KR101443078B1 - Cooling device for hot plate - Google Patents

Abstract

A cooling device for thick plate is disclosed. The disclosed cooling device for thick plate comprises a moving part moving a thick plate; a sensor part measuring the temperature of the thick plate and the temperature of atmosphere; a control part receiving the measurement from the sensor part; and a cooling part operated by controlling signals from the control part, cooling the thick plate by spraying air to the thick plate passing through the moving part.

Description

{COOLING DEVICE FOR HOT PLATE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling device for a thick plate material, and more particularly, to a cooling device for a thick plate material in which a plate material is forcedly cooled after rolling is completed to allow a rear plate to move quickly.

Generally, the temperature of the rear plate material is approximately 600 ° C to 1000 ° C at the time when finishing rolling is completed. After the rolling, the plate material is exposed to the atmosphere and cooled. By cooling the rear plate, the temperature of the rear plate is cooled to a temperature at which shearing is possible.

BACKGROUND OF THE INVENTION [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 2010-0087474 (published on Aug. 5, 2010, entitled "

An object of the present invention is to provide a cooling device for a thick plate material in which a plate material can be rapidly cooled by forcibly cooling a plate material after rolling is completed.

The cooling apparatus for a thick plate according to the present invention comprises a moving unit for moving a rear plate member, a sensor unit for measuring the temperature of the rear plate member and the temperature of the atmosphere, a control unit for receiving measured values of the sensor unit, And a cooling unit that blows air to the rear plate member passing through the moving unit to cool the rear plate member.

Further, it is preferable that the moving section includes a plurality of rotating rollers rotatably disposed below the rear plate member.

The sensor unit preferably includes a first sensor for measuring the temperature of the atmosphere, a second sensor for measuring the temperature of the rear plate supplied to the moving unit, and a third sensor for measuring the temperature of the rear plate discharged from the moving unit Do.

The cooling section includes a pump section for forcing the movement of the air, a valve section for controlling the flow of the air passing through the pump section, a transfer pipe for supplying the air passing through the valve section and located below the transfer pipe, And a nozzle unit that extends and feeds air to the rear plate member.

The nozzle unit includes a connection pipe branched to a lower side of the transfer pipe, a nozzle body connected to the connection pipe and having a gradually increasing cross sectional area from the upper side to the lower side, and a slit hole forming a long hole in the lower surface of the nozzle body .

In addition, it is preferable that a plurality of the transfer pipe and the nozzle unit are provided along the movement path of the rear plate member.

The cooling device for a heavy plate material according to the present invention can cool the rear plate material by injecting air to the rear plate material, thereby shortening the time required for the thick plate material to move to a post-process, thereby improving productivity.

Further, the present invention can improve the cooling efficiency of the rear plate by controlling the operation of the valve by measuring the temperature of the atmosphere and the temperature of the rear plate.

1 is a plan view schematically showing a cooling apparatus for a heavy plate according to an embodiment of the present invention.
2 is a front view schematically showing a cooling apparatus for a heavy plate according to an embodiment of the present invention.
3 is a perspective view showing a configuration of a main part of a cooling unit according to an embodiment of the present invention.
4 is a perspective view illustrating a lower portion of a nozzle unit according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a cooling apparatus for a thick plate according to the present invention will be described with reference to the accompanying drawings. For convenience of explanation, the cooling device for a thick plate material installed in a steel factory is taken as an example. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

2 is a front view schematically showing a cooling apparatus for a heavy plate according to an embodiment of the present invention. FIG. 3 is a front view of the cooling apparatus for a heavy plate material according to an embodiment of the present invention. FIG. 4 is a perspective view illustrating a lower portion of a nozzle unit according to an embodiment of the present invention. FIG. 4 is a perspective view illustrating a configuration of a cooling unit according to an embodiment of the present invention.

1 and 2, a cooling apparatus 1 for a heavy plate according to an embodiment of the present invention includes a moving unit 20 for moving a rear plate 10, A sensor 40 for measuring the temperature of the atmosphere and a control unit 40 for receiving the measured value of the sensor unit 30 and a control unit 40 which is operated by a control signal of the control unit 40, And a cooling unit 50 for cooling the rear plate member 10 by spraying air to the plate member 10. [

At the end of finishing rolling, the temperature of the rear plate member 10 is approximately 600 to 1000 ° C, and this rear plate member 10 is transferred to the post-process along the moving portion 20.

The moving part 20 for conveying the rear plate member 10 can transfer the rear plate member 10 using the fixed beam and the working beam and the rear plate member 10 10 can be carried out.

The moving part 20 according to one embodiment includes a plurality of rotating rollers 22 rotatably installed on the lower side of the rear plate 10. [

The sensor unit 30, which measures the temperature of the plate material 10 and the temperature of the atmosphere, supplied to the moving unit 20, transmits the measured value to the control unit 40.

Various types of sensors may be used in the sensor section 30 in a non-contact manner to measure the temperature of the atmosphere and the temperature of the rear plate 10.

The sensor unit 30 according to an embodiment includes a first sensor 32 for measuring the temperature of the atmosphere and a second sensor 34 for measuring the temperature of the rear plate member 10 supplied to the moving unit 20, And a third sensor 36 for measuring the temperature of the rear plate member 10 discharged from the moving unit 20.

The second sensor 34 measures the temperature of the plate material 10 after being supplied to the moving part 20 by using a laser.

The third sensor 36 provided on the outlet side of the moving part 20 away from the second sensor 34 measures the temperature of the plate material 10 after being discharged from the cooling part 50.

The second sensor 34 is installed on the upper side of the entrance side of the moving part 20 and the third sensor 36 is installed on the upper side of the exit side of the moving part 20.

The control unit 40 receiving the measured value of the sensor unit 30 determines the temperature of the plate material 10 measured by the second sensor 34 and the temperature of the plate material 10 measured by the first sensor 32, The operating condition of the cooling unit 50 is set with reference to the temperature of the plate material 10 measured by the sensor 36. [

The control unit 40 is connected to the pump unit 52 and the valve unit 54 of the cooling unit 50 to control the operation of the cooling unit 50 so that the cooling unit 50 is operated in conjunction with the atmospheric temperature .

1 to 3, the cooling unit 50 operated with the control signal of the control unit 40 is configured to inject air to the rear plate member 10 passing through the moving unit 20, ) Within a technological idea of cooling? Type cooling apparatus may be used.

The cooling unit 50 according to one embodiment includes a pump unit 52, a valve unit 54, a transfer conduit 60, and a nozzle unit 64.

A pump unit 52 is installed in a duct for supplying air to the cooling unit 50 and the pump unit 52 is operated by the control signal of the control unit 40 to force the movement of the air.

The air that has passed through the pump section 52 is transferred to the transfer conduit 60 via the valve section 54 and is transferred to the rear plate member 10 through the nozzle section 64 provided below the transfer conduit 60 .

A plurality of conveying paths 60 and nozzle units 64 are provided along the movement path of the rear plate member 10 and the valve unit 54 is operated by a control signal of the control unit 40 to supply air, (60) and the number of nozzle units (64) are adjusted.

The cooling unit 50 according to one embodiment is provided with a pair of a conveying line 60 and a nozzle unit 64 through which air is supplied and the cooling unit 50 is disposed above the moving unit 20 Three are installed.

Each of the transfer conduits 60 is provided with a valve portion 54 for controlling the flow of air. The valve unit 54 according to one embodiment includes the first valve 55, the second valve 56 and the third valve 57 and is connected to the transfer pipe 60 to which the first valve 55 is connected. Is provided at the entrance side of the moving part 20. [ The conveying line 60 to which the third valve 57 is connected is installed at the outlet side of the moving unit 20 and the conveying line 60 to which the second valve 56 is connected is provided at the center of the moving unit 20 Located.

The conveying path 60 located above the moving part 20 may be formed in various shapes within the technical idea of supplying air passing through the valve part 54.

The conveying path 60 according to one embodiment includes a main pipe 61 to which air having passed through the valve portion 54 is supplied and a plurality of branch pipes 61 extending in the width direction of the rear plate member 10 And includes an elongate branch tract 62.

A main pipe 61 is connected to one side of a branch pipe 62 provided in a plurality of rows and a rod-shaped frame member 63 is provided on the other side of the branch pipe 62, .

Various types of nozzles can be used in the nozzle portion 64 extending to the lower side of the transfer conduit 60 in the art of spraying the air supplied to the transfer conduit 60 with the rear plate 10. [

3 and 4, the nozzle unit 64 according to one embodiment includes a connection pipe 65 branched to the lower side of the feed pipe 60, a connection pipe 65 connected to the connection pipe 65, And a slit hole 68 for forming an elongated hole in the lower surface 67 of the nozzle body 66. The nozzle body 66 has a cross section that gradually widens toward the lower side.

A plurality of connection conduits 65 are connected to the lower side of the branch conduit 62 so that air moving along the branch conduit 62 moves downward through the connection conduit 65. [

A funnel-shaped nozzle body 66 is connected to the lower side of the connection pipe 65 and a slit hole 68 for spraying air is provided on the lower surface 67 of the nozzle body 66.

Since the slit holes 68 are formed in the elongated shape, air blown downward through the slit holes 68 is sprayed to the left and right along the shape of the slit holes 68 to efficiently cool the rear plate member 10 .

Hereinafter, the operating state of the cooling apparatus 1 for a heavy plate according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

After the finish rolling, the high-temperature rear plate member 10 is moved to the upper side of the moving portion 20.

The first sensor 32 measures the temperature of the atmosphere and the second sensor 34 measures the temperature of the rear plate 10 before the rear plate 10 is moved to the cooling section 50. The third sensor 36 measures the temperature of the sheet material 10 after passing through the cooling unit 50 and the measured values of the first sensor 32, the second sensor 34 and the third sensor 36 are And is transmitted to the control unit 40.

When the measurement of the sensor unit 30 is performed in winter, the temperature of the measurement value measured by the first sensor 32 is lowered. When the measurement of the sensor unit 30 is performed in the summer, The temperature of the measured value becomes higher.

The control unit 40 determines whether the cooling unit 50 is operating or not based on the measured values of the first sensor 32 and the second sensor 34 and the operation of the nozzle unit 64 The number of operations can be adjusted.

For example, when the rear plate 10 is cooled in winter, the temperature measured by the first sensor 32 is low, so that the cooling unit 50 may not be operated. If necessary, Only one of the valves can be operated.

The temperature of the plate member 10 is measured by the third sensor 36 after passing through the cooling unit 50 and the control unit 40 controls the operation of the cooling unit 50 based on the measured value of the third sensor 36 .

When the temperature of the plate material 10 measured by the third sensor 36 is higher than the set temperature, the remaining valve of the valve portion 54 is also opened to allow the air to be smoothly injected through the cooling portion 50 do.

When the temperature of the plate material 10 measured by the third sensor 36 is lower than the set temperature, all of the valve portions 54 are locked or the amount of air movement is reduced. Therefore, the energy of the energy for activating the cooling portion 50 Waste can be prevented.

After passing through the cooling part 50 and cooled to a set temperature, the plate material 10 is transferred to a post-process and cut to a predetermined size.

The cooling device 1 for a rear plate member according to an embodiment of the present invention can cool the rear plate member 10 more quickly by injecting air to the rear plate member 10, ) Is shifted to the post-process can be shortened and the productivity can be improved.

In addition, since the operation of the valve unit 54 is controlled by measuring the temperature of the atmosphere and the temperature of the rear plate member 10, the cooling efficiency of the rear plate member 10 can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Also, the cooling device for a heavy plate material installed in a steel plant has been described as an example, but this is merely an example, and a cooling device for a heavy plate material according to the present invention can be used in another factory for cooling hot material.

Accordingly, the true scope of protection of the present invention should be defined by the claims.

1: cooling device for heavy plate material 10: rear plate material
20: moving part 22: rotating roller
30: sensor part 32: first sensor
34: second sensor 36: third sensor
40: control unit 50: cooling unit
52: pump section 54: valve section
55: first valve 56: second valve
57: third valve 60: transfer pipe
61: main pipe 62: branch pipe
63: frame member 64:
65: connecting pipe 66: nozzle body
67: lower surface 68: slit hole

Claims (6)

A moving unit for moving the rear plate member;
A sensor unit for measuring the temperature of the rear plate member and the temperature of the atmosphere;
A controller receiving a measurement value of the sensor unit; And
And a cooling unit operated by a control signal of the control unit and injecting air to the rear plate passing through the moving unit to cool the rear plate,
The cooling unit includes: a pump unit for forcing the movement of air;
A valve unit for controlling the flow of air passing through the pump unit;
A transfer conduit located above the moving section and supplied with air passing through the valve section; And
And a nozzle unit extending to a lower side of the conveyance pipe and spraying air to the rear plate member.
The method according to claim 1,
Wherein the moving unit includes a plurality of rotating rollers rotatably installed on a lower side of the rear plate member.
The method according to claim 1,
The sensor unit may include a first sensor for measuring a temperature of the atmosphere;
A second sensor for measuring a temperature of the rear plate supplied to the moving unit; And
And a third sensor for measuring the temperature of the rear plate material discharged from the moving unit.
delete The method according to claim 1,
The nozzle unit includes: a connection pipe branching to a lower side of the transfer pipe;
A nozzle body connected to the connection pipe and having a cross-sectional area gradually increasing from the upper side to the lower side; And
And a slit hole forming an elongated hole in a lower surface of the nozzle body.
The method according to claim 1,
Wherein the conveying path and the nozzle unit are provided in plural along the movement path of the rear plate member.

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