SU1093703A1 - Charging apparatus of blast furnace - Google Patents

Abstract

A LOADING DEVICE OF A MULTI-FURNACE, containing successively located sluice drills with closures, a storage bucket which includes the upper part of a hollow insert mounted over a vertical cylindrical chute, and a driving rotating distribution tray, characterized in that, in order to ensure uniform axial loading of the batch on the distribution tray, improving the circumferential distribution, charge and reducing the consumption of coke, in the upper part of the hollow insert there are two symmetrical protrusions, between which there are Two diametral valleys are formed, with the tops of the protrusions and the axes of the lock bunkers lying in the same plane, and the planes of the tops of the protrusions and lower points of the valleys are vertical and mutually perpendicular, and the surfaces of the valleys are formed by conjugation of segments of helix lines with a tilt angle of 40-45 .

Description

The invention relates to ferrous metallurgy, in particular to blast furnace charging devices, and can be applied in metallurgy for charging shaft furnaces. A blast furnace charging device is known, which contains successively located Isyuzovye bunks with gates, a cumulative cylindrical trough and a rotating distribution tray lj. In the known device, charge materials fall into the storage box in the oblique direction. In this case, the charge material is covered with the side of the storage bin, opposite to the feed material: a lock gateway. Consequently, the direction of the fall for the loaded material depends on which particular sluice hopper produces the feed. In addition to these changes in the direction of the fall, there are also uncontrollable changes in direction due to rebound of the feed material, as well as deflection effects on the internal stack of the storage bin and even on the distribution tray. The closest to the proposed invention to the technical essence and the achieved effect is the boot device of a blast furnace, which contains successively located lock gates with gates an accumulative bunker, the lower part of which includes the upper part of a hollow insert installed coaxially above the vertical cylindrical chute and drive distribution tray X known boot device is that the floor insert, the upper part of which is made of diagonal rings, are enclosed into the casing and entering into the lower part of the storage bin does not ensure uniform axial loading of the charge on the rotating distribution tray, under conditions of periodic switching of the supply of the charge from the lock bins, which, in turn, leads to a deterioration of the district distributor of the charge at the furnace top, coke consumption and reduce the resistance of the walls of the storage bin and the hollow BctaBKH. The aim of the invention is to ensure uniform axial loading of the charge on the distribution tray, improving the district distribution of the charge and reducing the cost of coke. The goal is achieved by the fact that in the charging device of a blast furnace containing successively located lock bins with closures, an accumulation bin into which the upper part of the hollow insert, installed above the vertical cylindrical chute, enters, and the driving rotating distribution tray, in the upper part of the hollow insert are two symmetric protrusions with inter-diametral depressions, with the tops of the protrusions and the axes of the lock bins lying in the same plane, and the planes of the The tops of the peaks of the protrusions and the lower points of the depressions are vertical and mutually perpendicular, and the surfaces of the depressions are formed by conjugation of segments of helix lines with the angle of inclination of the coil 40-45. FIG. 1 shows the boot device of a blast furnace, vertical section; in fig. 2 - a floor insert for a flat device, in isometry; in fig. 3 is a view A of FIG. 2, in FIG. 4 - c: hell B in FIG. 2. The blast furnace charging device comprises a rotating distribution tray (not shown), over which a central inlet 1 is provided, located in the middle of the annular chamber 2, containing the drive mechanism of the distribution tray. The inlet 1 is connected by a compensator 3 to an accumulation bin 4, which communicates with the discharge pipes 5 of lock bins 6 equipped with metering slides 7 and sealing gates 8. In the lower part of the accumulative bunker 4 there is a cylindrical floor insert 9 placed vertically in the mouth of the bunker 4. In the upper part A hollow insert 9 entering the lower part of the bunker 4 has two symmetrical protrusions 10 and 11, between which there are two diametric cavities 12 and 13. The tops of the projections 10 and 11 and the axes of the lock bins 6 lie in the same plane ti, and the plane is located 1 m per1 of the perches of lines 10 and 11 and the bottom t of the grooves 12

and 13 are vertical and mutually perpendicular.

The surfaces of the depressions 12 and 13 are formed by the juxtaposition of segments of helix lines with a tilt angle of 40-45, which corresponds to the angle of the natural slope of the loaded blast furnace charge

The upper part of the hollow insert 9 is made integral in the form of mating protrusions 10 and 11 and depressions 12 and 13, mounted on an independent supporting flange 14, while the lower part 15 of the hollow insert 9 has the shape of a truncated cone and mounted on an independent supporting flange 16.

The inner surface of storage hopper 4 is lined with wear-resistant lining 17, for example, from manganese-containing steel casting or austenitic steel.

On the inner surface of the storage bin 4 on the wear-resistant surface (letter A) the drop zone of the charge being loaded is marked.

The internal surface of the hollow insert 9 of the mock-up can be smooth or in the form of annular protrusions forming a self-lining surface when the furnace is charged with the batch.

The device works as follows.

After loading the charge gateway bins 6 through the exhaust pipes 5 with the help of metering gates 7 and with open sealing valves 8 during their alternate operation

937034

The charge is sludge through cumulative

bunker 4 in a blast furnace. I At the same time, the initial charge (the dead zone is formed, the bath is formed by the bottom of the storage bin 4, the projections 10 and 11 of the hollow cylindrical insert 9 and the zone A on the wear-resistant surface of the bunker 4.

Then, due to the fact that between the outcrops 10 and 11 of the insert 9 two diametric cavities 12 and 13 are loaded, the charge is fed through the cavities 12 and 13 of the entrance 1 by a uniform flow into the receiving neck of the rotating tray. When switching the lock bins 6, the path of the charge drop does not change, which ensures uniform axial loading of the charge into the receiving neck of the rotating distribution tray with simultaneous improvement of the district distribution of the charge, reduction of coke consumption if the wear of the hollow insert is reduced.

The use of the invention compared to the known one will ensure uniform axial loading of the charge into the receiving neck of the rotating distribution tray, eliminate unevenness of the district distribution of the charge, reduce the specific consumption of coke by 0.1-2.0% and increase the productivity of the furnace by 1-3%. This will increase the durability of the storage bin and the hollow insert.

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Claims (1)

BLAST FURNACE LOADING DEVICE, comprising sequentially arranged lock hoppers with gates, a storage hopper, a litter tray, improving the circumferential distribution of the charge and reducing coke consumption, two symmetrical protrusions are made in the upper part of the hollow insert, between which there are two diametrical depressions, with the tops of the protrusions and the axes of the lock bunkers lie in the same plane, and the planes of the vertices of the protrusions and the lower points of the depressions are vertical and mutually perpendicular, while the surfaces of the depressions n formed by pairing segments of helical lines with an angle of inclination of a turn of 40-45. t