UA142272U - DOMAIN SLAG PROCESSING LINE - Google Patents

Abstract

The production line for blast furnace slag processing contains a vertical bearing support, a receiving hopper installed in the technological sequence, a blast furnace slag separator for industrial products of large and medium fractions, a complex for processing large product fraction of industrial products, consisting of interconnected appropriate means for transporting iron. products and non-magnetic industrial products of substandard fraction, main and additional electromagnetic pulley iron separators and crushers, the complex for processing the middle product industrial product consists of interconnected appropriate means for transporting iron-containing commodity product of the middle fraction, block electromagnetic drum separators and separators. The complex for processing the middle product industrial product is equipped with a two-tiered screen under the non-magnetic industrial product from the block of electromagnetic drum separators, electromagnetic pulley iron separator under the super-large non-magnetic non-magnetic industrial product of the middle fraction and means for transporting pure slag of conditioned fractions connected to the corresponding storage hoppers, while the complex for processing of large fraction is made in a closed system, in which the final means for transporting nonmagnetic intermediate product of substandard fraction from the output of additional pulley for slag processing.

Description

A useful model belongs to ferrous metallurgy, in particular to the processing of blast furnace metallurgical slags.

The problem of blast furnace slag processing is relevant for the metallurgical industry, as it is connected with the possibility of extracting cheaper metal and other useful inclusions with the release of land areas occupied by dumps.

A well-known flow line for the processing of waste metallurgical slags according to the Ukrainian utility model patent Mo 49364, IPC (2009) C228 7/04, dated 11/17/2009, published on 04/26/2010, Bull. Mo 8, which contains a receiving hopper, a separator for industrial products of a large and medium fraction, receiving conveyors, a screen, an electromagnetic pulley iron separator, an electromagnetic drum separator, a screen, a crusher, receiving conveyors for iron-containing commercial products of medium and small fraction and for clean slags of substandard fractions, storage bunkers and vehicles.

In contrast to the declared useful model, the non-magnetic industrial product of the large fraction is removed from the technological process, and the industrial product of the medium fraction is subjected to mechanical processing in a centrifugal crusher with subsequent electromagnetic separation and the selection of an iron-containing commercial product. After that, the magnetic processing of the small fraction of industrial product separated from the medium fraction by drum separators became the most effective and sufficient for increasing the iron content in the marketable product.

The closest analogue to the declared utility model in terms of the set of features and the expected technical result is the flow line for blast furnace slag processing according to utility model patent Me50239 dated 12.25.2009, published on 05.25.2010, bull. Mo 10, which contains a vertical supporting support, is installed in a technological sequence one under the other receiving hopper, separator of blast furnace slag into industrial products of large and medium fraction, a complex for processing of industrial product of large fraction, consisting of interconnected appropriate means for transporting iron-containing commodity products and of non-magnetic industrial products of the substandard fraction of the main and additional electromagnetic pulley iron separators and crushers, a complex for the processing of an industrial product of the medium fraction, consisting of interconnected appropriate means for transporting iron-containing commodity products of the medium fraction, a block of electromagnetic drum

From separators and storage hoppers for appropriate iron-containing commodity products.

A general drawback is that in the above blast furnace slag processing flow lines, the received non-magnetic industrial product of a large fraction is removed from the technological process of processing. Due to its properties, the specified non-magnetic industrial product does not meet the requirements

DSTU B B.2.7-35-95 "Construction materials. Crushed stone, sand and crushed stone-sand mixture from blast furnace and steelmaking slags for general construction works. General technical conditions", according to which clean slag should not contain iron particles larger than 5 mm and have the corresponding conditioning fraction. Therefore, it was not widely used in certain branches of construction, in particular in civil construction. As a result, the non-magnetic industrial product is classified as processing waste and dumped in landfills, thus polluting the ecology of the environment and occupying useful land areas. As a result, the complete processing of slag is not ensured, which leads to the loss of metal contained in the cores of the non-magnetic industrial product of blast furnace or steelmaking slag of large fraction.

The useful model is based on the task of improving the flow line for blast furnace slag processing by changing the features of the flow line aggregation, creating optimal conditions for blast furnace slag processing, under which the efficiency of the magnetic susceptibility of iron-containing inclusions in the blast furnace slag increases and, due to this, to achieve complete metal extraction from blast furnace slag and provide waste-free processing technology to obtain iron-containing commodity products effective for use in the process of metallurgical redistribution and clean conditioned slags for wide use in all industries.

According to the useful model, the flow line for the processing of blast furnace slag contains a vertical supporting support, a receiving hopper installed one under the other in a technological sequence, a blast furnace slag separator into industrial products of a large and medium fraction, a complex for processing industrial products of a large fraction, consisting of interconnected appropriate means for the transportation of ferrous commercial products and non-magnetic industrial products of non-conditional fraction, the main and additional electromagnetic pulley iron separators and crushers, a complex for the processing of industrial products of the medium fraction consisting of interconnected appropriate means for transporting the ferrous commercial product of the medium fraction, a block of electromagnetic drum separators and storage hoppers for the corresponding iron-containing commodity products, according to the useful model, the complex for the processing of the industrial product of the medium fraction is provided with installed in the technological sequence one p with another two-tier screen for non-magnetic industrial product from a block of electromagnetic drum separators, an electromagnetic pulley iron separator for over-screening non-magnetic industrial product of medium fraction, an electromagnetic drum separator for under-screening non-magnetic industrial product of medium fraction, a screen for scattering clean slag of medium fraction and means for transporting clean slag of conditioned fractions combined with corresponding storage bunkers, while the complex for the processing of the coarse fraction is made according to a closed system, in which the final means for transporting the non-magnetic industrial product of the substandard fraction from the output of the additional pulley iron separator is connected to the receiving hopper of the flow line for slag processing.

Due to the fact that the complex for the processing of industrial products of the medium fraction is equipped with two-tier screens for non-magnetic industrial products from a block of electromagnetic drum separators, an electromagnetic pulley iron separator for the over-screen non-magnetic industrial products of the medium fraction, an electromagnetic drum separator for the under-screen non-magnetic industrial products of the medium fraction, installed in a technological sequence for scattering clean slag of the medium fraction and means for transporting clean slag of conditioned fractions connected to the corresponding storage hoppers, while the complex for processing the large fraction is made according to a closed system, in which the final means for transporting non-magnetic industrial product of the non-conditioned fraction from the output of the additional pulley iron separator is connected to the receiving hopper of the flow line for slag processing, complete extraction of metal from blast furnace slag is achieved and zero-waste technology is ensured blast furnace slag processing to obtain iron-containing commercial products effective for use in the process of metallurgical redistribution and clean conditioned slags for wide use in all industries.

The essence of the useful model is explained by the drawing, which shows the flow line for blast furnace slag processing.

The flow line for the processing of blast furnace slag contains a vertical supporting support 1, a reception hopper 2 installed one under the other in a technological sequence, a blast furnace slag separator C into industrial products of a large and medium fraction, a complex for processing industrial products of a large fraction, which consists of interconnected appropriate means for transportation of ferrous commodity products and non-magnetic industrial products of substandard fraction, the main 4 and additional 5 electromagnetic pulley iron separators and crusher 6. At the same time, the means for transporting the ferrous commodity product of large fraction from the outlet of the main electromagnetic pulley iron separator 4 is made in the form of a chute 7. As a means for transporting non-magnetic industrial product of a large fraction from the output of an additional electromagnetic pulley iron separator, conveyor 8 is used, under which is placed the final means of the complex for processing non-magnetic industrial product of substandard fraction in the form of forehead 9. The means for transporting the non-magnetic coarse fraction from the output of the main electromagnetic pulley iron separator 4 is made in the form of a sliding receiving doser 10 and is placed between the mentioned iron separator 4 and the crusher 6.

The means for transporting iron-containing commodity products of a large fraction from the output of the additional electromagnetic pulley iron separator is made in the form of chute 11. As a means of transporting iron-containing commodity products from chutes 7 and 11 and non-magnetic industrial products of substandard fraction, ground vehicles, in particular dump trucks 12, are used.

The flow line for the processing of blast furnace slags also contains a complex for the processing of the industrial product of the medium fraction, which consists of a block of electromagnetic drum separators 14 placed under the separator C with guides 13, the outlet of which for the iron-containing commodity product of the medium fraction is connected to the storage hopper 15 by a means for transporting the mentioned commodity product in the form of a pipe conveyor 16.

The output of the block of electromagnetic drum separators for the non-magnetic industrial product of the medium fraction is connected to the two-tier screen 17 with the help of means for transporting the said industrial product in the form of a chute 18. Under the two-tier screen 17 there is a storage hopper 19 for catching the small fraction of the non-magnetic industrial product in the form of screening (0-10) mm . The means for transporting the screened product from the two-tier screen 17 is made in the form of an intermediate conveyor 20, which is connected at its exit to the electromagnetic drum separator 21. The storage hopper 15 is placed under the electromagnetic drum separator 21 with the possibility of catching from its exit the iron-containing commercial product of the medium fraction. The storage hopper 22 is placed under the electromagnetic drum separator 21 with the possibility of catching clean slag of the conditioned fraction (10-20) mm. In the technological sequence, behind the two-tier screen 17, an electromagnetic pulley iron separator 23 is installed for the overscreen product in the form of a non-magnetic industrial product of the medium fraction and a screen for dispersing clean slag of the conditioned medium fraction 24. Storage hoppers 25, 26 are placed under the screen 24.

The storage hopper 25 is placed with the possibility of catching from the screen 24 clean slag of the conditioned fraction (20,...40) mm. The storage hopper 26 is placed with the possibility of catching from the screen 24 clean slag of the conditioned medium fraction (40...70) mm. The means for transporting the ferrous product from the electromagnetic pulley iron separator 23 to the storage hopper 15 is made in the form of a chute 27. As a means for transporting the initial blast furnace slag, non-magnetic industrial product of the unconditioned fraction to the hopper 2, clean slags of the conditioned fraction and iron-containing commercial products from the storage tanks 15, 19, 22, 25, 26, the consumer uses dump trucks 12.

When creating a complex for the processing of a large fraction in a closed system, it is possible to connect 28 of the end chute 9 with the bunker 2 using a means of transportation in the form of a car or conveyor.

Information that confirms the possibility of industrial use of the flow line for blast furnace slag processing.

The proposed technology involves the processing of blast furnace slag with a size of no more than 500 mm, which is stored behind a vertical supporting support 1, which is fed to the receiving hopper 2 by dump trucks 12 (see drawing). With the help of blast furnace slag separator Z in the form of a grating vibrating feeder placed under receiving hopper 2, blast furnace slag is separated into industrial products of the large fraction of blast furnace slag (70...500) mm and the medium fraction (0...70) mm. In the process of separation of blast furnace slag, industrial product of medium fraction (0...70) mm is fed through guides 13 to the block of electromagnetic drum separators 14, complex of processing of industrial product of medium fraction. The industrial product of the coarse fraction (70...500) mm falling on the main electromagnetic pulley iron separator 4 is divided into the iron-containing commercial product of the coarse fraction and the non-magnetic industrial product of the large

From the faction. Iron-containing commercial product of a large fraction enters the chute 7 and is then transported to the consumer by dump trucks 12. The non-magnetic industrial product of the large fraction is fed through the sliding receiving doser 10 to the jaw crusher b, and then the crushed non-magnetic industrial product of the large fraction is fed to the additional electromagnetic pulley iron separator 5. After that, the iron-containing commercial product of the medium fraction separated 3 of this fraction is transported through the chute 11 and taken out by dump trucks 12 to the consumer .

The non-magnetic industrial product of the substandard fraction (0...100) mm is fed by the conveyor 8 and the chute 9 to the transport line 28, which feeds this fraction back to the receiving hopper 2 for a repeated technological process together with the new initial blast furnace slag. As a result of the processing of the industrial product of the medium fraction (0...70) mm by the block of electromagnetic drum separators 14, of the complex for the processing of the industrial product of the medium fraction, an iron-containing commercial product of the medium fraction is obtained, which is transported to the storage hopper 15 with the help of a pipe conveyor 16. Non-magnetic industrial product of the medium fraction , which is released at the same time, enters the chute 18 and is fed to the two-tier screen 17, which separates three streams: over-screen non-magnetic industrial product of the medium fraction with a size of (20...70) mm, under-screen non-magnetic industrial product of the average fraction with a size of (10...20) mm and screened in the form of pure slag of the conditioned fraction with a size of (0...)310 mm. Screening in the form of pure slag of the conditioned fraction enters the storage hopper 19.

Overscreened non-magnetic industrial product of the medium fraction with a size of (20...70) mm is fed to the electromagnetic pulley iron separator 23, which separates the overscreened magnetic product of the medium fraction and dumps it through the chute 27 into the storage hopper 15 for iron-containing commercial products. The clean conditioned slag with a size of (20...70) mm, separated from the over-sieved non-magnetic industrial product of the medium fraction from the iron separator 23, is fed to the screen 24 to disperse the clean slag of the medium fraction into clean conditioned slag with a size of (20...40) mm and (40 ...70) mm. Clean conditioned slag with a size of (20...40) mm from screen 24 is discharged into hopper 25. Clean conditioned slag with a size of (40...70) mm from screen 24 is discharged into hopper 26.

The screened non-magnetic industrial product of the medium fraction (10...20) mm from the screen 17 is fed by the intermediate conveyor 20 to the electromagnetic drum separator 21. As a result of the electromagnetic separation of the screened non-magnetic industrial product of the medium fraction (10...20) mm from the screen 17, iron-containing commercial medium fraction product, which is discharged into storage hopper 15 and clean conditioned slag with a size of (10...20) mm, which is discharged into storage hopper 22. Thus, almost complete processing of blast furnace slag into marketable products is ensured, in which waste-free processing technology is achieved with obtaining a wide range of commodity products that meet the requirements

DSTU.

Claims (1)

USEFUL MODEL FORMULA A flow line for blast furnace slag processing, which contains a vertical supporting support, a receiving hopper installed in a technological sequence one below the other, a blast furnace slag separator into industrial products of large and medium fractions, a complex for processing industrial products of large fraction, consisting of interconnected corresponding means for transporting iron-containing commercial products and non-magnetic industrial products of non-standard fraction, main and additional electromagnetic pulley iron separators and crushers, a complex for processing industrial products of medium fraction consists of interconnected appropriate means for transporting iron-containing commercial products of medium fraction, a block of electromagnetic drum separators and storage bunkers under corresponding iron-containing commercial products, which is distinguished by the fact that the complex for the processing of industrial products of the medium fraction is equipped with installed in the technological sequence one under one double-tier screen for non-magnetic industrial product from a block of electromagnetic drum separators, an electromagnetic pulley iron separator for over-screening non-magnetic industrial product of medium fraction, an electromagnetic drum separator for under-screening non-magnetic industrial product of medium fraction, a screen for scattering clean slag of medium fraction and means for transporting clean slag of conditioned fractions, combined with corresponding storage bunkers, while the complex for the processing of the large fraction is made according to a closed system, in which the final means for transporting the non-magnetic industrial product of the substandard fraction from the output of the additional / pulley iron separator is connected to the receiving hopper of the flow line for slag processing. : Anna FK U - : Y : g ; ho dol UK U Keu a: yah zav CHE Y x i 0 OJUM yayu . and. y : STV, gy Sho S ra i y : m I o s Net ХХ y Z Н N : K v vo cht h h У я -e lehchnyaikokyi - х N Cat M Bi ZI KY o M, y, shnek ZE mn ny rea ON nnia sho shi 7 - ne sya yavy KK y ke Zh -- y x: Ki y i y ri x H ; pu 1 i KYY Yaoya i U OV i Kofa v venya na ya glo cha Shu shu GI zh st y Be y y ka VI EE 7 I a KK x Tu y Y KM oi x7 X y ud SHE i Bey ss y in kt Sh E; | Kk t g I» She is vk E and is N S ne ch pet she Jele J she y s Me s nie: NI zh o y