KR102323644B1 - Device of skimming dross and methods for skimming the same - Google Patents

Abstract

The present invention is capable of accommodating a plating bath, at least a portion of which includes a wall having a sluice, a galvanizing bath; and a driving unit capable of adjusting the position of the sluice gate by adjusting the height of the wall; but, by adjusting the position of the sluice gate by the driving unit, a portion of the plating bath accommodated in the galvanizing bath is located above the plating bath. To provide a dross removal device capable of forming an overflow flow in the plating bath to overflow from the galvanizing bath together with the top dross floating in the galvanizing bath.

Description

DEVICE OF SKIMMING DROSS AND METHODS FOR SKIMMING THE SAME

The present invention relates to a dross removal apparatus and method, and more particularly, to a dross removal apparatus and method applicable to a galvanized steel sheet manufacturing line.

The galvanized steel sheet manufacturing line produced at the steel mill rolls the steel sheet to have a predetermined width and thickness, and then performs pretreatment, heat treatment and plating processes. At this time, the strip is plated on the surface of the steel sheet while passing through the hot-dip galvanizing bath at a constant speed through the snout in the heat treatment furnace. During the galvanizing process, molten zinc is exposed to the air, and floating dross is generated due to oxidation, which causes surface defects. Therefore, attempts to improve it are increasing.

As a related prior art, there is Korean Patent Application Laid-Open No. 2003-0079217A (published on October 10, 2003, dross removal device in hot-dip galvanizing bath).

The present invention solves the inconvenience of continuously removing the top dross generated from the upper part of the galvanizing bath, and the problem of poor quality caused by the mixing of top dross on the upper surface of the plating bath into the product during removal. An object of the present invention is to provide a dross removal device and a dross removal method for

According to one aspect of the present invention, a galvanizing bath capable of accommodating a plating bath, at least part of which includes a wall having a sluice gate; and a driving unit capable of adjusting the position of the sluice gate by adjusting the height of the wall; but, by adjusting the position of the sluice gate by the driving unit, a portion of the plating bath accommodated in the galvanizing bath is located above the plating bath. To provide a dross removal device capable of forming an overflow flow in the plating bath to overflow from the galvanizing bath together with the top dross floating in the galvanizing bath.

In one embodiment of the dross removal device, the wall including the sluice gate may have an uneven shape along the height direction so that the level of the plating bath is not lowered while the overflow flow is formed.

One specific example of the dross removal device is located on the outside of the galvanizing bath adjacent to the wall having the sluice gate, and removes the top dross from the plating bath and the top dross overflowing from the galvanizing bath. filterable, sieve structure; and a recovery unit configured to inject zinc material from the plating bath or top dross overflowing from the galvanizing bath back into the galvanizing bath. may further include.

According to another aspect of the present invention, an overflow flow is formed in the plating bath so that a part of the plating bath accommodated in the galvanizing bath overflows from the galvanizing bath together with the top dross floating on the top of the plating bath. It provides a dross removal method capable of removing the top dross from the plating bath, including an overflow step.

In one embodiment of the dross removal method, at least a part of the galvanized bath includes a wall having a sluice gate, and the overflow step adjusts the position of the sluice gate by adjusting the height of the wall by a driving unit may include steps.

In one embodiment of the dross removal method, the wall including the sluice gate may have an uneven shape along a height direction so that the level of the plating bath is not lowered during the overflow step.

One specific example of the dross removal method may include, after the overflow step, a recovery step of injecting the zinc material of the plating bath overflowing from the galvanizing bath or the top dross into the galvanizing bath; may further include.

In one embodiment of the dross removal method, the recovering step may include introducing the pure zinc material back into the galvanizing bath through a metal pump.

According to the dross removal apparatus and the dross removal method using the same according to the present invention, when removing the top dross in the conventional fixed pot (POT), the sloshing of the molten metal and the defects are adsorbed to the strip, thereby causing quality defects. By using a driving part such as a motor to always form an overflow flow of the molten metal in the port with the step structure on both sides of the port, top dross can be automatically discharged and removed, and the In addition to quality problems, it is expected that by continuously regenerating pure zinc, the pure zinc component contained in the dross is minimized, thereby contributing to the minimization of by-products and cost reduction.

1 is a view illustrating a dross removal apparatus and a dross removal method according to a comparative example of the present invention.
2 is a flowchart illustrating a dross removal method of the present invention.
3 is a front view schematically illustrating a part of the configuration of the dross removal device of the present invention.
4 is a plan view schematically illustrating a part of the configuration of the dross removal device of the present invention.
5 is a diagram sequentially illustrating a process in which an overflow flow of a plating bath is formed in the dross removal apparatus of the present invention.
6 is a diagram schematically illustrating another part of the configuration of the dross removal device of the present invention.

Hereinafter, the present invention will be described in detail. In this case, when it is determined that a detailed description of a related known technology or configuration may unnecessarily obscure the gist of the present invention in describing the present invention, the detailed description thereof will be omitted.

And, the terms described below are terms defined in consideration of functions in the present invention, which may vary depending on the intention or custom of the user or operator, so the definition should be made based on the content throughout this specification describing the present invention.

1 is a view illustrating a dross removal apparatus and a dross removal method according to a comparative example of the present invention.

Referring to FIG. 1 , a galvanized steel sheet manufacturing line produced in a steel mill rolls a steel sheet to have a predetermined width and thickness, and then performs pretreatment, heat treatment, and plating processes. At this time, the strip is plated on the surface of the steel sheet while passing through the snout in the heat treatment furnace and the hot-dip galvanizing bath 32 accommodated in the hot-dip galvanizing bath 12 at a constant speed. A steel sheet can be obtained. At this time, during the galvanizing process, the molten zinc is exposed to the air, and the top dross 36 is generated and floated due to oxidation, which causes surface defects and the like. Meanwhile, the bottom dross 34 may include a compound of zinc and iron, for example, a FeZn ₇ compound may precipitate to form the bottom dross 34 .

As the configuration 42 for removing the top dross 36 from the upper surface of the plating bath 32 to the outside 46, a robot or a dross shovel can be used, but the top dross 36 in the fixed port POT ) during removal, the sloshing of the plating bath 32, which is the molten metal, and defects are adsorbed to the strip, which may cause quality defects.

In order to solve this problem, in the dross removal device and the dross removal method of the present invention, by using a driving part such as a motor to always form an overflow flow of the pot molten metal with a stepped structure on both sides of the port, the top draw Gas can be automatically discharged and removed, and in addition to quality problems that occur when top dross is removed, pure zinc contained in dross is minimized by continuously regenerating pure zinc to minimize the generation of by-products and reduce costs. This will be described in detail below.

2 is a flowchart illustrating a dross removal method of the present invention. 3 and 4 are a front view and a plan view each schematically illustrating a part of the configuration of the dross removal device of the present invention. 5 is a diagram sequentially illustrating a process in which an overflow flow of a plating bath is formed in the dross removal apparatus of the present invention. 6 is a diagram schematically illustrating another part of the configuration of the dross removal device of the present invention.

2 to 6, in one embodiment of the present invention, a part of the plating bath 32 accommodated in the galvanizing bath 120 is floating on the top of the plating bath 32, the top dross 36 The top dross 36 from the plating bath including; an overflow step (S100) of forming an overflow flow in the plating bath 32 to overflow from the galvanizing bath 120 together with Provides a dross removal method that can remove

In the galvanized steel sheet manufacturing line produced in the steel mill, the steel sheet is rolled to have a predetermined width and thickness, and then pretreatment, heat treatment and plating are performed. While passing through the hot-dip galvanizing bath 32 accommodated in 12 through the sink roll 71 and the stabilizing roll 72 at a constant speed, the surface of the steel sheet is plated and passed through the air knife 73 at a constant rate. A steel sheet 54 galvanized to a thickness can be obtained.

At this time, during the galvanizing process, the plating bath 32 , which is molten zinc, is exposed to the air, and the top dross 36 is generated and floated due to oxidation, which may cause surface defects and the like. Meanwhile, the bottom dross 34 may include a compound of zinc and iron, for example, a FeZn ₇ compound may precipitate to form the bottom dross 34 .

The present invention uses the feature of top dross lighter than zinc in order to more stably and effectively control the method of removing top dross, so that the edge of the pot (POT) is a kind of dam overflow flow. was formed to always keep the zinc pot (Zn POT) bath surface clean.

In order to implement this, at least a part of the galvanized bath 120 includes a wall 130 having a sluice gate 132 , but the overflow step S100 is performed by the driving unit 150 by the driving unit 150 . It may include adjusting the position of the sluice gate 132 by adjusting the height of the . For example, by applying a slide dam type to the port wall 130 to adjust the height with a driving unit 150 such as a motor, and overflow as needed without changing the port level, the top dross (36) can be automatically removed periodically.

Specifically, referring to FIG. 5 , by applying a slide dam type to the port wall 130 and adjusting the height with a driving unit 150 such as a motor, the plating bath 32 is formed through the sluice gate 132 . The galvanizing bath 120 can be configured to overflow. Meanwhile, referring to FIG. 4 , the wall 130 having the sluice gate 132 may be disposed on the front and back surfaces of the galvanized bath 120 , respectively. In this case, a driving unit 150 such as a pair of motors is disposed to correspond to the front surface of the galvanizing tub 120 , and a driving unit 150 such as a pair of motors is disposed to correspond to the rear surface of the galvanizing tub 120 . Each can be arranged. Furthermore, the sieve structure 210 to be described later may also be disposed on the front and back surfaces of the galvanizing bath 120 , respectively. Here, the front and back surfaces of the galvanizing bath 120 may be parallel to the width direction of the steel strips 52 and 54 . When such a configuration is employed, it is possible to effectively prevent the sloshing of the molten metal and the adsorption of defects on the strip to cause quality defects when the top dross is removed.

Meanwhile, in order to prevent the level of the plating bath 32 from being lowered during the overflow step ( S100 ), the wall 130 including the sluice gate 132 may have an uneven shape 125 along the height direction. For example, the concave-convex shape 125 may have a concave shape or a convex shape.

Furthermore, in the method for removing dross according to an embodiment of the present invention, after the overflow step ( S100 ), zinc in the plating bath 32 or the top dross 36 overflowing from the galvanizing bath 120 . a recovery step (S200) of injecting the material back into the galvanizing bath 120; may further include.

The recovery step ( S200 ) may include the step of re-injecting the pure zinc material into the galvanizing bath through the metal pump 230 . For example, the top dross 36 overflowing from the top of the port is accumulated by the sieve structure 210 such as a sieve on the surface of the outlet and may be continuously removed by a robot or the like. In addition, pure zinc (Zn) may be recovered back into the pot through a metal pump and automatically circulated.

The dross removal apparatus according to an embodiment of the present invention that can implement such a dross removal method can accommodate the plating bath 32 , and at least part of which includes a wall 130 having a sluice gate 132 . , galvanized bath 120; and a driving unit 150 capable of adjusting the position of the sluice gate 132 by adjusting the height of the wall 130; but by adjusting the position of the sluice gate 132 by the driving unit 150, the The plating bath ( 32) may form an overflow flow.

In order not to lower the level of the plating bath 32 while the overflow flow is formed, the wall 130 including the sluice gate 132 may have a shape of unevenness 125 along the height direction.

The plating bath 32 and the top dross 36 are located outside the galvanizing bath 120 adjacent to the wall 130 having the sluice gate 132 and overflow from the galvanizing bath 120 . ) that can filter the top dross 36 in, a sieve structure 210; and a recovery unit 200 configured to inject the zinc material of the plating bath 32 and/or top dross 36 overflowing from the galvanizing bath 120 back into the galvanizing bath 120 ; may further include. The recovery unit 200 includes a sieve structure 210 such as a sieve; metal pump 230; and a flow path 250 configured to re-inject the extracted pure zinc (Zn) into the galvanizing bath 120 .

So far, the dross removal method and the dross removal apparatus of the present invention have been described. In the present invention, in order to more stably and effectively control the method of removing TOP DROSS, which is a technical problem of the prior art, using the feature of top dross lighter than zinc, the edge of the pot (POT) is a kind of dam overflow. (Dam over flow) was created to keep the zinc pot (Zn POT) bath surface clean at all times. By applying a slide dam type to the port wall, the height can be adjusted with a driving part such as a motor, and top dross can be periodically automatically removed by overflowing as needed without changing the pot level. Furthermore, the dross filtered after overflow may be managed in a periodic circulation structure through a recovery and disposal system. By designing the edge wall of the port front and back section like the sluice gate of a dam, both motors control the position of the sluice gate so that the upper surface of the port always overflows without level deviation. At this time, there is no problem that the wall sluice gate is sealed, and it is important to keep the port level from being lowered as both edge surfaces are configured in a concave-convex shape (for example, a concave shape). Top dross overflowing from the top of the pot is accumulated by a sieve on the surface of the outlet and can be continuously removed by a robot or the like. Pure Zn can be recovered back into the pot through a metal pump and automatically circulated.

According to the dross removal apparatus and the dross removal method using the same according to the present invention having such a configuration, when the top dross is removed in the conventional fixed pot (POT), the sloshing of the molten metal and defects are adsorbed to the strip, causing quality defects By using a driving part such as a motor to always form an overflow flow of the molten metal in the port with the step structure on both sides of the port, the top dross can be automatically discharged and removed, and the top dross can be removed. It is expected that it will be able to contribute to the minimization of by-products and cost reduction by minimizing the pure zinc component contained in the dross by continuously regenerating pure zinc as well as the quality problems that occur during removal.

It will be understood that the present invention includes not only the disclosed embodiments, but also various modifications and equivalent other embodiments that can be derived from the disclosed embodiments by those of ordinary skill in the art. Therefore, the technical protection scope of the present invention should be defined by the following claims.

32: plating bath
36 : top dross
52, 54: steel strip
71: sink roll
72: Stabilizing Roll
73: air knife
120: galvanized bath
130: wall
132: sluice gate
150: drive unit
200: recovery unit
210: strainer structure
230: metal pump

Claims (8)

a galvanizing bath capable of accommodating a plating bath, at least part of which includes a wall having a sluice gate; and
including; a driving unit capable of adjusting the position of the sluice gate by adjusting the height of the wall;
By adjusting the position of the sluice gate by the driving unit, a part of the plating bath accommodated in the galvanizing bath overflows the galvanizing bath together with the top dross floating on the top of the plating bath ( overflow) can form a flow,
In order not to lower the level of the plating bath while the overflow flow is formed, the wall including the sluice gate has an uneven shape along the height direction,
Characterized in that the steel sheet strips are arranged in parallel with the width direction of the front and back surfaces of the galvanized bath,
dross removal device. delete The method of claim 1,
It is located on the outside of the galvanizing bath adjacent to the wall having the sluice gate, and capable of filtering the top dross from the plating bath and the top dross overflowing from the galvanizing bath, a sieve structure; and
a recovery unit configured to inject zinc material from the plating bath or top dross overflowing from the galvanizing bath back into the galvanizing bath; further comprising,
dross removal device. In the dross removal method using the dross removal device according to claim 1 or 3,
Including a; remove the top dross from the plating bath;
In order not to lower the level of the plating bath during the overflow step, the wall having the sluice gate has an uneven shape along the height direction,
Characterized in that the steel sheet strips are arranged in parallel with the width direction of the front and back surfaces of the galvanized bath,
How to remove dross. 5. The method of claim 4,
At least a portion of the galvanized bath includes a wall having a sluice gate,
The overflow step includes adjusting the position of the sluice gate by adjusting the height of the wall by a driving unit,
How to remove dross. delete 5. The method of claim 4,
After the overflow step,
a recovery step of re-injecting the zinc material of the plating bath or top dross overflowing from the galvanizing bath into the galvanizing bath; further comprising,
How to remove dross. 8. The method of claim 7,
The recovery step comprises the step of introducing the pure zinc material back into the galvanizing bath through a metal pump,
How to remove dross.

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