KR20190043250A - Apparatus for cooling of hot materials and cooling method for using the same - Google Patents

Abstract

Disclosed are an apparatus for cooling a high temperature material and a cooling method thereof. According to an aspect of the present invention, the apparatus for cooling a high temperature material comprises: a transfer device transferring a billet that is manufactured to be hot rolled; and a salt bath device immersing and cooling the billet transferred through the transfer device in a salt bath tank. The salt bath device comprises: a transfer unit inputting the billet in the salt bath tank to be transferred; and a cooling means to control a temperature in the salt bath tank.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a high-temperature material cooling apparatus and a cooling method,

The present invention relates to a high-temperature material cooling apparatus and a cooling method, and more particularly, to a high-temperature material cooling apparatus and a cooling method capable of improving cooling efficiency of a high-temperature material such as a billet.

Generally, in the billet rolling process, the production process of the billets is performed by heating the blooms to a temperature capable of being rolled in a heating furnace to produce billets (usually of a length and width of about 100 to 160 mm) (Length of about 6 to 11 m)] is rolled and cut to a certain length in the cutter. Then, it is put into a cooling bed and cooled to a certain temperature. The process up to this point is called a normal rolling process.

However, there is a problem that surface cracking, decarburization, and surface oxidation occur when the billet is naturally cooled in a state where it is supported by air cooling.

Further, there is a problem that frictional scratches are generated in the billet as it is conveyed to the air-cooled state at a high temperature.

Further, there is a problem that a camber occurs due to uneven cooling.

The high temperature material cooling device and the cooling method according to the embodiment of the present invention prevent the surface cracking, decarburization, and surface oxidation that occur during natural air cooling by cooling the billet through a salt bath after the manufacture of the billet, .

According to an aspect of the present invention, there is provided a conveying apparatus for conveying a billet produced by hot-rolling; And a salt bath apparatus for submerging the billet conveyed through the conveying apparatus into a salt bath to cool the salt bath apparatus, wherein the salt bath apparatus comprises: a conveying unit for feeding the billet into a salt bath for conveying; And a cooling means for adjusting the temperature in the salt bath.

The conveying device may include a plurality of rollers for conveying the billet and a stopper selectively opening and closing the movement path of the billet to restrict movement of the billet.

Further, the stopper may be provided on the side of the inlet of the apparatus for salt.

In addition, the transfer unit may include a locking arm provided with the billet and allowing the billet to infiltrate into the salt bath; A moving chain which is provided with a bumper for buffering a load conveyed by the locking arm and feeds the charged billet to the discharge unit side; And a discharge chain having a plurality of jaws for discharging the billet cooled through the moving chain to the transfer device.

The cooling means may include: a cooling water pipe installed so that cooling water flows in the salt bath; A collecting tank connected to the cooling water pipe to temporarily store the cooling water; A first pump for transferring the cooling water of the collecting tank to the cooling tower; And a second pump for cooling the cooling fluid transferred to the cooling tower through heat exchange with air and moving the cooling fluid to the cooling water pipe.

Further, the salt bath is provided with a temperature sensor, and the cooling means is operated in accordance with the measured temperature from the temperature sensor, and the cooling water can be put into the cooling water pipe, and the temperature in the salt bath can be maintained at the set temperature by heat exchange.

According to another aspect of the present invention, there is provided a method for manufacturing a billet, which comprises: immersing a billet into a salt bath in which a salt is stored and cooling; delivering the cooled billet discharged through the salt bath to a transfer device; A high-temperature material cooling method may be provided.

In addition, the temperature in the salt bath can be maintained at the set temperature by utilizing the cooling water according to the temperature detected by the temperature sensor provided in the salt bath.

The bath temperature for cooling the billet may be in the range of 550 ° C to 950 ° C.

The high-temperature material cooling apparatus and cooling method according to an embodiment of the present invention have an effect of preventing surface cracking, decarburization, and surface oxidation that occurred during natural air cooling by performing a salt bath cooling in cooling a billet produced after hot rolling .

In addition, as the billet is cooled by salt bath, a salt bath is adhered to the surface of the billet to form a film, thereby preventing the air from interfering with the atmosphere, resulting in oxidation, decarburization and surface cracking occurring during air cooling.

Further, as the billet is cooled and then transferred to the air cooling, it is possible to prevent the occurrence of frictional flaws on the surface of the billet.

Further, by uniformly cooling the entire billet through the salt bath, it is possible to prevent the occurrence of camber due to uneven cooling, thereby improving the surface quality.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be described in detail with reference to the following drawings, which illustrate preferred embodiments of the present invention, and thus the technical idea of the present invention should not be construed as being limited thereto.
1 is a schematic view of a high temperature material cooling apparatus according to an embodiment of the present invention.
2 is a view showing a salt bath apparatus provided in a high temperature material cooling apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided to fully convey the spirit of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. For the sake of clarity, the drawings are not drawn to scale, and the size of the elements may be slightly exaggerated to facilitate understanding.

FIG. 1 is a schematic view of a high-temperature material cooling apparatus according to an embodiment of the present invention, and FIG. 2 is a view showing a salt bath apparatus provided in a high-temperature material cooling apparatus according to an embodiment of the present invention.

1 and 2, a high-temperature material cooling apparatus 10 according to an aspect of the present invention includes a conveying device (not shown) for conveying a billet 1 formed by cutting a hot-rolled bloom to a predetermined length, (200) for bathing the billet (1) conveyed through the conveying device (100) and the conveying device (100).

The conveying apparatus 100 has a plurality of rollers 110 for moving the billet 1 cut to a predetermined length to the air- The billet 1 conveyed through the conveying apparatus 100 is introduced into the air cooling basin 11 by being transferred to the conveying apparatus 100 after being infiltrated into the salt bath apparatus 200 to be described later.

The conveying apparatus 100 also includes a stopper 120 provided on a movement path along which the plurality of rollers 110 move. The stopper 120 is provided at a predetermined position, for example, at a position corresponding to the inlet of the salt bath apparatus 200, and is selectively opened and closed to restrict movement of the billet 1. That is, the billet 1 whose movement is restricted by the stopper 120 is transferred to the bath 200, and the bath is cooled.

The bath apparatus 200 has a salt bath 210 having a predetermined space for immersing the billet 1 conveyed through the transfer apparatus 100. The chloride bath is stored in the salt bath 210. Usually, the bath for heat treatment is classified into a low temperature bath, a medium bath, and a high temperature bath. According to one aspect of the present invention, the billet (1) can be made to cool through a bath for medium temperature. This medium-temperature salt bath contains NaCl, KCl, CaCl ₂ , BaCl _{2 and} other Group 1 and Group 2 chlorides, which can be mixed with two or three to form a process composition.

More specifically, the salt bath apparatus 200 includes a transfer section 220 installed in the salt bath 210 for allowing the billet 1 to enter into the salt bath 210, a cooling unit 220 for controlling the temperature in the salt bath 210, (230).

The transferring unit 220 includes a locking arm 221 for immersing the billet 1 in the salt bath 210, a moving chain 223 connected to the locking arm 221 to transfer the billet 1 to the discharge unit, And a discharge chain 225 for discharging the billet 1 through the transfer chain 223 to the transfer apparatus 100.

The locking arm 221 seals the billet 1 and then enters the chloride bath of the salt bath 210. That is, the billet 1 is immersed in the chloride in a state of being seated in the locking arm 221, and is moved to the bumper 222 provided in the moving chain 223. At this time, the bumper 222 functions to buffer the load generated as the billet 1 drops freely by gravity.

The billet 1 freely dropped to the bumper 222 is seated on the moving chain 223 and moves to the discharge portion in the salt bath 210 according to the operation of the moving chain 223. [ At this time, the billet 1 has a temperature of approximately 1000 캜, and can be cooled to about 500 캜 by a salt bath cooling.

The billet 1 moved to the discharge portion is seated again in the discharge chain 225 provided with a plurality of the latching jaws 224 and discharged to the outside of the salt bathtub 210 according to the operation of the discharge chain 225. That is, the billet 1 discharged to the outside of the salt bathtub 210 is seated on the roller 110 of the conveyance apparatus 100 and is conveyed to the air-

On the other hand, as the high temperature billet 1 is cooled in the salt bath 210, the temperature in the salt bath 210 rises. Thus, the cooling means 230 for controlling the temperature in the salt bath 210 to the set temperature is provided.

The cooling means 230 includes a cooling water pipe 231 installed to allow the cooling water to flow in the salt bath 210, a water collecting tank 232 connected to the cooling water pipe 231 for temporarily storing the cooling water, A cooling tower 234 for exchanging the cooling water of the cooling water with the air, and first and second pumps 233 and 235 for moving the cooling water.

In addition, a temperature sensor 240 for measuring the temperature in the salt bath 210 may be provided.

That is, when the temperature of the salt bath 210 rises by heat exchange when the salt bath is cooled through the salt bath apparatus 200, the temperature sensor 240 senses the temperature of the salt bath 210 and sends a signal to the controller 300 . The control unit 300 operates the first pump 233 and the second pump 235 to circulate the cooling water, and the circulating cooling water is heat-exchanged with the air by the cooling tower 234 and cooled, And the temperature in the salt bath 210 is reduced. Therefore, the temperature in the salt bath 210 can be maintained at the set temperature.

As described above, the billet 1 cooled through the salt bath apparatus 200 can be uniformly cooled through the chloride to prevent the occurrence of camber, and after the salt bath is cooled, the salt bath which is attached to the surface of the billet 1 It is possible to prevent surface oxidation, decarburization and surface cracking through interception with the atmosphere. In addition, since the billet 1 is cooled by the salt bath, the billet 1 is moved to the air-cooling bench 11 through the transfer device 100, thereby preventing the occurrence of frictional scratches on the surface of the billet 1. The billet 1 is moved to the air-cooled bench 11 and cooled again to the set temperature required at room temperature.

That is, according to one aspect of the present invention, when the billet 1 is cooled through the high-temperature material cooling apparatus 10, the high temperature billet 1 is cooled by the salt bath and then transferred to the air- At this time, when the salt bath is cooled, the salt bath temperature may be in the range of 550 ° C to 950 ° C. Here, the salt bath temperature is a typical temperature value, and the temperature value can be used to increase or decrease the temperature to a desired temperature.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood that various modifications and changes may be made without departing from the scope of the appended claims.

1: Billet 10: High temperature material cooling device
11: Air cooling unit 100: Feeding device
110: roller 120: stopper
200: Bath apparatus 210: Salt bath
220: transfer part 230: cooling means
240: Temperature sensor 300:

Claims (9)

A conveying device for conveying the hot rolled billet; And
And a salt bath apparatus for submerging the billet conveyed through the conveying apparatus into a salt bath to cool the billet,
In the above bath apparatus,
A transfer unit for transferring the billet into a salt bath to transfer the billet; And
And cooling means for adjusting the temperature in the salt bath. The method according to claim 1,
Wherein the conveying device includes a plurality of rollers for conveying the billet, and a stopper selectively opened and closed on a movement path of the billet to restrict movement of the billet. 3. The method of claim 2,
Wherein the stopper is provided at the inlet side of the apparatus for chlorination. The method according to claim 1,
The transfer unit
A locking arm receiving the billet and allowing the billet to infiltrate into a salt bath;
A moving chain which is provided with a bumper for buffering a load conveyed by the locking arm and feeds the charged billet to the discharge unit side; And
And a discharge chain provided with a plurality of latching jaws for discharging the billets cooled through the moving chain to the transfer device. The method according to claim 1,
Wherein the cooling means comprises:
A cooling water pipe installed so that cooling water flows in the salt bath;
A collecting tank connected to the cooling water pipe to temporarily store the cooling water;
A first pump for transferring the cooling water of the collecting tank to the cooling tower; And
And a second pump for cooling the cooling fluid transferred to the cooling tower through heat exchange with air and moving the cooling fluid to the cooling water pipe. 6. The method of claim 5,
The salt bath is provided with a temperature sensor,
Wherein the cooling means is operated in accordance with the measured temperature from the temperature sensor and the cooling water is supplied into the cooling water pipe to maintain the temperature in the salt bath by the heat exchange at the set temperature. The billet was immersed in a salt bath containing the salt, cooled,
After the cooled billets discharged through the salt bath are transferred to the transfer device,
Wherein the billet is conveyed to a cooling bed. 8. The method of claim 7,
Wherein the temperature in the salt bath is maintained at a predetermined temperature by utilizing cooling water according to a temperature detected by a temperature sensor provided in the salt bath. 8. The method of claim 7,
Wherein the salt bath for cooling the billet has a temperature of 550 ° C to 950 ° C.

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