UA142037U - LINE FOR PROCESSING INDEPENDENT METALLURGICAL SLAGS - Google Patents

Abstract

The production line for processing of independent metallurgical slags, mainly metallurgical slags, which are at the stage of incomplete redox agglomeration processes, contains a bearing support on which the receiving hopper is mounted, a vibrating screen consisting of several products located directly below each other. coarse fraction with an electromagnetic separator installed above it, rectilinear inclined gutters for sub-sieve products of medium and small fractions and vehicles for recycled slag. The line contains additional flow lines of in-depth processing of fine and medium fractions, and the additional flow line of in-depth processing of fine fraction consists of installed in the technological sequence of the shaper flow layers of fine fraction, drum magnetic separators, vibrating feeders, conveyor conveyor and conveyor conveyor . And the additional production line of in-depth processing of the middle fraction consists of a hammer crusher installed in the technological sequence, a roar with a flow distributor of the sieve product and belt conveyors with suspended electromagnetic iron separators.

Description

A useful model belongs to ferrous metallurgy, namely to the processing of independent metallurgical slags that are at the stage of incomplete oxidation-reduction and sintering processes, in particular hot metallurgical slags or slags that have already cooled to ambient temperature, but with the aforementioned processes still incomplete.

The well-known complex for the processing of waste metallurgical slags according to the Russian patent No. 2139339, IPC 6, C228 1/00, B.IM. Mo 28, 1999, which has a supporting support on which a receiving hopper is mounted, a vibrating screen with inclined sieving planes consists of several sieves located one below the other, directional catchers for over-sieve and under-sieve products, a magnetic assembly and vehicles for processed slag.

In contrast to the declared utility model, belt conveyors are used as guiding catchers.

The closest analogue to the declared useful model in terms of the set of features and the expected technical result is the complex for processing metallurgical slag according to the patent OA Mo 52057, IPC 6 С228 7/04, С228В 1/00, publ. 17.01.2005, which contains a supporting support on which a receiving hopper is mounted, a vibrating screen consisting of several sieves located one below the other, a rectilinear inclined chute for the over-sieve product of a coarse fraction with an electromagnetic iron separator installed above it, rectilinear inclined chutes for under-sieve products medium and small fractions and vehicles for processed slag.

In contrast to the declared useful model, in rectilinear sloping chutes, holes are made under the sieves of products of medium and small fractions, above which electromagnetic iron separators are installed.

In addition to the fact that the commercial products of the coarse fraction, which is obtained as a result of the processing of independent metallurgical slags at the stage of their incomplete oxidation-reduction agglomeration processes, are distinguished by high quality, namely, the minimum relative content of the slag component in the agglomerate: the slag shell is a metal-containing core, commercial products of small and medium fractions, as a rule, have an increased relative content of slag due to an increase in the ratio of the surface area of a sphere (or a body in shape close to a sphere) to its volume, which negatively affects the process of metallurgical redistribution.

The basis of the useful model is the task of improving the flow line for processing

From independent metallurgical slags, mainly hot metallurgical slags and slags that are at the stage of incomplete oxidation-reduction agglomeration processes, by changing the flow lines for the processing of small (0-20) mm and medium (20-120) mm fractions, ensure the mode of in-depth processing of small and medium fractions of metallurgical slag, which ensures the most complete extraction of iron-containing inclusions and obtaining marketable products of small and medium fractions with the lowest relative content of slag and the highest content of Eeobsch.

The task is solved by the fact that the flow line for the processing of independent metallurgical slags, mainly hot metallurgical slags, and slags that are at the stage of incomplete oxidation-reduction agglomeration processes, which contains a supporting support on which a receiving hopper is mounted, a vibrating drum, which consists of several located one under the sieve, a rectilinear inclined chute for the over-sieve product of the coarse fraction with an electromagnetic iron separator installed above it, rectilinear inclined chutes for the under-sieve products of medium and small fractions, and vehicles for processed slag, according to the useful model, the line contains additional flow lines of deep processing of fine and medium fractions, while the additional flow line of the in-depth processing of the fine fraction consists of a layer-by-layer flow former of the fine fraction, a block of drum magnetic separators, vibratory feeders, a transmission conv installed in the technological sequence eer and rumble under the iron-containing product from drum magnetic separators. At the same time, the additional flow line of the in-depth processing of the medium fraction consists of the following technological sequence: a hammer crusher, a rumble with a distributor of the over-sieve product flow, belt conveyors with suspended electromagnetic iron separators.

According to the useful model, the working surfaces of the block of magnetic separators are placed in one plane.

According to a useful model, pulley and belt iron separators are used as electromagnetic iron separators.

Due to the fact that the flow line for the processing of independent metallurgical slags is equipped with additional flow lines for in-depth processing of small and medium fractions, while the additional flow line for in-depth processing of fine fractions consists of bo established in the technological sequence of the shaper of layered flows of fine fractions,

a block of drum magnetic separators, vibratory feeders, a transfer conveyor and a rumble for iron-containing product from drum magnetic separators, and an additional flow line for in-depth processing of the medium fraction consists of the following technological sequence: a hammer crusher, a rumble with a distributor of the over-sieve product flow and belt conveyors with suspended electromagnetic iron separators , the mode of in-depth processing of small and medium fractions of metallurgical slag has been achieved, which ensures the most complete extraction of iron-containing inclusions and obtaining marketable products of small and medium fractions with the lowest relative content of slag and the highest content of Eeobsch.

The essence of the useful model is explained by the drawing.

The flow line for the processing of independent metallurgical slags, mainly hot metallurgical slags and slags that are at the stage of incomplete oxidation-reduction sintering processes, contains a supporting support 1, on which are mounted a receiving hopper 2, a vibrating drum 3, consisting of several sieves located one below the other, a straight line an inclined chute for the over-sieve product of the coarse fraction 4 with an electromagnetic iron separator 5 installed above it, straight inclined chutes for the under-sieve products of medium b and small 7 fractions, vehicles 8 for processed slag and additional flow lines of in-depth processing of small 9 and medium 10 fractions. At the same time, the additional flow line of the in-depth processing of the fine fraction 9 consists of the former of the layered flows of the fine fraction 11, the unit of drum magnetic separators 12, vibrating feeders 13, the transmission conveyor 14 and the rumble for the iron-containing product of the drum magnetic separators 15 installed in the technological sequence.

The additional flow line of the in-depth processing of the medium fraction 10 consists of a hammer crusher 16, a rumble with a flow distributor over the grate product 17 and belt conveyors 18 with suspended electromagnetic iron separators 19 installed in the technological sequence. The working surfaces 20 of the block of magnetic separators 12 are placed in one plane. Pulleys 5 and belt iron separators 19 are used as electromagnetic iron separators.

The specified information of the implementation of the useful model confirms the possibility of industrial use of the flow line for the processing of independent metallurgical slags, in particular

From hot metallurgical slags.

Hot metallurgical slags from the steelmaking shops enter the receiving platform of the complex with a temperature of less than 150 "С. Then the initial metallurgical slag is fed into the receiving hopper 2, from which it goes to the vibrating screen 3, which consists of several sieves located one below the other. On the screens of the vibrating screen, Z separation of the initial slag into an over-sieve product in the form of a fraction of 120-850 mm, a sub-sieve product in the form of a fraction of 20-120 mm and a sub-sieve product in the form of a fraction of 0-20 mm. Each of the specified products, respectively, falls into the directional catchers, which are made in the form of a straight-line inclined chute 4 for the over-sieve product of the coarse fraction with an electromagnetic iron-water separator 5 installed above it and rectilinear inclined chutes for the under-sieve products of medium 6 and fine fractions 7. Using a magnetic assembly in the form of a pulley iron-water separator 5, which is installed in the opening of the inclined chute under the over-sieve product of the coarse fraction 4 divides the fraction 12 0-850 mm for magnetic and non-magnetic parts. These processing products are sent to the corresponding transport 8 in the form of BelAZ dump trucks and railway wagons. Metallurgical slag of the fraction 20-120 mm along the straight inclined chute 6 under the sub-sieve products of the medium fraction goes to the additional line of in-depth processing of the slag of the medium fraction 10. Metallurgical slag of the fraction 20-120 mm after mechanical processing in the hammer crusher 16 with the help of a rumble with the distributor of the flow of the super-sieve product 17 is freed from slag crushed non-magnetic particles (below the sieve product) by discharging them into the corresponding storage hopper 21, and the iron-containing part of the fraction (above the sieve product) is subjected to magnetic separation by suspended iron separators 19 and with the help of belt conveyors 18 is discharged into the corresponding storage hopper 21, and from there into vehicles 8, as a finished iron-containing commodity product, for repeated metallurgical redistribution.

Metallurgical slag of the fine fraction 0-20 mm along the rectilinear inclined chute 7 under the sieve products of the fine fraction goes to the additional line of in-depth processing of the fine fraction 9. The slag of the fraction 0-20 mm is fed to the block of drum magnetic separators 12, which separate the non-magnetic part into the corresponding storage hopper 21, and the magnetic part is fed by the transfer conveyor 14 to the iron-containing product drum magnetic separators 15. means for repeated metallurgical redistribution.

Claims (2)

USEFUL MODEL FORMULA 1. A flow line for the processing of independent metallurgical slags, mainly metallurgical slags that are at the stage of incomplete oxidation-reduction sintering processes, containing a supporting support on which a receiving hopper, a vibrohammer consisting of several sieves located one below the other, a straight inclined chute are mounted for the over-sieve product of the coarse fraction with an electromagnetic iron separator installed above it, rectilinear inclined chutes for the under-sieve products of medium and fine fractions and vehicles for processed slag, which is distinguished by the fact that it contains additional flow lines of in-depth processing of small and medium fractions, and an additional flow line of in-depth processing processing of the fine fraction consists of a layer-by-layer flow former of the fine fraction, a block of drum magnetic separators, vibratory feeders, a transfer conveyor and a rumble for the iron-containing product from drum magnetic separators installed in the technological sequence evaporators, and the additional flow line for in-depth processing of the medium fraction consists of a hammer crusher installed in the technological sequence, a rumble with a distributor of the over-sieve product flow, and belt conveyors with suspended electromagnetic iron separators. 2. The flow line according to claim 71, which differs in that the working surfaces of the block of magnetic separators are placed in one plane. Q. The flow line according to claim 1 or claim 2, which differs in that pulley and belt iron separators are used as electromagnetic iron separators. n M , ; And blowing dor Kmin nannnnn --i in be zh che sashe y t ia sch b Her E sch I s . o che U : s : g ukh, ko shk 2--Zch i E : yak i shk Sh y sho lyny i nye an du yuri r g m ny ny a o Ah ZhK kt tv. : h gne same pah pe h kyu» she son | still shen : I SHK z i, and kh y N OON х х Э ЯZ іt k.Ж ko ren peky nyn yak ke : y І І za za Н Н Н : і і I'm still a student y 4. yes ГЯе 0. and ! ee shk s lyakhy schu yan o aa shi Z r s KI dy shi kt vish what i sv lLye sht J myshi V. Kk yuyu ik shi What u KY . Shk Yaeiy