KR20120043567A - Apparatus for cooling steel plate - Google Patents

Abstract

PURPOSE: A steel sheet cooling apparatus is provided to minimize vibration of a steel sheet during spray of a cooling medium by controlling the interval between cooling units which spray the cooling medium to the steel sheet. CONSTITUTION: A steel sheet cooling apparatus(100) comprises a main body(200), cooling units(300), and a gap adjusting unit(500). A steel sheet(S) passes through the inside of the main body. The cooling units, including a plurality of sprayers(310), are formed inside the main body and spray a cooling medium to both sides of the steel sheet, respectively. The gap adjusting unit is connected to the cooling units in order to control the interval between the cooling units and the steel sheet.

Description

Steel Plate Cooling Equipment {APPARATUS FOR COOLING STEEL PLATE}

The present invention can be quickly discharged to the outside of the cooling medium sprayed on the steel sheet to cool the steel plate to the outside, and by adjusting the interval between the steel sheet and the cooling unit for spraying the cooling medium to the steel sheet of the steel sheet by the injection of the cooling medium It relates to a steel plate cooling device that can minimize vibration.

The steel plate cooling apparatus is a device for cooling a steel sheet passing through it, for example, a plated steel sheet plated with zinc or the like.

Such a steel plate cooling apparatus includes an injection unit for injecting a cooling medium into the steel sheet. The jetting unit is connected to a cooling medium supply source for supplying a cooling medium to the jetting unit, for example, a fan if air is used as the cooling medium. Therefore, when a cooling medium supply source such as a fan is driven, air, which is a cooling medium, is supplied to the injection unit, and air, which is a cooling medium, is injected onto the steel sheet, thereby cooling the steel sheet.

However, in the conventional steel sheet cooling apparatus, the cooling medium sprayed on the steel sheet for cooling the steel sheet was not quickly discharged to the outside. As a result, the cooling medium sprayed on the steel sheet and the temperature thereof collided with the cooling medium sprayed from the spraying unit to hinder the ejection of the cooling medium from the spraying unit to the steel sheet. Then, the temperature of the cooling medium injected from the injection unit is increased. Therefore, there is a problem that the cooling efficiency of the steel sheet is lowered.

In addition, there is a problem that vibration occurs in the steel sheet by the cooling medium sprayed on the steel sheet or the cooling medium flow around the steel sheet. As such, when vibration is generated in the steel sheet, a problem in quality of the steel sheet is generated such that the production speed is lowered or cooling of the steel sheet is not uniform.

The present invention is made by recognizing at least one of the needs or problems occurring in the conventional steel sheet cooling apparatus as described above.

One object of the present invention is to be discharged to the steel sheet to quickly discharge the cooling medium having a temperature rise.

Another object of the present invention is to improve the cooling efficiency of the steel sheet.

Another object of the present invention is to be able to adjust the interval between the steel sheet and the cooling unit for spraying the cooling medium to the steel sheet.

Another object of the present invention is to minimize the vibration of the steel sheet by the injection of the cooling medium.

Another object of the present invention to improve the quality of the steel sheet.

Steel plate cooling apparatus according to an embodiment for realizing at least one of the above problems may include the following features.

The present invention is basically sprayed for cooling the steel sheet so that the discharge to the outside of the cooling medium having a high temperature is quickly made, and to control the angle between the steel sheet and the cooling unit for spraying the cooling medium to the steel sheet vibration of the steel sheet Is based on making it possible to minimize

Steel plate cooling device according to an embodiment of the present invention the apparatus body through which the steel sheet passes; A cooling unit provided inside the apparatus body and configured to spray a cooling medium onto the steel sheet; And a gap adjusting part associated with the cooling part to adjust a gap between the steel plate and the cooling part. As shown in FIG.

In this case, two cooling units may be provided inside the apparatus main body so as to spray cooling medium on both sides of the steel sheet.

The cooling unit may include a plurality of spray units, and the spray unit may include a plurality of spray units included in the cooling unit for injecting a cooling medium on one surface of the steel plate and a cooling unit spraying the cooling medium on the other surface of the steel plate. May be staggered with each other in the direction.

The cooling unit includes a plurality of injection units; A pair of chambers disposed side by side in the apparatus main body so as to be disposed parallel to the longitudinal direction of the steel sheet and connected to a cooling medium supply source; And a plurality of flow tubes each having one side and the other side connected to the pair of chambers so as to be disposed in parallel with the width direction of the steel plate, and having a plurality of injection parts connected thereto. It may include.

In addition, the discharge unit for discharging the cooling medium sprayed on the steel sheet to the outside; It may further include.

The discharge part may include a hood member provided on the apparatus main body to collect the cooling medium having the temperature increased by being injected onto the steel sheet; A duct member connected to the hood member; And a cooling medium discharge source connected to the duct member. It may include.

In addition, the gap adjusting portion is included in the cooling unit and a plurality of chamber moving members provided in the apparatus body to be connected to each of the pair of chambers provided to be movable in the apparatus body; A drive motor provided in the apparatus main body; And a movement connecting means connected to the plurality of chamber moving members and the driving motor to move the pair of chambers by the rotation of the driving motor. It may include.

As described above, according to the embodiment of the present invention, the cooling medium sprayed on the steel sheet and the temperature is raised can be quickly discharged to the outside.

In addition, according to the embodiment of the present invention, the cooling efficiency of the steel sheet can be improved.

In addition, according to an embodiment of the present invention, it is possible to adjust the distance between the steel sheet and the cooling unit for spraying the cooling medium on the steel sheet.

In addition, according to the embodiment of the present invention, it is possible to minimize the vibration of the steel sheet by the injection of the cooling medium.

In addition, according to the embodiment of the present invention, the quality of the steel sheet can be improved.

1 is a perspective view showing an embodiment of a steel plate cooling apparatus according to the present invention.
2 is a view showing the cooling of the steel sheet by injecting a cooling medium to the steel sheet passed according to the embodiment of Figure 1, (a) is a front view in a state in which the device body of the embodiment of Figure 1 in the longitudinal direction cut. (b) is a plan view of the embodiment of FIG.
3 is a view showing adjusting the distance between the steel sheet and the cooling unit for spraying the cooling medium to the steel plate by the gap adjusting unit while cooling the steel sheet according to the embodiment of FIG. 1, (a) is the embodiment of FIG. It is a front view in the state which cut | disconnected the apparatus main body in the longitudinal direction, (b) is a top view of the Example of FIG.

In order to help the understanding of the features of the present invention as described above, it will be described in more detail with respect to the steel sheet cooling apparatus associated with the embodiment of the present invention.

Hereinafter, the described embodiments will be described on the basis of the most suitable embodiments for understanding the technical features of the present invention, and the technical features of the present invention are not limited by the described embodiments. It is to be exemplified that the present invention can be implemented as in the following embodiments. Accordingly, the present invention may be modified in various ways within the technical scope of the present invention through the embodiments described below, and the exemplary embodiments fall within the technical scope of the present invention. And, in order to help the understanding of the embodiments described below, in the reference numerals described in the accompanying drawings, among the components that will have the same function in each embodiment, the related components are denoted by the same or extension numbers.

Embodiments related to the present invention are basically sprayed for cooling the steel sheet so that discharge to the outside of the cooling medium whose temperature is elevated is made quickly, and to control the angle between the steel sheet and the cooling unit for spraying the cooling medium to the steel sheet. Based on that to minimize the vibration of the steel sheet.

As shown in FIG. 1, the steel sheet cooling apparatus 100 according to the present invention includes an apparatus body 200, a cooling unit 300, a discharge unit 400, and a gap adjusting unit 500. Can be.

The device body 200 may pass through the steel sheet S to be cooled as in the embodiment shown in FIG. 1. To this end, the device body 200 may be open to both sides so that the steel sheet (S) can pass through. In addition, both sides of the apparatus main body 200 open the sealing member (not shown) formed with a steel plate passing portion (not shown) made of a hole or the like so that the inside of the apparatus main body 200 can be sealed while the steel sheet S passes therethrough. Each of which may be provided.

As shown in FIG. 1, the cooling unit 300 may be provided inside the apparatus body 200. As described above, the steel sheet S passing through the apparatus main body 200 may be cooled by the cooling unit 300. As shown in the illustrated embodiment for cooling the steel sheet S passing through the apparatus main body 200, the cooling unit 300 may include a plurality of injection units 310 for injecting a cooling medium such as air or water. . In the illustrated embodiment, the injection unit 310 may be in the form of an injection nozzle or the injection unit 310 is not limited to the injection nozzle, but may be in the form of an injection hole (not shown).

The cooling unit 300 may be provided in the interior of the apparatus body 200, as shown in the embodiment shown in FIG. Accordingly, the cooling medium may be sprayed on both sides of the steel sheet (S). Therefore, cooling of the steel sheet S can be made relatively fast.

Meanwhile, when the two cooling units 300 are provided inside the apparatus main body 200 as described above, the plurality of injection units included in the cooling unit 300 for spraying the cooling medium on one surface of the steel sheet S. The plurality of spraying units 310 included in the cooling unit 300 spraying the cooling medium on the other surface of the 310 and the steel sheet S may be alternately disposed in the longitudinal direction of the steel sheet S. Accordingly, when the width of the steel sheet S passing through the apparatus main body 200 is small, the cooling medium sprayed on one surface of the steel sheet S by the injection unit 310 provided outside the width of the steel sheet S. And the cooling medium sprayed on the other surface of the steel sheet S may not collide with each other. Therefore, it is possible to prevent the vibration of the steel sheet (S) due to the vortices generated by the cooling medium collide with each other.

As illustrated in FIG. 1, the cooling unit 300 may include the plurality of injection units 310 described above, a pair of chambers 320, and a plurality of flow tubes 330.

As shown in FIG. 1, the pair of chambers 320 may be provided side by side in the apparatus main body 200 to be disposed parallel to the longitudinal direction of the steel sheet (S). In addition, the pair of chambers 320 may be connected to a cooling medium source (not shown), such as a fan, by means of a connecting tube, for example, if air is used as the cooling medium. Therefore, when a cooling medium supply source such as a fan is driven, the cooling medium may be supplied to the chamber 320.

Meanwhile, each of the pair of chambers 320 may be provided to be movable in the apparatus main body 200 as shown in FIG. 1. To this end, a rail member 210 may be provided at one side of the apparatus main body 200 as shown in the illustrated embodiment. And, one side of the chamber 320 may be provided with a wheel member 321 to be movable in the rail member 210 of the device body 200. If the chamber 320 is movably provided in the apparatus main body 200 as described above, the chamber 320 may be connected to the cooling medium supply source by a flexible connector.

As shown in FIG. 1, one side and the other side of the plurality of flow tubes 330 may be connected to the aforementioned pair of chambers 320 to be disposed in parallel with the width direction of the steel sheet S. Accordingly, as described above, the cooling medium supplied to the chamber 320 by the cooling medium supply source may be supplied to each of the plurality of flow tubes 330. In addition, each of the plurality of flow pipes 330 may be connected to a plurality of injection unit 310 as shown in the illustrated embodiment. Accordingly, as illustrated in FIGS. 2 and 3, the cooling medium supplied to each of the plurality of flow tubes 330 is supplied to the plurality of injection units 310, and is supplied to the steel sheet S by the plurality of injection units 310. Can be sprayed.

The discharge unit 400 may be sprayed on the steel sheet (S) so that the cooling medium whose temperature is increased may be discharged to the outside. That is, as described above, the cooling medium sprayed on the steel sheet S by the spraying unit 310 cools the steel sheet S by heat transfer with the steel sheet S having a relatively higher temperature. The elevated cooling medium is discharged to the outside through the discharge unit 400. Accordingly, the cooling of the steel sheet (S) is made smoothly can be improved cooling efficiency.

As illustrated in FIG. 1, the discharge part 400 may include a hood member 410, a duct member 420, and a cooling medium discharge source. The hood member 410 may be provided in the apparatus main body 200 as shown in the illustrated embodiment. The hood member 410 may collect a cooling medium sprayed on the steel sheet S to raise the temperature.

The duct member 420 may be connected to the hood member 410 as shown in FIG. 1. Accordingly, the cooling medium which is sprayed on the steel sheet S collected by the hood member 410 and whose temperature is raised may flow to the duct member 420.

As shown in FIG. 1, a cooling medium discharge source (not shown) may be connected to the duct member 420. Such a cooling medium discharge source may be a fan or the like, for example, if air is used as the cooling medium. Therefore, when driving a cooling medium discharge source such as a fan, the cooling medium sprayed on the steel sheet (S) and the temperature is raised to the hood member 410 and then quickly discharged to the outside through the duct member 420 and the cooling medium discharge source. Can be.

The gap adjusting unit 500 may be associated with the cooling unit 300. If the injection unit 310 is included in the cooling unit 300 by the gap adjusting unit 500 and the cooling unit 300, for example, the illustrated embodiment, the interval between the injection unit 310 Can be adjusted. Accordingly, vibration of the steel sheet S due to the injection of the cooling medium can be minimized.

The gap adjusting unit 500 may be connected to a control unit (not shown) connected to a vibration sensor (not shown) capable of measuring the vibration of the steel sheet (S). Accordingly, when the vibration of the steel sheet (S) measured by the vibration detection sensor exceeds the allowable value, the control unit is the steel sheet (S) and the cooling unit (S) by the interval adjusting unit 500 so that the vibration of the steel sheet (S) is less than the allowable value. 300, in the illustrated embodiment, the distance between the injection units 310 may be adjusted. Thereby, the vibration of the steel plate S can be minimized.

As shown in FIG. 1, the gap adjusting unit 500 may include a plurality of chamber moving members 510, a driving motor 520, and a movement connecting means 530.

1, the plurality of chamber moving members 510 may be provided in the apparatus main body 200 so as to be connected to a pair of chambers 320 that are movably provided in the apparatus main body 200, as shown in FIG. 1. have. The pair of chambers 320 may be moved by the chamber moving member 510. Accordingly, the flow pipe 330 connected to the chamber 320 and the injection unit 310 connected to the flow pipe 330 may be moved. In addition, in the illustrated embodiment, the gap between the steel sheet S and the cooling unit 300 may be adjusted. The chamber moving member 510 may be, for example, a screw jack. However, the chamber moving member 510 is not limited to the screw jack, and any chamber can be used as long as it can move the pair of chambers 320.

As shown in FIG. 1, the driving motor 520 may be provided in the apparatus main body 200. The drive motor 520 is not particularly limited and may be any known drive motor.

The movement connecting means 530 may be connected to the plurality of chamber moving members 510 and the driving motor 520 described above as shown in FIG. 1. When the driving motor 520 is rotated by the movement connecting means 530, the pair of chambers 320 may be moved by the chamber moving member 510. To this end, the movement connecting means 530 is a first connection bar 531 connected to the chamber moving member 510 and a first gear box 532 connected to the first connection bar 531 as shown in the illustrated embodiment. ), A second connection bar 533 connected to the first gear box 532, and a second gear box 534 connected to the second connection bar 533 and the driving motor 520. Accordingly, when the driving motor 520 is rotated, the second connecting bar 533 is rotated by the second gear box 534, the rotation of the second connecting bar 533 is the first gear box 532. It is transmitted to the first connection bar 531 through the first connection bar 531 is rotated. In addition, the chamber moving member 510 moves the chamber 320 by the rotation of the first connection bar 531.

On the other hand, in the embodiment shown in Figure 1, the gap adjusting unit 500 is provided inside the apparatus main body 200, the gap adjusting unit 500 is provided outside the apparatus main body 200, the cooling unit 300 In other words, it may be connected to the chamber 320 of the cooling unit 300.

Hereinafter, the operation of one embodiment of the steel plate cooling apparatus 100 according to the present invention with reference to Figures 2 and 3 will be described. Hereinafter, the air is used as the cooling medium and the injection nozzle is used as the injection unit 310 of the cooling unit 300.

When the steel sheet S approaches the steel sheet cooling apparatus 100 or enters the steel sheet cooling apparatus 100 is detected by the steel sheet sensor (not shown), the cooling unit 300 connected to the control unit (not shown) connected thereto. The cooling medium supply source such as a fan is connected to the chamber 320.

Accordingly, air, which is a cooling medium, is supplied to the chamber 320 and air, which is a cooling medium, supplied to the chamber 320 flows through the flow pipe 330 to thereby eject the injection portion 310 as shown in FIGS. 2 and 3. Sprayed through.

As such, air, which is a cooling medium injected through the injection unit 310, is injected into the steel sheet S passing through the apparatus main body 200 of the steel plate cooling apparatus 100 as shown in FIGS. 2 and 3. 2 and 3, air, which is a cooling medium, is sprayed on both surfaces of the steel sheet S. In FIG. Accordingly, the steel sheet S having a relatively high temperature is cooled by heat exchange between the air which is a cooling medium sprayed on the steel sheet S and the steel sheet S, and the air which is a cooling medium having a relatively low temperature is heated.

Meanwhile, when the cooling medium discharge source (not shown) of the discharge unit 400 is driven, air, which is a cooling medium that is sprayed onto the steel sheet S and the temperature thereof is collected, is collected by the hood member 410 and the duct member 420. It is discharged to the outside through a cooling medium discharge source such as a fan.

Therefore, the cooling of the steel sheet (S) is made smoothly so that the cooling efficiency of the steel sheet (S) can be improved.

On the other hand, when vibration is generated in the steel sheet (S) by the air is a cooling medium injected to the steel sheet (S), this is detected by the vibration sensor (not shown) connected to the above-described control unit. Accordingly, the control unit drives the driving motor 520 of the gap adjusting unit 500.

Accordingly, as shown in FIG. 3, the chamber 320 of the cooling unit 300 is moved from the apparatus body 200 so that the steel sheet S and the cooling unit 300, and in the illustrated embodiment, the injection unit 310. The spacing between them is adjusted. And, the adjustment of the interval between the steel sheet (S) and the cooling unit 300, that is, the injection unit 310 is made until the vibration of the steel sheet (S) detected by the above-described vibration sensor by the control unit is minimum. Can be.

Therefore, it is possible to minimize vibration of the steel sheet S due to the injection of air to the steel sheet S of the cooling medium. And the quality of the steel plate S can be improved because the fall of the production speed which arises by the vibration of the steel plate S, and the fall of the quality of the steel plate S which generate | occur | produced by cooling nonuniformity can be prevented.

Using the steel sheet cooling apparatus according to the present invention as described above, it is possible to quickly discharge the cooling medium is sprayed on the steel plate and the temperature rises to the outside, the cooling efficiency of the steel sheet can be improved, cooling medium to the steel sheet and the steel sheet The interval between the sprayed cooling unit can be adjusted, the vibration of the steel sheet due to the injection of the cooling medium can be minimized, and the quality of the steel sheet can be improved.

The steel sheet cooling device described above may not be limitedly applied to the configuration of the above-described embodiment, but the embodiments may be configured by selectively combining all or some of the embodiments so that various modifications can be made. .

100: steel plate cooling device 200: device body
210: rail member 300: cooling part
310: injection unit 320: chamber
320a: wheel member 330: flow tube
400: discharge part 410: hood member
420: duct member 500: spacing control part
510: chamber moving member 520: driving motor
530: mobile connection means 531: first connection bar
532: first gear box 533: second connecting bar
534: second gear box S: steel plate

Claims (7)

The apparatus body 200 through which the steel sheet S passes;
A cooling unit 300 provided inside the apparatus main body 200 and configured to spray a cooling medium onto the steel sheet S; And
A gap adjusting part 500 associated with the cooling part 300 to adjust a gap between the steel sheet S and the cooling part 300;
Steel plate cooling device configured to include. The apparatus of claim 1, wherein the cooling unit (300) is provided in the interior of the apparatus main body (200) so as to spray the cooling medium on both sides of the steel sheet (S). The method of claim 2, wherein the cooling unit 300 includes a plurality of injection unit 310,
A plurality of injection units 310 included in the cooling unit 300 for injecting the cooling medium on one surface of the steel plate (S) and the injection unit included in the cooling unit 300 for injecting a cooling medium on the other surface of the steel sheet (S) 310 is a steel plate cooling apparatus, characterized in that arranged in the longitudinal direction of the steel sheet (S) staggered with each other. The method of claim 1, wherein the cooling unit 300
The plurality of injection unit 310;
A pair of chambers 320 disposed side by side in the apparatus main body 200 so as to be parallel to the longitudinal direction of the steel sheet S and connected to a cooling medium supply source; And
A plurality of flow tubes 330 having one side and the other side connected to the pair of chambers 320 so as to be disposed in parallel with the width direction of the steel sheet S, and the plurality of injection units 310 connected to each other;
Steel sheet cooling apparatus comprising a. According to claim 1, Discharge unit 400 for discharging the cooling medium injected to the steel sheet (S) to the outside; Steel sheet cooling apparatus further comprises a. The method of claim 5, wherein the discharge unit 400
A hood member 410 provided in the apparatus main body 200 to collect a cooling medium sprayed onto the steel sheet S to raise a temperature;
A duct member 420 connected to the hood member 410; And
A cooling medium discharge source connected to the duct member 420;
Steel sheet cooling apparatus comprising a. According to claim 1, wherein the gap adjusting unit 500
A plurality of chamber moving members 510 included in the cooling unit 300 and provided in the apparatus main body 200 so as to be connected to a pair of chambers 320 which are movable in the apparatus main body 200;
A driving motor 520 provided in the apparatus main body 200; And
Moving connection means 530 connected to the plurality of chamber moving members 510 and the drive motor 520 such that the pair of chambers 320 are moved by the rotation of the drive motor 520;
Steel sheet cooling apparatus comprising a.

Images