KR102351657B1 - Rapid cooling device of zinc plated steel plates - Google Patents

Abstract

The present invention includes a body 110 formed in an empty shape; an atomizing nozzle 120 formed to spray the cooling water in the form of mist into the inside of the body 110; A spray unit 130 positioned on one side or front of the body 110 to increase the spray speed of the high-pressure gas to suck the cooling water in the form of mist and spray it onto the surface of the hot-dip galvanized steel sheet (A); The present invention is to provide a rapid cooling device for hot-dip galvanized steel sheet including has In particular, the present invention has the effect of improving cooling efficiency while vaporized cooling water in the form of mist instantaneously vaporizes in contact with the heat remaining on the surface of the hot-dip galvanized steel sheet. In addition, the present invention has an effect that can be applied to a narrow field because the structure is simple and the volume can be minimized.

Description

Rapid cooling device of zinc plated steel plates

The present invention relates to a rapid cooling device for hot-dip galvanized steel sheet, and more particularly, to a rapid cooling device for hot-dip galvanized steel sheet that can perform a rapid cooling function by spraying cooling water in the form of mist onto the surface of the hot-dip galvanized steel sheet is about

In general, hot-dip galvanized steel sheet is plated in a temperature range of about 470 to 560°C and then cooled to about 300°C or less to prevent the powdering phenomenon in which the plating layer falls into powder form and the occurrence of blue-heat brittleness during processing, and to improve transport efficiency and subsequent Ensure the workability of the process.

However, in the prior art, the cooling function is performed by spraying high-pressure gas or liquid onto the surface of the hot-dip galvanized steel sheet, but this is because the high-pressure gas or liquid cannot reach uniformly due to the heat remaining on the surface of the hot-dip galvanized steel sheet. had the problem of lowering it.

In addition, when cooling water is directly sprayed on the surface of the hot-dip galvanized steel sheet that has not been cooled, there is a problem in that pit marks are formed on the surface of the plating layer.

In particular, since a large blower and a pump are required to cool the hot-dip galvanized steel sheet, the structure is complicated and the volume increases, thereby lowering the efficiency of use.

In addition, as the cooling efficiency of the hot-dip galvanized steel sheet was lowered, an unsolidified portion of the plated layer remained, thereby lowering the production quality.

Korean Patent Publication No. 10-2003-0048597 (June 25, 2003) Korean Patent Laid-Open Publication No. 10-2004-0055998 (June 30, 2004) Korean Patent Publication No. 10-0887862 (2009.03.06.) Korean Public Utility Model Publication No. 20-2010-0002846 (2010.03.11.) Korean Utility Model Publication No. 20-0464096 (2012.12.11.) Korean Patent Publication No. 10-2013-0034355 (2013.04.05.) Korean Utility Model Publication No. 20-2014-0001924 (2014.04.03.) Korean Patent Publication No. 10-2015-0089324 (2015.08.05.) Korea Patent Publication No. 10-1858854 (2018.05.17.) Korean Patent Publication No. 10-2020-0044428 (2020.04.29.)

Therefore, the present invention has been devised to solve the conventional problems as described above,

The present invention provides a rapid cooling device for hot-dip galvanized steel sheet capable of performing a cooling function by uniformly spraying cooling water in the form of mist onto the surface of a hot-dip galvanized steel sheet using the injection pressure of high-pressure gas to vaporize it together with heat. There is a purpose.

The rapid cooling device of the present invention for hot-dip galvanized steel sheet for achieving the above object,

The body 110 is formed in the form of an empty interior; an atomizing nozzle 120 formed so as to spray the cooling water in the form of mist into the inside of the body 110; A spray unit 130 positioned on one side or front of the body 110 to increase the spray speed of the high-pressure gas to suck the cooling water in the form of mist and spray it onto the surface of the hot-dip galvanized steel sheet (A); characterized by including.

Here, a suction hole 111 formed so as to suck external air to the rear or one side of the body 110; characterized in that it includes.

On the other hand, the injection unit 130 forms a supply part 131 for receiving the high-pressure gas on the outside, and has an inclined part 132 that is inclined so that the width gradually increases from the rear to the front in the center, and on the inside The injection body 134 forming an inlet space 133 so that the high-pressure gas can be introduced; an induction port 135 that is gradually inclined forward toward the center from the rear of the injection body 134; and a discharge unit 136 formed to discharge the high-pressure gas at a predetermined interval between the inclined unit 132 and the induction port 135 .

In this case, an induction part 137 formed in the rear of the inclined part 132; It characterized in that it comprises a; stagnation induction part 138 formed to face the inlet space 133 at the rear of the inclined part 132.

The present invention has the effect of concentrating the cooling water in the form of mist on the surface of the hot-dip galvanized steel sheet by using the injection pressure of the high-pressure gas to perform the rapid cooling function.

In particular, the present invention has the effect of improving cooling efficiency while vaporized cooling water in the form of mist instantaneously vaporizes in contact with the heat remaining on the surface of the hot-dip galvanized steel sheet.

In addition, the present invention has an effect that can be applied to a narrow site because the structure is simple and the volume can be minimized.

1 is a cross-sectional view showing an embodiment of a rapid cooling device for hot-dip galvanized steel sheet according to the present invention.
Figure 2 is a cross-sectional view for showing another embodiment of the present invention rapid cooling device for hot-dip galvanized steel sheet.
3 is a cross-sectional view showing an operating state of the rapid cooling device for hot-dip galvanized steel sheet according to the present invention.

The technical configuration for achieving the object of the present invention as described above will be described in more detail with reference to the accompanying drawings.

1 is a cross-sectional view showing an embodiment of a rapid cooling device for a hot-dip galvanized steel sheet of the present invention, and FIG. 2 is a cross-sectional view showing another embodiment of a rapid cooling device for a hot-dip galvanized steel sheet according to the present invention. 3 is a cross-sectional view showing the operating state of the rapid cooling device for hot-dip galvanized steel sheet according to the present invention.

The present invention includes a body 110 formed in an empty shape; an atomizing nozzle 120 formed so as to spray the cooling water in the form of mist into the inside of the body 110; A spray unit 130 positioned on one side or front of the body 110 to increase the spray speed of the high-pressure gas to suck the cooling water in the form of mist and spray it onto the surface of the hot-dip galvanized steel sheet (A); include

In particular, the body 110 may store the cooling water in the form of mist generated by the operation of the fine spray nozzle 120 therein.

At this time, due to the negative pressure generated by the operation of the injection unit 130, including the suction hole 111, which is formed to suck the external air on the rear or one side of the body 110, As the air is sucked in, the flow rate is increased to induce spraying onto the surface of the hot-dip galvanized steel sheet (A).

Here, the suction hole 111 may have a predetermined diameter or standard, and may include an opening/closing port (not shown) such as a valve that forms the suction hole 111 to adjust the opening/closing range.

In the present invention, the fine spray nozzle 120 is a configuration for receiving cooling water (water) to perform a cooling function and spraying it in the form of mist. The description will be omitted.

At this time, at least one of the atomizing nozzle 120 and the spraying unit 130 may be formed in the rear or front of the body 110 according to the amount of cooling water generated in the mist form and cooling efficiency, as shown in FIG. 2 . .

In addition, the injection unit 130 sucks the cooling water in the form of mist while passing the high-pressure gas supplied from the outside and sprays it onto the surface of the hot-dip galvanized steel sheet (A) to instantly vaporize the hot air as the cooling water comes into contact with it to provide a rapid cooling function. can be done

In particular, the spray unit 130 secures the direction so that the cooling water in the form of mist can be uniformly sprayed onto the surface of the hot-dip galvanized steel sheet (A), and high pressure without the need for separate power means such as large blowers and pumps. By increasing the injection pressure of the gas, the cooling water in the form of mist can be sprayed onto the surface of the hot-dip galvanized steel sheet (A).

As shown in FIG. 1, the injection unit 130 forms a supply part 131 for receiving high-pressure gas on the outside, and an inclined part 132 that is inclined so that the width gradually increases from the rear to the front in the center. a spray body 134 having an inlet space 133 to allow high-pressure gas to flow therein; an induction port 135 that is gradually inclined forward toward the center from the rear of the injection body 134; and a discharge unit 136 formed to discharge the high-pressure gas at a predetermined interval between the inclined unit 132 and the induction port 135 .

In particular, the supply unit 131 serves to supply the high-pressure gas supplied from the outside to the inside of the inlet space (133).

In this case, the supply unit 131 may include a valve for controlling the pressure of the high-pressure gas or an on/off valve for adjusting the supply amount of the high-pressure gas, and may include a filter capable of filtering out foreign substances remaining in the high-pressure gas. .

In addition, the inclined portion 132 has a narrow rear width and is inclined to gradually increase in width toward the front, and the high pressure gas discharged through the discharge portion 136 passes through the rear of the inclined portion 132 while As the speed increases, it sucks the mist-type cooling water and high-pressure gas, and induces it to be sprayed onto the surface of the hot-dip galvanized steel sheet (A).

Here, the induction part 137 formed at the rear of the inclined part 132; including; the high-pressure gas discharged through the discharge part 136 and the cooling water in the form of a mist naturally strike the inclined part 132 without collision and resistance. Therefore, it is formed in an arc shape or a curved shape so that it can be sprayed.

In particular, the high-pressure gas discharged through the discharge unit 136, including a stagnation induction unit 138 formed to face the inlet space 133 at the rear of the inclined unit 132 collides with the inlet space ( 133), it can be induced to maintain a constant pressure while circulating.

And the inlet space 133 guides the high-pressure gas to be discharged through the discharge unit 136 in a stored state.

On the other hand, in order to induce the high-pressure gas passing through the inlet space 133 to be concentrated to the outlet 136, the induction port 135 is gradually inclined forward from the rear to the center of the injection body 134. to form

In particular, the discharge part 136 increases the flow rate of the high-pressure gas discharged through the inlet space 133 and passes through the rear of the narrow inclined part 132 , the air pressure is lowered and negative pressure is generated, so that the body 110 ), it can suck the cooling water in the form of mist and spray it onto the surface of the hot-dip galvanized steel sheet (A).

Therefore, in the present invention, as shown in FIG. 3 , in a state where the cooling water in the form of mist is located inside the body 110 by the operation of the fine atomization nozzle 120 , the high-pressure gas is generated by the operation of the injection unit 130 . By generating negative pressure while passing through the discharge unit 136, the cooling water in the form of mist is sucked and sprayed onto the surface of the hot-dip galvanized steel sheet (A). can

As described above, the embodiment of the present invention has been described in detail, but the scope of the present invention is not limited thereto, and it is natural that the present invention is included in the scope of the present invention to a configuration substantially equivalent to the embodiment of the present invention. do.

100: rapid cooling device of the present invention hot-dip galvanized steel sheet
110: body 111: suction hole
120: fine atomization nozzle
130: injection unit 131: supply unit
132: inclined portion 133: inflow space
134: injection body 135: guide
136: discharge unit 137: induction unit
138: stagnation induction unit
A: Hot-dip galvanized steel sheet

Claims (4)

The body 110 is formed in the form of an empty interior; an atomizing nozzle 120 formed so as to spray the cooling water in the form of mist into the inside of the body 110; A spray unit 130 positioned on one side or front of the body 110 to increase the spray speed of the high-pressure gas to suck the cooling water in the form of mist and spray it onto the surface of the hot-dip galvanized steel sheet (A); Including, but the injection unit 130 is provided with a supply part 131 for receiving the high-pressure gas on the outside, the center is provided with an inclined part 132 that is inclined so as to gradually increase in width from the rear to the front, the inside The injection body 134 for forming an inlet space 133 so that the high-pressure gas can be introduced into the; an induction port 135 that is gradually inclined forward toward the center from the rear of the injection body 134; The rapid cooling device for hot-dip galvanized steel sheet, characterized in that it includes; a discharge part (136) formed between the inclined part (132) and the induction port (135) to discharge the high-pressure gas at a predetermined distance. The rapid cooling device for hot-dip galvanized steel sheet as set forth in claim 1, further comprising a suction hole (111) formed so as to suck in external air at the rear or one side of the body (110). delete The method according to claim 1, In this case, the guide portion 137 formed in the rear of the inclined portion (132); The rapid cooling device for hot-dip galvanized steel sheet, characterized in that it includes; a stagnation induction part (138) formed at the rear of the inclined part (132) to face the inlet space (133).

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