DE3150946A1 - Apparatus for the descaling of a steel strand - Google Patents

Abstract

The invention relates to an apparatus for the descaling of a steel strand coming from a continuous casting installation, its entire surface being descaled with as little water as possible before the flame-cutting machine by which the steel strand is divided into slabs. The apparatus comprises two nozzle carriers, which are connected under valve control to a high-pressure water source, have at least one fan jet adjusted relative to the direction of transport of the strand and to the surface of the strand, and can be moved transversely to the direction of transport of the strand, along its upper and lower side respectively, by means of a drive, the cycle being controllable as a function of the casting rate and the width requiring descaling.

Description

Device for descaling a steel strand

The invention relates to an apparatus for descaling one of one Continuous caster coming steel strand.

In the earlier application P 31 25 146.3 has been proposed to Descaling of hot steel blocks using rotatably laced nozzle bars, spray nozzles are arranged in the end regions. Such rotary nozzle bars can but can only be used if between the device for descaling and the The material to be descaled has a relative speed that is approximately greater 10 m / min (feed speed of the slabs). In block slab lines u. Like. This is the case, but in continuous casting plants the feed rate is of the strand or the browns produced from the strand by the flame cutting machine depending on the steel quality between approx. 0.5 to 2 m / min. You also need rotary nozzle bars a relatively large space corresponding to the width of the steel blocks and would also at feed speeds, as they occur in continuous casting plants, Too much water is sprayed onto the strand or slab.

The object of the invention is therefore to provide a device of the initially mentioned to create mentioned type, which has a low space requirement and their water requirements for descaling is as little as possible.

This task is according to the characterizing part of the claim 1 solved.

Such a device can be installed before the cutting machine be arranged due to their small footprint, so that not only the out slabs produced by the strand, but the strand itself is already being descaled. Here, the strand is applied to its entire surface with the help of two nozzle carriers Descaled, the transverse to the transport direction of the strand over its top and bottom are arranged movable away. The nozzle carriers can be moved in such a way that that the nozzles also sweep over the side surfaces of the strand and thus descaling can.

Further refinements of the invention can be found in the description below and to be found in the subclaims.

The invention is described below with reference to the accompanying figures illustrated embodiment explained in more detail.

Fig. 1 shows schematically a device for descaling a steel strand in front view.

Fig. 2 shows an arrangement of the nozzles in plan view for the device of Fig. 1.

FIG. 3 shows the arrangement of the nozzles from FIG. 2 in side view.

A strand 10 coming from a continuous caster is rolled over rollers 11, one set of each of which is arranged on an axis 12, the sets of rollers 11 are arranged one behind the other at a distance from one another, a flame cutting machine (not shown) fed, where the strand 10 is cut into individual slabs. In front of the flame cutting machine, the strand has a temperature of et, a 9000 C and a feed rate between about 0.5 to 2 m / min, depending on the Beam quality.

The device for descaling consists of two nozzle carriers 13, of one above and one below the rod 10 is arranged. The nozzle carrier 13 carry flat jet nozzles 14, preferably two flat jet nozzles 14, facing the direction of transport (Arrow 15) of the strand 10 employed, preferably by about 1000 in the opposite direction the direction of transport and further to the surface of the strand 10 are employed, and preferably by about 600 (angle between surface and flat jet), such as 2 and 3 results, so that the exiting flat jets accordingly hired to impinge on strand 10. Through this employment it is achieved that the flaking scale at the same time from the strand 10 at an angle in front of the flat jet, which emerges from the flat jet nozzle 14, in the direction of the not yet cleaned Area is flushed and carried down by the strand 10 when the nozzle carrier 13 moved transversely to the conveying direction (arrow 15) of the strand 10 over this. the Nozzle carrier 13 are moved so far over the strand 10 that the flat jet nozzles 14 also descaling the side surfaces in addition to the top and bottom of the strand 10 can. The lower nozzle carrier 13 is moved between two sets of rollers 11. The nozzle carriers 13 are preferably reciprocated at speeds of about 20 to 60 m / min transversely to the transport direction of the strand 10 above or below this emotional.

The nozzle carriers 13 are moved in cycles, with a cycle control Can be carried out depending on the casting speed and the cleaning width is for what purpose an electrical signal corresponding to the casting speed is used.

When the nozzle carriers 13 move alternately, the flat jet nozzles can 14 of the upper and lower nozzle carrier 13 alternately, for example by a 3/2 valve controlled with a high pressure water source (not shown), the high pressure water with a pressure of the order of 300 bar supplies, acted upon alternately so that the high pressure water source, such as a high pressure water pump, is only on the need of the nozzles 14 of a nozzle carrier 13 needs to be designed and continuously can run through, so that a high-pressure water storage tank can be dispensed with, which would be necessary if the spray water was intermittently reduced.

The nozzle carrier 13 can be moved, for example, via a cable drive, which consists of a rotary cylinder 16 around which a rope 17 is wound, whose free ends are each connected to an arm 18, wherein everyone of the two arms 18 is each attached to one end of the nozzle carrier 13 and the two arms 18 are arranged offset to one another. The two rotary cylinders 16 for the upper and lower nozzle carriers 13 are preferably rotatable in opposite directions, see above that a nozzle carrier 13 in the direction of the strand 10 and the other nozzle carrier 13 are moved away from strand 10 and back to the starting position while in each case those nozzles 14 are connected to the ochdrckwasserquelle that are are located on the nozzle carrier 13, the strand 10 and over this or under this is moved through.

Instead of a cable drive, a rack and pinion drive or a friction wheel drive can also be used or the like. Can be used.

The Düscnt.räger 13 are, for example, square tubes on a Side of the strand 1 0 mounted in the area of the cable drive by guide rollers 19 are.

A cleaning width of approx. 30 cm can be achieved, whereby due to the feed speed of the strand 10 and the speeds of the nozzle trays 13 carried out a piece-wise descaling of the entire surface of the strand 10 can be.

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Claims (7)

Expectations. 1. Device for descaling a coming from a continuous caster Steel strand, characterized by two nozzle carriers (13) attached to a high pressure water source Are connected valve-controlled, at least one flat jet nozzle (14) to the transport direction of the rod (10) and to the surface of the strand (10) employed and transversely to the direction of transport of the strand (10) along its upper or lower side by means of a drive (16, 17) can be moved cyclically. 2. Apparatus according to claim 1, characterized in that the flat jet nozzles (14) as a function of the casting speed and the cleaning width of the steel strand can be moved cyclically. 3. Apparatus according to claim 1 or 2, characterized in that the two nozzle carriers (13) alternately with high pressure water via a switching valve can be acted upon and moved in opposite directions with respect to the strand (10). 4. Device according to one of claims 1 to 3, characterized in that that the flat jet nozzles (14) turned to the surface of the strand (10) by about 600 are. 5. Device according to one of claims 1 to 4, characterized in that that the flat jet nozzles (14) to the transport direction of the strand (10) by about 100 are employed against the direction of transport. 6. Device according to one of claims 1 to 5, characterized in that that the nozzle carrier (13) can be moved at a speed of wa 20 to 60 m / min are. 7. Device according to one of claims 1 to 6, characterized in that that the nozzle carrier (13) can be moved by a cable drive (16, 17).