RU82605U1 - FILLING BUCKET - Google Patents

Abstract

A steel-pouring ladle, including a metal casing, refractory lining of the walls and the bottom, in which nests for pouring glasses are made, consisting of a heat-insulating, reinforcing and working layer made of periclase-carbon bricks, a gap is made at the interface between the working layer of the side walls and the working layer of the bottom a refractory mass over which a protrusion of bricks is made of 0.03-0.05 bucket heights, characterized in that the mating faces of the bricks of the side walls and the protrusion are made with a slope, directed inside the lining of the side walls, while the angle of inclination between the mating face and the vertical plane is from 15 to 25 °.

Description

The proposed utility model relates to metallurgy, and more specifically to heavy-duty steel-pouring ladles used in continuous casting of metals.

Known steel pouring ladle containing a metal casing, reinforcing and working layers of the lining of bricks made on the basis of periclase, nesting bricks with casting glasses installed in the bottom of the bucket (A.S. No. 1743687 V22D 41/02).

A disadvantage of the known steel pouring ladle is the low durability of the lining, as well as the large downtime of the bucket for repair.

This is due to the fact that during operation of the bucket there is intense wear of the lining of the bottom and bottom of the walls with flows of liquid steel, which leads to the need to replace the entire working layer of the lining and prolonged downtime of the bucket for repair.

The closest in technical essence is a steel pouring ladle containing a metal casing and a lining of the walls and bottom, in which nests for pouring glasses are made. The lining consists of a heat-insulating, reinforcing and working layer made of periclase-based refractories, together with a mating of the working layer of the side walls and the working layer of the bottom, a gap is filled with a refractory mass, over which a ledge is made of bricks with a height of 0.03-0.05 bucket heights (RF patent No. 50894)

The disadvantage of the closest analogue is also the low durability of the lining of the bucket and long downtime of the bucket for repair.

This is due to the fact that the ledge of bricks, which protects the lining of the side walls from erosion by flows of liquid steel, during operation of the bucket when it is tilted to drain the remains of slag-metal melt, falls out of the bucket, the side walls of the bucket remain unprotected, the lining of the walls erodes and the bucket

stop for repairs to restore the protrusion or replace the entire lining.

The technical problem solved by the utility model is to increase the durability of the steel pouring ladle and reduce the downtime of the ladle for repair.

The solution to the technical problem is achieved by the fact that the steel pouring ladle, including the metal casing and the lining of the walls and the bottom, consisting of a heat-insulating, reinforcing and working layer made on the basis of periclase, in the place where the working layer of the side walls and the working layer of the bottom is connected, a gap filled with mass above which protrusion is made of bricks with a height of 0.03-0.05 bucket heights is characterized in that the mating faces of the bricks of the side wall and the bricks of the protrusion are made with a slope directed inside the lining of the side walls bucket, while the angle of inclination between the mating face and the vertical plane is from 15 to 25 °.

The increase in durability of the steel-pouring ladle will occur due to the fact that the masonry of the protrusion is reliably held by the inclined face of the lining of the side walls of the ladle, which eliminates the occurrence of the bricks of the protrusion when draining into the ladle, the bricks falling out when the ladle is tilted and the bottom lining is cleaned from slag metal layers. Preservation of the integrity of the protrusion will provide reliable protection of the lower part of the lining of the side walls, which will allow to obtain high durability of the lining of the bottom and walls of the bucket, to reduce downtime for repairs.

The essence of the utility model is that in order to preserve the integrity of the protrusion from falling out of the bucket when tilting and cleaning the bucket and to reliably protect the lining of the side walls, the mating faces of the lining of the side walls and the protrusion are made with a slope inside the lining of the side walls, with an angle of inclination between the mating face and a vertical plane from 15 to 25 °.

As a result, the service life of the protrusion is increased, reliable protection of the lining of the side walls is provided, and the resistance of the steel pouring ladle is increased.

If the angle of inclination of the mating faces of the side walls and the protrusion is less than 15 °, then the masonry of the protrusion will be weakly fixed, it is possible that the bricks will fall out and the wall lining will be eroded with slag metal melt, which will reduce the durability of the bucket.

If the angle of inclination of the mating faces of the side walls and the protrusion is more than 25 °, then the stability of the lining of the side walls will decrease, which will cause difficulties when lining the bucket, as well as when removing the lining of the protrusion when the bucket stops for repair, it may violate the integrity of the masonry walls and reduce the durability of the bucket.

The essence of the utility model is illustrated in the drawing. The drawing shows a diagram of a steel pouring ladle, a longitudinal section. The steel-pouring ladle includes: a metal casing - 1, an insulating layer - 2, made of mullite-siliceous cardboard grade MKRKG - 400, for example 10 mm thick, a reinforcing layer - 3 walls and bottoms, made for example from fireclay bricks of the brand ШК-4, 105 mm thick in the walls of the bucket and 315 mm in the bottom of the bucket.

A working stand of 4 walls, made for example of fused periclase-carbon brick of PUPK-S-2 brand 200 mm thick, a working layer - 5 of the lower part of the walls, made of fused periclase-carbon brick, the mating face - 6 of which has a slope of 15-25 °, directed inside the lining walls, working layer - 7 bottoms, made for example of fused periclase-carbon brick of PUPKD-11 grade with a thickness of 300 mm, an annular gap of 8, filled for example with a refractory mass of PPF brand (periclase powder with a phosphate binder), protrusion - 9, composed 0.03-0.05 lining heights made of periclase-carbon bricks, the mating face of which is included in the slope of the working lining of the bucket walls.

Steel pouring kosh works as follows.

From the converter to the steel pouring ladle with a capacity of 360 tons, steel of the grade St3sp is supplied.

From the filled bucket, liquid steel through a pouring cup installed in the nesting brick of the bottom of the bucket (not shown in the drawing) is poured into an intermediate bucket and then into molds from which continuous ingots are drawn.

The working layer 4 and the protrusion 9 form the surface of the side walls of the bucket, the working layer 7 forms the surface of the bottom of the bucket.

The slope of the mating face of the working layer 5 of the lower part of the walls and the protrusion 9 provides reliable fastening of the bricks of the protrusion 9 and prevents the collapse of the protrusion during casting and when tilting the ladle to drain the slag after steel casting.

As a result, the bucket's durability is increased, and the downtime of the bucket for repairs is reduced.

The table shows examples of the lining and operation of a steel pouring ladle with various parameters.

Table - Examples of specific performance Options Examples one 2 3 four 5 Bucket capacity, tons 360 360 360 360 360 The angle of inclination of the mating faces, degrees. 10 fifteen twenty 25 thirty Durability of a lining of a ladle, swimming trunks 95 105 108 107 94 A simple bucket for hot repair, an hour 8 four four four 10

In the first example, due to the insufficient angle of inclination of the mating faces of the lower part of the lining of the walls and the protrusion, the lining of the protrusion is destroyed due to the loss of refractories, which leads to the need to stop the bucket for hot repair and reduce the durability of the bucket.

In the fifth example, due to the large angle of inclination of the mating faces, when replacing the protrusion, the masonry of the lower part of the walls is broken, which leads to an increase in the downtime of the bucket for repair, the disclosure of masonry joints and a decrease in the durability of the bucket.

In the second, third, fourth optimal examples, the bucket is stopped for repair due to the natural wear of the refractories, the bucket durability is increased, and the downtime of the bucket for repair is reduced. The steel casting ladle of the proposed model was tested in the oxygen-converter and electric steel-smelting shops of OJSC Magnitogorsk Iron and Steel Works.

Using the proposed bucket can reduce the rate of wear of the lining, increase the durability of the bucket and reduce the consumption of refractories.

Claims (1)

A steel-pouring ladle, including a metal casing, refractory lining of the walls and the bottom, in which nests for pouring glasses are made, consisting of a heat-insulating, reinforcing and working layer made of periclase-carbon bricks, a gap is made at the interface between the working layer of the side walls and the working layer of the bottom a refractory mass over which a protrusion of bricks is made of 0.03-0.05 bucket heights, characterized in that the mating faces of the bricks of the side walls and the protrusion are made with a slope, directed inside the lining of the side walls, while the angle of inclination between the mating face and the vertical plane is from 15 to 25 °.