WO2018003277A1

WO2018003277A1 - Treatment furnace

Info

Publication number: WO2018003277A1
Application number: PCT/JP2017/016928
Authority: WO
Inventors: 寿雄惠上; 克浩門谷; 憲亮足立
Original assignee: 中外炉工業株式会社
Priority date: 2016-06-28
Filing date: 2017-04-28
Publication date: 2018-01-04
Also published as: JP6261662B2; KR20180055924A; JP2018003047A; KR101879561B1

Abstract

Provided is a treatment furnace, wherein a seal section 31 restricts the movement of ambient gas passing through a communication section between a low-pressure treatment section and a high-pressure treatment section. The seal section 31 circulates said ambient gas in the communication section between a blowing section for blowing, onto a moving steel ribbon, ambient gas from the low-pressure treatment section toward the high-pressure treatment section, and a suctioning section for suctioning ambient gas at a position downstream of the blowing section. The amount of ambient gas that is exhausted from a seal-section exhaust pipe is adjusted by a seal-section adjustment valve, and the amount of ambient gas that is in the communication section closer to the high-pressure treatment section than the seal section and is exhausted from a communication-section exhaust pipe is adjusted by a communication-section adjustment valve.

Description

Processing furnace

The present invention relates to a processing furnace in which a steel strip is moved between a low-pressure side processing part and a high-pressure side processing part through a communication part between a low-pressure side processing part and a high-pressure side processing part having different atmospheric gas pressures. It is about. In particular, in the processing furnace as described above, when the steel strip is moved through the communication portion between the low-pressure side processing portion and the high-pressure side processing portion, the low-pressure side processing portion and the high-pressure side processing are performed without damaging the steel strip. It is possible to reliably prevent the atmospheric gas in the part from moving through the communication part, and in particular, to maintain a state where the atmospheric gas concentration in the high-pressure side processing part and the atmospheric gas concentration in the low-pressure side processing part are different. It has characteristics.

Conventionally, as a processing furnace for processing a steel strip, the steel strip is connected between the low-pressure side processing portion and the high-pressure side processing portion through a communication portion between the low-pressure side processing portion and the high-pressure side processing portion that have different atmospheric gas pressures. The one that was moved with is used.

Moreover, in the continuous heat treatment equipment for steel strip, hydrogen having high thermal conductivity is used as the atmospheric gas in the processing section, and the concentration of heating and cooling is adjusted for each processing section by changing its concentration.

In such a processing furnace, in order to prevent the atmospheric gas in the low pressure side processing unit and the high pressure side processing unit from moving through the communication unit and changing the concentration of the atmospheric gas, the low pressure side processing unit and the high pressure side processing unit The side treatment unit is provided with a pair of sealing rollers that prevent atmospheric gas from leaking to the communicating portion, and the steel strip is sandwiched between the pair of sealing rollers so that the steel strip is connected to the low-pressure side treatment unit. A device that is moved through a communication portion with a high-pressure side processing portion is known.

However, when the steel strip is moved so as to be sandwiched between a pair of sealing rollers in this way, the steel strip is damaged by the roller sandwiched, the resistance when moving the steel strip is increased, There have been problems such as the need for a large drive device and wear of the sealing roller.

Conventionally, as shown in Patent Document 1, between two zones having different furnace atmospheres, a rectangular path through which a steel plate is passed is disposed in the center with a small chamber interposed therebetween, and suction is performed from both small rectangular paths to the rectangular chamber. There has been proposed a gas which blows out toward the small chamber side and allows a certain amount of sealing gas to flow from each adjacent zone to the small chamber to be diffused.

However, even in the one shown in Patent Document 1, when the steel strip is moved through the rectangular path between the low-pressure side processing unit and the high-pressure side processing unit having different atmospheric gas pressures, the atmospheric gas It was not possible to reliably prevent the atmospheric gas in the low pressure side processing unit and the high pressure side processing unit having different pressures from flowing through the rectangular path and changing the concentration of the atmospheric gas.

JP-A-8-302430

The present invention relates to a processing furnace in which a steel strip is moved between a low-pressure side processing part and a high-pressure side processing part through a communication part between a low-pressure side processing part and a high-pressure side processing part having different atmospheric gas pressures. It is an object of the present invention to solve the above problems.

In the processing furnace as described above, when the steel strip is moved through the communication portion between the low pressure side processing portion and the high pressure side processing portion, the low pressure side processing portion and the high pressure side are not damaged. It is an object of the present invention to reliably prevent the atmospheric gas in the side processing unit from moving through the communication unit and to prevent the concentration of the atmospheric gas in the processing unit from fluctuating.

In the processing furnace according to the present invention, in order to solve the above-described problems, the steel strip is connected to the low-pressure side processing unit through the communication part between the low-pressure side processing unit and the high-pressure side processing unit having different atmospheric gas pressures. In the processing furnace that is moved between the high-pressure side processing unit, as a seal unit that prevents the atmospheric gas in the low-pressure side processing unit and the high-pressure side processing unit from moving through the communication unit, A spray part is provided for spraying the steel strip that moves the atmosphere gas in the communication part from the low-pressure side treatment part to the high-pressure side treatment part, and the atmosphere gas blown to a position downstream of the spray part is sucked in. A suction part that provides a seal part exhaust pipe that exhausts a part of the atmospheric gas while circulating the atmospheric gas sucked by the suction part back to the spraying part. A communication part exhaust pipe for adjusting the amount of the atmosphere gas exhausted through the control part exhaust pipe by a seal part adjustment valve and exhausting a part of the atmosphere gas in the communication part on the high pressure side processing part side than the seal part. The amount of the atmospheric gas exhausted through the communication part exhaust pipe is adjusted by the communication part adjustment valve.

And in the processing furnace of this invention, the atmospheric gas in the said communication part is made to the steel strip which moves from the said spraying part, from the low pressure side processing part to the high pressure side processing part (opposite direction of the flow produced by a pressure difference) ), The suction part provided on the downstream side of the spraying part is sucked back to the spraying part, the atmospheric gas in the communication part is circulated in the seal part, and the low pressure side When atmospheric gas flows into the communication part from the processing part or the high-pressure side processing part, during the circulation of the atmospheric gas thus introduced in the sealing part, the sealing part adjusting valve may Exhaust air through the seal part exhaust pipe. Further, the atmospheric gas in the communication part on the high pressure side processing part side than the sealing part is, for example, the atmospheric gas in the high pressure side processing part or the atmospheric gas from the sealing part that is not sufficiently sucked into the suction part. Is led through the communication part exhaust pipe by the communication part adjusting valve, if necessary. If it does in this way, it will further suppress that the atmospheric gas in a high-pressure side processing part and the atmospheric gas in a low-pressure side processing part move through the above-mentioned communicating part.

Further, in the processing furnace of the present invention, in order to suppress the atmospheric gas in the high-pressure side processing section from flowing into the communication section, between the communication section and the high-pressure side processing section, avoid contact with the steel strip. It is preferable to provide a seal member that suppresses the atmospheric gas in the high-pressure side processing section from moving to the communication section.

In the treatment furnace of the present invention, when the steel strip is moved between the low-pressure side treatment section and the high-pressure side treatment section through the communication portion, the steel strip is moved from the low-pressure side treatment portion to the high-pressure side through the communication portion. The steel strip can be moved from the high-pressure side processing section to the low-pressure side processing section through the communication section. In order to suppress the movement of the high-pressure atmospheric gas in the high-pressure side processing section from the communication section to the low-pressure side processing section as the steel strip moves, the steel strip is moved from the low-pressure side processing section through the communication section. It is preferable to move in the side processing part (opposite direction of flow caused by pressure difference).

Moreover, the concentration of the atmospheric gas in the low-pressure side processing section and the high-pressure side processing section may be different.

In the processing furnace according to the present invention, the steel strip is connected between the low-pressure side processing unit and the high-pressure side processing unit through the communication unit between the low-pressure side processing unit and the high-pressure side processing unit having different atmospheric gas pressures as described above. Since the steel strip is moved between the pair of sealing rollers, the steel strip is not damaged as in the conventional case of moving the steel strip between the pair of sealing rollers. It is possible to reliably prevent the atmospheric gas from moving through the communication portion.

Therefore, even when the gas concentration in the atmospheric gas in the low-pressure side processing unit and the atmospheric gas in the high-pressure side processing unit are different, the atmospheric gas in the low-pressure side processing unit and the high-pressure side processing unit moves through the communication unit. Thus, it is possible to reliably suppress changes in the atmospheric gas in the low-pressure side processing unit and the gas concentration in the atmospheric gas in the high-pressure side processing unit.

In the processing furnace according to the embodiment of the present invention, a configuration is shown in which the steel strip is moved between the low pressure side processing unit and the high pressure side processing unit through the communication unit between the low pressure side processing unit and the high pressure side processing unit. It is a schematic explanatory drawing. In the processing furnace which concerns on the said embodiment, it is the schematic explanatory drawing which showed the state of the communication part between the low voltage | pressure side processing part and the high voltage | pressure side processing part.

Hereinafter, a processing furnace according to an embodiment of the present invention will be specifically described with reference to the accompanying drawings. In addition, the processing furnace which concerns on this invention is not limited to what was shown to the following embodiment, In the range which does not change the summary of invention, it can change and implement suitably.

In the processing furnace in this embodiment, as shown in FIG. 1, the pressure of the atmospheric gas in the low-pressure side processing unit 10 is made lower than the pressure of the atmospheric gas in the high-pressure side processing unit 20, and the low-pressure side processing unit 10 and the high-pressure side processing unit 20 are provided with a communication unit 30, and the long steel strip 1 is moved between the low-pressure side processing unit 10 and the high-pressure side processing unit 20 through the communication unit 30. ing.

Here, in the processing furnace of this embodiment, the steel strip 1 is guided into the low-pressure side processing unit 10, and the steel strip 1 is connected to the low-pressure side by a feed roller 11 provided in the low-pressure side processing unit 10. After moving in the processing unit 10 and treating the steel strip 1 with the atmospheric gas in the low-pressure side processing unit 10, the steel strip 1 is guided into the high-pressure side processing unit 20 through the communication unit 30. The steel strip 1 is moved in the high-pressure side processing unit 20 by the feed roller 21 provided in the processing unit 20, and the steel strip 1 is processed by the atmospheric gas in the high-pressure side processing unit 20.

In the processing furnace of this embodiment, the low-pressure side processing unit 10 is provided with a low-pressure side atmospheric gas supply pipe 12 for supplying the atmospheric gas, and the low-pressure side processing unit 10 is evacuated with the atmospheric gas. A side atmosphere gas exhaust pipe 13 is provided, and a low pressure side adjustment valve 13 a for adjusting the amount of low pressure side atmosphere gas exhausted through the low pressure side atmosphere gas exhaust pipe 13 is provided. The high-pressure side processing unit 20 is provided with a high-pressure side atmospheric gas supply pipe 22 that supplies atmospheric gas, and a high-pressure side atmospheric gas exhaust pipe 23 that exhausts the atmospheric gas in the high-pressure side processing unit 20. A high-pressure side adjustment valve 23 a for adjusting the amount of high-pressure side atmospheric gas exhausted through the high-pressure side atmospheric gas exhaust pipe 23 is provided.

In the processing furnace of this embodiment, the atmospheric gas in the low-pressure side processing unit 10 is maintained at a low pressure and a low hydrogen gas concentration, and the steel strip 1 is heated in the low-pressure side processing unit 10. On the other hand, the atmospheric gas in the high-pressure side processing unit 20 is maintained at a high pressure and a high hydrogen gas concentration, and the steel strip 1 is cooled in the high-pressure side processing unit 20.

Here, in the processing furnace of this embodiment, the low-pressure atmosphere gas having a low hydrogen gas concentration in the low-pressure side treatment unit 10 and the high-pressure atmosphere gas having a high hydrogen gas concentration in the high-pressure side treatment unit 20 are provided. By moving through the communication unit 30, changes in the atmospheric gas in the low-pressure side processing unit 10, the hydrogen gas concentration in the atmospheric gas in the high-pressure side processing unit 20, and the like are suppressed.

In the processing furnace of this embodiment, the atmosphere gas in the low-pressure side processing unit 10 and the atmosphere gas in the high-pressure side processing unit 20 are prevented from moving through the communication unit 30, as shown in FIGS. 2, the communicating portion 30 is provided with a seal portion 31, and the atmospheric gas in the communicating portion 30 is circulated by the circulation fan 311 through the blowing portions 312 on the upper and lower surfaces of the moving steel strip 1. Both the upper and lower surfaces of the steel strip 1 are sprayed from the side processing unit 10 toward the high-pressure side processing unit 20 and the atmospheric gas sprayed from the spraying unit 312 to the steel strip 1 at a position downstream of the spraying unit 312. The atmospheric gas in the communication part 30 is sucked through the circulation pipe 314 by the circulation fan 311. And so as to circulate between the suction portion 313 and the spray unit 312 of the Te. Further, the seal portion exhaust pipe 315 for exhausting a part of the atmosphere gas circulated in the seal portion 31 is provided, and the amount of the atmosphere gas exhausted through the seal portion exhaust pipe 315 is adjusted by the seal portion adjustment valve 315a. I am doing so.

Further, a communication part exhaust pipe 32 for exhausting a part of the atmospheric gas in the communication part 30 on the high pressure side processing part 20 side than the seal part 31 is provided, and the amount of the atmosphere gas exhausted through the communication part exhaust pipe 32 Is adjusted by the communication part adjustment valve 32a.

Furthermore, in the processing furnace of this embodiment, the atmosphere gas in the high-pressure side processing unit 20 is not in contact with the steel strip 1 to be moved between the communication unit 30 and the high-pressure side processing unit 20. A non-contact type seal member 33 that suppresses movement to the communication portion 30 is provided.

In the processing furnace of this embodiment, the atmospheric gas in the communication part 30 is circulated in the seal part 31 as described above, and the atmospheric gas flows into the communication part 30 from the low pressure side processing part 10 and the high pressure side processing part 20. In this case, while the atmospheric gas thus flowed in is circulated in the seal portion 31, the seal portion adjustment valve 315a is adjusted and exhausted through the seal portion exhaust pipe 315. Further, in the communication part 30 on the high pressure side processing unit 20 side than the seal part 31, for example, the atmosphere 31 in the high pressure side processing part 20 or the suction part 313 is not sufficiently sucked by the sealing part 31. When the atmospheric gas is led from the above, such an atmospheric gas is adjusted by the communication part adjusting valve 32a and exhausted through the communication part exhaust pipe 32.

And in the processing furnace of this embodiment, since the sealing member 33 was provided between the communication part 30 and the high-pressure side processing part 20 so as not to contact the moved steel strip 1 as described above, the high-pressure side The atmospheric gas in the processing unit 20 is suppressed from moving to the communication unit 30, and the moved steel strip 1 is not damaged.

For this reason, in the processing furnace of this embodiment, the steel strip 1 is not sandwiched between the pair of sealing rollers as in the prior art and damaged, and the low pressure side processing unit 10 and the high pressure side processing unit 20 The atmospheric gas in the atmosphere is prevented from moving through the communication unit 30, and it is certain that the atmospheric gas in the low-pressure side processing unit 10, the hydrogen gas concentration in the atmospheric gas in the high-pressure side processing unit 20, and the like change. Will be prevented.

In the processing furnace of this embodiment, the long steel strip 1 is guided from the low-pressure side processing unit 10 to the high-pressure side processing unit 20 through the communication unit 30, but conversely, the long steel strip 1 It is also possible to guide 1 from the high-pressure side processing unit 20 to the low-pressure side processing unit 10 through the communication unit 30.

In the processing furnace of this embodiment, the atmospheric gas in the low-pressure side processing unit 10 is maintained at a low pressure and a low hydrogen gas concentration, and the steel strip 1 is heated in the low-pressure side processing unit 10. The atmospheric gas in the high-pressure side processing unit 20 is maintained at a high pressure and a high hydrogen gas concentration, and the steel strip 1 is cooled in the high-pressure side processing unit 20. 10 and the type of atmospheric gas to be accommodated in the high-pressure side processing unit 20 is not limited to this, and the processing performed on the steel strip 1 in the low-pressure side processing unit 10 and the high-pressure side processing unit 20 is also such. It is not limited to.

Moreover, in the processing furnace of this embodiment, although the communication part 30 between the low pressure side processing part 10 and the high pressure side processing part 20 is provided in the horizontal direction, although not shown, the communication part 30 is vertical. It can also be provided in a direction or inclined.

Moreover, it is possible to install not only one such seal portion 31 but also a plurality of such consecutive portions. By doing so, it is possible to more reliably prevent the atmospheric gas in the low-pressure side processing unit 10 and the high-pressure side processing unit 20 from moving through the communication unit 30.

In the processing furnace of the above-described embodiment, the two processing units, the low-pressure side processing unit 10 and the high-pressure side processing unit 20, are connected. May be connected.

1: Steel strip 10: Low-pressure side processing unit 11: Feeding roller 12: Low-pressure side atmospheric gas supply pipe 13: Low-pressure side atmospheric gas exhaust pipe 13a: Low-pressure side regulating valve 20: High-pressure side processing unit 21: Feeding roller 22: High-pressure side Atmosphere gas supply pipe 23: High pressure side atmosphere gas exhaust pipe 23a: High pressure side adjustment valve 30: Communication part 31: Sealing part 32: Communication part exhaust pipe 32a: Communication part adjustment valve 33: Seal member 311: Circulation fan 312: Spraying Part 313: Suction part 314: Circulation pipe 315: Seal part exhaust pipe 315a: Seal part adjustment valve

Claims

In the processing furnace in which the steel strip is moved between the low pressure side processing unit and the high pressure side processing unit through the communication unit between the low pressure side processing unit and the high pressure side processing unit having different atmospheric gas pressures, High pressure from the low-pressure side processing unit to the steel strip that moves the atmospheric gas in the communication part as a seal part for preventing the atmospheric gas in the low-pressure side processing part and the high-pressure side processing part from moving through the communication part. A blowing unit that blows toward the side processing unit is provided, and a suction unit that sucks the atmospheric gas blown to a position downstream of the blowing unit is provided, and the atmospheric gas sucked by the suction unit is A seal part exhaust pipe for exhausting part of the atmosphere gas is provided while returning to the attachment part and circulating, and the amount of the atmosphere gas exhausted through the seal part exhaust pipe is controlled by a seal part adjustment valve Therefore, a communication part exhaust pipe for exhausting part of the atmospheric gas in the communication part on the high-pressure side processing part side than the seal part is provided, and the amount of the atmosphere gas exhausted through this communication part exhaust pipe is communicated A processing furnace characterized by adjusting with a regulating valve.
2. The processing furnace according to claim 1, wherein the atmosphere gas in the high-pressure side processing unit is prevented from moving to the communication unit so as not to contact the steel strip between the communication unit and the high-pressure side processing unit. A processing furnace provided with a sealing member.
3. The processing furnace according to claim 1, wherein the steel strip is moved from the low-pressure side processing unit to a high-pressure side processing unit through a communication unit provided with the seal unit. Processing furnace.
The processing furnace according to any one of claims 1 to 3, wherein the atmospheric gas concentrations in the low-pressure side processing section and the high-pressure side processing section are different from each other.