KR101362724B1 - Apparatus for byproduct and the method thereof - Google Patents

Abstract

The present invention relates to an apparatus for treating byproducts, which is disposed between a holder installed on an upper portion of a reservoir into which a byproduct is charged and an upper portion of the holder, and provided between the holder and the holder for forming a movement path through which the byproduct moves. And a control unit for controlling the operation of the elevator and the elevator to repeatedly move the injection unit in the vertical direction, so that the injection unit forming the movement path of the by-product in the process of injecting the molten by-product into the reservoir moves in the vertical direction. The by-products can be prevented from being fused to the phase, and the fusion of the by-products can be prevented to improve the efficiency of the process equipment.

Description

By-product treatment device and by-product treatment method {Apparatus for byproduct and the method

The present invention relates to a by-product treatment apparatus and a by-product treatment method, and more particularly, to a by-product treatment apparatus and a by-product treatment method that can suppress the adhesion of the slag to the equipment in the process of processing the slag in the molten state.

In general, a converter facility is a steelmaking facility for refining pig iron made from blast furnaces, and is injected with molten iron made from the blast furnace, and blows the oxidized gas such as oxygen into the injected molten iron. It is a facility that produces high quality molten steel by oxidizing and removing impurities contained in a short time. The steelmaking process using the same consists of a preparatory work of putting raw materials into a furnace, a blowing process of blowing oxygen, a removal operation of removing impurities such as slag generated by the tapping process and the blowing process.

The slag excreted as described above is a molten slag at about 1400-1500 ° C., typically dumped in a yard, and then cooled by being left in the air for a predetermined time with a large amount of waterproofing. The cooled slag is solidified in the form of agglomerate, and the solidified slag is transferred to a separate processing space and crushed by a large equipment to recover now (iron), separated by size, recycled part of it, and the rest is almost landfilled. Is processed. Such slag treatment requires long-term treatment time along with the problem of treating the coolant used for cooling the slag, and requires expensive equipment and recovery costs because it moves through a pulverizer, a magnetic conveyor, and a separator. have. In order to solve such a problem, in recent years, the facility which can process a high temperature molten slag rapidly is used.

Slag rapid treatment equipment is a device for processing the slag by receiving the molten slag charged in the slag port containing the slag in the cooling vessel, a hopper is formed between the slag port and the cooling vessel to form a movement path for the molten slag moves. The slag rapid treatment equipment is supplied with hot molten slag through a hopper, and mechanically cooled, pulverized and solidified, and the iron generated after the treatment is recovered and reused separately, and the separated slag is recyclable. . Thus, the economic and working environment efficiency due to the efficient treatment of converter slag can be improved.

However, while the slag is injected into the slag rapid treatment facility, a problem occurs that the molten slag solidifies due to the slag temperature to be melted on the movement path to which the slag moves, thereby blocking the movement path of the hopper.

Thus, in the related art, the worker directly removes the accumulated slag by using a crusher such as an electric breaker, or removes the accumulated slag by crushing the excavator with the hopper removed. However, when an operator directly removes high-temperature accumulated slag by using an electric breaker, a worker's hazard due to high heat is generated. And, in the case of crushing the accumulated slag using a crusher such as an excavator, the impact generated during the operation of the excavator caused deformation and breakage of the receiving hopper, resulting in shortening the life of the receiving hopper, maintenance of the receiving hopper And effort is consumed, and maintenance costs are required. In addition, the maintenance of the process is interrupted, the problem occurs that the efficiency of the process equipment.

KR 2001-0036861 A1

The present invention provides a by-product treatment apparatus and by-product treatment method that can be prevented from adhering to the slag facility.

The present invention provides a by-product treatment apparatus and by-product treatment method that can suppress the occurrence of safety accidents, and improve the efficiency of the process equipment.

The by-product processing apparatus according to an embodiment of the present invention, the cradle is installed on the upper portion of the reservoir in which the by-product is charged, the injection portion disposed on the upper portion of the cradle, to form a movement path to move the by-product, the cradle and It is provided between the injection portion, and includes a control unit for controlling the operation of the elevator and the elevator to repeatedly move the injection unit in the vertical direction.

It may include a cooling water supply means for injecting the cooling water to the injection unit.

The cradle may be spaced apart from the upper portion of the reservoir, and a lift may be provided on each cradle.

An upper portion of the injection portion may be provided with a stopper for limiting the moving distance of the injection portion.

The method of treating a by-product in a molten state includes preparing a by-product and injecting the by-product into a reservoir, and injecting the by-product into a reservoir in an up-down direction to form an injection path of the by-product. Vibrate

In the process of injecting the by-product into the reservoir may be sprayed with cooling water.

When vibrating the injection portion in the vertical direction, the striking means may strike the injection portion to enhance the vibration.

When the injection unit is vibrated in the vertical direction, the injection unit may collide with a stopper provided on the injection unit to enhance vibration.

When vibrating the injection portion in the vertical direction, the size of the vibration may be changed by adjusting the moving distance of the injection portion.

According to the by-product treatment apparatus and the by-product treatment method according to an embodiment of the present invention, it is possible to suppress the slag in the molten state to be solidified and fused on the movement path by vibrating the hopper to which the slag is injected.

By cooling the slag by spraying cooling water on the slag injected into the hopper, the phenomenon of slag fusion to the hopper can be suppressed. Therefore, the process equipment is not required due to the maintenance of the hopper, so that the efficiency of the process equipment can be increased.

In addition, since existing facilities can be easily changed and used, it is possible to reduce facility costs due to the construction of new facilities.

1 is a view showing a by-product treatment apparatus according to an embodiment of the present invention.
FIG. 2 is an enlarged perspective view of portion A of FIG. 1;
Figure 3 is a front view of Figure 2;
4 is a view showing the operating state of the by-product treatment apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Wherein like reference numerals refer to like elements throughout.

The by-product processing device is a device for suppressing the melting of the by-products or raw materials of the molten state on the transport path formed between the feeder and the reservoir when charging the by-products or raw materials from the feeder to the reservoir.

At this time, in the embodiment of the present invention can be implemented using a fast slag treatment apparatus for processing slag in the molten state. At this time, the feeder may be a slag port, the reservoir may be a cooling vessel.

1 is a view showing a by-product treatment apparatus according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing an enlarged portion A of Figure 1, Figure 3 is a combined perspective view of FIG.

Referring to Figure 1, the by-product processing device 1 is disposed on the cradle 100, the cradle 100 is installed on the upper portion of the cooling vessel 150, the injection portion for forming a movement path to move the slag ( 300, provided between the cradle 100 and the injection unit 300, and includes a control unit (not shown) for controlling the operation of the elevator 500 and the elevator 500 for moving the injection unit 300 in the vertical direction do.

The cradle 100 is formed in the shape of a bar having a rectangular cross section and is installed on the cooling vessel. At this time, the cradle 100 is to install the injection portion for injecting the slag into the cooling vessel 150, it may be installed so that the charging port of the cooling vessel 150 is exposed. For example, as shown in FIG. 2, a pair of cradles 100 may be spaced apart from the upper portion of the cooling vessel 150. The cradle 100 installed as described above may be disposed at a position higher or lower than the upper end of the cooling vessel 150. In addition, the holder 100 may be formed in a rectangular frame shape, in this case, the holder 100 is preferably formed in a range that does not interfere with the rotating cooling container 150.

The injection unit 300 is mounted on the elevator 500, and the support frame 310 is formed to stably support the hopper 330 on the elevator 500, and the hopper 330 which forms a movement path of the slag. And a pair of moving bars 350 provided on the outer surface of the hopper 330.

The support frame 310 is formed below the hopper 330 and contacts the upper surface of the elevator 500. The support frame 310 may be formed in a rectangular cross-sectional shape so that the injection unit 300 can be stably mounted on the elevator 500. However, the present invention is not limited thereto and may be changed by the upper cross-sectional shape of the elevator 500.

The hopper 330 is a container in which a space is formed inside so that the by-products can be stored. The hopper 330 may be formed in a cylindrical shape in which upper and lower portions are opened and passages become narrower from top to bottom. The hopper 330 has an inlet 333 that receives the slag from the slag port 50 is formed in the upper side in communication with the inner space, the outlet 335 for discharging the introduced slag to the cooling vessel 150. Is formed in communication with the inner space on the lower side. Hopper 330 is easily mounted and detached to the by-product processing device (1). At this time, the outlet 515 of the hopper 330 is disposed so that at least a portion of the hopper 330 is located inside the cooling vessel 150 for receiving the slag.

The moving bar 350 is provided to move the hopper 330, and may be connected to a moving means (not shown) provided at an upper side of the hopper 330 when the hopper 330 is mounted and removed.

Elevator 500 is fixed to the upper portion of the cradle 100, serves to generate a vibration in the injection portion 300 is mounted on the elevator (500). The elevator 500 includes a body 503 disposed on the cradle 100 and a drive shaft 505 coupled to the body 503 to move up and down. At this time, the elevator 500 is provided on the upper portion of the plurality of cradle 100 is spaced apart from each other on the upper portion of the cooling vessel 150, respectively. In this case, a connection bar 510 connecting the elevators 500 to each other may be provided between the elevators 500 spaced apart from each other. The connection bar 510 may serve to guide the plurality of elevators 500 disposed on the cradle 100 so as to be repeatedly connected to each other in the same vertical direction.

The body 503 is fixed to the upper portion of the cradle 100, the drive shaft 505 is mounted on the upper portion of the body 503.

The drive shaft 505 is formed to extend a predetermined length in the vertical direction, it is provided with a plurality for mounting the injection portion 300 on the top. The drive shaft 505 moves up and down by moving a predetermined distance in the up and down direction, and thus the injection part 300 mounted on the top of the drive shaft 505 also moves up and down. In this case, the plate-shaped plate may be provided on the driving side 505 to support the injection part 300 to support the injection part 300.

The elevator 500 formed as described above may generate vibrations in the injection part 300 by using a device that repeatedly generates movements in a vertical direction such as a vibrator, an oscillator, and the like.

For example, in the present invention, the oscillator used to repeatedly move up and down by the elevator 500 is used. Accordingly, the oscillator contracts and stretches at regular intervals and moves up and down by supplying energy maintaining a constant amplitude to the oscillator generating vibrations by oscillation. The injection unit 300 is mounted on the elevator 500 operating as described above, and the injection unit 300 also moves in the same direction according to the moving direction of the elevator 500. As a result, vibration is generated in the injection part 300 during the lifting and lowering movement by the load of the injection part 300, and the molten slag is suppressed from being fused by the vibration. In addition, when the elevator 500 is vibrated in the vertical direction, at least a portion of the injection unit 300 is formed to collide with a stopper (not shown) provided on the injection unit 300 to receive the injection unit 300. Can enhance vibration. At this time, it is preferable that the force of the hitting and colliding force given by the elevator 500 to the hopper 330 is such that the hopper 330 does not break away from the by-product processing apparatus 1 and is not broken by the hitting and impacting.

The control unit is provided to control the operation of the elevator 500 when the slag flows into the injection unit 300. The control unit adjusts the moving distance of the drive shaft 505 of the elevator 500 rising and falling to a predetermined width to strengthen the vibration and collision to the injection unit 300, and enhances the vibration force generated in the injection unit 300 You can. That is, when the driving shaft 505 moves up and down, the injection unit 300 moves by the increased moving distance, which is because the kinetic energy is generated in proportion to the load of the injection unit 300. The force of vibration generated at 300 is enhanced.

In the present invention, the injection unit 300 is mounted on the elevator 500, and the elevator and the injection unit are repeatedly moved up and down together, and it is shown that the vibration and the impact force are applied to the injection unit. However, the injection unit 300 may be vibrated. The method which exists is not limited to this. In addition, to prevent the molten slag from being fused to the injection portion 300 by using a hitting means (not shown) capable of hitting or colliding with the injection portion 300 anywhere in the outside of the injection portion 300. It may be.

The by-product treating apparatus formed as described above may be provided with a cooling water supply means capable of cooling the hot by-product before charging it into the cooling vessel.

Cooling water supply means 400 is a means for supplying the cooling water into the injection portion 300, by spraying a high-pressure cooling water to the slag in the molten state to disperse and cool the slag. Cooling water supply means 400 is disposed in the upper portion of the injection unit 300 to the cooling injection port 403 and the cooling injection port 403 for injecting the cooling water during the rapid cooling of the high-temperature by-products supplied to the injection unit 300 Cooling line 405 that forms a path for the cooling water from the coolant reservoir (not shown) for supplying the cooling water.

The cooling nozzle 403 serves to spray cooling water into the hopper 330 of the injection part 300, and in the present invention, a pair of cooling nozzles 403 are based on the inlet 333 of the hopper 330. Although spaced apart from the upper left and right, the number and arrangement position of the cooling injection hole 403 is not limited to this, and may be arranged in various locations where the cooling water can be injected to the by-products charged into the injection unit 100, the cooling injection hole The number of 403 may also be further provided.

The cooling line 405 forms a supply path for supplying the cooling water injected through the cooling injection hole 403. The cooling line 405 may be provided as many as the number of the cooling injection holes 403, and the auxiliary cooling line (not shown) is connected to the number of cooling injection holes in one cooling line 405 to supply the cooling water to each cooling injection hole. You can also supply.

The upper side of the cradle 100 formed as described above and the lower side of the elevator 500 are disposed in contact with each other, and at this time, a fixing member for fixing the elevator 500 to the contact portion of the cradle 100 and the elevator 500. C) is provided so that the holder 100 can stably support the elevator 500. In the present invention, the fixing member is not limited thereto.

In addition, in the present invention, the injection unit 300 is supported by the elevator 500, and as the elevator 500 repeatedly moves in the vertical direction, the injection unit 300 also appears to vibrate repeatedly in the vertical direction. As a method of generating vibration in the injection part 300, various methods may be used, and a device capable of generating vibration directly to the injection part 300. The injection unit 300 may not move by mounting.

Hereinafter, a by-product treatment method using the above-described by-product treatment apparatus will be described.

Figure 4 is a front view showing the operating state of the by-product treatment apparatus according to an embodiment of the present invention.

Looking at the operating state of the by-product treatment device 1, the slag introduced into the injection unit 300 from the slag port 50 is injected into the cooling vessel through the hopper 330 to form the movement path of the slag. At this time, the elevator 500 is disposed in the lower portion of the injection unit 300 to suppress the slag is fused on the movement path is operated. The elevator 500 vibrates in the up and down direction, and thus the injection unit 300 mounted on the upper part of the elevator 500 also vibrates in the up and down direction as in the movement direction of the elevator 500. At this time, the force of the vibration received by the injection unit 300 is strengthened by applying a blow to the chukka of the injection unit 300 vibrating in the vertical direction. At the same time, the cooling water is injected into the injection unit 300 through the cooling water supply unit 400 provided above the injection unit 300, which rapidly cools the hot slag in a molten state. As such, the cooled slag may move to the cooling vessel 150 without being fused inside the injection part 300 due to the vibration in the vertical direction, and thus, clogging due to fusion of the molten slag is suppressed.

As described above, according to the embodiment of the present invention, by using a by-product processing device for suppressing the fusion of by-products and raw materials in the molten state, to solve the clogging of the movement path of the hopper due to the fusion of the by-products and raw materials, The efficiency of the equipment can be improved by solving the downtime caused by the breakdown of the equipment due to the maintenance of the hopper and the breakdown of the hopper.

In addition, since the melting by-products and raw materials are not fused by vibration, they can be applied to various by-products and raw materials, and a method of treating is easy.

In the present invention, the by-product treating apparatus for treating slag has been described as an example, but the by-product treating apparatus may be applied to various apparatuses and means capable of applying vibration so that the by-products remain or are not fused at the place where the by-products are charged.

Although the present invention has been described with reference to the accompanying drawings and the preferred embodiments described above, the present invention is not limited thereto but is limited by the following claims. Accordingly, one of ordinary skill in the art may variously modify and modify the present invention without departing from the spirit of the following claims.

S: by-product 1: by-product treatment device
100: cradle 300: injection portion
400: cooling water supply means 500: elevator

Claims (9)

A cradle installed at an upper portion of the reservoir in which the by-product is charged;
An injection unit disposed on the cradle and forming a movement path through which the by-product moves;
An elevator provided between the holder and the injection part to repeatedly move the injection part in the vertical direction; And
And a controller for controlling the operation of the elevator. The method according to claim 1,
By-product processing apparatus comprising a cooling water supply means for spraying the cooling water in the injection unit. The method according to claim 1 or 2,
The cradle is disposed spaced apart from the upper portion of the reservoir,
By-product treatment device provided with a lift in each of the cradle. The method according to claim 1 or 2,
The by-product treatment device is provided on the injection portion is provided with a stopper for limiting the moving distance of the injection portion. As a method of treating byproducts in the molten state,
Preparing by-products;
Injecting the byproduct into a reservoir; and
The by-product treatment method for vibrating the injection portion to form a movement path of the by-product in the process of injecting the by-product into the reservoir. The method according to claim 5,
The by-product treatment method of spraying the cooling water in the injection portion in the process of injecting the by-product into the reservoir. The method according to claim 5 or 6,
When the injection unit vibrates in the vertical direction, by-product means for hitting the injection unit to enhance the vibration. The method according to claim 5 or 6,
When the injection portion vibrates in the vertical direction, by-products processing method for enhancing the vibration by colliding the injection portion with the stopper provided in the upper portion of the injection portion. The method according to claim 5 or 6,
When the injection unit vibrates in the vertical direction, by-product processing method for changing the magnitude of the vibration by adjusting the moving distance of the injection unit.

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