KR101363856B1 - Variable crown hearth roll for preventing strip from meandering in heat treatment process - Google Patents

Abstract

The hearth roll of the continuous annealing plant according to an embodiment of the present invention has a variable crown formed by expansion or contraction of the coating layer, so that the center position of the strip can be adjusted by reacting immediately upon meandering of the strip. To this end, the hearth roll according to an embodiment of the present invention includes a main body, a roll body in which a plurality of cells are partitioned in the axial direction, a coating layer coated on the outer circumferential surface of the roll body and capable of expansion or contraction, and a roll. It includes a hot water line that can independently supply hot water to each of the plurality of cells of the body.

Description

VARIABLE CROWN HEARTH ROLL FOR PREVENTING STRIP FROM MEANDERING IN HEAT TREATMENT PROCESS}

The present invention relates to a hearth roll for supporting and conveying strips in a continuous annealing process.

In general, in the continuous annealing process, there is a risk that the strip is oriented to one side, that is, meandering, due to a shape defect of a material, a local temperature difference of the roll surface, or a tension irregularity during the transfer of the strip.

To solve this, a continuous annealing facility is also equipped with a steering roll which measures how far the strip is off the center of the roll and twists the strip back to the center by the gap off the strip.

However, the method of moving the strip to the center by using the steering roll has a disadvantage in that there is a risk of bad shape (polarization) of the strip during adjusting the position of the strip, and it is difficult to immediately respond to meandering.

On the other hand, in order to prevent meandering, the roll itself may be provided with a taper crown. Such a crown has a disadvantage that it is fixed to the roll at the time of manufacture of the roll and can not be changed appropriately according to the situation.

One aspect of the present invention discloses a hearth roll that can change the crown of a roll by shrinking or expanding the coating layer on the roll surface.

According to an embodiment of the present invention, in a hearth roll for supporting and transporting a strip in an annealing process, a roll body having a main shaft and a plurality of cells provided to surround the main shaft and partitioned in an axial direction therein, and A film layer having a coefficient of thermal expansion that is relatively greater than that of a roll body and being expandable or deflated according to a temperature change of each of the plurality of cells according to hot water that is coated on the outer circumferential surface of the roll body and filled or emptied into the plurality of cells; It provides a hearth roll comprising a hot water line capable of supplying the hot water independently to each of the plurality of cells of the roll body.
In addition, when the hot water is removed from at least one of the plurality of cells, the coating layer coated on the outer circumferential surface of the at least one cell is characterized in that it shrinks as the temperature drops of the at least one cell.
In addition, when the strip supported by the hearth roll meanders to one side, the hot water may be removed from at least one cell located in the other direction among the plurality of cells to move the strip in the other direction.
The hot water line may include a main line formed along an axial direction, and a plurality of sub lines for circulating the hot water of the main line into each of the plurality of cells.
In addition, each of the plurality of sub-line is characterized in that the check valve for controlling the supply of hot water is installed.
In addition, the roll body is characterized in that it is formed of a heat-resistant steel material of SCH22.
In addition, the coating layer is characterized in that the spray coating is formed of HG311B material.

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Compared to the conventional two-roll steering roll, the hearth roll according to the embodiment of the present invention can prevent meandering of the strip as one roll. Therefore, it is applicable not only to the roll of the tunnel section but also to the roll of all sections, and the control response is improved.

In addition, a plurality of cells can be formed along the axial direction of the roll to form a variety of temperature gradients, thereby making the crown shape diverse and facilitating the center position adjustment of the strip.

1 schematically shows a continuous annealing plant.
2 is a schematic cross-sectional view of a hearth roll according to an embodiment of the present invention.
3 is a view for explaining the operation of the hearth roll according to an embodiment of the present invention.

Hereinafter, the structure and operation of the hearth roll according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing a continuous annealing plant. As shown in FIG. 1, in general, in the cold rolling continuous annealing process, the structure of the strip S is heated by heating the strip S to an appropriate temperature to obtain a predetermined material (tensile strength, hardness, elongation, etc.) of the strip S. Is controlled to the proper size.

The strip S passes through the heating table 1, the cracking table 2, and the cooling tables 3, 4, 5, 6 of the continuous annealing plant in order. The heating table 1 changes the structure of the strip S by heating the strip S to approximately 750 to 975 ° C., which is the recrystallization temperature of the strip S.

In this continuous annealing facility, a plurality of hearth rolls 10 having a cylindrical shape are arranged to support and transport the strip S. In general, the temperature inside the continuous annealing plant is quite high, so that the center portion of the surface of the hearth roll 10 with which the strip S is in contact with the remaining side portions with which the strip S is not in contact has a temperature difference.

The meandering phenomenon in which the strip S deflects from one side of the hearth roll 10 due to the local temperature difference of the hearth roll 10, the tension unevenness of the strip S, or the defect of the strip S shape itself. This can happen.

If such meander occurs, there may be a defect in the shape of the cold rolled coil, and in severe cases, there is a risk that the continuous annealing process itself is stopped. Therefore, preventing meandering of the strip may be a measure of improving the cold rolled coil quality.

The hearth roll 10 according to the embodiment of the present invention is provided so that the variable crown is formed on its own, and when the strip S meanders, the position of the strip S can be readjusted to the center.

2 is a schematic cross-sectional view of a hearth roll according to an embodiment of the present invention. As shown in FIG. 2, the hearth roll 10 according to an exemplary embodiment of the present invention includes a main shaft 11, a roll body 12 formed to surround the main shaft 11, and a roll body 12. It may be configured to include a coating layer 14 is spray-coated on the outer peripheral surface of the).

The roll body 12 may be mounted to rotate about the main shaft 11, or may be mounted to rotate together with the main shaft 11. In the roll body 12, a plurality of cells 13 are formed along the axial direction. The plurality of cells 13 may be filled with hot water, which will be described later.

The plurality of cells 13 may be formed to be symmetrical about the central portion in the axial direction, and a total of five cells 13 are illustrated in FIG. 2. However, since the number of such cells 13 is only a design specification, the number is not limited.

In addition, since the length of each cell 13 is also a design specification, it can be set in various ways, but as an example, it can be set to a = 300mm, b = 300mm, c = 800mm, d = 300mm, and e = 300mm.

The hearth roll 10 according to an embodiment of the present invention further includes a hot water line 15 capable of supplying hot water to each of the plurality of cells 13. The hot water line 15 may receive hot water from an external water supply source (not shown) to circulate the hot water independently in each of the plurality of cells 13.

The hot water line 15 may include a main line 16 formed along an axial direction, and a plurality of sublines 17 branched from the main line 16 to connect the main line 16 and each of the cells 13. 18).

In FIG. 2, the main line 16 is illustrated as being formed inside the roll body 12, but the main line 16 may be formed inside the main shaft 11.

The sub lines 17 and 18 recover the hot water from the main line 16 to the main line 16 from the supply line 17 for supplying hot water from the main line 16 to the plurality of cells 13. It may include a recovery line 18 for.

Check valves 19 for controlling the flow of hot water may be installed on the sublines 17 and 18. Accordingly, one supply line 17 and one recovery line 18 are connected to each of the plurality of cells 13, and a check valve 19 is installed in each of the supply line 17 and the recovery line 18. It is possible to control the flow direction and flow amount of the hot water.

The hearth roll 10 according to an exemplary embodiment of the present invention may have a hot water line 15 structure as described above so that hot water may be filled in each of the plurality of cells 13 or empty water may be emptied. For reference, in FIG. 2, the shaded portion indicates hot water, and FIG. 2 illustrates a state in which warm water is filled in all of the plurality of cells 13.

Each of the plurality of cells 13 is changed in temperature according to the filled or emptied state of the hot water. The change in temperature may also be set variously as a design specification, but may be set to have a difference of approximately 100 degrees as an example.

The roll body 12 may be formed of a heat resistant steel material of SCH22 (JIS standard) so that thermal deformation of contraction or expansion does not occur according to the temperature difference of the cell 13 according to the filled or emptied state of the hot water. It can also have a coefficient of thermal expansion of approximately 16-18 * 10 ^ -6 / degree.

On the other hand, the coating layer 14 coated on the outer circumferential surface of the body 12 is preferably formed of a material capable of thermal deformation of shrinkage or expansion according to the temperature difference of the cell 13 according to the filled or emptied state of the hot water. . For example, it may be formed of HG311B (JIS standard) and may have a thermal expansion coefficient of about 6.2 * 10 ^ -3 / degree. When the temperature difference of 100 degrees based on the coating thickness 100㎛ can be transformed about 0.6mm.

3 is a view for explaining the operation of the hearth roll according to an embodiment of the present invention. Referring to Figure 3 will be described with respect to the variable crown formed in the hearth roll 10 according to an embodiment of the present invention. Hereinafter, redundant description of the same configuration as that described in FIG. 2 among the components illustrated in FIG. 3 may be omitted.

In FIG. 3, the shaded portion indicates hot water, and FIG. 3 illustrates a state in which the hot water is not filled in the first cell 13a, the second cell 13b, and the third cell 13c of the plurality of cells. . 3 shows a state in which the strip S meanders in the right direction on the drawing.

When the strip S meanders as described above, as shown in FIG. 3, the strip S is emptied by emptying hot water filled in the cells 13a, 13b, and 13c in the opposite direction to the direction in which the strip S meanders. The position of can be readjusted to the center.

At this time, the hot water filled in the cells 13a, 13b and 13c may be emptied by operating the check valves 19a, 19b and 19c on the sublines 17 and 18.

The cells 13a, 13b, and 13c in which the warm water is emptied have a temperature about 100 degrees lower than the remaining cells in which the warm water is filled. Thus, the coating layers 14a, 14b, 14c adjacent to the cells 13a, 13b, 13c are contracted by the low temperature of the cells 13a, 13b, 13c.

As a result, the contracted coating layers 14a, 14b, 14c and the other coating layers have a step (difference in diameter), and the step allows the strip S to move to the center side. That is, the same result as the crown is formed in the hearth roll (10).

Since the variable crown hearth roll according to an embodiment of the present invention can be applied to one roll, it can be applied to a SCS (Slow Cooling Section) section where meandering occurs easily during the continuous annealing process. Therefore, the reaction time can be made faster than installing two or more steering rolls in the tunnel after the SCS section.

Furthermore, the crown can be changed depending on the meandering direction.

On the other hand, in one embodiment of the present invention divided the intervals into five and set the temperature difference for each section is approximately 100 degrees, but when subdividing the sections can further fine-tune the strip position, and set the temperature difference larger In this case, the step may form a larger crown.

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. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

1: heating stand 2: cracking stand
3: 1st cooling stand 4: 2nd cooling stand
5: 3rd cooling stand 6: water cooling stand
10: hearth roll 11: main shaft
12: roll body 13: cell
14: film layer 15: hot water line
16: main line 17, 18: sub line
19: check valve S: strip

Claims (7)

In the hearth roll for supporting and transporting the strip in the annealing process,
Main shaft;
A roll body provided to surround the main shaft and having a plurality of cells partitioned in an axial direction therein;
A film layer having a coefficient of thermal expansion that is relatively larger than that of the roll body and is expandable or contracted according to a temperature change of each of the plurality of cells according to hot water that is coated on the outer circumferential surface of the roll body and filled or emptied into each of the plurality of cells. ; And
And a hot water line capable of supplying the hot water independently to each of the plurality of cells of the roll body. The method of claim 1,
When the hot water is removed from at least one cell of the plurality of cells, the coating layer coated on the outer circumferential surface of the at least one cell shrinks according to the temperature drop of the at least one cell. 3. The method of claim 2,
When the strip supported by the hearth roll meanders to one side, the hearth roll can remove the hot water from at least one cell located in the other direction among the plurality of cells and move the strip in the other direction. The method of claim 1,
The hot water line includes a main line formed along an axial direction, and a plurality of sublines for circulating the hot water of the main line into each of the plurality of cells. 5. The method of claim 4,
Hearth roll, characterized in that each of the plurality of sub-line is provided with a check valve for regulating the supply of hot water. The method of claim 1,
The roll body is a hearth roll, characterized in that formed of a heat resistant steel material of SCH22. The method of claim 1,
The film layer is a hearth roll, characterized in that the thermal spray coating is formed of HG311B material.

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