KR101598448B1 - Slag treating apparatus - Google Patents

Abstract

One embodiment of the present invention provides a slag treatment apparatus improved in structure to separate powdered slag in a process of storing slag scattered in a cooling field or the like for crushing and crushing. In the slag treatment apparatus according to one aspect of the present invention, A storage hopper for storing and supplying slag; A crushing unit for crushing and supplying the slag to a predetermined size; A crushing unit for crushing the slag supplied from the crushing unit; And a powder slag processing unit provided between the storage hopper and the crushing unit for separating and processing the powder slag in the slag supplied from the storage hopper, A second separator for separating slag in a second grain size range from the slag separated and supplied from the first separator and supplying the separated slag to the crusher, 2 slag separating and supplying unit for separating and supplying the slag separated from the slag by water treatment and separating the slag having a particle size of 0.2 to 40 mm into the crushing unit and separating the slag having a particle size of less than 0.2 And supplied to the water treatment section.

Description

[0001] SLAG TREATING APPARATUS [0002]

The present invention relates to a slag treatment apparatus for treating slag generated in a steelmaking process, and more particularly, to a slag treatment apparatus capable of initially separating powdered slag during slag treatment to reduce the generation of scattered dust .

Generally, slag is a kind of mineral deposit, which is produced as a by-product in various metal working processes such as smelting and steelmaking to remove metal and ore impurities. Slag prevents the metal surface from being oxidized by the air in the state where the metal or ore dissolves, and protects the surface of the metal.

When the slag is cooled, mixed oxides of elements such as silicon, sulfur, phosphorus, and aluminum are fused with limestone and the like to form a thick lump.

Conventionally, when slag is generated, it is mainly disposed of through disposal. Recently, however, the slag which has been simply disposed of is recycled due to cost reduction or the like. For this purpose, it is necessary to dissolve the solidified slag in a solid state and remove the impurities. The high-quality slag after the impurity removal process is used for various purposes in various fields such as concrete, pavement, and fertilizer.

Conventionally, the slag generated in the steel making process is collected, crushed to a predetermined size after primary crushing and secondary crushing, and classified according to the particle size.

However, in the conventional slag processing apparatus, a large amount of scattering dust is generated due to the crushing and crushing of the slag, or the powder slag contained in the slag when moving the slag. Accordingly, not only the working environment is deteriorated but also the crushing and crushing apparatus Can be easily broken, and accordingly, frequent maintenance is required, which causes deterioration of the overall productivity.

An object of the present invention is to provide a slag treatment apparatus improved in structure to separate powdered slag in a process of storing slag scattered in a cooling field or the like for crushing and crushing.

A slag treatment apparatus according to one aspect of the present invention includes: a storage hopper for storing and supplying slag; A crushing unit for crushing and supplying the slag to a predetermined size; A crushing unit for crushing the slag supplied from the crushing unit; And a powder slag processing unit provided between the storage hopper and the crushing unit for separating and processing the powder slag in the slag supplied from the storage hopper, A second separator for separating slag in a second grain size range from the slag separated and supplied from the first separator and supplying the separated slag to the crusher, 2 slag separating and supplying unit for separating and supplying the slag separated from the slag by water treatment and separating the slag having a particle size of 0.2 to 40 mm into the crushing unit and separating the slag having a particle size of less than 0.2 And supplied to the water treatment section.

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In addition, the first separator may separate slag having a particle size of more than 40 mm and supply the slag to the crusher.

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The apparatus may further include a third separator provided between the second separator and the crusher for re-separating the powder slag having a diameter of less than 0.2 mm and supplying the separated powder slag to the water treatment unit.

Also, the crushing unit may include at least one sorting unit for sorting the crushed slag according to particle size.

And a water separator for separating the powdered slag separated from the sorting unit by water treatment.

The apparatus may further include a central precipitator in which the powdered slag water-treated in the powdered slag treatment unit and the powdered slag precipitated in the water-treatment unit are collected and settled.

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According to one embodiment of the present invention, the powder slag can be separated before crushing and crushing of the slag, thereby reducing the generation of scattering dust due to powder slag in a subsequent process, thereby contributing to the improvement of the working environment, And it can contribute to improvement of durability, thereby reducing the time required for maintenance, thereby improving the overall productivity.

1 is a configuration diagram of a slag treatment apparatus according to an embodiment of the present invention;

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The shape and the size of the elements in the drawings may be exaggerated for clarity and the same elements are denoted by the same reference numerals in the drawings.

1 is a configuration diagram of a slag treatment apparatus according to an embodiment of the present invention.

Referring to FIG. 1, the slag treatment apparatus of the present embodiment may include a storage hopper 10 for storing slag generated in a steelmaking process. The storage hopper 10 can store a predetermined amount of slag after storing the slag.

The slag stored in the storage hopper 10 is mixed with a slag having a large particle size and a powder having a small particle size. The slag is supplied to the powder slag processing unit 100 and separated into slag having a large particle size, Or may be treated separately with powdered slag having a small particle size.

The powder slag processing unit 100 may be supplied with a mixture of slag and powder slag having a large particle size from the storage hopper 10, and a first separator 110 for separating the slag according to the particle size, (120). ≪ / RTI >

The first separator 110 can separate the slag of the first particle size range of the slag supplied from the storage hopper 10. For example, the first particle size range of the first separator 110 is greater than about 40 mm, and the first separator 110 separates the slag having a particle size exceeding about 40 mm, Can supply. The first separator 110 may be provided in various forms, for example, a V-screen.

In addition, the slag of about 40 mm or less in the first separator 110 may be supplied to the second separator 120 through the V screen. At this time, in the first separator 110, about 70% of the total slag supplied from the storage hopper 10 can be separated and supplied to the crusher 200.

The second separator 120 separates a slag having a second particle size range of 0.2 to 40 mm out of the slag supplied from the first separator 110 and supplies the separated slag to the crusher 200, Can be separated and supplied to the first water treatment unit 140, which is a subsequent process.

At this time, in the second separator 120, the slag supplied to the crusher 200 is separated and supplied by about 8% of the total slag supplied from the storage hopper 10, and the first water processor 140, About 22% of the total slag supplied from the storage hopper 10 can be supplied separately.

Preferably, the slag having a second particle size range, that is, a particle size of 0.2 to 40 mm, is re-separated between the second separator 120 and the crusher 200, mm may be further separated and supplied to the first water treatment unit 140 as a subsequent process.

The first water treatment section 140 is provided to water-settle the powder slag, and may comprise a first water treatment pit in which the powder slag is stored.

The first water treatment unit 140 may inject the powdered slag into the first water treatment tank in which the water is stored to prevent the powdered slag from being leaked by dust or the like.

In addition, the first water treatment unit 140 can be connected to the central sedimentation unit 700 where the whole powdered slag generated in the slag treatment apparatus collects and deposits.

On the other hand, the crushing unit 200 can separate the supplied slag from the powder slag processing unit 100 and crush the slag to a predetermined size to supply the crushed slag to a subsequent process.

The crushing unit 200 may be divided into a primary crushing unit 210 and a secondary crushing unit 220 according to the particle size of the supplied slag. The crusher 200 may include a jaw crusher.

In addition, the slag crushed through the primary crushing unit 210 and the secondary crushing unit 220 may be supplied to the crushing unit 300 and crushed to a predetermined size.

Also, in this embodiment, the crushing unit 300 to which the crushed slag is supplied in the crushing unit 200 after being separated from the powdered slag in the powdered slag processing unit 100 is provided to crush the slag into a predetermined particle size. And may include a rod mill.

The crushing unit 300 can crush about 45 tons of slag per hour. On the other hand, the crushing performance and installation number of the crushing unit 300 are not limited and can be variously changed depending on the supply amount and the like.

Also, the crushing unit 300 may include at least one sorting unit for sorting the slag according to particle size. In addition, it may further include a sorting section water treatment tank provided in each sorting section to precipitate the powder slag by water treatment.

For example, the slag supplied from the crushing unit 300 may be supplied to the first sorting unit 400, that is, the wheat sorting unit. The first sorting unit 400 may include a fourth sorting unit 410 and a fifth sorting unit 420, a sixth sorting unit 430 and a sorting unit water treatment group, that is, a second water treatment unit 440. have.

The fourth separator 410 may include a V screen and the fourth separator 410 may separate the slag having a particle size exceeding about 7 mm among the slag supplied from the crusher 300.

The slag separated from the fourth separator 410 may be utilized for milling now and may be supplied to the wheat storage unit 450 for this purpose. At this time, the mill may be about 2.2% of the total slag supplied from the mill 300.

On the other hand, the slag of about 7 mm or less separated from the fourth separator 410 is supplied to the fifth separator 420, and the slag of less than 0.2 mm can be water-treated and precipitated in the second water treatment tank. At this time, the slag settled in the second water treatment tank may be about 14% of the total slag supplied from the crushing unit 300.

Meanwhile, the fifth separator 420 may supply the slag having a particle size of 7 mm or less to the sixth separator 430, and the slag having a particle size of 0.2 to 7 mm among the slag may be supplied to the second separator.

At this time, the slag supplied to the sixth separator 430 may be about 65% of the total slag supplied from the crusher 300.

If the slag supplied to the sixth separator 430 has a particle size of less than 0.2 mm, the slag may be supplied to the fifth separator 420 again. At this time, the slag having a particle size of less than 0.2 mm may be re-separated in the fifth separator 420, and may be water-treated and precipitated in the second water treatment part 440.

Thus, the slag that has passed through the sixth separator 430 can be supplied to the second separator 500.

The second separator 500 may include a jigger facility. The slag separated from the digester may be supplied to the seventh separator 510 to be separated according to the size of the granular material, (Spigot) can now be utilized, and for this, it can be fed to the finger / spigot now store 530.

In addition, the slag of less than about 0.2 mm separated from the seventh separator 510 may be water-treated and precipitated in the third water treatment unit 520.

On the other hand, the second separator 500 can separate the slag that has not been separated by the seventh separator 510 by using the charger 600.

The charger 600 can separate the slag into iron-based slag and non-ferrous slag using magnetic force.

The nonferrous slag separated by the charger 600 is separated from the slag having a particle size of less than 0.2 mm in the eighth separator 610 and can be water-treated and precipitated in the fourth water treatment part 620.

The slag having a particle size of less than 3 mm among the non-ferrous slag separated by the charger 600 is supplied again to the eighth separator 610 from the ninth separator 630 and re-separated therefrom, Can be precipitated in the treatment section 620. In addition, the remaining slag of the non-ferrous slag may be separated and supplied to a sand silo 640. The slag stored in the sand storage unit 640 is slag not containing heavy metals and can be utilized as sand in the construction field.

On the other hand, the iron-based slag separated from the charger 600 can be separated from the tenth separator 650 by a charger having a predetermined particle size. The charity can now be supplied to the charity storage 660 now.

In the tenth separator 650, the remaining slag that has not been separated by the charity now, that is, the powder slag having a particle size of less than about 0.2 mm, may be supplied to another water treatment tank to be water treated and precipitated. Here, the water treatment baths are separately described as being separately provided, but it is also possible to use water treatment baths in common.

For example, the powder slag separated from the tenth separator 650 may be supplied to the fourth water treatment unit 620 associated with the fifth water treatment tank or the eighth separator 610.

The powder slag settled in each of the selective water treatment tanks, that is, the second water treatment tank 440, the third water treatment unit 520 and the fourth water treatment unit 620, is supplied to the central sedimentation unit 700, Can be precipitated.

The slag treatment method according to the present embodiment will be described as follows.

First, the slag treatment method of the present embodiment may include a supply step of supplying slag generated in a steelmaking process or the like.

The steelmaking process is a process for manufacturing steel, in which slag, which is a byproduct, is generated. Such slag may be discharged from a blast furnace or the like and then cooled to a cooling field or the like.

Next, the slag scattered in the cooling zone can be supplied to the storage hopper 10 by a dispensing facility or the like.

The slag stored in the storage hopper 10 in the supplying step is supplied as needed, and the separation step of separating the powder slag from the supplied slag may be performed.

In the separation step, the slag supplied from the storage hopper 10 is supplied to the powder slag treatment section 100.

For this purpose, the separating step includes a first separating step of separating and supplying the slag having a particle size of more than 40 mm to the crushing step, a second separating step of separating and supplying the slag having a particle size of 0.2 to 40 mm to the crushing step, And a third separating step of separating and supplying the slag having a particle size of less than 0.2 to the precipitation step.

That is, in the first separating step, slag having a predetermined particle size, that is, exceeding 40 mm may be separated and supplied to the crushing unit 200. In the second separation step, the slag having a particle size of 0.2 to 40 mm may be separated and supplied between the crushing unit 200 and the separating unit 300, and thus mixed with the slag separated from the crushing unit 200 And may be supplied to the separation unit 300. In the third separation step, the slag having a particle size of less than 0.2 may be separated and separated into the first sedimentation part 140.

In the precipitation step, the powder slag having a particle size of less than 0.2, which has been separated in the third separation step, can be water-treated and precipitated in a water treatment tank.

On the other hand, the slag from which the powder slag is separated in the separation step can be crushed and crushed to a predetermined particle size through the crushing step and the crushing step.

Also, the slag crushed to a constant grain size in the crushing stage, now fed into the sorting stage and milled according to grain size, now can be separated into spigot now, charity now.

As described above, the slag treatment method of the present embodiment can reduce dust generated in the crushing and crushing process of slag by separating the powder slag in advance before crushing and crushing the slag.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. It will be clear to those who have knowledge.

10: Storage hopper 100: Powder slag treatment part
110: first separator 120: second separator
130: third separator 200: crusher
300: crushing part 700: central sedimentation part

Claims (10)

A storage hopper for storing and supplying slag; A crushing unit for crushing and supplying the slag to a predetermined size; A crushing unit for crushing the slag supplied from the crushing unit; And a powder slag processing unit provided between the storage hopper and the crushing unit to separate and process the powder slag in the slag supplied from the storage hopper,
The powder slag treatment section
A first separator for separating slag in a first grain size range of the slag supplied from the storage hopper and supplying the slag to the crusher,
A second separator for separating and supplying the slag in the second grain size range among the slag separated and supplied from the first separator to the crusher,
And a water treatment unit for water-treating and precipitating the slag separated and supplied from the second separation unit,
Wherein the second separator separates the slag having a size of 0.2 to 40 mm in size and supplies the slag to the crusher and separates slag having a particle size of less than 0.2 and supplies the separated slag to the water treatment unit. delete The method according to claim 1,
Wherein the first separator separates slag having a particle size of more than 40 mm and supplies the separated slag to the crusher. delete The method according to claim 1,
And a third separator provided between the second separator and the crusher to re-separate powdered slag having a diameter of less than 0.2 mm and supply the separated powder to the water treatment unit. The method according to claim 1 or 3,
Wherein the crushing unit includes at least one sorting unit for crushing the crushed slag according to particle size. The method of claim 6,
Further comprising a water separator for separating the powdered slag separated from the sorting portion by water treatment. The method of claim 7,
Further comprising a central settling section in which the powdered slag water-treated in the powdered slag processing section and the powdered slag settled in the water-separating treatment section are collected and settled. delete delete

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