure results in a relatively high pressure on the mold belts and on their supports.

In the absence of such a strong counter pressure, for example in the case of continuous strip casting equipment

REPLACEMENT LEAF Conveyor belts horizontally guided cast strands, there will continue to be significant warping given the low weight of the cast strand.

The invention has set itself the goal of creating a maintenance-friendly and generic conveyor belt which, with a long service life, easily avoids quality defects in the cast strand which are caused by wavy warping of the conveyor belt in the macro area.

The invention achieves this aim by the characterizing features of claim 1. According to the invention, the conveyor belt is given a shape while maintaining its flexibility, which allows bulging in the micro range, but is at the same time structured so that warping in the macro range is reliably avoided .

For this purpose, blind holes are provided on the conveyor belt, which have a round or polygonal shape and have such a small wall thickness on the head side, which allow a membrane-like deformation in the shadow of the blind hole, but whose webs have such a high strength that no macro bumps occur.

The blind hole bases are designed so that they bulge <1 mm. These slight changes in shape do not cause any quality-reducing deformations in the cast strip to be produced. At the same time, the overall conveyor belt remains in its dimensions, both in length and in width, and also in length

REPLACEMENT LEAF Height within the given limits. In an advantageous development of the invention, it is proposed to construct the conveyor belt in the so-called sandwich construction, and in this case the outer surface of the endless conveyor belt, that is to say the surface that comes into contact with the cast strand, is constructed from a material with high thermal conductivity , while the cooled grid, in particular the tensile forces, consists of a bending and temperature-resistant material. This construction allows advantages to be achieved in terms of production technology, and specific physical properties can be imparted to the conveyor belt in a simple manner.

The total number of openings, i.e. the blind holes to the solid material, i.e. the rods, is selected between 15-40%, taking into account the material used, the dimension of the strip is selected such that, apart from the desired microbumps, no other deformations outside of predetermined limits occur .

An example of the invention is set out in the accompanying drawing. The show

Figure 1 shows the diagram of a strip caster. Figure 2 shows a section through the conveyor belt.

1 shows a storage container 11 a

Belt pouring device in which there is liquid material

M is located, the bathroom mirror above the spout

12 is raised by negative pressure p. That from the

Spout 12 of escaping metal meets a conveyor belt

21 and is conveyed away from it in the form of a cast strip 13 from the storage container.

REPLACEMENT LEAF The conveyor belt 21 of the conveyor device has a drum 25 driven by a motor 16 and a drum 27 tensioned by a tensioning device 28.

The upper run of the conveyor belt 21 is supported on supports 51 and is cooled by cooling water guided via spray nozzles 41 on the side opposite the casting belt 13.

FIG. 2 shows in section a part of the conveyor belt 21 into which blind holes 22 are made. There are webs with a minimal web width 5 between the blind holes. The blind hole bottoms have a wall thickness d, with a blind depth T remaining for the conveyor belt thickness D for the blind holes 22. The blind hole top surface 29 can be sprayed on by a cooling medium, so that a bulge D of the blind hole bottoms 24 occurs due to the temperature difference between the side of the blind hole bottom 24 which tends towards the casting bath 13 in comparison with the cooled blind hole top surface 29.

In the upper left area of FIG. 2, a conveyor belt in sandwich construction is shown, the layer 31 facing the cast belt being firmly connected to the layer 32 facing away from the cast belt.

In the lower part of FIG. 2, possible blind hole shapes are shown, specifically blind holes with a circular or hexagonal shape, which have the minimum spacing 5 from one another.

ER _SA TZBLATT

Claims

claims

1. Conveyor belt of a continuous casting machine for casting strips of metal, in particular steel, which is guided by a drivable drum and by this horizontally adjacent, adjustable for tensioning drum and is supported on a support arranged between the drums, and that of the casting belt cooling away from the side, characterized in that the conveyor belt (21) on the side facing away from the cast belt (13) is evenly distributed blind holes (22), that the blind holes (22) are separated by a minimum width (S) from ironing webs, the total web area being 0.15 to 0.4 times the total belt area and the blind hole bottoms (24) having a wall thickness (d) which, when heated by the cast belt (13) while cooling the blind hole head surface (29) bulging of b <1 mm allows.

2. Conveyor belt according to claim 1, characterized in that the blind holes (22) have a circular shape in the direction of depression.

3. Conveyor belt according to claim 1, characterized in that the blind holes (22) a polygonal, e.g. have a hexagonal shape.

REPLACEMENT LEAF

4. Conveyor belt according to one of the preceding claims, characterized in that the conveyor belt (21) is composed of two intimately connected layers (31, 32), the layer (31) facing the cast belt (13) being the thickness (d) of the Blind hole bottoms (24) and the layer (32) facing away from the cast strip (13) are constructed from a grid at the height of the blind hole depth (T).

5. Conveyor belt according to claim 4, characterized in that the layer (31) made of a material with high thermal conductivity, e.g. Copper, and the grid (32) made of a material resistant to bending and temperature changes, e.g. Fine grain steel.

REPLACEMENT LEAF