WO2017036456A1 - Melt charging system for a horizontal continuous casting system - Google Patents

Abstract

The invention relates to a melt charging system for a horizontal continuous casting system, comprising a casting nozzle which is designed as a narrow rectangular hollow block made of refractory material and having a bottom, a ceiling and two sidewalls. The discharge region of said nozzle is located just above a cooled continuous strip receiving the discharged melt. Means (4) for height adjustment act on the melt charging system perpendicular to the discharge direction of the melt, said means being located opposite each other and allowing the melt charging system to be lifted, lowered or pivoted either on one side or on both.

Description

 Melt feed system for horizontal strip caster Description

The invention relates to a melt feeding system for a horizontal strip casting with a pouring nozzle, which is formed as a refractory existing narrow rectangular hollow block with bottom, ceiling and two side walls and their

Outlet region is located only slightly above a the melt-receiving end cooled endless belt, according to the preamble of claim 1.

Furthermore, the invention relates to a method for horizontal strip casting by means of this melt delivery system according to claim 5.

A melt delivery system with a pouring nozzle having the above features is known, for example, from DE 10 2005 062 854 A1. The melt delivery system essentially consists of a distributor and a runner, which is followed by the casting nozzle.

In the known arrangement of a distributor of liquid steel flows through a manifold and a horizontal inlet channel into the casting nozzle, which is in cross section enclosed by a refractory narrow rectangular channel formed as a hollow block with bottom, ceiling and two side walls.

In the outlet region, a web of refractory material projecting transversely to the flow direction is arranged in the direction of flow, first at the top and then at the bottom of the pouring nozzle channel. Both webs form a weir in order to be able to retain in the sense of the effect of a siphon possible small slag residues and oxides in the melt. The transfer of the liquid steel on the cooled endless belt is slidably along a slope in the outlet area.

In the exit area of the casting nozzle occurs due to the surface tension and the

Mass flow on a contraction of the steel stream. This effect leads to an uneven distribution of the melt in the transverse direction on the endless belt and thus to an insufficient edge filling of the cast steel strip, which is seen over the bandwidth in a wedge-shaped geometry of the respective band edges, wherein the band edges have a smaller thickness than the central areas. For example, the thickness of the strip edges during strip casting can vary by up to + - 3.5 mm.

To improve the flow conditions, it is known from EP 1 056 560 B1, the end face of the bottom element of the pouring nozzle in such a way that this seen in the flow direction opposite the end face of the ceiling element has a projection.

From DE 10 2009 012 984 A1 discloses a pouring nozzle is known, in the flow direction of the hollow cross-section of the hollow block in the outlet area is uniformly reduced towards the outlet, the bottom rises relative to the ceiling and the end face of the bottom of the hollow block perpendicular to Surface of the endless belt is formed or the end face of the bottom of the hollow block has an undercut to the surface of the endless belt, so that the melt meets perpendicular to the endless belt.

The reduction in the clear cross section of the hollow block occurring due to the oblique course up to a minimum value at the outlet which still ensures the required throughput leads to damming of the melt, which also presses the melt stream against the surface tension in the edge regions.

The object of the invention is to improve the known melt delivery system to the effect that the melt when hitting the endless belt in

Transverse even more evenly distributed.

The object is achieved on the basis of the preamble of the main claim with the features of the characterizing part. Advantageous developments are the subject of dependent claims.

This object is achieved according to the invention with a melt delivery system for a horizontal strip casting, with a pouring nozzle, which is formed as a refractory existing narrow rectangular hollow block with bottom, ceiling and two side walls and the outlet region is located only slightly above a running melt receiving chilled endless belt which by it

is characterized in that the melt delivery system transverse to the outlet direction of the melt attacking means for height adjustment, with which the melt delivery system on one or both sides can be raised, lowered or pivoted. In addition, means for tilt adjustment in the longitudinal axis plane can act on the melt delivery system.

Means for the height adjustment may be actuators or hydraulic cylinders, the adjustment can be made positive or non-positive. Conceivable as a means are springs on which the melt delivery system is based to the weight automatically

compensate. The agents themselves may be below or above the

Attacking the melt dispensing system. However, it is also possible to manually adjust the height.

With regard to the method of horizontal strip casting, the invention is realized by means of a melt delivery system with a pouring nozzle, which is formed as a narrow rectangular hollow block made of refractory material with bottom, ceiling and two side walls and whose outlet region is located only slightly above a cooling melt receiving the outgoing melt which by it

characterized in that the melt delivery system with the pouring nozzle in the course of the casting preparation for alignment or during casting transversely to the outlet direction of the melt to control the strip casting wedge and to control the mass flow from the casting nozzle one or both sides raised, lowered - or pivoted. In addition, the melt delivery system can be adjusted in its inclination with respect to the longitudinal center plane.

In an advantageous development of the invention, the setting or alignment of the melt delivery system takes place as a function of thickness or profile measurement data as well as temperature distribution measurement data of the cast pre-strip. This can be done for example in the form of a regulation.

In strip casting, a relatively thick wedge is cast in the opening strip due to the structural and setting conditions. However, a number of conditions or circumstances have a significant influence on wedging. These include a section-related different misalignment of the casting nozzle and the delivery system. Furthermore, the melt flow from the ladle into the spout and the melt flow to the casting belt exert an influence. Also to be considered is a possible stirrer setting at a

electromagnetic stirring of the melt, and finally the flow in the casting nozzle, which undergoes changes, for example, by frostbite.

Since the influences on the later to be processed in the rolling process strip casting wedge are varied and thus difficult to regulate, pivoting of the task system for

symptomatic treatment of ganglion positive. For this purpose, the task system must be modified accordingly and a control variable from thickness measurement data,

Profile measurement data or temperature distribution measurement data or similar for hiring the

Task system be returned. The controlled system should be as short as possible. The targeted distribution of the melt (especially in terms of further processing) is thus controlled and the quantity and quality of the usable material are raised.

The resulting advantages are u. a.

 - larger spreading

 - better material quality with regard to the resulting hot rolling product

 Overall better suitability of the hot rolled strip for further processing

Example by cold rolling

 - Control of the melt flow during casting possible (mass flow, geometry and

Temperature control)

 - Compensation of thermal distortion of the casting machine possible

 - Possibility to interfere with the process during production

 - Targeted panning to remove one-sided frostbite possible

In one embodiment, the pouring nozzle according to the invention is explained in detail.

Show it:

Figure 1 schematically shows a longitudinal section of a section of an inventive

 Melt dispensing system with a pouring nozzle

2 shows a cross section along the line A -A in Figure 1.

FIG. 1 shows, in a longitudinal section and FIG. 2 in a cross section, schematically an embodiment of the inventive melt delivery system with a pouring nozzle 1. The pouring nozzle 1 is formed as a narrow rectangular hollow block and consists in this embodiment together of a ceiling element 1 b, a bottom element 1 a and two side elements 1 c (Figure 2). All these parts are made of refractory material, preferably ceramic and form a horizontal rectangular channel.

As is known from the prior art, the ceiling element 1 b has a web 6 extending transversely to the flow direction and extending into the channel, which forms a so-called weir.

The pouring nozzle 1 is connected upstream of an inlet channel, which is connected to a distributor, not shown here. The direction of the melt flowing out of the pouring nozzle is indicated by the arrow.

On the presentation of the type of cooling of the endless belt was omitted here. Shown is only the front pulley 2 of the belt circulation.

In this embodiment, below the casting nozzle on the bottom element 1 a acting adjusting elements 4 and 5 are arranged, which are individually adjustable in the vertical and thus lead to a tilting, tilting or lifting of the casting nozzle about a longitudinal axis of the casting nozzle. Likewise, it is also possible to attach the adjusting elements at a location other than at the pouring nozzle of the melt delivery system.

This height adjustment, for example, by hand or via servo motors or

Hydraulic cylinders are performed positively or non-positively. Characteristic is the possibility to raise or lower the feed system (AGS) during casting on one or both sides. The pivoting can also be used in the casting preparation for aligning. The method can be used by hand control before or during the process. In addition, the principle can be incorporated into a control (automation) that uses measured quantities (thickness, profile, wedge, temperature profile) to machine-independently correct the strip casting wedge.

Claims

claims

1. melt delivery system for a horizontal strip caster with a pouring nozzle, which is formed as a refractory existing narrow rectangular hollow block with bottom (1 a), ceiling (1 b) and two side walls (1 c) and the outlet region is only slightly above a expelled melt receiving cooled

Endless belt, which is characterized

that on the melt delivery system transverse to the outlet direction of the melt attacking means (4) for adjusting the height, with which the

Melting system on one or both sides can be raised, lowered or swiveled.

2. Melt dispensing system according to claim 1,

characterized,

in that means (4) for adjusting the inclination in the longitudinal axis plane engage the hollow block.

3. melt delivery system according to claim 1 and 2,

characterized,

that the height adjustment by servo motors or hydraulic cylinder form or

non-positively.

4. melt delivery system according to claim 1 and 2,

characterized,

that the height adjustment is done manually.

5. A method for horizontal strip casting by means of a melt delivery system with a pouring nozzle, which is formed as a refractory existing narrow rectangular hollow block with bottom (1 a), ceiling (1 b) and two side walls (1 c) and the outlet region is only slightly above a the outflowing melt receiving cooled endless belt is

characterized,

that the melt delivery system with the casting nozzle in the course of the casting preparation for alignment or during casting transversely to the outlet direction of the melt for

Regulation of the strip casting wedge and for controlling the mass flow from the casting nozzle one or both sides raised, lowered or pivoted.

6. The method according to claim 5,

characterized,

that the melt delivery system additionally in its inclination regarding the

The longitudinal center plane is adjusted.

7. Process according to claims 5 and 6,

characterized,

that regulation and adjustment of the orientation of the melt delivery system in

Depending on thickness or profile measurement data as well as temperature distribution measurement data of the cast pre-strip.