KR101421842B1 - Mandrel coil box with heat insulating function - Google Patents

Abstract

[0001] The present invention relates to a mandrel coil box for minimizing internal heat loss occurring during a winding process of a high-temperature coil in a continuous casting process, and more particularly, to a mandrel coil box having a heat retaining function according to an embodiment of the present invention. A housing having an inlet through which the hot-rolled steel sheet is inserted at one side and an outlet through which the hot-rolled steel sheet is drawn at the other side; And a door unit installed at both sides of the housing and one end of the hot-rolled steel sheet being in contact with one surface of the hot-rolled steel sheet to seal the housing.

Description

[0001] MANDREL COIL BOX WITH HEAT INSULATING FUNCTION WITH WATER HEATING [

[0001] The present invention relates to a mandrel coil box, and more particularly, to a mandrel coil box that minimizes internal heat loss that occurs during a high temperature coil winding process in a continuous casting process.

The integrated steel mill produces a wide variety of steel products from iron ore as raw material through a series of processes such as steel making → steel making → continuous casting → hot rolling. Each process is briefly described as follows. The steel making process is a process of charging molten iron ore and coke through the upper part of the blast furnace, blowing hot air from below to reduce the molten steel, And removing impurities through adjustment of various steps such as refining and the like to obtain molten steel.

Continuous casting is a process of continuously cooling and solidifying molten steel in a liquid state through a continuous casting machine in a curved shape to obtain an intermediate material such as a slab having a thickness of 250 mm. In hot rolling, the intermediate material is reheated to a high temperature of 1100 to 1300 ° C It is the process of final rolling with the thickness and width desired by customer through rough rolling and finish rolling. If automobile steel sheets are required to have better quality, cold rolling and plating processes may be carried out with hot-rolled steel sheets. However, the basic steel making processes include the above-mentioned steel making, steel making, continuous casting, and hot rolling.

The mini mill process was developed to improve the efficiency of the conventional steelmaking process described above. Minimil is hot rolled continuously for thin slab of 50 ~ 100㎜ produced through continuous casting machine because it uses molten steel produced by dissolving scrap iron in electric furnace. As the production of the products, the production facilities are compact as well as the productivity is high.

However, the mini mill has a disadvantage in that it can not produce various kinds of steel sheets because of difficulty in controlling the components. Recently, a high mill process has been used in which the surface and internal stress of the mini mill hot rolled coil are drastically improved through high speed performance and rolling.

A mandrel type coil box may be provided in order to maintain the temperature of the steel sheet during the hot rolling in the conventional steel making process, the mini-milling process and the high-mill process, particularly the longitudinal temperature of the hot-rolled steel sheet. The mandrel coil box is a device that is usually placed between roughing and finishing rolling to coiling and uncoiling the hot-rolled steel sheet. Whether the mandrel coil box is used or not is determined according to the thickness of the hot-rolled steel sheet, but it is generally known that mandrels must be wound roundly when the thickness of the steel sheet is 20 mm or less.

1 is a view showing a general hot rolling apparatus in which a mandrel coil box is used. The molten steel supplied from the tundish 1 is cast into a thin slab of 50 to 100 mm through a continuous casting machine 2, This thin slab is first rolled through a roughing mill (3). The primary rolled hot-rolled steel sheet is cut through the cutter 4 into a unit of weight corresponding to one coil length, and is uniformly reheated to a temperature of usually 1100 ° C or higher while passing through the induction heating furnace 5.

The reheated hot-rolled steel sheet is temporarily wound around the mandrel 6a provided in the mandrel coil box 6 to match the rolling speed of the finishing mill 7. To maintain a constant temperature during winding, the mandrel coil box 6 includes a heating furnace function. The hot-rolled steel sheet taken out of the mandrel 6a is rolled to a thickness desired by the consumer in the finishing mill 7 and is finally wound on the down-coiler 8.

When the mandrel is used, the mandrel coil box can also function as a furnace in order to maintain the temperature of the mandrel and lower the temperature of the inner coil. However, it is difficult to control the gap between the hot-rolled steel plate and the door because the inlet and outlet doors provided in the conventional mandrel coil box have a large amount of heat loss through the gap, There is a problem that the product quality of the product is deteriorated.

As an apparatus and a method for improving the structural problems of the conventional coil box and preventing the temperature of the mandrel from dropping and coping with various temperature conditions of the hot-rolled steel sheet quickly, refer to "a method for uniformizing the temperature of hot- -0072963) "and the like.

However, the problem of generating heat loss through the gap between the inlet and outlet doors of the mandrel coil box and the hot-rolled steel sheet has not been solved.

Public number 10-2011-0072963 (June 28, 2011)

The present invention provides a mandrel coil box that minimizes the heat loss generated through the gap between the inlet and outlet doors of the mandrel coil box and the hot-rolled steel sheet.

In particular, a roller and a load cell are provided under the door and the exit door to determine the contact between the roller and the hot-rolled steel sheet using the load cell so that the roller and the hot-rolled steel plate have rolling friction, thereby minimizing the gap between the roller and the hot- A mandrel coil box for minimizing the gap between hot-rolled steel sheets.

A mandrel coil box having a warming function according to an embodiment of the present invention includes a housing having an inlet through which a hot-rolled steel sheet is introduced at one side and an outlet through which the hot-rolled steel sheet is drawn at the other side; And a door unit installed at both sides of the housing and one end of the hot-rolled steel sheet being in contact with one surface of the hot-rolled steel sheet to seal the housing.

The door unit includes a door, a driving motor coupled to one end of the door to elevate the door, And a roller coupled to a lower end of the door.

And the lower end of the door and the roller are connected via a load cell.

The mandrel coil box having the heat retaining function is formed by projecting a rack gear on one side of the door, a pinion gear engaged with the rack gear is coupled to a rotary shaft of the driving motor, And a control unit for receiving information on the contact pressure of the roller with respect to the driving motor and controlling the rotation of the driving motor.

A temperature sensor is installed in the housing and information about the inner temperature of the housing is received from the temperature sensor. When the temperature exceeds the reference temperature, an operation signal is transmitted to the driving motor to control the inlet and outlet of the housing, And an operation signal is transmitted to the drive motor when the temperature is lower than a reference temperature to close the inlet and outlet of the housing.

According to the embodiment of the present invention, when the hot-rolled coil outlet is opened, the door unit is brought into contact with one surface of the hot-rolled steel plate to seal the housing, thereby allowing outside air to flow into the housing, thereby minimizing heat loss inside the housing.

Accordingly, it is possible to prevent the fuel from being wasted to heat the inside of the housing, thereby reducing the cost and improving the quality of the produced hot-rolled steel sheet.

Further, when the temperature inside the housing is higher than the reference temperature by providing a temperature sensor, the inlet and outlet of the housing are opened to control the temperature inside the housing, thereby preventing safety accidents due to overheating.

1 is a view showing a general hot rolling apparatus in which a coil box is used,
2 is a view showing a housing according to an embodiment of the present invention,
FIG. 3 is a diagram showing the installation state of a mandrel coil box having a warming function according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments. For reference, the same numbers in this description refer to substantially the same elements and can be described with reference to the contents described in the other drawings under these rules, and the contents which are judged to be obvious to the person skilled in the art or repeated can be omitted.

First, a mandrel coil box having a warming function according to an embodiment of the present invention is manufactured by coiling a hot-rolled steel sheet S positioned and moving between rough rolling and finishing rolling in a production facility of hot- (Uncoiling) and serves as a temperature holding and buffering unit. In this embodiment, a mandrel type coil box is taken as an example. Of course, the technical idea of the present invention is not limited to a mandrel-type coil box, but may be applied to various types of coil boxes that serve as temperature holding and buffering by coiling and uncoiling hot-rolled steel sheet S.

FIG. 2 is a view showing a housing according to an embodiment of the present invention, and FIG. 3 is a view showing an installation state of a mandrel coil box having a warming function according to an embodiment of the present invention.

As shown in FIGS. 2 and 3, the mandrel coil box having a heat retaining function according to an embodiment of the present invention includes an inner space in which a mandrel is received, Shaped housing 100 formed with an inlet 110 through which the hot-rolled steel sheet S flows in one side and an outlet 120 through which the hot-rolled steel sheet S is discharged from the other side in opposition to the inlet 110 ); And an outer wall of both sides of the housing 100 so as to selectively open and close the inlet 110 and the outlet 120 or to open and close one end of the hot rolled steel sheet S at the time of outflow of the hot rolled steel sheet S And a door unit (200) for sealing the housing (100).

The housing 100 is a means for housing a pair of mandrels to provide a space in which the hot rolled steel sheet S is coiled and uncoiled and maintained at a constant temperature, And is accommodated in the inner space.

The door unit 200 includes a door 210 for selectively opening and closing the inlet 110 and the outlet 120; A driving motor 220 coupled to one side of the door 210 to provide a rotational force to move the door 210 up and down; And a roller 230 rotatably coupled to the lower end of the door 210.

The door 210 is formed in a plate shape larger than the inlet 110 and the outlet 120 and is lifted by the driving motor 220 to selectively open and close the inlet 110 and the outlet 120. [ A rack gear 211 protrudes from one side.

A pinion gear 221 coupled to the rack gear 211 is coupled to the rotating shaft of the driving motor 220 to rotate the rack gear 211 along the rotating direction of the driving motor 220. The door 210 is raised or lowered.

At this time, the door 210 is not limited to the elevating method by the driving motor 220, and can be raised and lowered by various methods such as a cylinder.

The door unit 200 further includes a load cell 240 connecting the lower end of the door 210 and the roller 230.

The load cell 240 senses the contact pressure of the roller 230 with respect to the hot rolled steel sheet S and transmits the sensing pressure to the controller 300 while connecting the door 210 and the roller 230.

The control unit 300 compares the reference pressure previously input with the contact pressure of the roller 230 sensed by the load cell 240. When the contact pressure of the roller 230 sensed is equal to or higher than the reference pressure It is determined that the hot-rolled steel sheet S and the roller 230 are in contact with each other.

At this time, the load cell 240 is positioned between the door 210 and the roller 230, and at least one of the load cells 210 is installed in each of the doors 210.

In this embodiment, the method of determining the contact between the rollers using the load cell and the hot-rolled steel sheet is described as an example, but the present invention is not limited thereto, and various methods of determining the contact between the hot- It will be possible.

The roller 230 is preferably longer than the length of the inlet 110 and the outlet 120. This is because the roller 230 is integrated with the door 210 and is lowered to be in contact with the upper surface of the hot rolled steel sheet S so that the inlet 110 and the outlet 120 are closed, It is necessary to prevent the occurrence of heat loss inside the housing 100.

The housing 100 is provided with at least one temperature sensing sensor 130 for sensing a temperature of the housing 100. The temperature sensing sensor 130 senses a temperature inside the housing 100, Lt; / RTI >

When the reference temperature is set in advance and the information about the internal temperature of the housing 100 received from the temperature sensor 130 exceeds the reference temperature value, the controller 300 controls the drive motor 220 And controls the internal temperature of the housing 100 by opening the inlet 110 and the outlet 120 provided in the housing 100 by transmitting an operation signal.

When the internal temperature of the housing 100 received from the temperature sensor 130 is lower than the reference temperature, the inlet 110 and the outlet 120 are closed to adjust the temperature of the interior of the housing 100 .

At this time, the housing 100 is provided with the hot-rolled steel sheet S accommodated therein and at least one burner (not shown) for maintaining the temperature of the mandrel, The control unit 300 transmits an operation signal to the driving motor 220 to seal the inlet 110 and the outlet 120 and to transmit an operation signal to the burner, Thereby maintaining the internal temperature of the housing 100 constant.

The temperature sensor 130 may be, for example, a thermistor, a thermocouple temperature sensor, or the like. The temperature sensor 130 is not limited to the type of the sensor described in the above embodiment, Various temperature sensors capable of detecting an internal temperature of the temperature sensor 100 may be selectively applied.

The operation of the mandrel coil box having a warming function according to an embodiment of the present invention will now be described with reference to the drawings.

The roller 230 integrated with the door 210 is lowered when the hot rolled steel sheet S is pulled into or drawn out from the housing 100 to contact the upper surface of the hot rolled steel sheet S, The roller 230 is rotated in contact with the upper surface of the hot-rolled steel sheet S along the advancing direction of the hot-rolled steel sheet S.

At this time, the load cell 240 provided between the door 210 and the roller 230 senses the contact pressure of the roller 230 having rolling friction and transmits the pressure to the controller.

The control unit 300 receives the contact pressure of the roller 230 with respect to the hot rolled steel sheet S from the load cell 240 and compares the contact pressure with the reference pressure inputted in advance, It is determined that the roller 230 and the hot rolled steel sheet S are in contact with each other, and a stop signal is transmitted to the driving motor 220 to stop the driving motor 220.

The temperature sensor 130 senses the temperature of the inside of the housing 100 in real time and transmits the sensed temperature to the controller 300.

The control unit 300 compares the temperature information of the inside of the housing 100 received from the temperature sensor 130 with the predetermined reference temperature to determine whether the temperature inside the housing 100 is higher than the reference temperature The door 210 is lifted to open the inlet 110 and the outlet 120 provided in the housing 100 so that the housing 100 ) Adjust the internal temperature.

When the temperature inside the housing 100 is lower than the reference temperature, the controller 300 transmits an operation signal to the driving motor 220 to lower the door so that the roller contacts the upper surface of the hot- Thereby closing the inlet 110 and the outlet 120 to maintain the temperature inside the housing 100.

The control unit 300 transmits an operation signal to the driving motor 220 so that the inlet 110 and the outlet 120 And the temperature inside the housing 100 is kept constant.

Although the present invention has been described with reference to the preferred embodiments thereof, 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 and scope of the invention as defined in the following claims. It can be understood that

S: hot rolled steel plate 1: tundish
2: continuous casting machine 3: rough rolling mill
4: cutter 5: induction heating furnace
6: Coil box 6a: Mandrel
7: Finishing mill 100: Housing
110: inlet 120: outlet
130: Temperature sensor 200: Door unit
210: door 211: rack gear
220: drive motor 221: pinion gear
230: roller 240: load cell
300:

Claims (5)

A housing having an inlet through which the hot-rolled steel sheet is inserted at one side and an outlet through which the hot-rolled steel sheet is drawn at the other side;
And a door unit installed at both sides of the housing and having one end of the hot-rolled steel sheet in contact with one surface of the hot-rolled steel sheet to seal the housing,
The door unit includes a door, a driving motor coupled to one end of the door to elevate the door, And a roller coupled to a lower end of the door.
delete The method according to claim 1,
And the lower end of the door and the roller are connected via a load cell.
The method of claim 3,
A rack gear is formed on one side surface of the door,
A pinion gear engaged with the rack gear is coupled to a rotation shaft of the driving motor,
And a control unit receiving information on the contact pressure of the roller with respect to the hot rolled steel sheet sensed by the load cell and controlling the rotation of the drive motor.
The method of claim 4,
A temperature sensor is built in the housing,
Receiving information about the inside temperature of the housing from the temperature sensor and transmitting an operating signal to the driving motor when the temperature exceeds the reference temperature to open the inlet and outlet of the housing,
And wherein an operating signal is transmitted to the driving motor to close the inlet and outlet of the housing if the temperature is below the reference temperature.

Images