KR100384450B1 - Method for controlling strand driven roll pressure in the continuous caster - Google Patents

Abstract

The present invention relates to a method for controlling the rolling force of the strand drive roll, and primarily cools the tundish (1) and the molten steel (2) containing the molten steel (2) to produce a cast (4) of a standard size Strand composed of a mold (3), a plurality of guide rolls (7) serving to support the slab (4) passing through the mold (3) and a plurality of driving rolls (6) for pressing and drawing the slab (3) A method of controlling the reduction force of the driving roll (6) in a continuous casting machine having a step of detecting the absolute position of a cast steel (4) cast by the cast steel position measuring device (11); Measuring the pressure acting when the driving roll 6 is pressed down during casting with the pressure gauge 12; Receiving cast piece width information currently being cast by the mold width controller 13; Calculating a reduction force to be acted on the left and right pressing cylinders from the length information of the driving roll 6 and the absolute position and slab width information of the cast steel; Adjusting the hydraulic valve of the pressing cylinder so that the pressure measured by the pressure measuring instrument 12 matches the output pressure, it is possible to reduce the surface defects generated on the surface of the cast steel by evenly distributing the pressing force on the surface of the cast steel In addition, there is an advantage that can improve the life of the driving roll.

Description

METHOD FOR CONTROLLING STRAND DRIVEN ROLL PRESSURE IN THE CONTINUOUS CASTER}

The present invention relates to a method for controlling the reduction force of the strand drive roll, and in particular, the absolute position of the slab in the uneven pressure distribution generated due to the left and right eccentricity around the center of the roll produced during casting in the continuous casting equipment The present invention relates to a method of controlling the reduction force of a strand drive roll in a continuous casting facility for uniformly distributing the reduction force on the surface of a cast piece through correction control according to the present invention.

In general, the continuous casting facility is a mold (3) for cooling the tundish (1) containing the molten steel (2) and the molten steel (2) to produce a cast (4) of the standard size as shown in FIG. ), A strand composed of a plurality of guide rolls (7) serving to support the slab (4) passing through the mold (3) and a plurality of driving rolls (6) for pressing and drawing the slab (4) By installing a hydraulic cylinder (8) capable of pressing down the driving roll (6) during casting to press down the cast (4) and at the same time installing a driving device for rotating the driving roll (6). While rotating the cast (4) is drawn.

In the continuous casting process described above, the slab 4 immediately after passing through the mold 3 has a very thin solidification cell, and thus, as shown in FIG. 2, not only the long side portion 3-1 of the mold 3 but also the short side portion ( 3-2) 1 to 5 side support rolls 9 which can support the cast steel 4 are installed directly to support the cast steel 4, but after the side support roll 9, the unit cost and complexity Therefore, there is no device capable of supporting the short side, and the guide roll 7 and the driving roll 6 are installed only on the long side to support and pull out the cast 4.

Therefore, the slab 4 passing through the side support roll 9 causes the frictional force difference between the left and right sides of the drawing roll due to irregular wear and the like from the curved portion 5 while passing through the strand, and the mold 3 short side portion 3-2. It is a common phenomenon that the cast piece 4 does not pass through the center portion of the roll and is eccentric in the left and right direction and passes through the strand due to the left and right asymmetry factor.

On the other hand, when looking at the process of drawing the cast (4), the driving roller (6) is provided with a pressing cylinder (8) capable of pressing the cast slab to reduce the cast (4) and at the same time to drive the driving roll (6) The driving device has a driving roll (6) is rotated to draw the cast (4), as shown in Figure 3 conventionally located on the upper bearing housing 10, which exists on the left and right of the driving roll (6) Since the pressure of the cylinder is equally drawn to the left and right while drawing the slab, the cast piece 4 which is eccentric to the left and right sides is transferred to the surface of the cast piece 4 which produces more force transmitted to the surface of the cast piece 4 in the opposite direction. Not only does it generate a flaw, such as roll marks, but also causes an eccentricity of the driving roll 6, which shortens the life of the driving roll 6.

The present invention has been invented to solve the problems caused by the conventional method for controlling the rolling force of the strand driving roll in view of the above situation, which occurs because the cast produced during casting in the continuous casting equipment causes the left and right eccentricity around the center of the roll It is an object of the present invention to provide a method for controlling the reduction force of a strand drive roll in a continuous casting facility in which the reduction force is equally distributed on the surface of the slab through correction control according to the absolute position of the slab.

1 is a schematic configuration diagram of a continuous casting facility,

Figure 2 is a configuration of the mold and the mold directly side support roll of the continuous casting equipment,

3 is a configuration diagram of a driving roll and a driving roll pressing cylinder of the continuous casting facility;

4 is a configuration diagram of a drive roll pressing system to which the present invention is employed.

<Explanation of symbols for main parts of drawing>

1: tundish 2: molten steel

3: mold 3-1: long side of the mold

3-2: Short side of the mold 4: Cast

5 curved portion 6 driving roll

7: guide roll 8: Absin cylinder

8-1: Left Ablinder 8-2: Right Absorber

9: side support roll 10: bearing housing

11: caster position measuring instrument 12: pressure measuring instrument

13: mold width controller 14: upper controller

15: hydraulic controller

In the continuous casting facility of the present invention for achieving the above object, the method for controlling the reduction force of the strand drive roll, shaping the tundish (1) and the molten steel (2) containing the molten steel (1) primary shaping A plurality of guide rolls 7 and a plurality of guide rolls 7 which serve to support the cast 3 to produce the cast 4 of a predetermined size, the cast 4 passing through the mold 3, and the cast 3 In the method of controlling the rolling force of the drive roll 6 in the continuous casting installation provided with the strand which consists of the drive roll 6 of this invention, the absolute position of the cast piece 4 cast by the slab position measuring machine 11 is carried out. Detecting; Measuring the pressure acting when the driving roll 6 is pressed down during casting with the pressure gauge 12; Receiving cast piece width information currently being cast by the mold width controller 13; Calculating a reduction force to be acted on the left and right pressing cylinders from the length information of the driving roll 6 and the absolute position and slab width information of the cast steel; Adjusting the hydraulic valve of the pressing cylinder so that the pressure measured by the pressure measuring device 12 is equal to the output pressure, it characterized in that the pressing force is distributed evenly on the surface of the cast steel.

In the step of calculating the reduction force, the total reduction force is F, the width of the currently produced cast steel is W, the length of the driving roll is L, and the distance from the left side of the driving roll to the left side of the cast steel is X, which acts on the left side pressing cylinder. The rolling force to be applied (F1) is F1 = (L-X-W / 2) × F / L, and the rolling force (F2) to be applied to the right side pressing cylinder is set to F2 = (X + W / 2) × F / It calculates as L. It is characterized by the above-mentioned.

Hereinafter, with reference to the accompanying drawings will be described in detail a method for controlling the reduction force of the strand drive roll in the continuous casting equipment of the present invention.

In general, in the case of drawing the cast 4 during casting with the continuous casting equipment shown in Figure 1, while pressing the cast 4 and at the same time driving the drive roll 6 to draw the cast 4, the cast (4) The rolling force setting value for rolling down (4) is calculated by preliminarily calculating the value proportional to the iron static pressure of the molten steel corresponding to the width of the cast steel and the position of each driving roll 6 distributed throughout the strand, and preparing the rolling force command value table. To use.

3 is a configuration diagram of a driving roll and a driving roll pressing cylinder of a continuous casting machine, and FIG. 4 shows a pressure reduction force control device of the driving roll employed in the present invention. The pressing force to be pressed is set in advance, and the length of the driving roll 6 is measured in advance during non-casting, and the width information of the cast steel 4 currently being cast is obtained from the mold width controller, and near the curved portion 5 To measure the absolute position of the cast steel 4 by installing a caster position measuring instrument 11 capable of measuring the absolute position of the cast steel 4 to uniformly distribute the pressing force on the surface of the cast steel according to the following equations (1) and (2). Calculate the reduction force command value to be reduced in the left and right pressure cylinders 8-1 and 8-2.

F1 = (L-X-W / 2) × F / L

F2 = (X + W / 2) × F / L

In Equation 1, 2, F is the total reduction force, W is the width of the currently produced cast steel, L is the length of the driving roll, X is the distance from the left side of the driving roll to the left side of the cast steel. Therefore, the distance Y from the right side of a drive roll to the right side of a slab becomes L-X-W. In addition, F1 is the reduction force to be applied to the left side of the cylinder, F2 is the reduction force to act to the right side of the cylinder.

When the pressure reduction command value obtained by the above equations 1 and 2 reaches the oil pressure controller 15, the oil pressure controller 15 measures the pressure measured from the pressure measuring device 12 installed in the pressure cylinder. The pressure is controlled by adjusting the hydraulic valves of the respective push cylinders so as to coincide with the reduction force command value obtained by the step.

As described above, the present invention can not only reduce the surface defects occurring on the surface of the cast steel but also improve the life of the driving roll by controlling the rolling force of the strand driving roll during casting according to the absolute position of the cast steel. There is an advantage.

Claims (2)

A mold 3 containing molten steel 2 and a molten steel 2 that are primarily cooled to form a cast 4 of a shaped size, and a cast 4 that passes through the mold 3. Pressing force of the driving roll 6 in a continuous casting facility having a strand composed of a plurality of guide rolls 7 and a plurality of driving rolls 6 for pressing down and pulling the cast pieces 3 serving to support the A method of controlling the pressure, comprising: detecting an absolute position of a cast steel 4 cast by a cast steel position measuring device 11; Measuring a pressure acting when the driving roll 6 is pressed down during the casting by the pressure gauge 12; Receiving cast piece width information currently being cast by the mold width controller 13; Calculating a reduction force to be acted on the left and right pressing cylinders from the length information of the driving roll 6 and the absolute position and slab width information of the cast steel; Adjusting the hydraulic valve of the pressing cylinder so that the pressure measured by the pressure gauge 12 matches the output pressure, in the step of calculating the reduction force, the total reduction force F, the width of the currently produced cast W, the length of the driving roll is L, the distance from the left side of the driving roll to X is X, and the pressing force (F1) that should act on the left side pressing cylinder is F1 = (L-X-W / 2) × F It is calculated as / L, and the reduction force (F2) to be applied to the right side ab cylinder is calculated as F2 = (X + W / 2) x F / L, so that the reduction force is distributed evenly on the surface of the cast steel. Method to control the rolling force of strand drive roll in continuous casting equipment. delete