JPS6056459A - Casted piece guide for continuous casting device of steel - Google Patents

Abstract

1. A strand guide for an installation for the continuous casting of steel and for producing a strand which can be immediately rolled, the strand guide having guide rails which extend in the direction of movement of the strand and which comprise a replaceable part which faces the strand, characterised in that this part (10) consists of ceramic material and is secured to a metallic support part (12).

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a slab guide for continuous steel casting equipment, the guide rail extending in the direction of movement of the slab and a replaceable portion facing the slab. The purpose is to produce slabs that can be immediately rolled using a slab guide having the following.

Since it is desirable for economic reasons to make maximum use of the casting heat present in the cast billet, great efforts are made to form or roll the billet emerging from the continuous caster either immediately or directly after it has been cut. has been done.

For the purpose of avoiding heat loss, the slab is completely or partially insulated in the slab guide, but it is not possible to heat the slab by additional heating means to obtain a certain rolling temperature or to perform the desired soaking temperature. , is commonly said.

It is likewise known to guide and pull out slabs in a secondary cooling zone by metal guide rails known as "walking pars" (UK patent GB-1,18
8,816). In this method, in order to avoid bulging of the slab, especially the slab, a support structure is achieved in which the guide rail supports the surface of the slab, moves with the slab a certain distance, and then returns to its starting position. has been done. The metal guide rail is provided with a cooling duct near the working surface of the guide rail to remove heat from the slab and cool the rail itself.

It is also known to removably connect the metal part of the guide rail facing the slab to the support of the rail by means of bolts (US Pat. No. 3,688,833). This device, which includes ducts for circulating cooling water in replaceable metal parts, is intended to cool the slab and protect the rail supports against heat, eliminating the need for further spray cooling. It is something to do.

It is an object of the present invention to provide a slab guide for slab slabs, which minimizes heat loss while increasing the reliability of guiding slabs whose molten core has not yet disappeared, and which can be used with external heating sources. To make it possible to immediately roll a slab at an appropriate temperature without having to heat the slab. A further object of the present invention is to prevent scale from forming on the slab within the slab guide and to remove any scale that exists before the slab enters the guide portion.

An object of the present invention is to replace the guide rail provided in the west piece guide for a continuous steel casting apparatus for producing slabs that can be rolled immediately so that the guide rails extend in the direction of movement of the slabs and face the slabs. This is achieved by providing a slab guide of the type with a replaceable part, characterized in that the replaceable part is made of ceramic material and is connected to a supporting metal part.

Furthermore, as a slab guide that achieves the object of the present invention, (a) the ceramic rib part is connected to the support part by a metal bolt,
A guide whose surface of the metal bolt facing the casting part supports the slab, (b) a guide whose support part includes a cooling fluid duct, ()
) a guide which closes the zone of the guide rail with a lid to form a compartment and prevents the inflow of air and is provided with inert gas supply means extending into this zone, and (d) upstream of the guide rail in the direction of slab movement. A guide equipped with a descaling device is provided.

According to the slab guide according to the present invention, the ceramic insulating material is integrated into the part of the guide rail facing the slab, which ensures reliable guidance and support of the slab, and at the same time prevents undesired heat dissipation. be able to. Note that "reliable guidance and support of the slab" means that harmful bulging due to the static pressure of the iron does not occur in the slab whose core is still in a molten state. As is well known, such lusing can have a detrimental effect on the cast product. Undesirable heat dissipation is prevented by the insulating effect of the upper ceramic part. Insulating the slab within its guides in this way has the effect of increasing the average temperature of the slab, that is, the average temperature in the thickness direction of the slab and the temperature at the center of its width, to the normal rolling temperature. Therefore, there is no need for further heating in a reheating furnace, that is, external heating, and it becomes possible to immediately reshape, particularly roll, the slab. In exceptional cases, for example wide slabs, the edges can be heated by external heating means. Before rolling and after the slab is completely solidified, the slab can be divided by conventional means such as a soft tube.

The required length of the insulating slab guide is approximately 1/4 of the total length.

As is well known, the total length here needs to be a length that extends from the lower end of the mold to the complete solidification point of the slab to prevent bulging.

It was found that when the slab guide is insulated, the temperature of the slab surface increases and the temperature difference between the slab surface and the slab core decreases.

A further important factor is that the solidification time (the position of the lower end of the molten pool, i.e. the point where the slab is fully solidified) is not affected to a high degree by the insulating effect of the ceramic part of the guide rail.

Cerami 1. It is preferable to connect the retaining part to the supporting part by a metal bolt, so that the necessary pressure to counteract the iron static pressure can be applied, and at the same time, the ratio of the slab supporting ceramic or ivy surface to the metal surface of the restraining bolt can be applied. A certain limit can be placed on the dissipated heat 11 by . In addition,
The use of restraining bolts 1c allows immediate replacement of the ceramic part. If desired, the metal support can be water cooled to similarly affect dissipated heat.

Before the slab enters the guide, the slab waste rail is descaled, and while the -1 piece is moving further, an inert gas is used to prevent oxygen scum from entering from the air.

Embodiments of the present invention will be described below with reference to the drawings.

In FIG. 1, the slab guide section 5 consisting of the guide rail 6 is
A part of the S@single guide 3, which is disposed downstream of the J type 1, also includes the rollers 2, 2' and the pulling straightening unit 4.

In the illustrated convex device for Sujip casting, a guide rail 6I'i is disposed on the extraction side in the horizontal slab guide section and extends in the length direction of the cast slab 7, and the guide The rails 6 are arranged in pairs so as to face each other inside and outside the slab. Depending on the width of the slab, one or several pairs of rails are arranged opposite each other and support the section with the molten core by receiving the slab in alternating order in a known manner. In the embodiment shown in FIG. 2, six rails are provided on each side of the slab for a slab width of 1600 mm. Because the support device extends over several meters in length and the guide rails are arranged close to each other in the width direction of the trench slab, there is no longer any risk of bulge legs in the slab.

In this embodiment, two zones 5' and 5 are provided with guide rails each having a length of approximately 5 m.

As can be seen from FIGS. 2 and 3, the guide rail 6 consists essentially of a ceramic part 10 which faces the slab 7 and which is attached to a supporting metal part 12 by means of metal pills (11) or the like. connected. By a mechanism not shown, the rails are alternately pressed against the slab when viewed in the width direction of the slab, moved in the running direction of the slab, lifted up from the slab, and returned, whereupon the cycle begins again. It will be done. Mechanisms for carrying out this movement have long been known in the art and do not form part of the invention.

If the ceramic part 10 is worn out or for some other reason, remove the ceramic part 10 from the
It can be exchanged by removing 1.

In order to minimize the length of the pool during cooling in a slab guide consisting of a portion of rollers, the slab 7 is first cooled most intensely by a spray nozzle 13 or a water-air nozzle. In the guide section, the ceramic part 10 of the rail guide has an insulating effect, preventing undesired cooling of the slab and providing temperature equalization within the individual zones of the slab.

The temperature of the surface of the slab achieved is 1200°C higher than that of the current continuous protection device, and the strength of the slab skin is lower. For this reason, it may be necessary to narrow the space between the supports to avoid internal defects in the slab. However this is not achieved by rollers.

The ceramic part IO may be composed of a cast refractory composition. The metal support 12 is cooled by water passing through the duct 15.

It is well known that scale, which is caused by the reaction of oxygen in the air with the steel surface, can cause problems. A descaling station 16 containing high-pressure spray nozzles is therefore provided upstream of the point of entry into the first zone 5' of the guide rail 6. The entry of oxygen from the air is prevented in zone 5'+5'' by supplying inert gas from pipe 17 through transverse seal 20 as shown in FIG.

The completely solidified slab is divided at the cutting location 18,
As schematically shown, the length of the slab is such that it can be directly supplied to the rolling mill 19.

[Brief explanation of the drawing]

Fig. 1 is a drawing schematically showing a continuous casting apparatus including a slab guide according to the present invention, Fig. 2 is a sectional view taken along the line ■-■ in Fig. 1, and Fig.
FIG. 3 is a cross-sectional view taken along line I-I in the figure. 6... Guide rail, 10... Replaceable ceramic part, 11... Rut, 12... Support metal part, 15
... Coolant duct, 16 ... Descaling device, 17
...Inert gas supply means, 20...Lid. Patent Applicant Concast Service Union Akchevke 9 Zelshaft Patent Attorney Akira Aomizu Patent Attorney Kazuyuki Nishidate Patent Attorney Takuo Murai Patent Attorney Akira Yamaguchi Masaya Nishiyama

Claims (1)

[Claims] 1. A guide rail provided in a slab guide for a continuous steel casting apparatus for producing slabs that can be rolled in one day, extends in the direction of movement of the slab, and extends in the direction of movement of the slab. A slab guide of the type having a replaceable part (10) in each piece, characterized in that the replaceable part (10) is made of a ceramic material and is connected to a supporting metal part (12). . 2. Ceramic part (]0) by metal bolt (11)
The slab guide according to claim 1, characterized in that the metal bolt is connected to the supporting part (12), and the surface of the metal bolt facing the slab (7) is used to support the slab (7). 3. The slab guide according to claim 2, characterized in that the support part (12) includes a cooling duct (15). 4. The zone of the guide rail is closed with a lid (20) to form a compartment and prevent the inflow of air, and an inert gas supply means (17) extending into this zone is provided. The slab guide according to item 1 of the range 1 to 3. 5. The slab guide according to claim 4, characterized in that a descaling device (16) is provided upstream of the guide rail (6) in the slab movement direction.