KR101858854B1 - Apparatus for cooling of strip - Google Patents

Abstract

The present invention relates to a coated steel plate cooling apparatus, including: an apparatus body provided on an object transport path; a cooling means provided to move in the apparatus body and provided with a plurality of cooling agent supply ports provided to face an object; and a cooling adjustment means provided to move in the cooling means and opening or closing the cooling agent supply port. The cooling means includes: first and second cooling blocks facing each other across the object, provided with a cooling agent accommodating space therein, and provided to move toward the object; the cooling agent supply ports connected to the cooling agent accommodating space of the first and second cooling blocks, arranged in the width direction of the object in the first and second cooling blocks, and supplying a cooling agent to the object; and a flow rate adjustment unit connected to the first and second cooling blocks and controlling cooling agent supply or non-supply or the amount of cooling agent supply. The cooling adjustment means includes: an opening and closing plate provided in the cooling agent accommodating space of the first and second cooling blocks; a drive cylinder member moving the opening and closing plate along the cooling agent supply port with a piston rod connected to the opening and closing plate; and a sealing member provided on the outer periphery of the opening and closing plate.

Description

[0001] APPARATUS FOR COOLING OF STRIP [0002]

The present invention relates to a plated steel plate cooling apparatus.

Generally, the coated steel sheet is excellent in corrosion resistance and spot weldability, and therefore, there is an increasing demand for steel sheets for building materials, electronic products, and automobiles.

Describing the process of manufacturing a galvanized steel sheet, which is one of such coated steel sheets, a steel sheet unwound from a payoff reel is heat treated through a welder and a looper.

Then, the steel sheet passes through a sink roll, a stabilizing roll or guide rolls through a Snart and a plating bath, where molten zinc is attached to the surface of the steel sheet. In the upper part of the plating bath, a gas wiping facility called an air knife is installed. By spraying high-pressure gas (inert gas or air) from the gas wiping facility, the thickness of the steel plate is controlled.

At this time, in order to prevent the zinc plated layer from peeling off from the steel sheet, the zinc plated layer must be hardened, but the hardening of the zinc plated layer can be realized by cooling.

That is, a certain cooling device is installed in the conveyance path of the steel sheet to supply a certain amount of coolant to coagulate the zinc plated layer adhered to the surface of the hot plated steel sheet, and the temperature of the steel sheet is lowered, .

If the supply amount and the supply distance of the coolant are not properly controlled during the cooling process, there is a problem that the zinc plated layer has abnormal patterns or wrinkles. In the case where the zinc plated layer is not completely dried, There is a problem that a mark defect or the like may occur.

Also, in the plating process, a proper amount of coolant should be supplied in accordance with the width of the steel sheet. When the condition of the width of the steel sheet is excluded in the course of supplying the coolant, there is a problem that the overlapping area of the coolant overlaps.

KR 10-0887534 B1 (Mar. 3, 2009)

An object of the present invention is to perform cooling suitable for the width of a steel sheet in the plating process and to perform cooling suitable for the current temperature of the steel sheet.

Another object is to improve the cooling efficiency and quality of the steel sheet.

The present invention relates to a plated steel plate cooling apparatus.

The present invention provides a cooling device for cooling a coated steel plate, comprising: a device body provided in a conveyance path of an object; a cooling means provided to be moved in the device body and having a plurality of cooling provision supplies facing the object; And a cooling regulating means provided movably in the cooling means to open or close the cooling provision supply, wherein the cooling means is arranged to face the object and has a coolant accommodating space therein, A first cooling block connected to the coolant accommodating space of the first and second cooling blocks and disposed in the width direction of the object in the first and second cooling blocks, A plurality of cooling provision supplies for supplying a coolant to the object; And a flow control unit connected to the first and second cooling blocks to control whether the coolant is supplied or supplied, and the cool control unit controls the coolant supplied to the coolant accommodating space of the first and second cooling blocks A drive cylinder member connected to the open / close plate so as to move the open / close plate along the cooling provision supply; And a sealing member provided on an outer periphery of the opening and closing plate.

Preferably, a gear shaft provided on the apparatus body and rotated by a driving motor; And a foldable plate provided to move in engagement with the gear shaft and varying length in a moving direction of the first and second cooling blocks.

More preferably, the apparatus body and the side guide means provided on the foldable plate and supporting the side surface of the object may further include:

More preferably, the side guide means comprises: a guide body provided on the apparatus body and the foldable plate; a sensor member provided in the internal space of the guide body; and a guide bar A guide roller provided on the guide bar and contacting the object; And an elastic member provided in an inner space of the guide body.

More preferably, the flow rate control unit includes: a supply line connected to the first and second cooling blocks and serving as a passage for the coolant; And a control valve provided in the supply line to adjust the supply amount or supply amount of the coolant.

The apparatus may further include temperature measuring means provided in front of the apparatus body in a direction of conveyance of the object to measure the temperature of the object.

Preferably, the temperature measuring means includes: a measurement bracket member provided on a conveying path of the object; a measurement bar provided on the measurement bracket member, the measurement bar having a stopping jaw; A measuring member for measuring the temperature of the substrate; And an elastic member provided inside the measurement bracket member and contracted when the measurement member is pressed by the object.

Also preferably, the measuring member may include a buffer member at an end contacting with the object.

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According to the present invention, it is possible to perform cooling that is optimized for the width of the steel strip, and to prevent the over lap of the coolant from overlapping in the steel strip.

Further, the cooling efficiency and quality of the steel sheet are improved.

1 schematically shows a plating steel plate cooling apparatus according to the present invention.
2 is I-I 'in Fig.
3 is I-I 'of the open / close plate operation state.
Figure 4 schematically shows the temperature measuring means according to the invention.
Fig. 5 schematically shows the operating state of the temperature measuring means according to the present invention.
6 shows the surface state of the plated steel sheet.

In order to facilitate an understanding of the description of the embodiments of the present invention, elements denoted by the same reference numerals in the accompanying drawings are the same element, and among the constituent elements that perform the same function in each embodiment, Respectively.

Further, in order to clarify the gist of the present invention, a description of elements and techniques well known in the prior art will be omitted, and the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood, however, that the spirit and scope of the present invention are not limited to the embodiments shown, but may be suggested by those skilled in the art in other forms, additions, or alternatives, .

The object described below may be a hot-dip galvanized steel sheet.

First, as shown in FIG. 1, the hot-dip galvanized object 1 in the plating bath 10 is cooled while passing through the coolant-regulated cooling apparatus 100, and the plating layer can be cured.

The object 1 subjected to heat treatment in an annealing furnace (not shown) is introduced into the molten zinc bath of the plating bath 10 through the snout 11, and molten zinc is adhered to the surface of the object while exiting the plating bath. The molten zinc plated object 1 is then turned by the sink roll 12 in the plating bath and guided by the guide roll 13 to move vertically.

The coating layer coated on the surface of the object 1 is adjusted to an appropriate thickness by a gas jetted at a high speed from the air knife 14 or the like. The plating layer is cooled while passing through the first cooling surface 1a which is one surface of the object 1 and the apparatus body 110 which faces the first cooling surface 1b which is the other surface of the object 1, It coagulates.

At this time, the temperature of the object 1 can be measured by the temperature measuring means 170 before the object 1 is drawn into the apparatus body 110.

The object 1 may be cooled in the apparatus body 110 while the object 1 passes through the apparatus body 110 so that cooling suitable for the temperature measured by the temperature measuring means 170 .

Then, the object 1 is turned by the upper roll 15 and moved to the next process. At this time, a plurality of the apparatus body 110 may be provided in the conveying direction of the object 1 in accordance with the thickness, the width, the thickness of the plating layer, and the like of the object 1.

Preferably, the apparatus body 110 may have a passage through which the object 1 is drawn in and out.

The apparatus body 110 may be connected to a main gear shaft 111 provided in the longitudinal direction of the object 1 so as to be movable in the longitudinal direction of the object 1. [ The main gear shaft 111 may be connected to the main drive motor 112 and rotated.

Accordingly, the apparatus body 110 can move from the object 1 to a portion requiring cooling to perform a cooling operation.

FIG. 2 shows a plating steel plate cooling apparatus according to a preferred embodiment of the present invention.

The present invention relates to a cooling apparatus for a coated steel sheet, which comprises a device body 110 provided in a conveying path of an object 1, a plurality of cooling / A cooling unit 120 having a cooling supply unit 121 and a cooling control unit 130 provided to be moved by the cooling unit to open or close the cooling supply unit 121.

At this time, the cooling means may include first and second cooling blocks 122 and 123 disposed opposite to each other with the object therebetween and having a coolant receiving space therein. The first and second cooling blocks 122 and 123 may be installed in the apparatus body 110 by a connection bracket member 143 and may be installed to be engaged with the first gear shaft 141 inside the apparatus body 110 have. The cooling supply supply port 121 for supplying the coolant in the first and second cooling blocks 122 and 123 to the object 1 is provided in the first and second cooling blocks 122 and 123 in the width direction of the object 1, May be provided.

A flow rate control unit 160 is connected to the first and second cooling blocks 122 and 123 to supply the coolant to the coolant accommodating spaces of the first and second cooling blocks 122 and 123, .

The flow rate control unit 160 includes a supply line 161 connected to the inner space of the first and second cooling blocks 122 and 123, that is, the coolant accommodation space, and a control valve (not shown) .

The control valve (not shown) is electrically connected to the control means (not shown) so that the operator can control the opening and closing operation of the control valve (not shown) through the control means (not shown).

Also, preferably, the coolant may be cooling water, but is not necessarily limited to the present invention, and may be suitably modified and applied by those skilled in the art.

The cooling control means 130 includes an opening and closing plate 131 provided in the coolant receiving space of the first and second cooling blocks 122 and 123 and a piston rod 132b connected to the opening and closing plate, And a sealing member 133 provided on the outer periphery of the opening and closing plate 131. The driving cylinder member 132 may be formed of a metal plate,

Preferably, the apparatus body 110 is provided with a second gear shaft 146 that is rotated by a second drive motor 145 and a second gear shaft 146 that is provided to move in engagement with the second gear shaft 146, 2 folding plate 144 whose length changes in the moving direction of the cooling block 122, 123 can be further provided.

The body 132a of the driving cylinder member is fixed to the foldable plate 144,

The first and second cooling blocks 122 and 123 are provided so as to move relative to the first cooling surface 1a and the second cooling surface 1b of the object. The first and second cooling blocks 122 and 123 are connected to a first gear shaft 141 provided in the apparatus body 110 and the first gear shaft 141 is connected to a first drive motor 142 Can be connected and rotated.

At this time, the gear direction of the first gear shaft 141 can be formed such that the first and second cooling blocks 122 and 123 can move in opposite directions by the rotation of the first driving motor 142.

Also, in case the first and second cooling blocks 122 and 123 move as described above, the supply line 161 for supplying the fluid may be provided as a flexible hose capable of varying the length. However, it should be understood that the present invention is not limited thereto and can be appropriately changed by those skilled in the art.

The foldable plate connected to the lower part of the first and second cooling blocks can change the length in the direction in which the first and second cooling blocks move. Therefore, when the first and second cooling blocks move, their lengths change along the first and second cooling blocks.

Thus, by controlling the interval formed between the object 1 and the cooling supply port 121, it is possible to eliminate the region where the coolant overlaps the object 1 and prevent overcooling of the object.

In order to cope with the change in the width of the object 1, the drive cylinder member 132 can move the open / close plate 131 in the first and second cooling blocks, To open or close the cooling provisioning supplies 121 arranged in the width direction of the cooling water supply pipe.

At this time, a sealing member 133 may be provided on the outer periphery of the opening and closing plate 131 to prevent the refrigerant from flowing out and smoothly move between the first and second cooling blocks and the opening and closing plate. The sealing member 133 may include rubber And a separate lubricant may be applied to the outer periphery of the sealing member 133. However, the present invention is not limited to the present invention, and may be appropriately modified by those skilled in the art.

The side surface of the object 1 can be carried by the side guide means 150 provided on the foldable plate.

3, the side guide unit 150 includes a guide body 151 provided on the apparatus body 110 and the foldable plate 144, a sensor (not shown) provided in the internal space of the guide body 151, A guide bar (153) connected to the inner space of the guide body, a guide roller (154) provided on the guide bar and contacting the object, and an elastic member provided in the inner space of the guide body 155).

When the folding type plate 144 is raised or lowered through the rotation of the second driving motor 145 and the guide roller 154 is moved close to the width of the initially inputted object 1, And comes into contact with the guide roller 154. Then, the guide roller 154 retreats in the direction opposite to the object 1 and touches the sensor member 152. [

It can be understood that the object 1 appropriately faces the cooling supply port 121 through the control means (not shown) electrically connected to the sensor member 152.

Therefore, the operator can operate the drive cylinder member 132 in accordance with the width of the object 1 to move the open / close plate 131 and open both of the cooling provision supplies 121 facing the object 1. [

On the other hand, as described above, the present invention can include a temperature measuring means (170 in FIG. 1) for measuring the temperature of the object 1. FIG.

Hereinafter, this will be described in more detail with reference to FIGS. 4 and 5. FIG. The temperature measuring means 170 according to the present invention can be supported by the support bracket 175 in the conveying direction of the object 1.

And may be provided to measure the temperature of the object 1 in advance in the conveying direction of the object 1 to the apparatus body 110.

Preferably, the temperature measuring means 170 includes a measurement bracket member 171 provided on the conveying path of the object 1 and installed on the support bracket 175, and a fixing bracket 171 provided on the measurement bracket member, A measurement member 173 disposed on the measurement bar 172 for measuring a temperature of the object 1 and a measurement member 173 disposed inside the measurement bracket member 171, And an elastic member 174 which is contracted when the measuring member is pressed by the object.

More specifically, the measuring member 173 may be a temperature measuring sensor, and a cushioning member (not shown) may be provided on the outer circumference to contact a surface of the object 1 with a cushioning member ) Surface can be prevented from being damaged.

Further, when the object 1 is transported, it can be provided so as to be able to move forward or backward by the object 1 so as to flexibly cope with a change in the thickness of the object 1. [

As shown in FIG. 6 (b), the object 1 to be cooled by the plated steel plate cooling apparatus having the above structure is cooled by the conventional method, It can be seen that the defects are remarkably small.

6A shows a case where the coolant is supplied to the area of the object 1 at 350 DEG C or less and FIG. 6B shows the case where the coolant is supplied to the area of 380 to 420 DEG C of the object 1, 6 (c) shows a case where the coolant is supplied to the region of the object 1 at 440 占 폚 or more.

Since the method of supplying the coolant to the region of 380 to 420 占 폚 of the object 1 most effectively suppresses the occurrence of defects, the apparatus body (110 of Fig. 1) Lt; RTI ID = 0.0 > C, < / RTI >

For example, since the plating solution composed of a Zn-Al-Mg alloy system such as PosMAC has a solidification temperature of 380 ° C, the supply of the coolant to the portion of the object 1 where the temperature of the object 1 reaches 420 to 380 ° C, It is the most effective way to improve defects.

At this time, when the coolant is injected into the region of 350 DEG C or lower, black spots having a diameter of 3 mm or more are generated in the object 1 as shown in Fig. 6A, and when the coolant is injected into the region above 440 DEG C, a black spot having a diameter of 1 mm or less as shown in Fig.

2) to move the apparatus body (110 in Fig. 2) in order to find the appropriate temperature region of the object 1 in consideration of this point and to supply the coolant to the width of the object 1 121 can be opened or closed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be apparent to those of ordinary skill in the art.

1: Object 10: Plating bath
11: Snout 12: Sink roll
13: guide roll 14: air knife
15: upper roll 110: device body
120: Cooling means 130: Cooling control means
150: side guide means 160: flow rate control unit
170: Temperature measuring means

Claims (10)

A device body provided in a conveyance path of the object;
A cooling means provided movably in the apparatus body and having a plurality of cooling and heating supply means facing the object; And
And cooling control means movably provided in the cooling means to open or close the cooling supply port,
The cooling unit includes first and second cooling blocks disposed opposite to each other with the object therebetween, the first and second cooling blocks having a coolant accommodating space therein and being provided to move in the object direction;
A plurality of cooling provision supplies connected to the coolant accommodating spaces of the first and second cooling blocks and arranged in the width direction of the object in the first and second cooling blocks to supply coolant to the object; And
And a flow control unit connected to the first and second cooling blocks for controlling whether the coolant is supplied or supplied,
Wherein the cooling control means comprises: an open / close plate provided in the coolant accommodating space of the first and second cooling blocks;
A drive cylinder member connected to the open / close plate to move the open / close plate along the cooling provision supply; And
And a sealing member provided on an outer periphery of the opening / closing plate.
delete delete The method according to claim 1,
A gear shaft provided on the apparatus body and rotated by a driving motor; And
A foldable plate provided to move along the gear shaft and varying length in a moving direction of the first and second cooling blocks;
Further comprising a cooling unit for cooling the plated steel plate.
5. The method of claim 4,
Side guide means provided on the apparatus body and the foldable plate for supporting a side surface of the object;
Further comprising: a cooling unit for cooling the plated steel plate.
6. The method of claim 5,
The side-
A guide body provided on the apparatus body and the foldable plate;
A sensor member provided in an inner space of the guide body;
A guide bar connected to an inner space of the guide body;
A guide roller provided on the guide bar and contacting the object; And
An elastic member provided in an inner space of the guide body;
And a cooling device for cooling the plated steel plate.
7. The method according to any one of claims 1 to 6,
The flow rate control unit includes:
A supply line connected to the first and second cooling blocks and serving as a passage for the coolant; And
A control valve provided in the supply line to regulate whether the coolant is supplied or supplied;
And a cooling device for cooling the plated steel plate.
8. The method of claim 7,
A temperature measuring means provided in front of the apparatus body in a conveying direction of the object to measure a temperature of the object;
Further comprising: a cooling unit for cooling the plated steel plate.
9. The method of claim 8,
Wherein the temperature measuring means comprises:
A measurement bracket member provided on a conveying path of the object;
A measurement bar provided on the measurement bracket member and having a latching jaw;
A measurement member provided on the measurement bar for measuring a temperature of the object; And
An elastic member provided inside the measurement bracket member and contracted when the measurement member is pressed by the object;
And a cooling device for cooling the plated steel plate.
10. The method of claim 9,
Wherein the measuring member comprises:
And a cushioning member at an end contacting with the object.

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