KR100685031B1 - Gas Nozzle Device for Cooling Strip - Google Patents

Abstract

Provided is a gas nozzle apparatus for cooling a steel sheet for cooling a heated steel sheet of a continuous annealing furnace.

The gas nozzle device for cooling the steel sheet includes a nozzle head which is disposed to pass through the heated steel sheet, and a slit nozzle hole connected to one side of the nozzle head and prevented from clogging by a foreign substance to inject cooling gas into the steel sheet. And a gas supply pipe including a nozzle tip portion and a slit-type gas outlet which is inserted into the nozzle head to supply cooling gas into the nozzle head and is positioned toward an opposite side of the nozzle tip portion of the nozzle head and prevents clogging. It is disposed between the gas outlet of the gas supply pipe and the nozzle tip portion is provided with a filtration member for filtering foreign matter contained in the cooling gas supplied.

According to the present invention, the corrosion of the gas supply pipe and other foreign matters are prevented from clogging the nozzle device, thereby preventing cooling deviation of the steel sheet, and in addition, by filtering out the corrosives or foreign matters contained in the cooling gas in advance, only the high purity cooling gas surface of the steel sheet. By spraying on, it is possible to suppress the surface defects of the steel sheet due to the adhered foreign matter contained in the gas on the surface of the steel sheet to obtain an improved effect of improving the quality of the steel sheet.

Continuous annealing furnace, cooling stand, quenching stand, slow cooling stand, steel plate, cooling gas nozzle device

Description

Gas Nozzle Device for Cooling Strip

1 is a schematic view showing a typical continuous annealing furnace

Figure 2 is a schematic diagram showing a cooling section of the continuous annealing furnace

Figure 3 is a perspective view showing a gas nozzle device for cooling conventional steel sheet

Figure 4 shows a conventional gas nozzle device,

(a) is a cross-sectional view showing the problem that foreign matter caused by the corrosion of the pipe pinched into the nozzle pipe of the nozzle device

(b) is a plan view showing the cooling deviation of the steel sheet through the nozzle device

5 shows a gas nozzle device for cooling a steel sheet according to the present invention,

(a) is an exploded perspective view

(b) section

6 is a cross-sectional view showing a modification of the gas nozzle device of the present invention.

7 is a cross-sectional view showing another modification of the gas nozzle device of the present invention.

8 is a cross-sectional view showing yet another modified example of the gas nozzle device of the present invention.

Explanation of symbols on the main parts of the drawings

1 .... Gas nozzle device for cooling sheet steel

10 ... nozzle head 30. nozzle tip

32 .... Nozzle hole 50 .... Gas supply line

52 .... Gas outlet 70 .... Filter element

The present invention relates to a gas nozzle apparatus for cooling a steel sheet for cooling a steel sheet heated in a continuous annealing furnace, and more particularly, to prevent corrosion of a gas supply line supplying a cooling gas or other foreign substances to block the nozzle apparatus, thereby cooling the steel sheet. While preventing the deviation, in addition, by filtering out the corrosives or foreign substances contained in the cooling gas in advance to spray only the high-purity cooling gas on the surface of the steel sheet to suppress the surface defects of the steel sheet by the foreign matter adhering to the surface of the steel sheet and finally It is related with the gas nozzle apparatus for steel plate cooling which improves quality.

In the cold rolling process, a material coil is charged from a pay off reel, welded to a rear end of a strip being sent on a line by a welding machine, and the process proceeds to a next step.

At this time, the steel sheet is continuously cleaned by using an alkaline solution in an alkali device, which is a pretreatment facility for removing various rolling oil and foreign substances present on the surface of the steel sheet, and temporarily storing and passing the steel sheet in a looper, which is a steel sheet storage facility. It is charged to an annealing furnace and heat-treated at a constant temperature.

As shown in FIG. 1, the continuous annealing furnace equipment of the cold rolling process is mainly composed of six sections including a preheating furnace, a heating furnace, an annealing furnace, a gas cooling furnace, a cracking furnace, and a final cooling furnace.

For example, the preheating furnace is a step of preheating the temperature of the steel sheet, that is, the continuous steel sheet to about 200 ~ 280 ℃, the heating furnace is a step for reducing the heating load on the surface of the steel sheet, such a heating furnace in detail Although not shown in the drawing, large-capacity burners are alternately placed before and after the steel sheet, and the combustion flame of coke oven gas (COG) is directly sprayed on the surface of the steel sheet, thereby increasing the temperature and surface of the steel sheet. It decomposes and volatilizes the rolling oil, impurities, etc. of the phase, and the steel plate in the heating furnace is heated to about 700 ° C. to reduce the work load in the annealing furnace. The basic function is to provide surface cleanliness of the steel sheet in terms of securing plating adhesion.

In the annealing furnace, the surface annealing of the steel sheet is carried out using a radiant pipe installed in the vertical direction of the furnace, and then the continuous annealing operation of the steel sheet is completed through the gas cooling furnace, the crack furnace, and the final cooling furnace.

And, as shown in Figure 1, each furnace is operated while implementing the various loopers of the steel sheet.

On the other hand, the annealing furnace is mainly used in the continuous steel annealing furnace (CAL) and hot dip galvanizing furnace (CGL), such as the radiating pipe is installed indirectly heating the steel sheet in a reducing atmosphere, the radiation is installed in the heating section of the annealing furnace Radiant heat is obtained by the heat source generated by supplying fuel (COG) and combustion air to the burner installed in the pipe at a constant ratio, and heating the cold rolled steel sheet by the radiant heat to recrystallize and grow the rolled structure. It removes stress and creates tissues with adequate toughness.

In addition, the hot waste gas generated during combustion is used to recover the waste heat before being discharged into the atmosphere and to preheat the combustion air used in the burner.

On the other hand, Figure 2 shows a cooling furnace consisting of a slow cooling zone and a quenching zone.

That is, the steel sheet 100 entering the cooling path 110 is a slow cooling stand 112 for spraying the cooling gas to the sheet steel sheet to slow cooling primarily and a quench table for quenching the cooling steel using the cooling water on the surface of the steel sheet passing therethrough. (114).

For example, in the quench table 114, the temperature of the steel sheet is quenched using cooling water. The steel sheet of approximately 650 ° C. is quenched to 290 ° C. through the cooling water injection to produce high grade steel.

By the way, in the cooling furnace 110 of the continuous annealing furnace before the quenching cooler 114, the slow cooling cooler 112 is disposed, such slow cooling cooler 112 is generated in the quench cooler 114 while buffering a sudden temperature change of the steel sheet. In order to suppress the generation of water vapor and the flow of air, a cooling gas of an inert gas such as nitrogen gas (N 2) is usually sprayed onto the surface of the steel sheet 100 which is advanced through the nozzle device 120.

Next, FIG. 3 illustrates a conventional nozzle apparatus 120 for cooling a steel sheet.

That is, as shown in Figure 3, the nozzle tubes 124 are arranged at regular intervals in the longitudinal direction of the nozzle head 122 to which nitrogen gas, which is cooling gas, is supplied, so that the cooling gas is supplied through the nozzle tubes 124. Sprayed on the surface of the steel sheet, through which the slow cooling of the steel sheet is made.

However, as shown in FIG. 4A, in the case of the conventional gas nozzle apparatus 120, the foreign matter 126 generated due to internal corrosion of the gas supply pipe, and the like, blocks the nozzle tube 124 having a small diameter and normally cools the gas. There was a problem that prevented the injection.

Therefore, as shown in FIG. 4B, in the nozzle tube 124 clogged by the foreign matter 126, since the cooling gas is not normally injected or not completely injected, that is, the steel plate 100. The 'A' or 'B' portion of the does not cool, and eventually caused a problem causing the cooling deviation of the steel sheet.

In particular, foreign matter contained in the cooling gas and sprayed on the steel sheet is attached to the surface of the steel sheet, causing another problem that causes surface defects such as fine dents.

As a result, the product quality of the steel plate was reduced through the conventional gas nozzle apparatus.

By the way, such a micro-defect of the steel sheet leads to a significant decrease in the reliability to the consumer in the case of the automobile exterior material that does not use any micro-defects on the surface.

Accordingly, it would be more desirable to block foreign matter contained in the cooling gas from clogging the gas nozzle device, and to enable the foreign matter contained in the gas to be filtered by the gas nozzle device.

The present invention is to solve the conventional problems as described above, to prevent corrosion of the gas supply line for supplying the cooling gas or other foreign matter to block the nozzle device to prevent the cooling deviation of the steel plate, while the corrosives contained in the cooling gas Or by filtering foreign substances to spray only high purity cooling gas onto the surface of the steel sheet to suppress the occurrence of surface defects caused by the adhesion of foreign substances on the surface of the steel sheet to improve the quality of the steel sheet and to increase the gas outlet of the gas supply pipe inserted into the nozzle head. It is to provide a gas nozzle device for cooling the steel sheet is formed in a cut slit shape to prevent clogging by foreign matter, so that the gas supply is also made smooth.

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As a technical configuration for achieving the object of the present invention as described above, the present invention, the nozzle head is disposed facing the heated steel plate;
A nozzle tip unit connected to one side of the nozzle head and configured to inject cooling gas into the steel sheet, including a slit nozzle hole which is prevented from clogging by foreign matter; And,
A gas supply pipe inserted into the nozzle head to supply cooling gas into the nozzle head, the gas supply pipe including a slit-type gas outlet positioned toward an opposite side of the nozzle tip of the nozzle head and preventing clogging;
Including,
Provided is a gas nozzle device for cooling a steel plate comprising a filtration member for filtering foreign substances contained in the cooling gas supplied while being disposed between the gas outlet and the nozzle tip of the gas supply pipe.
At this time, the nozzle head is disposed in the slow cooling zone of the cooling furnace.
And, preferably, the slit-type gas outlet of the gas supply pipe is formed to have an intermittent opening type so that the opening length decreases from the central portion of the steel sheet toward the outside.

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Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

5 is a view showing a gas nozzle device for cooling a steel sheet according to the present invention, Figure 6 is a cross-sectional view showing a modification of the present invention, Figure 7 is a cross-sectional view showing another modification of the present invention, Figure 8 Is a cross-sectional view showing another modification of the present invention.

First, FIG. 5 shows an embodiment of the gas nozzle device 1 for cooling steel sheet of the present invention.

As shown in FIGS. 5A and 5B, the gas nozzle device 1 for cooling steel sheet of the present invention includes a nozzle head 10 largely opposed to a slow cooling stand of a cooling furnace, and the nozzle head 10. Including a slit nozzle hole 32 connected to one side to prevent clogging by foreign matter, the nozzle tip portion 30 for injecting cooling gas to the steel sheet, and inserted into the nozzle head 10 to the cooling gas nozzle head It is comprised including the gas supply pipe | tube 50 supplied in the inside.

That is, in the gas nozzle apparatus 1 of the present invention, unlike the conventional gas nozzle apparatus, the gas supply pipe 50 is inserted into the nozzle head 10 and through the gas ejection port 52 of the supply pipe 50. It is characterized in that the cooling uniformity of the steel sheet is increased by supplying a cooling gas, for example, nitrogen gas, uniformly in the longitudinal direction of the nozzle head 10.

In particular, as shown in Figures 5a and 5b, the nozzle tip 30 is connected to the nozzle head 10 while being slit nozzle hole integrally cut in the longitudinal direction at the tip of the nozzle tip instead of the conventional nozzle tube The present invention also provides another feature that forms 32 to effectively prevent the nozzle tube from being clogged by a conventional foreign matter.

At this time, as shown in Figure 5a, the end of the nozzle head 10 and the end of the gas supply pipe 50 are provided with flange portions 12, 54 which are fastened and fixed to each other, so as to assemble the gas nozzle device To facilitate.

Then, the sealing plate 34 may be attached to the side of the nozzle tip portion 30 by welding or the like.

On the other hand, as shown in Figure 5b, the gas outlet 52 of the gas supply pipe 50 is preferably located toward the opposite side of the nozzle tip of the nozzle head 10, which is a gas cylindrical nozzle head (10) This is because it is possible to effectively prevent the nozzle hole from being clogged by foreign matters while being dispersed through the slit nozzle hole 32 of the nozzle tip part 30 while forming a flow inside the nozzle tip 30. .

At this time, the gas outlet 52 of the gas supply pipe 50 is also preferably formed in a slit shape cut in the longitudinal direction long to prevent clogging by corrosion foreign matter contained in the gas by corrosion.

Next, Fig. 6 shows another modified gas nozzle apparatus 1 for cooling steel sheet of the present invention.

That is, as shown in Figure 6, between the gas supply pipe 50 and the nozzle head 10 is further disposed a filtration member 70 for filtering the foreign matter contained in the cooling gas supplied.

At this time, the filtration member 70 is disposed between the gas supply pipe gas outlet 52 and the nozzle tip portion 30 which are located in the opposite direction to the nozzle tip portion, respectively, so that the gas supplied from the gas supply pipe 50 is all filtered. It passes through the member 70.

In addition, the filtration member 70 may use a conventional gas filtration filter in which pores are finely formed as shown in FIG. 6, and are installed in the support frame 70a.

Of course, the support frame 70a prevents the filtration member 70 from being crushed. The filtration member 70 may be a synthetic resin or screen net having fine pores formed therein, or a filter material for filtering gas. will be.

Next, Fig. 7 shows a modification of the gas nozzle device 1 of the present invention in Fig. 6.

That is, as shown in FIG. 7, the support frame of the filtration member 70 is fixed to the first guide 72 mounted on the inner surface of the nozzle head 10, and the gas supply pipe 50 is inserted into the nozzle head. When the flanges 12 and 54 are fastened and fixed, the second guide 74 on the gas supply pipe 50 is assembled while being fitted to the lower end of the pre-installed filtration member 70.

Thus, the first and second guides 72 and 74 will improve the assemblability of the gas nozzle device 1 of the present invention.

Next, FIG. 8 shows another modification of the gas nozzle apparatus 1 according to the present invention. The gas ejection opening 52 of the gas supply pipe 50 is formed of an intermittent opening type slit, corresponding to the cooling environment of the steel sheet. The opening length (D) is reduced from the center portion to the outside.

That is, the cooling environment is different between the center portion and the edge portion in the width direction of the sheet steel sheet in the cooling furnace, the edge portion is usually cooled better than the center of the steel sheet, so that the gas outlet 52 of the gas supply pipe 50 If the opening diameter is smaller toward the edge portion of the steel sheet, the steel sheet gas is ejected from the center portion, so that the cooling in the width direction of the steel sheet is made uniform.

Accordingly, the gas nozzle device for cooling the steel sheet according to the present invention does not have to worry that the foreign matter contained in the gas may block the gas nozzle hole during the gas injection for slow cooling of the continuous steel sheet, and thus the cooling gas of higher purity is injected through the nozzle tip. It also increases the cooling efficiency.

Thus, according to the gas nozzle device for cooling the steel sheet according to the present invention, the corrosion of the gas supply line for supplying the cooling gas or other foreign matters can be prevented from blocking the nozzle device, thereby providing an effect of preventing the cooling deviation of the steel sheet.
In addition, by filtering only the high-purity cooling gas on the surface of the steel sheet by filtering the corrosives or foreign matter contained in the cooling gas to suppress the occurrence of surface defects due to the adhesion of foreign matter on the surface of the steel sheet to improve the quality of the steel sheet.
Finally, the gas outlet of the gas supply pipe inserted into the nozzle head is formed in a long cut slit shape to prevent the clogging by foreign matters to provide an excellent effect to ensure a smooth gas supply.

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While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

Claims (7)

Nozzle heads disposed oppositely to allow the heated steel sheet to pass therethrough; A nozzle tip unit connected to one side of the nozzle head and configured to inject cooling gas into the steel sheet, including a slit nozzle hole which is prevented from clogging by foreign matter; And, A gas supply pipe inserted into the nozzle head to supply cooling gas into the nozzle head, the gas supply pipe including a slit-type gas outlet positioned toward an opposite side of the nozzle tip of the nozzle head and preventing clogging; Including, The gas nozzle device for cooling the steel sheet comprising a filtration member for filtering foreign substances contained in the cooling gas supplied while being disposed between the gas outlet and the nozzle tip of the gas supply pipe. The gas nozzle device for cooling a steel sheet according to claim 1, wherein the nozzle head is disposed in a slow cooling zone of a cooling furnace. delete delete delete delete The gas nozzle device according to claim 1, wherein the slit-type gas outlet of the gas supply pipe is formed to have an intermittent opening, and the opening length decreases from the central portion of the steel sheet toward the outside.

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