KR101359223B1 - Sealing apparatus of annealing furnace - Google Patents

Abstract

Annealing furnace sealing apparatus according to the present invention, a sealing roll box installed in communication between the heating and cracking zone, the cooling zone; And a sealing roll configured to supply a purge gas into the sealing roll box. At this time, the sealing roll, the roll body having a hollow in communication with the gas supply pipe for supplying the purge gas, and the blowing hole connected to the hollow; And a gate part configured in the roll body to open and close the jet hole.
As such, the sealing roll having the gate part is configured in the sealing roll box between the heating and cracking zone and the cooling zone while controlling the supply of purge gas at a constant pressure, thereby preventing the inflow of external air with the release of atmospheric gas. Therefore, it is possible to stabilize the atmosphere gas in the heating and cracking zones and to maintain a constant degree of wetness during annealing in a constant temperature cycle.
As a result, by minimizing the formation of the oxide layer to improve the productivity of the product due to low iron loss and the reduction of defective products, as well as to improve the productivity has a great effect on safety.

Description

Sealing apparatus of annealing furnace

The present invention relates to an annealing furnace sealing apparatus, and an annealing furnace sealing apparatus provided between a heating and cracking zone and a cooling zone.

In general, the annealing furnace heat treatment process is performed by relieving the work stress of the cold worked steel sheet, so that the steel sheet is not vulnerable in the post-process and is kept at a constant temperature for easy workability. It is divided into direct heating step, indirect heating using convective radiant heat, cooling step, and is used to form an atmospheric gas to form a reducing atmosphere in the annealing furnace.

Electrical steel sheet is mainly used as iron core material of electrical appliances and electronic products, and is roughly divided into oriented electrical steel sheet and non-oriented electrical steel sheet according to the rolling direction.

The grain-oriented electrical steel sheet is used in large (medium and small) transformers, distribution transformers, reactors, small power transformers, large rotors, and the like.

In addition, the non-oriented electrical steel sheet is used for a large (medium) rotor, a general-purpose motor, a compressor motor, a small precision motor, a small and medium transformer reactor, a small power transformer, a ballast, a transformer for a welding machine.

In particular, oriented electrical steel sheet is used as an iron core material for transformers, electric motors, generators and other electronic devices because it has extremely excellent magnetic properties in the rolling direction.

1 is a schematic view showing an annealing furnace according to the prior art, Figure 2 is a photograph of the cross-section of the product produced by the annealing furnace of FIG.

Referring to the drawings, in order to prevent the intrusion of air into the heating zone and the cracking zone (2) when the furnace pressure is lowered in the annealing furnace during abnormal operation, supplying the atmosphere gas mixed with nitrogen and hydrogen in the cooling zone (4) 6 In order to prevent the pressure in the annealing furnace from lowering than the external pressure, and to prevent the release of hydrogen in the atmosphere gas in the annealing furnace to the outside, a burn-off (8) is applied to the outlet side of the annealing furnace. It has been installed and completely burned to prevent the risk of explosion.

In other words, the explosion risk of the annealing furnace is annealed to prevent the explosion risk due to the combination of oxygen and hydrogen remaining in the air when the atmosphere gas is released to the outside (hydrogen gas is about 4% or more in the air) or when the outside air invades. It is prevented by installing a burn-off 8 at the furnace exit side.

However, this conventional method results in a sudden change in the pressure in the annealing furnace exit side cooling zone 4, resulting in an unstable atmosphere gas, which results in a poor heat treatment and in particular, a low iron loss purpose, which is particularly important in electrical steel sheets. 2), the risk of outside air intrusion during the burn-off (8) extinguishment has a limit that doubles.

The present invention has been made to solve the above problems, and an object thereof is to provide an annealing furnace sealing device for improving the quality of the product according to the low iron loss.

In order to achieve the above object, the annealing furnace sealing apparatus according to a preferred embodiment of the present invention includes a sealing roll box installed in communication with a heating and cracking zone and a cooling zone; And a sealing roll configured to supply a purge gas into the sealing roll box.

At this time, the sealing roll, the roll body having a hollow in communication with the gas supply pipe for supplying the purge gas, and the blowing hole connected to the hollow; And a gate part configured in the roll body to open and close the jet hole.

Here, the gate portion, the piston for opening and closing the blow hole while sliding along the hollow; And an elastic member supported on one side wall of the hollow and applying an elastic force to the piston.

In addition, the gate portion, the piston rod extending from the piston to one side of the hollow, the support groove is formed; And a support rod fitted into the support groove and wrapped around the elastic member and fixedly mounted to one side wall of the hollow of the piston.

On the other hand, the sealing roll is preferably the rotating shaft is connected to the gas supply pipe and the rotary joint, the connecting shaft for connecting the hollow and the gas supply pipe is formed in the rotating shaft.

In addition, the burn-off is preferably formed on the top of the sealing roll box.

In the annealing furnace sealing apparatus according to the present invention, the sealing roll having the gate portion is configured in a sealing roll box between the heating and cracking zone and the cooling zone while controlling the supply of purge gas at a constant pressure. By blocking the inflow of air, it is possible to stabilize the atmosphere gas in the heating and cracking zones, and to maintain a constant level of humidity during annealing in a constant temperature cycle.

As a result, by minimizing the formation of the oxide layer to improve the productivity of the product due to low iron loss and the reduction of defective products, as well as to improve the productivity has a great effect on safety.

1 is a schematic view showing an annealing furnace according to the prior art.
Figure 2 is a photograph of the cross section of the product produced by the annealing furnace of Figure 1;
3 is a view showing an annealing furnace sealing apparatus according to a preferred embodiment of the present invention.
4 is a perspective view showing the inside of the sealing roll box in the annealing furnace sealing apparatus and the annealing furnace sealing apparatus of FIG.
5 is a longitudinal sectional view showing the annealing furnace sealing device of FIG.
FIG. 6 is a view illustrating a sealing roll in the annealing furnace sealing apparatus of FIG. 5.
7 and 8 are views showing a process in which the blow hole is opened by the piston in the sealing roll of FIG.
9 is a photograph showing a cross-section of the product produced by the annealing furnace sealing apparatus of FIG.

Figure 3 is a schematic view showing an annealing furnace sealing apparatus according to a preferred embodiment of the present invention, Figure 4 is a perspective view showing the inside of the sealing roll box in the annealing furnace sealing apparatus and the annealing furnace sealing apparatus of FIG.

5 is a longitudinal sectional view showing the annealing furnace sealing apparatus of FIG. 4, FIG. 6 is a view showing a sealing roll in the annealing furnace sealing apparatus of FIG. 5, and FIGS. 7 and 8 are views of the piston in the sealing roll of FIG. 6. Is a view showing a process of opening the blow holes by. In addition, Figure 9 is a photograph showing a cross-section of the product produced through the annealing furnace sealing apparatus of FIG.

Referring to the drawings, the annealing furnace sealing apparatus of the present invention is a sealing roll box 20 provided between the heating and cracking zone (2) and the cooling zone (4), and the sealing roll box mounted in the sealing roll box (20) Roll 40.

The sealing roll box 20 is disposed between the heating and cracking zone (2) and the cooling zone (4), one side is in communication with the heating and cracking zone (2) and the other side is the cooling zone (4) It is installed in communication with).

The sealing roll box 20 is a hermetically sealed structure, the burn off 22 is formed on the top. Burn the purge gas discharged to the outside through the burn-off (22).

In addition, the sealing roll 40 is configured in at least one or more pairs of the sealing roll box 20, one by one up and down to move the strip, is configured to supply a purge gas, preferably nitrogen gas into the sealing roll box 20 do.

Specifically, the sealing roll 40 includes a roll body 42 and a gate portion mounted in the roll body 42.

The roll body 42 has a hollow 42a communicating with a gas supply pipe 30 for supplying a purge gas, and a blowing hole 42b connected to the hollow 42a. Preferably, the blowing hole 42b is At least one is formed along the outer circumferential surface of the roll body 42. Here, the rotary shaft 49 of the roll body 42 wrapped with the bearing 70 is connected to the gas supply pipe 30 and the rotary joint 60, the hollow 42a and the gas in the rotary shaft 49 A connecting hole 49a for connecting the supply pipe 30 is formed.

According to this configuration, the purge gas supplied through the gas supply pipe 30 is introduced into the hollow 42a, and is supplied into the sealing roll box 20 through the blowing hole 42b connected to the hollow 42a.

As described above, the purge gas is supplied into the sealing roll box 20, and the gas pressure in the sealing roll box 20 by the supplied purge gas is lower than the pressure in the heating and cracking zone 2 and is higher than the external atmospheric pressure. do.

As a result, the atmosphere gas in the heating and cracking zone 2 is stabilized, and the wetness is kept constant during annealing to prevent the formation of fine condensed water on the surface of the product, thereby minimizing the formation of an oxide layer.

On the other hand, the gate portion is configured to open and close the supply of the purge gas into the sealing roll box 20 of the outer in the roll body 42.

That is, the gate part is comprised in the roll main body 42 so that the blowing hole 42b may be opened and closed.

The gate portion includes a piston 44 that slides along the hollow 42a in the roll body 42, and an elastic member 48 that applies an elastic force to the piston 44.

At this time, the piston 44 slides along the hollow 42a and serves to open and close the jet hole 42b. In addition, the elastic member 48 is supported on one side wall of the hollow 42a and is configured to apply an elastic force to the piston 44.

Here, the gate portion may further include a piston rod 45 and a support rod 46 to smoothly guide the slide movement of the piston 44.

The piston rod 45 is formed extending from the piston 44 to one side of the hollow 42a, and has a support groove 45a at one end.

In addition, the support rod 46 is fitted into the support groove 45a, the elastic member 48 is wrapped, and is fixedly mounted to one side wall of the hollow 42a.

Next, the operation of the gate unit configured as described above will be described with reference to FIGS. 7 and 8.

First, when the supply of purge gas is controlled by an electronic control valve (not shown) as the power is supplied, a normal supply pressure of a predetermined pressure or more is formed, thereby blocking the blow holes 42b formed in the roll body 42. The piston 44 is pushed back by the normal supply pressure.

As the piston 44 retracts as described above, the ejection hole 42b is opened so that the purge gas supplied from the gas supply pipe 30 through the ejection hole 42b flows outward, that is, into the sealing roll box 20. do.

By the way, when the pressure of the heating and cracking zone 2 is lowered compared to the set pressure, the electronic control valve is configured to adjust the pressure in the heating and cracking zone 2 and the pressure in the sealing roll box 20 to an initial set value. This is controlled by calculating a manipulated value that is calculated by a TIC calculator based on the data of the received actual process value.

At this time, the power supply is cut off by the electronic control valve to cut off the gas supply pipe 30, thereby stopping the supply of purge gas.

However, when an abnormality occurs in the electronic control valve in a situation where the power is cut off, the gas supply pipe 30 is not completely shut off so that the supply pressure of the purge gas is lower than the normal supply pressure, thereby providing elasticity. As the piston 44 is restored to its original state by the elastic restoring force of the member 48, the ejection hole 42b of the roll body 42 is blocked.

That is, even if an error occurs in the electronic part, the supply of the purge gas can be safely cut off by the gate part which mechanically opens and closes.

The sealing roll 40 having the gate portion configured as described above is configured in the sealing roll box 20 between the heating and cracking zone 2 and the cooling zone 4 while controlling the purge gas to be supplied at a constant pressure. By blocking the inflow of external air with the release of the atmosphere gas, the atmosphere gas in the heating and cracking zone 2 can be stabilized, and an appropriate wet degree can be kept constant during annealing in a constant temperature cycle.

As a result, by minimizing the formation of the oxide layer to improve the productivity of the product due to low iron loss and the reduction of defective products, as well as to improve the productivity has a great effect on safety.

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. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

20: sealing roll box 22: burn off
40: sealing roll 42: roll body
42a: hollow 42b: blow hole
44: piston 45: piston rod
45a: support groove 46: support rod
48: elastic member 49: rotating shaft
49a: Connecting hole 60: Rotary joint
70: bearing

Claims (6)

A sealing roll box installed in communication with the heating and cracking zone and the cooling zone; And
A sealing roll configured to supply a purge gas into the sealing roll box;
Annealing furnace sealing apparatus comprising a.
The method of claim 1,
The sealing roll,
A roll body having a hollow communicating with a gas supply pipe for supplying the purge gas, and a blowout hole connected to the hollow; And
A gate portion configured in the roll body to open and close the jet hole;
Annealing furnace sealing apparatus comprising a.
3. The method of claim 2,
The gate unit includes:
A piston for opening and closing the jet hole while sliding along the hollow; And
An elastic member supported on one side wall of the hollow and applying an elastic force to the piston;
Annealing furnace sealing apparatus comprising a.
The method of claim 3,
The gate unit includes:
A piston rod extending from the piston to one side of the hollow and having a supporting groove; And
A support rod fitted into the support groove and wrapped around the elastic member and fixedly mounted to one side wall of the hollow of the piston;
Annealing furnace sealing device characterized in that it further comprises.
3. The method of claim 2,
The sealing roll further comprises a rotating shaft extending to one side of the roll body,
The rotary shaft is connected to the gas supply pipe and the rotary joint, the annealing furnace sealing device, characterized in that the connection hole for connecting the hollow and the gas supply pipe is formed in the rotary shaft.
The method of claim 1,
Annealing furnace sealing apparatus, characterized in that the burn-off is formed on the top of the sealing roll box.

Images