KR101696111B1 - Partition wall for annealing furnace - Google Patents

Abstract

A partition wall for an annealing furnace is disclosed. The partition wall for an annealing furnace comprises: a wall; an air circulation pipe where air flows while supporting the wall; and a cooling water circulation pipe where cooling water to cool the air flows while supporting the wall with the air circulation pipe together. The present invention can increase durability thereof.

Description

{Partition wall for annealing furnace}

The present invention relates to a partition wall for an annealing treatment.

The high-temperature annealing step is a step of annealing (i.e., annealing) a product by heating a directional electrical steel sheet product to about 1200 ° C or higher. In other words, the high-temperature annealing process is an intermediate process for securing the magnetic properties of the grain-oriented electrical steel sheet.

The steel sheet wound in the form of a coil is heated to a temperature of about 1200 ° C or higher. In the case of the partition located at the highest temperature, the annealing furnace serves to cut off the atmospheric gas in each region. And moves up and down every time to open and close the movement path of the coiled coiled steel plate.

However, the partition wall separating the heating zone and the cooling zone is vulnerable to deterioration due to exposure to a high temperature environment, and there is a problem that a part deteriorated by sliding movement during opening and closing is broken.

Furthermore, there is a problem that the cooling water flows out from the cooling water pipe due to such breakage and the function of the partition wall is lost.

Japanese Patent Application Laid-Open No. 2004-028749

A durability barrier is provided that can improve durability and facilitate maintenance and replacement operations.

The partition wall for an annealing furnace according to an embodiment of the present invention includes a wall, an air circulation pipe for supporting the wall and for cooling air, and a cooling water support member for supporting the wall together with the air circulation pipe, And includes a circulating cooling water pipe.

The wall may be made of a fiber-fire insulation material, and the distance between the air circulation pipe and the adjacent air circulation pipe may be 200 to 300 mm in order to prevent breakage of the wall.

The wall may be made of a ceramic wool or a high-temperature refractory material made of glass fiber.

The cooling water circulation pipe may have a rectangular frame shape to support the edge of the wall.

The air circulation pipe is arranged to form a plurality of rows in the transverse direction, and may be disposed inside the cooling water circulation pipe.

The air circulation pipe may include a straight pipe having a straight shape and a U-shaped pipe for connecting the straight pipes.

A guide for guiding the wall may be provided on an edge of the wall.

An upper frame connected to the wall may be provided on the upper portion of the wall.

The durability can be improved and the maintenance and replacement work can be carried out more easily.

1 is a front view showing an annealing furnace bulkhead according to an embodiment of the present invention.
2 is an enlarged view showing part A of Fig.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for clarity.

FIG. 1 is a front view showing an annealing furnace bulkhead according to an embodiment of the present invention, and FIG. 2 is an enlarged view showing part A of FIG.

1 and 2, the annealing furnace partition 100 according to an embodiment of the present invention includes a wall 110, an air circulation pipe 120, a cooling water circulation pipe 130, 140, and an upper frame 150. [

The wall 110 may have a rectangular plate shape and may be made of a heat-resistant material. In other words, the wall 110 has a shape corresponding to the shape of the annealing furnace (not shown), and in this embodiment, the wall 110 has a rectangular plate shape as an example.

On the other hand, the wall 110 may be made of a fiber-resistant insulation material. As an example, the wall 110 may be made of ceramic wool or glass fiber material.

As a result, the heat resistance of the wall body 110 is increased as compared with the case where the wall body 110 is made of a metal material (e.g., stainless steel material), so that breakage and deformation of the wall body 110 can be reduced.

The wall 110 is made of a fiber-fireproof insulation material so that the air circulation pipe 120 and the cooling water circulation pipe 130 can be fixedly installed on the wall 110 without any other configuration.

Accordingly, it is possible to reduce the interference between the components for installing the air circulation pipe 120 and the cooling water circulation pipe 130 separately from the peripheral equipment.

For example, the air circulation pipe 120 and the cooling water circulation pipe 130 are embedded in the backside of the wall body 110, and the air circulation pipe 120 and the cooling water circulation pipe 130 are fixed .

The air circulation pipe 120 plays the role of supporting the wall 110 and allowing air for cooling to flow. Meanwhile, the air circulation pipe 120 may be installed in the wall 110 to form a plurality of rows. For example, the air circulation pipe 120 may be arranged to form a plurality of rows in the horizontal direction and may be disposed inside the cooling water circulation pipe 130.

The air circulation pipe 120 may include a straight pipe 122 having a straight shape and a U-shaped pipe 124 for connecting the straight pipe 122.

The air circulation pipe 120 may be disposed so that the distance d between the air circulation pipe 120 and the adjacent air circulation pipe 120 is 200 to 300 mm in order to prevent the wall 110 from being damaged.

Thus, the air circulation pipe 120 is densely arranged to serve as a frame for supporting the wall body 110, thereby preventing the wall body 110 from being deformed or damaged.

Further, the straight tubes 122 are connected to each other through the first fixing member 101, and can be prevented from being separated from each other.

The air circulation pipe 120 may be fixed to the cooling water circulation pipe 130 through a second fixing member 102 so that the air circulation pipe 120 and the cooling water circulation pipe 130 can be integrally moved .

The other end of the air circulation pipe 120 is connected to the air inflow member 103 provided at the center portion of the upper frame 150 and the other end is connected to the air outflow member 104 installed at the upper frame 150, Lt; / RTI >

Although not shown in detail in the drawing, a valve may be provided in the air introducing member 103 and the air outflowing member 104 to control the inflow and outflow of air.

The air circulation pipe 120 may be installed in the wall 110 so that both sides of the air circulation pipe 120 are symmetrical with respect to the center line of the wall 110.

The cooling water circulation pipe 130 supports the wall 110 together with the air circulation pipe 120 and provides a path through which the cooling water for cooling flows. For example, the cooling water circulation pipe 130 may have a rectangular frame shape to support the edge of the wall 110.

Meanwhile, the cooling water circulation pipe 130 may be connected to the air circulation pipe 120 through the second fixing member 102. More specifically, the outermost straight pipe 122 disposed adjacent to the cooling water circulation pipe 130 in the straight pipe 122 of the air circulation pipe 120 is connected to the cooling water circulation pipe 130 arranged in the longitudinal direction And is connected via the second fixing member 102. The U-shaped pipe 124 of the air circulation pipe 120 is connected to the cooling water circulation pipe 130 disposed in the transverse direction through the second fixing member 102.

On the other hand, the diameter of the cooling water circulation pipe 130 may be larger than the diameter of the air circulation pipe 120.

As described above, since the cooling water circulation pipe 130 and the air circulation pipe 120 serve as a frame for supporting the wall body 110, damage to the wall body 110 can be reduced.

One end of the cooling water circulation pipe 130 is connected to the cooling water inflow pipe 105 connected to one side edge of the upper frame 150 and the other end of the cooling water circulation pipe 130 is connected to the other side edge of the upper frame 150 And may be connected to a cooling water outlet pipe 106 connected thereto.

The guide unit 140 is connected to both sides of the wall 110 to guide the movement path of the wall 110 during the ascent and descent. For example, the guide portion 140 may be inserted into a guide groove (not shown) formed in an annealing furnace (not shown) to guide the driving of the wall 110.

The upper frame 150 is connected to the upper part of the wall 110 and the upper frame 150 is provided with the air inflow member 103, the air outflow member 104, the cooling water inflow pipe 105, The cooling water outlet pipe 106 and the driving force transmitting member 107 for lifting and lowering driving can be fixedly installed.

As one example, the driving force transmitting member 107 may be provided on the upper frame 150, and may include a chain and a roller.

As described above, the power is transmitted through the driving force transmitting member 107 and the partition 100 can be driven as a whole.

Further, although not shown in detail in the drawings, the upper frame 150 may be provided with sealing parts for sealing with the outside when installed in the annealing furnace.

As described above, the wall 110 may be made of a fiber-resistant insulation material. As an example, the wall 110 may be made of ceramic wool or glass fiber material. As a result, the heat resistance of the wall body 110 is increased as compared with the case where the wall body 110 is made of a metal material (e.g., stainless steel material), so that breakage and deformation of the wall body 110 can be reduced.

It is possible to reduce the deformation of the wall body 110 by supporting the wall body 110 by providing the air circulation pipe 120 in the wall body 110 with an interval of 200 to 300 mm.

By supporting the wall body 110 through the cooling water circulation pipe 130 having a rectangular frame shape corresponding to the shape of the wall body 110, deformation of the wall body 110 can be further suppressed.

The air circulation pipe 120 and the cooling water circulation pipe 130 are connected to each other through the second fixing member 102. The air circulation pipe 120 is connected to the air circulation pipe 120 through the first fixing member 101, So as to form a frame for supporting the wall 110.

Accordingly, the strength of the wall body 110 can be further increased. That is, since the air circulation pipe 120 and the cooling water circulation pipe 130 serve as a frame to support the wall body 110, it is possible to prevent the wall body 110 from being damaged by external impact or thermal deformation.

The air circulation pipe 120 and the cooling water circulation pipe 130 serve as a frame for supporting the wall 110 so that the wall 110 is filled with the fiber- So that it is possible to suppress the strength from being weakened by the external impact.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be obvious to those of ordinary skill in the art.

100: bulkhead for annealing furnace
110: wall
120: air circulation pipe
130: Cooling water circulation pipe
140: guide portion
150: upper frame

Claims (8)

Wall;
An air circulation tube for supporting the wall and for cooling air to flow; And
A cooling water circulation pipe for supporting the wall together with the air circulation pipe and for flowing cooling water for cooling;
And a partition wall for the annealing furnace.
The method according to claim 1,
Wherein the wall is made of a fiber-
Wherein the air circulation pipe has an interval of 200 to 300 mm from the adjacent air circulation pipe to prevent breakage of the wall.
The method according to claim 1,
Wherein the wall is made of a ceramic wool or a high-temperature refractory material made of glass fiber.
The method according to claim 1,
Wherein the cooling water circulation pipe has a rectangular frame shape to support the edge of the wall.
The method according to claim 1,
Wherein the air circulation pipe is arranged to form a plurality of rows in a transverse direction, and is disposed inside the cooling water circulation pipe.
The method according to claim 1,
Wherein the air circulation pipe comprises a straight pipe having a straight shape and a U-shaped pipe for connecting the straight pipes.
The method according to claim 1,
And an edge of the wall is provided with a guide for guiding the wall during sliding movement.
The method according to claim 1,
And an upper frame connected to the wall is provided at an upper portion of the wall.

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