SU1196655A1 - Classifier of lump materials - Google Patents

Abstract

1. CLASSIFIER OF LESS MATERIALS, containing an inclined conveyor air distribution grid enclosed in a housing, a loading partition, a window and an adjacent cut-off partition with a hingedly suspended gate, in the upper part of the housing, separating the superlattice space in the compartment for small and coarse fragments. which has a discharge and air outlet window and is connected to a blower fan; characterized in that, in order to improve the quality of the classification, it is equipped with blown nozzles and an additional partition, the upper edge of which is located at the level of the suspension of the gate gate, while the additional partition is located in the compartment for the small fraction directly above the grating O) and at a distance from the cut-off partition equal to 1-1.4 widths of the loading window, and the blow nozzles are located in the cut-off partition on the side of the compartment for the coarse fraction. 2. A classifier according to claim 1, which is based on the fact that part of the additional partition is made with O5 holes. 05 ate ate

Description

I. one

The invention relates to black metallurgy, to the sorting of domain glomerate, limestone, coke and other lumpy materials and can be used in various industries to classify granular granular materials. .

The purpose of the invention is to improve the quality of material classification.

. The installation above the grate in the compartment of small fractions of an additional partition excludes the coarse fractions rolling down along the grate together with the trifle regardless of the angle of inclination, the classifier, i.e. it is provided efficiently from the point of view of the purity of the Christmas tree fractions and reliable operation of the classifier with practically corners of the acloni of tape mechanisms and more.

Approaching the device to the intersectional partition from the compartment of large fractions of the blow nozzles connected to the blower fan ensures that the feed material is blown out and pulls from it parts of the small fractions directly into the flow of air cushion when the mixed (half-fractional) layer lattice. At the same time, less fines are contained in the layer deposited on the lattice, which significantly simplifies pulling it out of the layer and flowing it through an additional partition.

This advantage of the device is particularly manifested with an increase in the productivity of the process, necessitating an increase in the height of the dense layer on the lattice and an acceleration of its motion, i. factors contributing to the seizure of small things in large fractions and, therefore, the deterioration of the quality of the classification1; The nozzles from the side of the large-fraction compartment to the intersectional partition provide air supply through them to purge the material entering through the loading window into the small compartment, fractions before they settle, on the grille, which significantly reduces the influence of factors preventing the fine things from layer on the grid, for a general qualitative result of the classification, since a significant part of the fines is removed from the feed material even after it enters the layer on the grid.

96655. . 2

The installation of an additional bulkhead with the upper edge at the level of the suspension of the gate to the intersectional transfer is due to the fact that with this arrangement, the overflow of large fractions to the fines zone is excluded with a sufficiently high degree of blowing off the trifles. .

Placing the upper edge of the additional partition below the level of connecting the gate to the intersectional partition causes the flow of part of the Large fractions into the fines area above the additional partition, since

5 the latter in this case is lower than the height of the layer of large fractions determined by the height of the suspension of the gate. When placing the upper edge additional. bulkheads above suspension level

0 shiber coarse fractions do not pass into the zone of fine fractions, however, the quality of the last blowout deteriorates due to the more difficult overflow of the small fractions over the higher partition. Thus, the optimal technical solution for determining the level of the upper edge of the additional partition is the proposed placement of the upper edge of the partition at the level of the gates suspension.

0 to inter-compartmental partition.

The distance between the intersectional and. additional partitions, equal to 1-1.4 width of the loading window, due to the following.

five . The width of the loading window determines the width of the loading area on the grid located above the loading window between the intersectional and additional partitions. When installing

0 classifiers with slope

1-2 ° width of the loading zone, i.e. the distance between the partitions can practically be taken equal to the loading width. windows, so how about

At such a small angle of inclination of the lattice, the feed material flow deviates little from the vertical and large pieces do not fall behind the partition in the fines zone.

0 The distance between the blown-offs less than the width of the window is unacceptable, since the loading zone in this case will already be the width of the load flow, part of which due to this falls for an additional partition into the change zone.

Increasing the distance more than 1.4 of the loading window width is impractical because even with a significant up to 30 °, the angle of inclination of the lattice, the distance between intersectional and additional partitions, equal to 1.4 of the loading window width, is sufficient to prevent large fractions from directly entering the loading windows in the trivia zone.

In addition, an increase in the gap between partitions in excess of the 1.4 width of the loading window requires an increase in the flow rate to blow due to an increase in the area of the loading zone and the distance from the nozzles to the additional partition, which, in turn, will worsen the quality of classification.

The drawing shows the classifier of lumpy materials, general view ..

The classifier consists of case 1 installed in the case of the conveyor air distribution grid 2, over which an interdisciplinary partition 3 is installed with a gate 5 freely suspended from it by means of a hinge 4. The interdigital partition 3 divides the superlattice space into the compartment of 6 small fractions with a loading window 7 adjacent to a partition 3, a discharge window 8 with an airlaid window 9 and a compartment 10 of coarse fractions with a discharge window 11 and an airlaid window 12 ,.

The space under the conveyor air distribution grill 2 is divided by the partition 13 into sublattice sections 14 and 15 connected to the blower fan 16. In the compartment 6 of the fine fractions, an additional partition 17 is installed directly above the grill 2 with openings 18, the upper edge 19 of which is on the level of the hinge 4 suspension gate 5 to the interdividing partition 3.

 From the side of the compartment 10 large fractions, blowing nozzles 20 are connected to the intersectional partition 3, connected by a collector 21 to a blowing fan 16;

The classifier of lumpy materials works in the following way.

A polyfraction lumpy material, for example, an agglomerate, is poured into the compartment 6 through the loading window 7 of the housing 1. By means of the fan 16, air is supplied to the sub-grid sections 14 and 15, from where through the conveyor air distribution grill 966554

ku 2 enters compartments 6 and 10, respectively, of small and large fractions. ,

At the same time, the air from the fan 16 is supplied through a collector 21. In the nozzle 20 supplied to the inter-compartment partition 3, and from there into the compartment 6 small fractions. Wherein . the air streams coming in from the air distribution grill 2 and from the nozzles 20 penetrate the feed stream of material and blow out small fractions from it, which with the help of air streams flow over the additional partition 17 and partially pass through the holes 18 in it, after which they are transported on the AIRBREAK to the unloading window 8. The coarse fractions settle in the loading zone on the grid 2

20 and move it under the gate 5, which is freely suspended from the intersection wall 3, into the compartment 10, to the discharge window 11. Air from the classifier is discharged through windows 9 and 12.

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As applied to blast furnace production, better screening of fines from the sintering mixture leads to a decrease in the consumption of coke 30 in the furnace and an increase in its productivity.

Comparison of the results of experiments to study the quality of classification in the proposed device and in the well-known shows that in the proposed device, unlike the well-known one, the elimination of coarse fractions into fines is completely eliminated, even with large lattice tilt angles, and otduv of small fractions compared to

0 with known increases by 7-18%. I According to the standard technological instruction, the output of 1% trivia (0-5 mm); from blast furnace charge reduces coke consumption in a blast furnace by 2-3 kg / t of pig iron 5, increases the production of cast iron by .0.5-1%.

Since in the device the fine fractions not only move on the air bed, but also cool,

0 with air, the classifier can replace not only the screen, but also the drum for water cooling return (fine agglomerate). it

simplifies the technological scheme of sintering production, reduces the number of material flows, unorganized gas emissions, and their suppression.

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Claims (2)

(57.) 1. LARGE MATERIALS CLASSIFIER, comprising an inclined conveyor air grille enclosed * in the housing, a loading window located in the upper part of the housing and adjacent to a cut-off partition with a pivotally suspended gate separating the superlattice space. On the compartment for small and large fractions. , each of which has a discharge and vent windows and is connected to a blower fan; characterized in that, in order to improve the quality of classification, it is equipped with blast nozzles and an additional partition, the upper edge of which is located at the level of the suspension of the gate of the shut-off partition, while the additional partition is located in the compartment for the fine fraction directly above the grate and at a distance from the shut-off partition, equal to 1-1.4 of the width of the loading window, and the blow nozzles are located in the shut-off partition from the side of the compartment for a large fraction. 2, Classifier by π. 1, wherein the part of the additional partition is made with holes.