KR20150075570A - Heating and cooling apparatus for rolling mill - Google Patents

Abstract

According to an embodiment of the present invention, a temperature adjusting device for a rolling mill may comprise: a device body provided on a moving path of a member to be rolled, which is manufactured by a continuous caster; a roll unit provided on the device body providing a roll to press down the member to be rolled; and a heating and cooling unit provided in connection with the roll unit, heating an entry side part of the roll into which the member to be rolled enters, and cooling an exit side part of the roll where the member to be rolled is discharged.

Description

TECHNICAL FIELD [0001] The present invention relates to a temperature control apparatus for a rolling mill,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a temperature control apparatus for a rolling mill, and more particularly, to an invention capable of reducing the degree of cooling of a rolled member during rolling, thereby maintaining the temperature in a subsequent process.

The mini mill process for rolling using the high temperature of cast steel solidified in the casting machine is now widely used because the equipment cost and the operating cost are lower than the existing processes.

That is, as shown in FIG. 1A, a continuous rolling process in which a continuous casting process and a rolling process are continuously performed can be performed.

Here, when the rolled member S having a predetermined thickness is produced in the continuous casting machine CC, the rolled member S is first rolled in the front rolling unit 20 'and the temperature is maintained in the heating means HF , The final rolling is finished in the rear rolling roll unit 20 ', and the heater H may be provided to raise the temperature to the rolling. The rolled member S thus finished is cut by a cutter and wound by a winder to be delivered as a product.

However, when the rolled member S passes through the rolling roll unit 20 'in the rolling process by the rolling roll unit 20', cooling is caused by contact with the rolling roll.

Here, the temperature is compensated for by the firing heat and the friction heat due to the deformation of the rolled member (S), but the temperature is generally lower because the heat is taken away by the rolling roll.

Meanwhile, in the continuous rolling process, the rolling speed of the rolling roll unit 20 'is synchronized with the circumference of the continuous casting machine CC so that the speed of passing the rolling roll is slow compared to the discontinuous rolling process, Is large.

Further, in the case of the rolling roll, since the hot shock is caused by the contact with the rolled member S at high temperature, the refrigerant is cooled by spraying the refrigerant as shown in Fig. 1B. That is, since the durability of the rolling roll is reduced at high temperature, both the inlet side portion 21 'and the outlet side portion 22' of the rolling roll are cooled by the cooling portion 31 '.

Conventionally, in order to reduce the amount of cooling, a method of reducing the flow rate of the cooling water, which is mainly the rolling roll refrigerant, or blocking the cooling water falling to the rolled member S is used, but the equipment is complicated, .

Accordingly, there is a need to study a temperature controller for a rolling mill to solve the above-mentioned problems.

An object of the present invention is to provide a temperature control apparatus for a rolling mill capable of reducing the temperature drop of the rolled member and preventing the rolling roll from being damaged by heat at the time of rolling the rolled member by the rolling roll unit .

A temperature control apparatus for a rolling mill according to an embodiment of the present invention is provided with a device body provided on a moving path of a rolled member produced in a performance machine, and a rolling roll provided on the apparatus body for rolling the rolled member Wherein an inlet side of the rolling roll which is provided in association with the rolling roll unit and the rolling roll unit and into which the rolled member enters is heated and the outgoing side of the rolling roll from which the rolled member is discharged is cooled by a heating and cooling unit . ≪ / RTI >

The heating and cooling unit of the temperature control device for a rolling mill according to an embodiment of the present invention may further include a cooling part provided adjacent to the outgoing part and a heating part provided adjacent to the inward part, Section.

Further, the heating portion of the temperature control device for a rolling mill according to an embodiment of the present invention may be provided to be heated toward the space between the inlet side portion and the rolled member.

The heating unit of the temperature adjusting device for a rolling mill according to an embodiment of the present invention is connected to a support plate and a power source provided between the inlet side portion and the rolled member to be provided on the support plate, And an induction coil for generating and inducing an induction current in the rolling member.

Further, the heating unit of the temperature controller for rolling mill according to an embodiment of the present invention can heat the inlet side portion at a temperature of 100 to 500 ° C.

Further, the heating unit of the temperature controller for a rolling mill according to an embodiment of the present invention may be provided with a heating roller which is provided to generate heat by applying an electric current.

The temperature adjusting device for a rolling mill of the present invention is capable of heating the inlet side portion of the rolling roll to be brought into contact with the rolled member so that the rolled member can prevent the temperature from dropping at the time of rolling.

As a result, the temperature for the post-processing of the rolled member can be maintained.

On the other hand, by cooling the outgoing side of the rolling roll, there is an advantage that it is possible to prevent the rolling roll from coming into contact with the hot rolled member and being damaged by thermal shock.

Therefore, there is an advantage that the durability of the performance rolling mill can be improved and the maintenance cost can be reduced.

1A is a view showing a performance rolling mill in a conventional continuous rolling process.
1B is a view showing a conventional rolling roll unit.
2 to 4 are front views showing the temperature control device for a rolling mill of the present invention.
5 is a plan view showing a heating unit in the temperature controller for a rolling mill of the present invention.
6 is a graph showing the difference between the inlet temperature and the outlet temperature of the rolled member according to the heating temperature of the temperature controller for a rolling mill of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. 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 inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

The temperature control device for a rolling mill according to the present invention relates to an invention capable of reducing the degree to which a rolled member (S) is cooled at the time of rolling so as to maintain the temperature in a subsequent process.

That is, the temperature control device for a rolling mill of the present invention can heat the inlet side portion 21 of the rolling roll to be brought into contact with the rolled member S so that the temperature of the rolled member S decreases So that the temperature for the post-process of the rolled member S can be maintained.

On the other hand, by cooling the outgoing side portion 22 of the rolling roll, it is possible to prevent the rolling roll from being damaged by thermal shock due to contact with the hot rolled member S, thereby improving the durability of the performance rolling mill, The maintenance cost can be reduced.

6 is a graph showing the relationship between the temperature (Ti) at the inlet side of the rolled member (S) and the temperature at the inlet of the rolled member (S) according to the heating temperature of the temperature control device for the rolling mill of the present invention Temperature (Te) difference.

2 and 6, a temperature controller for a rolling mill according to an embodiment of the present invention includes a device body 10 provided on a moving path of a rolled material S produced in a performance machine, (20) provided in a rolling roll unit (20) for providing a rolling roll for rolling the rolled member (S) and provided to the rolling roll unit (20) The inlet side portion 21 of the rolling roll is heated and the outlet side portion 22 of the rolling roll from which the rolled member S is discharged is cooled.

The heating and cooling unit 30 of the temperature controller for rolling mill according to an embodiment of the present invention further includes a cooling part 31 provided adjacent to the outgoing part 22 and a cooling part 31 adjacent to the inward part 21 , And a heating part (32) provided to heat at least toward the inlet part (21).

In addition, the heating unit 32 of the temperature controller for rolling mill according to an embodiment of the present invention can heat the inlet side portion 21 at a temperature of 100 to 500 ° C.

That is, the temperature control apparatus for a rolling mill of the present invention can be used in a continuous rolling process that continuously performs a continuous casting process and a rolling process, and can control the temperature of the rolling roll unit 20.

The apparatus body 10 may be provided with a rolling roll unit 20 and a heating and cooling unit 30 to be described later. That is, the apparatus body 10 may be provided with the rolling roll unit 20 and the heating / cooling unit 30 as a main frame.

On the other hand, the apparatus body 10 can be provided on the movement path of the rolled member S so that the rolling roll unit 20 can roll the rolled member S.

The rolling roll unit 20 may serve to roll the rolled member S to form a rolled steel sheet. To this end, the rolling roll unit 20 may provide a plurality of rolling rolls, and may be basically provided with a pair of rolling rolls provided so as to be in contact with the upper and lower surfaces of the rolled member S, respectively.

Here, since the rolled member S is produced and supplied by cooling the molten steel in the continuous casting machine, the temperature of the rolling roll unit 20 can be rapidly increased due to the extremely high temperature.

 That is, generally, the rolled member S is a high-temperature material, and the rolling roll contacting the rolled member S sprays cooling water to prevent the temperature from rising. This is because the rolled member S, Since the surface temperature of the rolled roll S is provided at a high temperature of about 800 to 1100 DEG C, the surface of the rolled roll is sharply increased in contact with the rolled member S when pressed.

However, if the rolling roll is kept at a temperature lower than the temperature of the rolled member S, the temperature at which the rolled member S is cooled It is necessary to provide a method for maintaining the temperature of the rolled member S as well.

Therefore, cooling or heating of the rolling roll is performed by a heating / cooling unit 30, which will be described later in the description of the heating / cooling unit 30.

The heating and cooling unit 30 serves to heat or cool the temperature of the rolling roll unit 20 so that the heating and cooling unit 30 can cool the rolling roll of the rolling roll unit 20, And a portion to be heated can be set and provided.

Thereby, it is possible to prevent the rolling roll from being deteriorated in durability due to thermal shock, and to prevent the plated rolled member (S) from being deprived of heat by contact with the rolling roll.

In other words, the heating and cooling unit 30 heats the inlet side portion 21 which is first contacted by the rolled member S in the rolling roll, and the rolled member S is pressed down, The outgoing side portion 22 can be cooled. To this end, the heating and cooling unit 30 may provide a cooling unit 31 and a heating unit 32.

The heating unit 32 can serve to heat the inlet side portion 21 of the rolling roll, that is, toward the portion where the rolling roll is first rotated to contact the rolled member (S).

To this end, the heating section 32 may provide heating of the inlet side portion 21 of the rolling roll by direct or indirect heating. As an example, the heating unit 32 may be provided to heat the inlet side portion 21 of the rolling roll by using an induction heating method, which will be described later in detail with reference to FIG.

In addition, the heating unit 32 may be provided as a heating roller so as to be in direct contact with the inlet unit 21, and will be described later with reference to FIG.

On the other hand, the heating portion 32 may be provided toward the inlet portion 21 to heat the inlet portion 21 of the rolling roll. 3, the heating unit 32 is provided with the inlet side portion 21 and the inlet side heating portion 32, The rolling process can be performed more efficiently while maintaining the temperature of the rolled member S by heating the spaces between the rolled members S. [

As the temperature Tr for heating the inlet side portion 21 of the rolling roll is increased by the heating portion 32, the temperature at which the rolled member S flows into the rolling roll unit 20 (Ti) and the temperature (Te) at the time of discharge are small.

The difference between the inflow temperature (Ti) and the discharge temperature (Te) of the rolled member (S) is 100 ° C to 24 ° C Deg.] C, but if heated to 500 [deg.] C, the temperature is reduced to 7 [deg.] C.

In general, the difference between the inflow temperature (Ti) and the discharge temperature (Te) of the rolled member (S) is preferably about 7 to 24 DEG C for maintaining the temperature in the subsequent step. The temperature (Tr) for heating the inlet side portion (21) of the rolling roll is preferably set to 100 to 500 deg.

That is, it is preferable that the maximum temperature difference is set to 24 占 폚, and the minimum heating temperature Tr of the heating section 32 is set to 100 占 폚. If the over heating is performed, the durability of the rolling roll is lowered, It is preferable that the maximum heating temperature Tr of the heater 32 is limited to 500 deg.

The cooling unit 31 may serve to cool the outgoing portion 22 of the rolling roll, that is, the portion to be discharged after the rolling roll has been subjected to the rolling process by pressing the rolled member (S).

To this end, the cooling unit 31 may provide a nozzle for supplying the coolant to the outgoing side portion 22 of the rolling roll, and may be provided by connecting the nozzle and the coolant reservoir to each other through a pipe.

A valve for adjusting the flow rate of the refrigerant supplied through the nozzle may also be provided.

FIG. 3 is a front view illustrating a temperature controller for a rolling mill according to the present invention. Referring to FIG. 3, the heating unit 32 of the temperature controller for a rolling mill according to an embodiment of the present invention includes: And can be provided to heat up between the rolled members (S).

That is, the object to which the heating unit 32 is provided is to prevent the rolled member S from being cooled by the contact between the rolling roll and the rolled member S, The temperature of the rolled member S can be more efficiently maintained by setting the direction of the heating unit 32 so that the portion contacting the rolled member S is heated.

In other words, since the rolling roll is provided with the inlet side portion 21 to be heated and at the same time, the outlet side portion 22 is cooled to extend the lifetime of the rolling roll, the portion heated by the inlet side portion 21 It is desirable to set it to the minimum.

Further, since the part to be rolled (S) can be partially heated by the heating part (32), it can be advantageous for maintaining the temperature of the rolled member (S).

FIG. 4 is a front view of a temperature controller for a rolling mill according to the present invention, in which the heating unit 32 is provided as a heating roller.

Referring to FIG. 4, the heating unit of the temperature controller for a rolling mill according to an embodiment of the present invention may be provided with a heating roller which is provided to generate heat by applying an electric current.

That is, the heating unit 32 may be provided as a heating roller so as to be in direct contact with the inlet unit 21 so as to be directly heated.

To this end, the heating roller may be connected to an external power source, so that a current flows through the heating roller to generate heat by resistance.

At this time, as the heating roller is heated, the inlet side portion 21 provided in contact with the heating roller can be directly heated by conduction.

FIG. 5 is a plan view showing a heating unit 32 in a temperature controller for a rolling mill according to the present invention. Referring to FIG. 5, the heating unit 32 of the temperature control apparatus for a rolling mill according to an embodiment of the present invention, And is connected to the support plate 32a and the power source P provided between the side portion 21 and the rolled member S and is provided to the support plate 32a and the inlet portion 21 and the rolled member S for generating an induction current and heating the induction coil 32b.

That is, the heating unit 32 can provide the support plate 32a and the induction coil 32b in order to heat the inlet side portion 21 of the rolling roll by using the induction heating method.

The support plate 32a may serve to set the heating direction of the heating unit 32, and the induction coil 32b may be provided. That is, in order for the heating section 32 to be provided between the inlet section 21 and the rolled member S, the support plate 32a is provided between the inlet section 21 and the rolled member S As shown in FIG.

The induction coil 32b is connected to a power supply source P and generates an induction current to generate heat by applying a current thereby generating a magnetic field in the input side portion 21 or the rolled member S can do.

The induction coil 32b is controlled by the control means C connected to the power source P so that the temperature at which the inlet portion 21 and the rolled member S are heated .

10: Device body 20: Rolling roll unit
21: inlet side portion 22:
30: Heating / cooling unit 31: Cooling unit
32: Heating section

Claims (6)

A device body provided on a moving path of the rolled member produced in the performance machine;
A rolling roll unit provided in the apparatus body and providing a rolling roll for pressing the rolled member; And
A heating and cooling unit provided in association with the rolling roll unit, for heating the inlet side of the rolling roll into which the rolled member enters, and for cooling the outgoing side of the rolling roll from which the rolled member is discharged;
And a temperature controller for the rolling mill. The method according to claim 1,
The heating / cooling unit includes:
A cooling part provided adjacent to the outflow part; And
A heating portion adjacent to the inlet portion and provided to heat at least toward the inlet portion;
And a temperature controller for the rolling mill. 3. The method of claim 2,
And the heating unit is provided to heat up between the inlet side portion and the rolled member. The method of claim 3,
The heating unit includes:
A support plate provided between the inlet side portion and the rolled member; And
An induction coil connected to a power source and provided on the support plate for generating and heating an induction current in the inlet side portion and the rolled member;
And a temperature controller for the rolling mill. 3. The method of claim 2,
Wherein the heating unit heats the inlet side portion at a temperature of 100 to 500 占 폚. 3. The method of claim 2,
Wherein the heating unit is provided as a heating roller that is provided to generate heat by applying a current.

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