KR101365518B1 - Heat-treatment apparatus of grain-oriented electrical sheets - Google Patents

Abstract

A heat treatment apparatus of a grain-oriented electrical steel sheet for sealing an outer atmosphere gas and an inner atmosphere gas in an annealing furnace is introduced.
The heat treatment apparatus for the oriented electrical steel sheet is a base plate formed in the center of the plate hole communicating with the center hole of the coil, the inner cover is coupled to the edge of the base plate to the lower edge portion to surround the coil, the plate hole is located And a gas tube for supplying the inner atmosphere gas to the inner space of the inner cover, a sealing member for sealing the inner space of the inner cover from the outer atmosphere gas, and a support unit supporting the lower portion of the base plate.

Description

HEAT-TREATMENT APPARATUS OF GRAIN-ORIENTED ELECTRICAL SHEETS [0002]

The present invention relates to a heat treatment apparatus for a grain-oriented electrical steel sheet, and more particularly, filling the sand, which is a sealing member, with the sealing groove portion and the plate hole portion of the base plate to close the gap between the outer atmosphere gas in the annealing furnace and the inner atmosphere gas of the inner cover. It relates to a heat treatment apparatus of a grain-oriented electrical steel sheet that can be blocked.

In general, the grain-oriented electrical steel sheet undergoes the first annealing of hot rolled, cold rolled and decarburized annealing, and then applies an annealing separator to the surface of the steel sheet and performs the second high temperature annealing. It is carried out by an indirect annealing method which is not applied directly to this electrical steel sheet.

As a technique related to annealing work of a directional electric steel sheet, refer to "a method and apparatus for preventing deformation of a coil edge in annealing of a directional electric steel sheet coil" (Patent Laid-Open Publication No. 10-1999-0042919).

In this technique, in order to prevent deformation occurring at the edge portion of the coil during the high temperature annealing treatment, a configuration in which a coil settlement portion for elastically supporting the coil is provided on the upper surface of the base is introduced.

In addition, as shown in FIG. 1, in another conventional continuous open frame furnace (COF) process, the heat treatment apparatus includes a circular plate 10 on which a coil 50 is placed, and a refractory, and sags of the circular plate 10. The upper support 20 which prevents the phenomenon, the lower support 30 radially disposed below the upper support 20, these circular plates 10, the burner combustion atmosphere which is an external atmosphere gas, and the hydrogen atmosphere gas which is an internal atmosphere gas In order to block direct contact therebetween, the upper support 20 and the lower support 30 are covered with a cover 40 fixed to the sand 61 of the bottom 60.

However, in the prior art, when the cover is heated by radiant heat transfer by an external heating source or cooled by convective heat transfer by an external cooling source, the heat is transferred to a coil inside the cover, where the upper portion of the coil is The heat is cooled and cooled due to the radiant heat, but since the lower part of the coil is heated and cooled through the circular plate heated and cooled by the radiant heat of the cover, a thermal temperature difference occurs in the upper and lower parts of the coil, which is the coil temperature difference. This caused a temperature deviation between the top and bottom of the.

In particular, when the material of the upper support is made of refractory, the heat transfer efficiency of the circular plate can be reduced to deepen the temperature deviation between the top and bottom of the coil, this deepened temperature deviation in the coil increases the magnetic deviation of the coil to increase the coil Problems such as deterioration of magnetic quality have occurred.

SUMMARY OF THE INVENTION An object of the present invention for solving this problem is to provide a heat treatment apparatus for oriented electrical steel sheet that closely blocks the external atmosphere gas and the internal atmosphere gas in the annealing furnace and allows the external heat source to be uniformly transferred to the coil. .

In order to achieve the above object, the present invention provides a heat treatment apparatus for a grain-oriented electrical steel sheet for sealing the outer atmosphere gas and the inner atmosphere gas in the annealing furnace, and includes a base plate, an inner cover, a gas tube, a sealing member and a support unit. The base plate is formed in the center of the plate hole communicating with the center hole of the coil, the inner cover is coupled to the lower edge of the base plate to surround the coil, the gas tube is located in the plate hole to the inner The inner atmosphere gas is supplied to the inner space of the cover, the sealing member seals the inner space of the inner cover from the outer atmosphere gas, and the support unit supports the lower portion of the base plate.

Preferably, the present invention may further include a sealing plate interposed between the base plate and the support unit.

Preferably, the sealing member includes a first sealing member sealed at a coupling portion between the base plate and the inner cover, and a second sealing member sealed at the plate hole.

Preferably, the sealing member is made of sand for tightly sealing the inner space of the inner cover from an external atmosphere gas.

Preferably, the base plate is composed of a ring-shaped first base plate communicating with the center hole of the coil, and a second base plate in the form of a container in which a seating groove portion in which the first base plate and the sealing member are accommodated is formed. do.

Preferably, an edge portion of the base plate is formed with a sealing groove portion into which the lower edge portion of the inner cover is inserted, and the sealing groove portion is filled by the sealing member in a state where the lower edge portion of the inner cover is inserted.

Preferably, the sealing member is filled in the sealing groove of the base plate to have the same height as the height of the base plate.

According to the present invention, the following remarkable effects can be realized.

First, the present invention has the advantage that by applying a sand of a certain height to seal the inner space of the inner cover from the outside, it is possible to close the barrier between the outer atmosphere gas and the inner atmosphere gas.

Second, the present invention has the advantage that the sealing between the base plate and the inner cover can be continuously maintained even if the heat deformation caused by the high temperature change in the base plate by using a steel base plate.

Third, the present invention can reduce the magnetic deviation of the coil, and further improve the coil magnetic quality by directly exposing the base plate on which the coil is placed to an external heat source to reduce the temperature deviation for the upper and lower portions of the coil. There is this.

1 is a side cross-sectional view showing a heat treatment apparatus of a grain-oriented electrical steel sheet according to the prior art.
BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a directional electric steel sheet,
Figure 3 is an enlarged cutaway perspective view showing the support unit of the heat treatment apparatus of the grain-oriented electrical steel sheet according to the first embodiment of the present invention.
Figure 4 is a side cross-sectional view showing a heat treatment apparatus of a grain-oriented electrical steel sheet according to a second embodiment of the present invention.
Figure 5a is a side cross-sectional view showing a heat treatment apparatus of a grain-oriented electrical steel sheet according to a third embodiment of the present invention.
Figure 5b is a side cross-sectional view showing a heat treatment apparatus of a grain-oriented electrical steel sheet according to a modification of the third embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view showing a side surface of the heat treatment apparatus of the grain-oriented electrical steel sheet according to the first embodiment of the present invention, Figure 3 is an enlarged view of the support unit of the heat treatment apparatus of the grain-oriented electrical steel sheet according to the first embodiment of the present invention Drawing.

As shown in Figures 2 to 3, the heat treatment apparatus of the grain-oriented electrical steel sheet according to the present invention, the inner space of the inner cover 200, the coil (C) is accommodated close to the outside from the outside, the base plate 100 Even when the heat deformation of the inner cover 200 to maintain the sealing with the continuous.

In order to implement this, the heat treatment apparatus according to the first embodiment includes a base plate 100, an inner cover 200, a gas tube 300, a sealing member 400, and a support unit 500.

Specifically, the base plate 100 has a circular plate shape in which the coil C is placed, and a plate hole part 110 communicating with the center hole H of the coil C is formed at the center thereof. Here, the center hole H of the coil C is defined as the center space of the coil C formed by the winding when the coil C is wound.

At the edge of the base plate 100, a sealing groove 120 is formed in the shape of a circular groove. The base sealing member 400 is filled in the sealing groove 120 to insert the lower edge portion 210 of the inner cover 200. As such, since the edge of the base plate 100 and the lower edge portion 210 of the inner cover 200 are coupled to each other, the sealing portion 400 is tightly sealed, and thus the external atmosphere gas is formed through the coupling portion. And internal atmosphere gas can be prevented from being exchanged with each other.

Here, the external atmosphere gas is heated by the combustion burner 720 installed in the annealing furnace 50 to be composed of burner combustion atmosphere gas for indirectly heating the inner cover 200, the internal atmosphere gas is hydrogen, nitrogen or a mixture thereof It consists of a reducing gas, and is supplied to the inner space of the inner cover 200 through a separate gas injection tube 310.

The base plate 100 is composed of a steel (steel) material having excellent heat transfer characteristics. This is because the lower side of the base plate 100 is directly exposed to the high temperature external atmosphere gas through the heat transfer space 501, the high temperature heat of the external atmosphere gas through the base plate 100 made of steel coil (C To be delivered to the bottom of the). Of course, the base plate 100 may be used in addition to the steel material other types of plates with high heat transfer rate.

The inner cover 200 has a container shape in which a lower portion thereof is opened, and the lower edge portion 210 is coupled to the sealing groove portion 120 of the base plate 100 so that the coil C is accommodated therein.

When the inner cover 200 is heated by the combustion burner 720 installed inside the annealing furnace 50, radiant heat is generated in the inner cover 200, and the radiant heat is coil C accommodated inside the inner cover 200. Can be heated. For example, the upper portion of the coil (C) may be heated by the radiant heat of the inner cover 200, the lower portion of the coil (C) is the outer atmosphere gas heat of the heat transfer space 501 to be described later to the base plate 100 It is heated as it passes through.

The gas tube 300 is inserted into the plate hole 110 of the base plate 100 to supply the internal atmosphere gas to the inner space of the inner cover 200. The gas tube 300 receives the internal atmosphere gas from the separate gas input pipe 310, and then transfers the supplied internal atmosphere gas to the inner space of the inner cover 200.

At this time, the plate hole portion 110 of the remaining base plate 100, the gas tube 300 is not installed, is filled with a sealing member 400 for blocking the internal atmosphere gas and the external atmosphere gas. More specifically, the outer diameter of the gas tube 300 is designed to be wider than the outer diameter of the plate hole part 110, so that the gas tube 300 is supported by the plate hole part 110, and the space other than the gas tube 300 is disposed. There is a sealing member 400 is filled.

The sealing member 400 is for sealing the inner space of the inner cover 200 from the external atmosphere gas, and the sealing groove portion 120 and the plate hole portion of the base plate 100 to have the same height as that of the base plate 100. Each is filled in 110.

For example, the sealing member 400 may include a first sealing member 400a which is sealed at a coupling portion between the base plate 100 and the inner cover 200, and a second sealing member 400b which is sealed in the plate hole part 110. The first sealing member 400a and the second sealing member 400b are made of the same material as each other and differ only in the sealing position.

These first sealing member 400a and the second sealing member 400b are made of sand. Here, the reason why the sand is used as the sealing member 400 is that, when the sand is used, close sealing between the external atmosphere gas and the internal atmosphere gas is possible, and even if the shape of the base plate 100 is deformed by repeated thermal changes, the base This is because the sealing state between the plate 100 and the inner cover 200 can be maintained continuously.

The support unit 500 is made of a refractory material to support the lower portion of the base plate 100, thereby preventing sagging of the base plate 100, the support unit 500 is a heat source of the external atmosphere gas to the base plate 100 A heat transfer space portion 501 is formed to transfer to the. The support unit 500 is composed of a plurality of support pieces arranged with the heat transfer space part 501 interposed therebetween.

The plurality of support pieces are composed of a central support piece 510 and a development support piece 520. The center support piece 510 is disposed on the center lower side of the base plate 100, and the plurality of deployment support pieces 520 are radially disposed on the bottom side of the base plate 100 with the heat transfer space 501 therebetween. Is placed.

In particular, the center support piece 510 is composed of a circular support piece for supporting the center lower surface of the base plate 100, the deployment support piece 520 is the center support piece 510 on the lower side of the base plate 100 The first support piece 520a and the second support piece 520b which are disposed radially with respect to the cross section) are alternately arranged. Here, since the second support piece 520b is formed to extend shorter than the first support piece 520a, an efficient arrangement design of the support piece can be implemented while ensuring sufficient heat transfer space under the base plate 100.

4 is a side cross-sectional view of a heat treatment apparatus of a grain-oriented electrical steel sheet according to a second embodiment of the present invention.

On the other hand, as shown in Figure 4, the heat treatment apparatus according to the second embodiment, the base plate 100, the inner cover 200, the gas tube 300, the sealing member 400, the support unit 500 and It comprises a sealing plate 600. Here, the base plate 100, the inner cover 200, the gas tube 300, the sealing member 400 and the support unit 500 configuration is the base plate 100, the inner cover according to the first embodiment described above Since 200, the gas tube 300, the sealing member 400 and the configuration of the support unit 500 is the same configuration, a detailed description thereof will be omitted.

However, the sealing plate 600 has a configuration interposed between the base plate 100 and the support unit 500, and structurally supports the gas tube 300. That is, the sealing plate 600 is disposed on the upper surface of the support unit 500, and the gas tube 300 is disposed on the upper surface of the sealing plate 600. Preferably, the sealing plate 600 is configured in the form of a sealing gasket such as a heat resistant ceramic paper.

Figure 5a is a side cross-sectional view showing a heat treatment apparatus of a grain-oriented electrical steel sheet according to a third embodiment of the present invention, Figure 5b is a side showing a heat treatment apparatus of a grain-oriented electrical steel sheet according to a modification of the third embodiment of the present invention Cross-section.

In addition, as shown in Figure 5a, the heat treatment apparatus according to the third embodiment, the first base plate 100a, the second base plate 100b, the inner cover 200, the gas tube 300, the sealing member It comprises a 400 and the support unit 500.

Here, the first base plate 100a is configured in a ring shape in communication with the center hole H of the coil C, and the second base plate 100b is the first base plate 100a and the sealing member 400. The receiving groove 101 is accommodated is made of a container form formed on the inside.

That is, the second base plate 100b is disposed on the upper surface of the support unit 500, and the first base plate 100a and the sealing member 400 are disposed in the seating groove 101 of the second base plate 100b. Is received, the sealing member 400 is assembled by inserting the lower edge portion 210 of the inner cover 200.

The gas tube 300 is disposed on an upper surface of the sealing plate 600, and the sealing plate 600 is configured in the form of a sealing gasket such as heat resistant ceramic paper.

In the present embodiment, a configuration in which a pair of heat treatment apparatuses are arranged side by side in the annealing furnace has been described, but as shown in FIG. 5B, one heat treatment apparatus may be disposed in the annealing furnace.

Hereinafter, the operation of the present invention will be described.

First, the gas tube 300 is installed in the plate hole 110 of the base plate 100 and then sealed using sand, the coil C is laminated on the upper surface of the base plate 100, and the base plate 100. The lower edge portion 210 of the inner cover 200 is coupled to the edge of the seal through the sand. Then, the internal atmosphere gas is injected into the inner cover 200 through the gas tube 300 and then purged. This purging process is a pretreatment process that is performed to remove the oxidative atmosphere in the processing space during annealing to prevent oxide formation and decarburization of the steel sheet.

Thereafter, the combustion burner 720 of the annealing furnace 50 is ignited to heat the external atmosphere gas in the annealing furnace 50. As such, when the outer space of the inner cover 200 that is not in direct contact with the coil C is heated, the inner space of the inner cover 200 may be indirectly heated by radiant heat generated from the inner cover 200. have.

At this time, the external atmosphere gas heat heated by the combustion burner 720 is transferred to the heat transfer space portion 501 provided in the lower portion of the support unit 500, the heat transfer in the lower portion of the coil (C) through the base plate 100 do. As a result, the upper portion of the coil C is mainly heated by the radiant heat of the inner cover 200, and the lower portion of the coil C is heated by the external atmosphere gas heat that is transferred through the base plate 100. The heating / cooling speed of the upper and lower parts of the upper part may be remarkably improved, and the temperature variation in the coil C may be reduced.

As described above, the present invention is applied to the sand of a certain height in order to seal the inner space of the inner cover from the outside, it can be tightly blocked between the outer atmosphere gas and the inner atmosphere gas, and the high temperature in the steel base plate Even if the thermal deformation occurs, the tight sealing to the sealing portion of the inner cover can be maintained continuously, and the base plate on which the coil is placed is directly exposed to an external heat source, thereby reducing the temperature deviation of the upper and lower portions of the coil. It can have an excellent advantage.

Although the present invention has been described in detail using the preferred embodiments, the scope of the present invention is not limited to the specific embodiments, and should be interpreted by the appended claims. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the present invention.

100: base plate 101: seat groove
110: plate hole portion 120: sealing groove portion
200: inner cover 300: gas tube
310: gas injection pipe 400: sealing member
500: Support unit 501: Heat transfer space part
510: center support 520: development support
600: sealing plate

Claims (7)

A heat treatment apparatus of a grain-oriented electrical steel sheet for sealing the outer atmosphere gas and the inner atmosphere gas in the annealing furnace,
A base plate in which a plate hole portion is formed in communication with the center hole of the coil;
An inner cover having a lower edge coupled to an edge of the base plate to surround the coil;
A gas tube positioned in the plate hole to supply an internal atmosphere gas to an inner space of the inner cover;
A sealing member for sealing the inner space of the inner cover from an external atmosphere gas; And
It includes a support unit for supporting the lower portion of the base plate,
The base plate is composed of a ring-shaped first base plate communicating with the center hole of the coil, and a second base plate in the form of a container in which a seating groove portion in which the first base plate and the sealing member are accommodated is formed. Heat treatment apparatus for a grain-oriented electrical steel sheet. The method according to claim 1,
Heat treatment apparatus of a grain-oriented electrical steel sheet further comprises a sealing plate interposed between the base plate and the support unit. The method according to claim 1,
The sealing member is a heat treatment apparatus for a grain-oriented electrical steel sheet characterized in that it comprises a first sealing member to be sealed at the coupling portion between the base plate and the inner cover, and the second sealing member to be sealed in the plate hole. The method according to claim 1,
The sealing member is a heat treatment apparatus for a grain-oriented electrical steel sheet, characterized in that made of a sand for tightly sealing the inner space of the inner cover from the outer atmosphere gas. delete The method according to claim 3,
The edge portion of the base plate is formed with a sealing groove portion is inserted into the lower edge portion of the inner cover, the sealing groove portion is filled with the sealing member in the state in which the lower edge portion of the inner cover is inserted Heat treatment apparatus of steel plate. The method according to claim 1,
And the sealing member is filled in the sealing groove of the base plate to have the same height as that of the base plate.

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