KR101526454B1 - Apparatus and method for electromagnetic stirring - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electromagnetic stirring device and a stirring method, and more particularly, to an electromagnetic stirring device and a stirring method for separating and floating a substance in a molten steel rotating and stirring by varying the intensity of a magnetic field applied thereto .
An electromagnetic stirring apparatus according to an embodiment of the present invention is an electromagnetic stirring apparatus for stirring molten steel by an electromagnetic force, comprising: an electromagnetic generating unit disposed on an outer surface of a container for receiving the molten steel to apply a magnetic field; A power supply unit for supplying power to the electromagnetic generating unit; And an adjusting unit adjusting the intensity of the magnetic field applied from the electromagnetic generating unit according to the height of the container.

Description

[0001] Electromagnetic stirring apparatus and stirring method [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electromagnetic stirring device and a stirring method, and more particularly, to an electromagnetic stirring device and a stirring method for separating and floating a substance in a molten steel rotating and stirring by varying the intensity of a magnetic field applied thereto .

In general, the main process for determining the quality of steel products is to remove impurities such as sludge produced in the blast furnace as a steelmaking process, and to produce semi-finished products such as slabs, blooms, billets, And so on.

The process of removing impurities in the steelmaking process is referred to as a refining process, the refining process includes a pre-treatment process for desulfurizing treatment, a transferring process for removing oxygen, and a secondary refining process for matching the temperature of the alloy component and the refractory. At this time, stirring of molten steel plays a very important role in each step.

Strong agitation may result in homogenization of components, but may be problematic due to contact with the atmosphere or contamination due to slag incorporation, and weak agitation will take too much time to equalize the components, resulting in reduced productivity.

As a general stirring method, there is a method of stirring by using the levitation force by argon (Ar) bubble used in the secondary refining to control the alloy component and adjusting the temperature, and a method of stirring by using the impeller in the desulfurization process.

However, stirring by argon (Ar) bubbles not only has the possibility of forming a stagnation region in the vessel, but also the slag layer disappears instantaneously due to bubble burst of the bath surface due to expansion of argon (Ar) Contamination by oxygen and nitrogen occurs. In the desulfurization step, molten steel is generally agitated using an impeller. However, the refractory used in the impeller has a problem in that the agitating force is lowered due to abrasion while being used for a long time.

Accordingly, in recent years, in order to solve the above-mentioned problems, a metal product is produced by using an electromagnetic stirring device which stirs using an electromagnetic force. However, in the case of a generally used electromagnetic stirring apparatus, an alternating magnetic field is applied to the molten steel to generate and rotate the rotating force. In this case, however, only the rotational force in the plane is generated and it takes much time to separate articles such as impurities contained in the molten steel do. Therefore, the stirring efficiency is lowered, the articles are not smoothly separated, and a metal product with high purity can not be produced, and the working efficiency is lowered.

KR 10-0433580 B1

The present invention provides an electromagnetic stirring apparatus and stirring method capable of separating and floating an object in a molten steel which is rotated and agitated by changing the intensity of a magnetic field applied to the vessel according to the height of the vessel.

The present invention also relates to a method and apparatus for rotating a molten steel in a horizontal direction by an alternating magnetic field and rotating the molten steel in a vertical direction by a DC magnetic field whose intensity changes according to the height of the vessel, An electromagnetic stirring device and a stirring method capable of rapidly separating and removing water are provided.

According to an aspect of the present invention, there is provided an electromagnetic stirring apparatus,

An electromagnetic stirring apparatus for stirring molten steel by an electromagnetic force, comprising: an electromagnetic generating unit arranged on an outer surface of a container in which the molten steel is accommodated to apply a magnetic field; A power supply unit for supplying power to the electromagnetic generating unit; And an adjusting unit adjusting the intensity of the magnetic field applied from the electromagnetic generating unit according to the height of the container,

The power supply unit may selectively supply a DC power or an AC power,

The AC power supplied from the power supply unit may be converted into a DC power and supplied in the form of an AC power.

The controller adjusts the intensity of the magnetic field by varying the intensity of the power source for each of a plurality of regions according to the height of the container,

The controller adjusts the intensity of the magnetic field by changing the gap with the electromagnetic generating unit according to the height of the container,

The control unit may include a tilting unit that tilts the electromagnetic generating unit so as to be inclined with respect to the height direction,

The tilting unit can tilt the electromagnetic generating unit in the outer direction of the container around the lower end.

According to another aspect of the present invention, there is provided an electromagnetic stirring method,

An electromagnetic stirring method for stirring molten steel by an electromagnetic force, the method comprising: a step of accommodating the molten steel in a vessel; Applying an alternating magnetic field to the molten steel to rotate the molten steel; Applying a DC magnetic field to the molten steel to reduce the flow rate; And changing the intensity of the DC magnetic field applied to the molten steel in accordance with a height of the vessel to flow in a vertical direction,

The alternating magnetic field applied to the molten steel may be formed by supplying a DC power converted into an AC power,

The process of flowing the molten steel in the vertical direction may decrease the intensity of the DC magnetic field applied from the lower part to the upper part of the container to allow the molten steel to flow upward,

The process of flowing the molten steel in the vertical direction may vary the strength of the direct current magnetic field by adjusting the distance between the electromagnetic generating unit for applying a magnetic field to the molten steel and the container,

In the process of flowing the molten steel in the vertical direction, the intensity of the DC magnetic field can be changed by inclining the electromagnetic generating unit for applying the magnetic field to the molten steel so as to be inclined with respect to the height direction.

According to the electromagnetic stirring apparatus and stirring method according to the embodiment of the present invention, by applying a magnetic field having different intensity according to the height of the vessel to rotate the molten steel accommodated in the vessel in the vertical direction, It is possible to manufacture a metal product having excellent purity.

In addition, not only the impeller is used but the molten steel is rotated and agitated by the electromagnetic force to reduce the fluctuation range of the agitation force due to the wear of the impeller and to reduce the use cost of the refractory used in the impeller, Ar) bubbles generated by the bubbles can be prevented, so that contamination of the molten steel by the atmosphere can be prevented, and a uniform temperature distribution and alloy composition can be obtained over the entire region of the molten steel.

It is also possible to improve the productivity of the metal manufacturing process and the quality of the product by stirring using electromagnetic force in a non-contact state with the molten steel to be stirred, and it can be applied not only to various metal manufacturing processes such as iron and non- have.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram showing a schematic structure of an electromagnetic stirring apparatus according to an embodiment of the present invention; FIG.
Fig. 2 is a schematic view showing a structure in which molten steel is rotated by applying an alternating magnetic field. Fig.
3 is a view showing the intensity of a DC magnetic field applied to molten steel;
FIG. 4 is a view showing a structure for rotating the upper part of the molten steel by changing the intensity of the DC magnetic field applied thereto. FIG.
5 is a flow chart illustrating an electromagnetic stirring method according to an embodiment of the present invention;

The electromagnetic stirring apparatus and the stirring method according to the present invention provide a technical feature that the strength of a magnetic field applied to the vessel can be varied according to the height of the vessel, thereby separating and floating the articles in the rotating molten steel.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, Is provided to fully inform the user. Wherein like reference numerals refer to like elements throughout.

FIG. 1 is a configuration diagram showing a schematic structure of an electromagnetic stirring apparatus according to an embodiment of the present invention, and FIG. 2 is a diagram showing a plan view of a structure in which molten steel is rotated by applying an alternating magnetic field. FIG. 3 is a diagram showing the intensity of a DC magnetic field applied to molten steel, and FIG. 4 is a diagram showing a structure for rotating the DC magnetic field applied to molten steel to an upward direction by varying the intensity of the DC magnetic field.

1 to 4, an electromagnetic stirring apparatus according to an embodiment of the present invention is an electromagnetic stirring apparatus for stirring a molten steel 1 by an electromagnetic force, wherein an outer surface of the container 10 in which the molten steel 1 is accommodated An electromagnetic generating unit 100 for applying a magnetic field; A power supply unit 200 for supplying power to the electromagnetic generating unit 100; And an adjusting unit (not shown) for adjusting the intensity of the magnetic field applied from the electromagnetic generating unit 100 according to the height of the container 10.

The electromagnetic generating unit 100 is disposed on the outer surface of the container 10 in which the molten steel 1 is accommodated to apply a magnetic field to the molten steel 1. The electromagnetic generating unit 100 may include a core 110 and a vertical coil 130 installed in the core 110. Although the electromagnetic generating unit 100 shown in FIG. 1 has a vertical coil 130 installed on the outer side of the core 110 to apply a magnetic field thereto, the coil may be disposed on the inner side or both sides of the core 110, It is needless to say that it is possible to use the electromagnetic generating unit 100 of various known configurations arranged on the outer surface of the molten steel 10 to apply a magnetic field to the molten steel 1.

The power supply unit 200 is electrically connected to the electromagnetic generating unit 100 to supply power. In addition, the power supply unit 200 may selectively supply a DC power or an AC power.

When AC power is supplied to the electromagnetic generating unit 100, for example, when three-phase AC power is supplied to the vertical coil 130 generating a magnetic field on a plane to periodically change the electrode according to the frequency, In the space, a planar magnetic field in the xy direction is rotated about the center.

When the electromagnetic generating unit 100 is composed of six cores 110 and six vertical coils 130 installed in the cores 110 as shown in the figure, the cores 110 and the vertical coils 130 Assuming that the vertical coil 130 has a phase of A and the vertical coil 130 has a phase of B, the first and fourth vertical coils 130, Alternating current power source, and the alternating current power source having the phase C is applied with the phase difference of 120 degrees in the third and sixth times. Therefore, when the N pole is generated in the first vertical coil 130, the S pole is generated in the fourth vertical coil 130, and when the N pole is generated in the second vertical coil 130, S pole is generated, and when the N pole is generated in the third vertical coil 130, the S pole is generated in the sixth vertical coil 130.

At this time, since the AC power is supplied to the vertical coils 130, the poles periodically change according to the frequency, and as a result, a planar rotating magnetic field in the x-y direction is generated in the space based on the center. Thus, an eddy current is induced in the molten steel 1 in the vessel 10 through the rotating magnetic field, and a rotating force is generated in the same direction as the rotating direction of the magnetic field, and the molten steel 1 is stirred by the rotating force.

Although the electromagnetic generating unit 100 includes six cores 110 and six vertical coils 130 installed in the cores 110 in the figure, the present invention is not limited thereto, It is needless to say that various types of electromagnetic generating units 100 may be used in which the molten steel 1 is rotated and agitated in a planar manner.

On the contrary, when DC power is supplied to the electromagnetic generating unit 100, Lorentz force acting in the direction opposite to the flow direction of the molten steel 1 by the action of the induction current formed by the DC magnetic field and the flow of the molten steel 1, It receives a Lorentz force. Accordingly, the flow velocity of the molten steel 1 is reduced by the Lorentz force, so that the stability of the molten steel can be ensured.

When the power source unit 200 is a direct current power source, the power source unit 200 may convert the direct current power into an alternating current power and supply the alternating current power to the electromagnetic generating unit 100. In order to convert the direct current power into the alternating current power, for example, the amplitude and the phase can be changed by using an inverter circuit or a device. In contrast, when the power source unit 200 is an AC power source, in order to supply DC power to the electromagnetic generating unit 100, the power source unit 200 may convert the AC power source into a DC power source using a rectifier circuit or the like Of course it is.

The adjustment unit adjusts the intensity of the magnetic field applied from the electromagnetic generating unit 100 differently according to the height of the container. When the strength of the magnetic field is adjusted by varying the height of the vessel 10, the molten steel 1 is subjected to a vertical force due to the difference in intensity of the magnetic field formed in the vessel 10 by the height.

When the AC power is applied to the electromagnetic generating unit 100, the molten steel 1 is rotated and stirred by the AC magnetic field. When the DC power is applied to the electromagnetic generating unit 100, the molten steel 1 ) Decreases. In this case, for example, when the DC magnetic field of strong intensity is applied to the lower portion of the vessel 10 and the DC magnetic field of weak intensity is applied to the upper portion of the vessel 10, the molten steel 1 slowly flows under the lower portion, The molten steel 1 is rapidly rotated and flowed in the upper part. Accordingly, the molten steel 1 is rotated in the vertical direction, that is, upward by the swirl effect caused by the rotational speed difference between the upper part and the lower part.

In order to adjust the intensity of the magnetic field differently according to the height of the container 10, the controller adjusts the intensity of the electric power supplied to the electromagnetic generating unit 100 by a plurality of areas according to the height of the container 10, Can be adjusted. That is, the vertical coils 130 of the electromagnetic generating unit 100 are separately arranged in the core 110 for each of a plurality of regions along the height of the container 10, The power of the magnetic field applied to the upper part and the lower part can be adjusted by supplying a power having different intensity.

In addition, in order to adjust the intensity of the magnetic field differently according to the height of the container 10, the adjusting unit can adjust the intensity of the magnetic field by making the gap with the electromagnetic generating unit 100 different according to the height of the container 10. The strength of the magnetic field can be adjusted when the distance between the electromagnetic generating unit 100 and the molten steel 1 accommodated in the vessel 10 is made different.

More specifically, the regulating unit may include a tilting unit (not shown) that tilts the electromagnetic generating unit 100 so as to be inclined with respect to the height direction. The tilting unit is installed in the electromagnetic generating unit 100 and tilts the electromagnetic generating unit 100 so as to be inclined inward or outward so as to have a certain angle with respect to the height direction. The intensity of the magnetic field applied from the electromagnetic generating unit 100 is higher than the strength of the electromagnetic generating unit 100 and the strength of the molten steel accommodated in the container 10 when the electromagnetic generating unit 100 is inclined inward or outward with respect to the height direction by the tilting unit. (1).

Although not shown, the tilting unit can be rotated by a shaft provided in the electromagnetic generating unit 100 or by providing a gap adjusting member between the container 10 and the electromagnetic generating unit 100, Can be applied to a tilting unit having various structures for tilting so as to be inclined with respect to the height direction.

The tilting unit can tilt the electromagnetic generating unit 100 in the outer direction of the vessel 10 about the lower end to rotate the molten steel 1 upward so as to separate the articles in the molten steel 1 . 3, when the electromagnetic generating unit 100 is tilted toward the outer side of the container 10 about the lower end thereof, the lower portion of the container 10 is narrower than the electromagnetic generating unit 100, A magnetic field is formed, and the upper portion of the container 10 is wider than the electromagnetic generating unit 100, so that a magnetic field of weak intensity is formed. Therefore, the molten steel 1 is slowly rotated in the lower part of the vessel 10, and the molten steel 1 is rapidly rotated in the upper part. As a result, the molten steel 1 rotates upward due to the rotational speed difference as described above.

Hereinafter, the electromagnetic stirring method according to the embodiment of the present invention will be described in detail.

5 is a flow chart illustrating an electromagnetic stirring method according to an embodiment of the present invention. 5, an electromagnetic stirring method according to an embodiment of the present invention is an electromagnetic stirring method for stirring a molten steel 1 by an electromagnetic force, the method comprising: a step S100 of receiving the molten steel 1 in a vessel 10; A step S200 of rotating the molten steel 1 by applying an alternating magnetic field thereto; A step S300 of reducing the flow velocity by applying a DC magnetic field to the molten steel 1; And a step (S500) of varying the intensity of the DC magnetic field applied to the molten steel (1) in accordance with the height of the vessel (S400) and flowing the same in a vertical direction (S500).

The molten steel 1 is injected into the vessel 10 in order to stir the molten steel 1 in the step S100 of receiving the molten steel 1 into the vessel 10. In the continuous casting process, the solidification of the cast steel is firstly started in the mold, and the flow of the molten steel in the mold influences the initial solidification of the cast steel to determine the surface quality, so that the container 10 corresponds to the mold . However, the present invention is not limited to this, and it goes without saying that it may correspond to all the containers 10 such as a ladle, a tundish, a mold, and the like that accommodate the molten steel 1 in the continuous casting process.

In the step S200 of applying the alternating magnetic field to the molten steel 1 to rotate the molten steel 1, an AC power is supplied to the electromagnetic generating unit 100 disposed on the outer surface of the vessel 10 to apply an alternating magnetic field to the molten steel 1 . As described above, when alternating current power is supplied to the electromagnetic generating unit 100, a planar rotational alternating magnetic field in the x-y direction is generated in the space based on the center of the molten steel 1. Therefore, a rotating force is generated in the molten steel 1 in the vessel 10 through the rotating alternating magnetic field in the same manner as the rotating direction of the magnetic field, and the molten steel 1 is stirred by the rotating force.

When the rotating alternating magnetic field is applied to the molten steel 1 as described above, the impurities in the molten steel 1 are lower in electric conductivity and permeability than the molten steel 1, so that the electromagnetic force acting on the object is relatively higher than the molten steel 1 The force of the force is applied to the particles on the surface in the opposite direction to cause the particles to move in the direction opposite to the direction of the molten steel 1.

Here, the AC power supplied to the electromagnetic generating unit 100 can be supplied by converting the phase and the amplitude of the AC power in the form of AC power, thereby applying the AC magnetic field and the DC magnetic field, which will be described later, .

The process of reducing the flow velocity by applying the DC magnetic field to the molten steel 1 (S300) is performed by rotating and stirring the molten steel 1 by the alternating magnetic field, A DC power is supplied to the electromagnetic generating unit 100 to apply a DC magnetic field to the molten steel 1. As described above, when DC power is supplied to the electromagnetic generating unit 100, the DC magnetic field is applied to the electromagnetic generating unit 100 in the direction opposite to the flow direction of the molten steel 1 by the action of the induction current formed by the flow of the molten steel 1 The flow velocity of the molten steel 1 is reduced by the Lorentz force, and the stability of the melt surface can be ensured.

The process of flowing the molten steel 1 in the vertical direction S500 changes the intensity of the DC magnetic field applied to the molten steel 1 according to the height of the vessel 10 in S400. When the intensity of the DC magnetic field applied to the molten steel 1 is changed in accordance with the height of the vessel 10 while applying the DC magnetic field to the molten steel 1 to reduce the flow velocity of the molten steel 1, The rotational flow of the molten steel 1 is reduced in accordance with the height, so that the molten steel 1 rotates in the vertical direction and flows.

Therefore, in order to rotate the stirred molten steel 1 upward to separate the articles in the molten steel 1, the strength of the DC magnetic field applied from the lower part to the upper part of the vessel 10 is reduced, Can be rotated upward. That is, the DC magnetic field is applied to the molten steel 1 rotated in the xy direction plane by the alternating magnetic field while decreasing the intensity of the DC magnetic field as it goes from the lower part to the upper part of the vessel 10, (1) is generated. Therefore, the grains having a smaller density difference are separated in the center direction relatively by the centrifugal force caused by the rotating flow of the whirl-shaped form, and the grains can be quickly separated from the molten steel 1.

In order to change the strength of the DC magnetic field applied to the molten steel 1 according to the height of the vessel 10 as described above, the electromagnetic generating unit 100 for applying the DC magnetic field to the molten steel 1, The intensity can be varied by adjusting the interval between the two. In order to control the gap between the electromagnetic generating unit 100 and the vessel 10 to rotate the molten steel 1 upwardly as described above, the molten steel 1 is placed on the outer surface of the vessel 10 housing the molten steel 1 The intensity of the DC magnetic field may be changed by inclining the disposed electromagnetic generating unit 100 to be inclined toward the outer side of the vessel 10 about the lower end as described above.

While the preferred embodiments of the present invention have been described and illustrated above using specific terms, such terms are used only for the purpose of clarifying the invention, and the embodiments of the present invention and the described terminology are intended to be illustrative, It will be obvious that various changes and modifications can be made without departing from the spirit and scope of the invention. Such modified embodiments should not be understood individually from the spirit and scope of the present invention, but should be regarded as being within the scope of the claims of the present invention.

1: molten steel 10: container
100: Electromagnetic generating unit 110: Core
130: vertical coil 200:

Claims (12)

An electromagnetic stirring apparatus for stirring molten steel by an electromagnetic force,
An electromagnetic generating unit disposed on an outer surface of the container in which the molten steel is accommodated to apply a magnetic field;
A power supply unit for supplying DC power to the electromagnetic generating unit at a point of time when the molten steel is rotated and stirred by supplying AC power to the electromagnetic generating unit; And
And an adjusting unit for reducing the intensity of the magnetic field applied from the electromagnetic generating unit from the lower part to the upper part of the container to cause the molten steel to flow upwardly in a three-dimensional shape.
delete The method according to claim 1,
Wherein the AC power supplied from the power supply unit is converted into DC power and supplied in the form of an AC power.
The method according to claim 1,
Wherein the controller adjusts the intensity of the magnetic field by varying the intensity of the power source for each of a plurality of regions according to a height of the container.
The method according to claim 1,
Wherein the controller adjusts the intensity of the magnetic field by varying the gap with the electromagnetic generating unit according to a height of the container.
The method of claim 5,
And the adjusting section includes a tilting unit that tilts the electromagnetic generating unit so as to be inclined with respect to the height direction.
The method of claim 6,
And the tilting unit tilts the electromagnetic generating unit in the outer direction of the container with the lower end as the center.
1. An electromagnetic stirring method for stirring molten steel by an electromagnetic force,
Receiving the molten steel in a vessel;
Applying an alternating magnetic field to the molten steel to rotate and stir the molten steel;
Applying a DC magnetic field to the molten steel at the end of the stirring to reduce the flow rate; And
And reducing the strength of the DC magnetic field applied to the molten steel from the lower part to the upper part of the container to flow the molten steel upwardly in a three-dimensional shape.
The method of claim 8,
Wherein the alternating magnetic field applied to the molten steel is formed by supplying a direct current power converted in the form of an alternating current power source.
The method of claim 8,
The process of flowing the molten steel upward,
Wherein the intensity of the DC magnetic field is changed by adjusting the intensity of power supplied to the electromagnetic generating unit for applying a magnetic field to the molten steel.
The method of claim 8,
The process of flowing the molten steel upward,
And an electromagnetic generating unit for applying a magnetic field to the molten steel, and an interval between the containers is adjusted to change intensity of the DC magnetic field.
The method of claim 8,
The process of flowing the molten steel upward,
Wherein the electromagnetic generating unit for applying a magnetic field to the molten steel is inclined so as to be inclined with respect to the height direction to change the strength of the direct current magnetic field.

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