KR20160075986A - Apparatus for cooling of coated strip - Google Patents

Abstract

According to the present invention, the apparatus to cool down a plated steel sheet comprises: a body; and a spray means provided on the body to spray cooling fluid to a steel sheet, which is placed for at least some cooling fluid spray positions toward one surface and the other surface of the steel sheet to cross each other in the direction of movement of the steel sheet. The present invention can differentiate the spray heights toward both surfaces of a steel sheet, and prevent damage to a plating layer of the steel sheet. In addition, the present invention can prevent spray directions from crossing in opposite directions and improve cooling efficiency toward the plating layer of the steel sheet.

Description

[0001] Apparatus for cooling coated strip [0002]

The present invention relates to a plated steel plate cooling apparatus, and more particularly, to a plated steel plate cooling apparatus for cooling a steel plate and a plated layer by spraying a cooling fluid onto a plated steel plate.

1 is a schematic view showing a plating line of a general steel sheet.

1, a steel sheet (cold-rolled steel plate) 1 unwound from a payoff reel is heat-treated through a welder and a looper, and then is subjected to a sink roll (see FIG. 1) of the Snart and the plating tank 2 The molten metal 3 is adhered to the surface of the steel plate 1 while passing through the air knife 6 and the stabilizing roll 5 of the air knife 6 and the air knife 6 The plating thickness of the steel plate 1 is controlled by injecting a high-pressure gas (inert gas or air).

The plated steel plate 1 is plated while proceeding through the cooling facility 7 and the conveying roll 8 because the cooling facility 7 is provided on both sides of the steel plate 1 normally vertically conveyed It is also called a cooling tower.

Such a cooling facility 7 of the coated steel sheet coagulates the liquid plated layer adhered to the surface of the plated steel sheet vertically conveyed and the temperature of the steel plate 1 is cooled down to 300 ° C or less So that the steel plate 1 can be smoothly moved forward or backward.

However, when the amount of air is increased in order to increase the cooling efficiency in the cooling facility 7, the amount of impact of the steel plate 1 and the air is increased, and the plated layer is damaged. There is a limit in that the cooling efficiency is lowered due to stagnation of the air and generation of turbulence.

It is an object of the present invention to provide a plating steel plate cooling apparatus which is developed to solve the above-mentioned problems, and which prevents damage to a plating layer of a steel sheet and increases cooling efficiency.

According to an aspect of the present invention, there is provided a coated steel plate cooling apparatus comprising: a body; And spraying means provided on the apparatus body for spraying a cooling fluid to the steel plate in progress, wherein at least a part of the cooling fluid injection positions on the one surface and the other surface of the steel plate are staggered from each other in the traveling direction of the steel plate.

Specifically, the injection means may include: a one-side injection member having a plurality of one side injection nozzles for injecting a cooling fluid onto one surface of the steel sheet; And a second side injection member having a plurality of second side injection nozzles for spraying a cooling fluid on the other side of the steel sheet. The one side injection nozzle and the other side injection nozzle may be alternately arranged in the vertical direction.

Meanwhile, the injection means may be configured such that the directions of spraying of the cooling fluid to the steel sheet are opposite to each other, but are compared with each other.

Specifically, the spraying means includes a first spraying portion for spraying the cooling fluid in an inclined manner in the advancing direction of the steel plate; And a second spraying part disposed in a direction in which the steel plate is moved in the reverse direction with respect to the first spray part and spraying the cooling fluid in an inclined direction in the reverse direction of the steel plate.

The plating steel plate cooling apparatus according to the present invention has an effect of preventing the occurrence of damage to the plating layer of the steel sheet by configuring the steel sheet to have different spray heights with respect to both surfaces.

In addition, the present invention is advantageous in that the cooling efficiency of the plating layer of the steel sheet can be improved by being configured such that the spray directions do not cross each other in opposite directions.

1 is a schematic view showing a plating line of a general steel sheet.
2 is a view showing a plated steel plate cooling apparatus according to the prior art.
Fig. 3 is a view showing the stripe defects generated in the plating layer of the steel sheet by the plating steel sheet cooling apparatus of Fig. 2. Fig.
FIG. 4 is a view illustrating a plating steel plate cooling apparatus according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail. It should be noted that the same reference numerals in the drawings denote the same components in different drawings, even if they are displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 4 is a view illustrating a plating steel plate cooling apparatus according to an embodiment of the present invention.

Referring to the drawings, the present invention includes an apparatus body 100 and injection means provided in the apparatus body 100.

Here, the apparatus body 100 is configured to firmly and stably support and secure the spraying means disposed on both sides of the steel plate 1 from the upper side of the plating vessel, and the specific structure and shape thereof are limited by the present invention Of course not.

In addition, the spraying means may be provided in the apparatus body 100 to spray the cooling fluid F to the steel strip 1 in progress. The spraying means may be configured to be supplied with the cooling fluid F from the outside and spray it onto the steel plate 1. The specific structure of the spraying means is not limited to the present invention. For example, It is possible to adopt a structure in which the air A is sucked and sprayed onto the steel plate 1.

This spraying means serves to solidify the plating solution in the non-solidified state plated on the surface of the steel sheet 1 after the steel sheet 1 passes through the plating tank by injecting the cooling fluid F. [

Specifically, the injection means is a technical feature of the present invention, in which at least a part of the cooling fluid (F) injection positions on one surface and the other surface of the steel sheet 1 are arranged to be staggered from each other in the traveling direction of the steel sheet 1 have.

That is, the spraying means may be configured so that spraying heights on both surfaces of the steel plate 1 are different from each other, that is, the spraying height on one surface of the steel plate 1 is different from the spraying height on the other surface of the steel plate 1 .

With respect to the above-described jetting height, problems in the prior art will be described with reference to FIGS. 2 and 3. FIG.

2 and 3, the air nozzle 10 for spraying the air A in the cooling apparatus of the plated steel sheet 1 according to the prior art is arranged to face each other in the one surface direction and the other surface direction of the steel sheet 1 .

In this plated steel plate 1 cooling apparatus, the air A is sprayed through the air nozzle 10 to cool and solidify the non-solidified plated layer on the surface of the steel plate 1, It is necessary to cool the non-solidified plating layer on the surface of the steel sheet 1 more rapidly. Therefore, by increasing the amount of the cooling fluid F injected for this purpose, a strong collision due to excessive air (A) pressure is generated in the non- , It may cause damage to the less solidified plated layer.

As shown in FIG. 3, the damaged plating layer remains as a striped stripe M in the longitudinal direction, which is the same as that in which the plating layer is not uniformly solidified, in the progressing direction of the steel strip 1, as shown in FIG.

4, the spraying height of the spraying means on one side of the steel plate 1 is different from the spraying height on the other side of the steel plate 1, It is possible to prevent the occurrence of damage such as stripe marks as the impact pressure is reduced in the non-solidified plating layer.

Specifically, the spraying means includes one side injection member 210 having a plurality of one side injection nozzles 211 for spraying the cooling fluid F on one surface of the steel plate 1, a cooling fluid (not shown) on the other side of the steel plate 1, The one side injection nozzle 211 and the other side injection nozzle 221 may be alternately arranged in the vertical direction so that the one side injection nozzle 211 and the other side injection nozzle 221 are alternately arranged in the vertical direction .

That is, a plurality of one injection nozzles 211 of the one injection member 210 are spaced apart from each other, and a plurality of other injection nozzles 221 of the other injection member 220 are spaced apart from each other, The corresponding one side injection nozzle 211 and the other side injection nozzle 221 are arranged so as not to face each other, that is, they are not located at the same height, and are alternately arranged in the vertical direction, It is possible to prevent the plating layer of the steel plate 1 from being damaged.

On the other hand, the spraying means may be configured such that the directions of spraying on the steel plate 1 are opposite to each other, but are compared with each other.

With reference to the above-described spraying direction, problems in the prior art will be described with reference to FIG.

2, the air nozzle 10 for spraying the air A in the cooling device of the plated steel sheet 1 according to the prior art has a structure in which the air nozzle 10 is injected perpendicularly to the steel plate 1.

As described above, the air A is vertically injected into the steel plate 1 by the air nozzle 10, so that the air A is discharged from the intersection A where the air A is injected from the neighboring air nozzle 10. [ A) and turbulence are generated, and the cooling efficiency is lowered. That is to say, the air A injected through the air nozzle 10 quickly escapes to the outside with the heat of the plating layer of the steel plate 1, and the new air A, The cooling efficiency can be improved because the air discharge flow between the steel plate 1 and the air nozzle 10 is not smooth due to stagnation and turbulence of the air A, have.

4, the spraying direction of the cooling fluid F relative to the steel plate 1 is opposite to the direction of spraying of the cooling fluid F, It is possible to increase the cooling efficiency of the plating layer.

Specifically, the injection means includes a first jetting section 1P which is inclinedly inclined in the advancing direction of the steel plate 1 and a second jetting section 1B which is disposed in the direction of advance of the steel plate 1 with respect to the first jetting section 1P And a second jetting section 2P which is inclinedly emitted in the reverse direction of the steel strip 1. [

That is, in the first jetting section 1P, the cooling fluid F is sprayed in the advancing direction of the steel plate 1 and the cooling fluid F is sprayed in the reverse direction of the steel plate 1 in the second jetting section 2P The cooling fluid F to be injected flows in opposite directions to each other and the second jetting section 2P is arranged in the direction of advance of the steel plate 1 with respect to the first jetting section 1P, The cooling fluid F flowing in the steel plate 1 flows without crossing each other, so that the cooling efficiency of the plating layer of the steel plate 1 can be improved.

As a result, as described above, the present invention can prevent damage to the plating layer of the steel plate 1 by constituting the steel plate 1 so as to have different jet heights with respect to both surfaces thereof.

In addition, the present invention can improve the cooling efficiency of the plating layer of the steel strip 1 by preventing the injection directions from crossing in opposite directions.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

1: steel plate F: cooling fluid
100: Device body 210: One side injection member
211: one side injection nozzle 220: the other side injection member
221: other side injection nozzle 1P:
2P: second branch C: crossing point

Claims (4)

Device body; And
Spraying means provided on the apparatus body for spraying a cooling fluid to an advancing steel plate, wherein at least a part of the cooling fluid injecting positions on the one face and the other face of the steel plate are staggered from each other in the advancing direction of the steel plate;
And a cooling device for cooling the plated steel plate.
The method according to claim 1,
Wherein the injection means
One side injection member having a plurality of one side injection nozzles for spraying a cooling fluid on one surface of the steel sheet; And
And another side injection member having a plurality of other side injection nozzles for spraying cooling fluid on the other side of the steel sheet,
Wherein the one side injection nozzle and the other side injection nozzle are alternately arranged in the vertical direction.
The method according to claim 1,
Wherein the spraying means is configured such that the directions of spraying of the cooling fluid to the steel plates are opposite to each other but are compared with each other.
The method of claim 3,
Wherein the injection means
A first spraying part for spraying a cooling fluid in an inclined manner in a traveling direction of the steel plate; And
A second jetting part disposed in a direction of the forward movement of the steel plate with respect to the first jetting part and injecting a cooling fluid obliquely in the reverse direction of the steel plate;
And a cooling device for cooling the plated steel plate.

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