KR102354084B1 - processing furnace - Google Patents

Abstract

When the steel strip 1 is moved through the communication portion between the first processing unit and the second processing unit in which atmospheric gases having different compositions are accommodated, the sealing unit prevents movement of the respective atmospheric gases through the communication unit, At the same time, the atmospheric gas is injected from the injection unit toward the second processing unit from the first processing unit against the steel strip and is circulated between the suction unit and the suction unit that sucks the atmospheric gas at a position downstream from the injection unit, and exhausted from the sealing part exhaust pipe. The amount of atmospheric gas to be caused and the amount to exhaust the atmospheric gas in the communication part on the side of the second processing part rather than the sealing part from the communication part exhaust pipe are adjusted.

Description

processing furnace

The present invention is a process in which a steel strip is moved between the first processing unit and the second processing unit through a communication unit between the first processing unit and the second processing unit in which atmospheric gases having different compositions are accommodated. is about In particular, in the processing furnace as described above, when the steel strip is moved through the communication part between the first processing part and the second processing part in which atmospheric gases having different compositions are accommodated, the steel strip is not damaged. It is possible to reliably prevent atmospheric gases having different compositions contained in the processing unit and the second processing unit from moving through the communication unit, and in particular, when the first processing unit and the second processing unit receive atmospheric gases having different concentrations of the active gas. In the present invention, the atmospheric gas contained in the first processing unit and the second processing unit is mixed, and the concentration of the active gas in the atmospheric gas accommodated in the first processing unit and the second processing unit is prevented from fluctuating.

Conventionally, as a processing furnace for processing steel strips, the steel strip is moved between the first processing part and the second processing part through a communication part between the first processing part and the second processing part in which atmospheric gases of different compositions are accommodated. one is being used.

In addition, in a continuous heat treatment facility for a steel strip, hydrogen having high thermal conductivity is contained as an active gas in the atmospheric gas accommodated in each processing section, and the concentration of the active gas in the atmospheric gas is changed in each processing section to be heated or Adjusting the temperature of the cooling is being done.

And, in such a processing furnace, the atmospheric gas in the first processing unit and the second processing unit containing atmospheric gases having different compositions moves through the communication unit, and in the atmospheric gas accommodated in the first processing unit and the second processing unit, In order to prevent fluctuations in the concentration of the active gas of It is known that a steel strip is sandwiched therebetween so that the steel strip is moved through a communication part between the first processing unit and the second processing unit.

However, when the steel strip is moved by sandwiching it between a pair of sealing rollers in this way, the steel strip is damaged by the sandwiched roller, the resistance when moving the steel strip is increased, and a large driving device is required. , there were problems such as wear of the sealing roller.

Further, in the prior art, as shown in Patent Document 1, between two zones having different furnace atmospheres, a rectangular path through a steel plate is formed in the center of a small chamber. ) is interposed therebetween, and while the gas sucked from the small chamber is ejected toward the small chamber on both rectangular paths, a certain amount of sealing gas is flowed and dispersed from each adjacent band into the small chamber.

However, even in the bar shown in Patent Document 1, between the first processing unit and the second processing unit in which atmospheric gases having different compositions such as concentrations of active gas contained in the atmospheric gas are accommodated, the steel strip is formed in the above rectangular path. In the case where the atmospheric gases with different compositions flowed through this rectangular path, it was impossible to reliably prevent fluctuations in the concentration of the active gas contained in the atmospheric gas and the like.

Japanese Patent Application Laid-Open No. 8-302430

The present invention is a process in which a steel strip is moved between the first processing unit and the second processing unit through a communication unit between the first processing unit and the second processing unit in which atmospheric gases having different compositions are accommodated. It is an object to solve the above problems in

According to the present invention, in the processing furnace as described above, when the steel strip is moved through the communication part between the first processing part and the second processing part containing atmospheric gases of different compositions, the steel strip is not damaged; It is possible to reliably prevent the atmospheric gases having different compositions accommodated in the first processing unit and the second processing unit from moving through the communication unit, and in particular, to accommodate the atmospheric gases having different concentrations of the active gas in the first processing unit and the second processing unit. In one case, it is an object to prevent the atmospheric gas accommodated in the first processing unit and the second processing unit from mixing and the concentration of the active gas in the atmospheric gas accommodated in the first processing unit and the second processing unit fluctuating.

In the treatment furnace according to the present invention, in order to solve the above problems, the steel strip is connected to the first treatment section and the second section through the communication section between the first treatment section and the second treatment section in which atmospheric gases having different compositions are accommodated. A sealing part for preventing an atmosphere gas having a different composition in the first processing part and the second processing part from moving through the communication part in a processing furnace to move between the processing part, wherein the communication part An injection unit for jetting the atmospheric gas from the first processing unit toward the second processing unit is provided with respect to the steel strip for moving the atmospheric gas in the steel strip, and a suction unit for suctioning the injected atmospheric gas is provided at a position downstream from this injection unit, and this suction A sealing part exhaust pipe is provided for exhausting a part of the atmospheric gas while returning the atmospheric gas sucked in by the part to the injection part to circulate, and the amount of atmospheric gas to be exhausted through this sealing part exhaust pipe is adjusted At the same time as adjusting by the sealing part regulating valve, a communication part exhaust pipe for exhausting a part of the atmospheric gas in the communication part on the downstream side from the sealing part is provided, and atmospheric gas for exhausting through the communication part exhaust pipe was adjusted by the communication control valve.

And in the processing furnace of this invention, the atmospheric gas in the said communication part is injected from a 1st processing part toward a 2nd processing part with respect to the steel strip which moves from the said injection part, and is downstream from this injection part. When the provided suction unit is sucked back to the injection unit, the atmospheric gas in the communicating unit is circulated in the sealing unit, and each atmospheric gas flows into the communicating unit from the first processing unit or the second processing unit, In the middle of allowing each atmospheric gas thus introduced to circulate in the seal, if necessary, it is exhausted through the seal exhaust pipe by the seal regulating valve. In addition, a communication part exhaust pipe for exhausting a part of the atmospheric gas in the communication part on the downstream side of the sealing part is provided, and the amount of atmospheric gas to be exhausted through the communication part exhaust pipe is adjusted by the communication part adjusting valve. When the adjustment is made, even when the atmospheric gas in the second processing unit on the downstream side of the sealing unit or the atmospheric gas in the first processing unit is guided from the sealing unit without being sufficiently sucked by the suction unit, the communication unit regulating valve is described above. can be exhausted through the communication part exhaust pipe, and it is possible to further suppress movement of the atmospheric gas accommodated in the second processing part and the atmospheric gas accommodated in the first processing part through the communication part.

Further, in the processing furnace of the present invention, between the communication portion and at least one of the first processing portion and the second processing portion, so as not to come into contact with the steel strip, the atmospheric gas in these processing portions communicates It is preferable to provide a sealing member to prevent movement to the negative.

Here, in the processing furnace of the present invention, it is possible to use a gas having a different concentration of the active gas as the atmosphere gas having a different composition in the first processing unit and the second processing unit. In this case, the concentration of the active gas in the atmospheric gas accommodated in the first processing unit can be different from the concentration of the active gas in the atmospheric gas accommodated in the second processing unit.

Further, in the processing furnace of the present invention, the steel strip is moved between the first processing unit and the second processing unit through the communication unit between the first processing unit and the second processing unit in which atmospheric gases having different compositions are accommodated. In this case, the steel strip may be moved from the first processing unit to the second processing unit through the communication unit, or the steel strip may be moved from the second processing unit to the first processing unit through the communication unit, and the steel strip may be transferred to each processing unit having a different concentration of active gas. It is possible to properly heat and cool the steel strip and process the steel strip with high efficiency. Further, for example, when it is assumed that the concentration of the active gas in the atmospheric gas accommodated in the first processing unit is lower than the concentration of the active gas in the atmospheric gas accommodated in the second processing unit, the active gas contained in the second processing unit is In order for the atmospheric gas with a high concentration of gas to hardly flow into the first processing part with a low concentration of the active gas in the atmospheric gas, the atmospheric gas of the communicating part is transferred from the side with a low concentration of the active gas (injection part) of the active gas. It is preferable to make it flow by spraying it toward the suction part with a higher concentration, and to prevent the concentration difference of the active gas accommodated in the second processing part and the first processing part from decreasing.

In the processing furnace of the present invention, when the steel strip is moved between the first processing unit and the second processing unit through the communication unit between the first processing unit and the second processing unit in which atmospheric gases having different compositions are accommodated, Since the above-described sealing portion for preventing atmospheric gases having different compositions in the first processing portion and the second processing portion from moving through the communication portion is provided, the conventional movement is performed by sandwiching a steel strip between a pair of sealing rollers. At the same time, the steel strip is not damaged as in the case of can be prevented from happening.

Further, when the steel strip is moved between the first processing unit and the second processing unit through the communication unit between the first processing unit and the second processing unit in which atmospheric gases having different compositions are accommodated, the first processing unit and the second processing unit In the two processing units, atmospheric gases having different compositions are maintained in a stable state, and the steel strip is appropriately heated and cooled in each processing unit having different concentrations of active gas, thereby making it possible to process with high efficiency.

1 is a configuration in which a steel strip is moved between a first processing unit and a second processing unit through a communication unit between a first processing unit and a second processing unit in a processing furnace according to an embodiment of the present invention; It is a schematic explanatory diagram showing.
FIG. 2 is a schematic explanatory diagram showing a state of a communication unit between the first processing unit and the second processing unit in the processing furnace according to the above embodiment.

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 according to the present invention is not limited to those shown in the following embodiments, and can be carried out with appropriate modifications within the scope of not changing the gist of the invention.

In the processing furnace of this embodiment, what mixed active gas, such as hydrogen gas, with inert gas, such as nitrogen gas, was used as atmospheric gas. In addition, the inert gas in the atmosphere gas is not limited to the above nitrogen gas, and argon gas or the like can be used, and the active gas is not limited to the hydrogen gas described above, and depending on the purpose of the treatment, carbon monoxide gas, etc. can be used

Here, in the processing furnace of this embodiment, for example, as shown in FIG. 1 , in the first processing unit 10 , the active gas has a low concentration through the first processing-side atmospheric gas supply pipe 12 . While the atmospheric gas is supplied, the high-concentration atmospheric gas having a high concentration of the active gas is supplied into the second processing unit 20 through the second processing-side atmospheric gas supply pipe 22 .

And, a communication part 30 is provided between the first processing unit 10 in which the low concentration atmospheric gas with a low concentration of the active gas is accommodated and the second processing part 20 in which the high concentration atmospheric gas with a high concentration of the active gas is accommodated, The elongated steel strip 1 is moved between the first processing unit 10 and the second processing unit 20 via the communication unit 30 .

Here, in the processing furnace of this embodiment, the said steel strip 1 is guided into the 1st processing part 10, and the said steel strip 1 is guided by the conveying roller 11 provided in this 1st processing part 10. is moved in the first processing unit 10 to treat the steel strip 1 with a low-concentration atmospheric gas having a low concentration of active gas accommodated in the first processing unit 10, and then the steel strip 1 is connected to the communication Guided into the second processing unit 20 through the unit 30, and the steel strip 1 is moved within the second processing unit 20 by the conveying roller 21 installed in the second processing unit 20 , the steel strip 1 is treated with a high-concentration atmospheric gas having a high concentration of the active gas accommodated in the second processing unit 20 .

In addition, in the treatment furnace of this embodiment, atmospheric gas is always introduced in order to prevent intrusion of external air, but the low-concentration atmospheric gas surplus in the first processing unit 10 is removed. , a low-concentration-side atmospheric gas exhaust pipe 13 for exhausting from the first processing unit 10 is provided, and a low-concentration-side atmospheric gas to be exhausted through the low-concentration-side atmospheric gas exhaust pipe 13 is adjusted on the low-concentration side A control valve 13a is provided.

In addition, a high-concentration side atmospheric gas exhaust pipe 23 is provided for exhausting the high-concentration atmospheric gas surplus in the second processing unit 20 from the second processing unit 20, and this high-concentration side atmospheric gas A high-concentration-side regulating valve 23a for adjusting the amount of the high-concentration-side atmospheric gas to be exhausted through the exhaust pipe 23 is provided.

And, in the processing furnace of this embodiment, the atmospheric gas in the first processing unit 10 is maintained in a state of a low-concentration atmospheric gas having a low concentration of the active gas, and in the first processing unit 10, the While heating the steel strip 1 of The steel strip 1 is cooled.

Here, in the processing furnace of this embodiment, the low-concentration atmosphere gas with a low concentration of the active gas in the first processing unit 10 and a high-concentration atmosphere with a high concentration of the active gas in the second processing unit 20 . The gas moves through the communication unit 30 , and the concentration of the active gas in the low-concentration atmospheric gas in the first processing unit 10 and the high-concentration atmospheric gas in the second processing unit 20 changes. to prevent it from happening.

And in the processing furnace of this embodiment, the low-concentration atmospheric gas in the first processing unit 10 and the high-concentration atmospheric gas in the second processing unit 20 pass through the communication unit 30 . In order to suppress movement, as shown in FIGS. 1 and 2 , a sealing part 31 is provided in the communication part 30 , and the communication part 30 is moved by a circulation fan 311 . At the same time, the atmospheric gas is injected toward the second processing unit 20 from the first processing unit 10 through the respective injection units 312 provided on the upper and lower both sides of the moving steel strip 1, and each minute Each suction unit 313 composed of a perforated plate or the like provided on both upper and lower sides of the steel strip 1 at a position downstream from each injection unit 312 for the atmospheric gas injected from the threading part 312 to the steel strip 1 . The atmospheric gas in the communication unit 30 is sucked through the circulating fan 311 through the circulation pipe 314 and the above-mentioned each injection unit 312 and each suction unit 313 are connected to each other. cycle between them. Further, in this way, a sealing part exhaust pipe 315 for exhausting a part of the atmospheric gas circulated in the sealing part 31 is provided, and the amount of atmospheric gas to be exhausted through the sealing part exhaust pipe 315 is adjusted by the sealing part. It is adjusted by the adjustment valve 315a.

In addition, a communication part exhaust pipe 32 for exhausting a part of the atmospheric gas in the communication part 30 on the side of the second processing part 20 rather than the sealing part 31 is provided, and this communication part exhaust pipe 32 is provided. ), the amount of atmospheric gas to be exhausted is adjusted by the communication part control valve 32a.

In addition, in the sealing part regulating valve 315a and the communicating part regulating valve 32a, the amount of atmospheric gas flowing is adjusted by monitoring the concentration of atmospheric gas of the 1st processing part 10 and the 2nd processing part 20, etc. .

Moreover, in the processing furnace of this embodiment, between the said communication part 30 and the 2nd processing part 20, it is made not to come into contact with the moving steel strip 1, and in the 2nd processing part 20, A non-contact sealing member 33 for preventing the high-concentration atmospheric gas from moving to the communicating portion 30 is provided.

And, in the processing furnace of this embodiment, while the atmospheric gas in the communication part 30 is circulated in the sealing part 31 as mentioned above, at the same time, from the 1st processing part 10 and the 2nd processing part 20 When the low-concentration atmospheric gas or the high-concentration atmospheric gas flows into the communication unit 30 , in the middle of circulating the introduced atmospheric gas in the sealing unit 31 , the sealing unit adjusting valve 315a is adjusted It is to be exhausted through the sealing part exhaust pipe (315). In addition, in the communication part 30 on the side of the second processing part 20 rather than the sealing part 31, for example, the high-concentration atmospheric gas in the second processing part 20 or the suction part ( When the low concentration atmospheric gas is guided from the sealing part 31 without being sufficiently sucked into the 313 ), the atmospheric gas is supplied through the communication part control valve 32a through the communication part exhaust pipe 32 . to be exhausted.

In addition, in the processing furnace of this embodiment, as described above, the sealing member 33 is provided between the communicating portion 30 and the second processing portion 20 so as not to come into contact with the moving steel strip 1 . , movement of the high-concentration atmospheric gas in the second processing unit 20 to the communication unit 30 is suppressed, and the moving steel strip 1 is not damaged.

Therefore, in the processing furnace of this embodiment, the steel strip 1 is not damaged by being pinched between a pair of sealing rollers as in the prior art, and the 1st processing part 10 and the 2nd processing part 20 Movement of the low-concentration atmospheric gas or the high-concentration atmospheric gas in the communication unit 30 is prevented, and the low-concentration atmospheric gas in the first processing unit 10 and the high-concentration atmospheric gas in the second processing unit 20 are prevented from moving through the communication unit 30 . A change in the concentration of an active gas such as hydrogen gas in the present invention is reliably prevented.

In addition, in the processing furnace of this embodiment, the elongated steel strip 1 is moved from the first processing unit 10 containing the low-concentration atmospheric gas to the second processing unit 20 containing the high-concentration atmospheric gas through the communication unit 30 . Conversely, it is also possible to guide the elongated steel strip 1 from the second processing unit 20 to the first processing unit 10 through the communication unit 30 .

Further, in the processing of this embodiment, the atmospheric gas in the first processing unit 10 is maintained in a state of a low-concentration atmospheric gas having a low concentration of an active gas such as hydrogen gas, and in the first processing unit 10, the While heating the steel strip 1 of Although cooled, the type of atmospheric gas accommodated in the first processing unit 10 or the second processing unit 20 is not limited to such a thing, and the first processing unit 10 or the second processing unit ( The treatment performed in 20) and the high and low temperature are not limited to such a thing either.

In addition, in the processing furnace of this embodiment, although the communication part 30 in between the 1st processing part 10 and the 2nd processing part 20 was provided in the horizontal direction, although not shown in figure, the communication part ( 30) can be installed vertically or inclinedly.

Further, in the processing furnace of the above embodiment, the concentration of the active gas in the processing section on the upstream side of the movement of the steel strip 1 is low, and the first processing section, the first processing section, Although referred to as 2 processing units, when the concentration of the active gas in the downstream processing unit is low, it can be naturally explained as the first processing unit and the second processing unit sequentially from the downstream to the upstream of the movement of the steel strip 1 .

In addition, such a sealing part 31 is not only one, but it is also possible to provide multiple successively. In this way, it is possible to more reliably prevent the atmospheric gas in the first processing unit 10 and the second processing unit 20 from moving through the communication unit 30 .

In addition, in the processing furnace of the above embodiment, the sealing part 31 as described above is only provided in the communication part 30 between the 1st processing part 10 and the 2nd processing part 20, but shown Although not provided, a third processing unit configured to receive an atmosphere gas having a composition different from that of the second processing unit 20 is provided, and a communication unit 30 between the second processing unit 20 and the third processing unit is provided. ) It is also possible to install the sealing part 31 as described above.

1 : Gangdae (鋼帶)
10: first processing unit
11: conveying roller
12: low concentration side atmospheric gas supply pipe
13: low concentration side atmospheric gas exhaust pipe
13a: low concentration side control valve
20: second processing unit
21: conveying roller
22: high concentration side atmospheric gas supply pipe
23: high concentration side atmosphere gas exhaust pipe
23a: high concentration side control valve
30: communication part
31: sealing part
32: communication part exhaust pipe
32a: communication part control valve
33: sealing member
311: circulation fan
312: injection part
313: suction unit
314: circulation pipe
315: seal exhaust pipe
315a: seal adjustment valve

Claims (6)

A processing furnace in which a steel strip is moved between the first processing unit and the second processing unit through a communication unit between the first processing unit and the second processing unit in which atmospheric gases having different compositions are accommodated, the processing furnace comprising: A sealing portion for preventing the atmospheric gas having a different composition in the first processing portion and the second processing portion from moving through the communication portion is provided in the communication portion in the moving direction of the steel strip, and in this sealing portion, the communication portion At the same time providing an injection unit that jets from the first processing unit toward the second processing unit with respect to the steel strip for moving the atmospheric gas in the method, the atmospheric gas injected into the steel strip is sucked at a position downstream in the injection direction from this injection unit A suction part is provided, and an atmospheric gas sucked in the suction part is returned to the injection part to circulate in the sealing part, and a sealing part exhaust pipe is provided which exhausts a part of the circulated atmospheric gas, , while adjusting the amount of atmospheric gas to be exhausted through the sealing part exhaust pipe by the sealing part adjusting valve, exhaust a part of the atmospheric gas in the communicating part on the side of the second processing part on the downstream side from the sealing part A communication part exhaust pipe is provided, and the amount of atmospheric gas to be exhausted through the communication part exhaust pipe is adjusted by a communication part control valve, and further, the first processing part and the second processing part communicating with the communication part; A processing furnace characterized in that a sealing member is provided on at least one side of the steel strip to narrow the gap through which the steel strip passes so as not to come into contact with the steel strip and to prevent the atmospheric gas in the processing section from moving to the communication part. In the description of claim 1,
The sealing member is provided on the side of the second processing section on the downstream side of the sealing section, and the communication section exhaust pipe is provided in a communication section between the sealing member and the sealing section. A treatment furnace characterized in that. According to the description of claim 1 or 2,
Atmospheric gas injected from the injection unit to the steel strip is sucked in the suction unit, and the atmospheric gas sucked in the suction unit is returned to the injection unit and circulated to a circulation pipe that circulates the atmospheric gas. A process characterized in that a fan is provided, and the sealing part exhaust pipe for exhausting a part of the circulated atmospheric gas is branched from the circulation pipe on the downstream side of the circulation fan. as. According to the description of claim 1 or 2,
A processing furnace characterized in that the atmospheric gases having different compositions have different concentrations of the active gas. In the description of claim 4,
A processing furnace characterized in that a concentration of the active gas in the atmospheric gas accommodated in the first processing unit is lower than the concentration of the active gas in the atmospheric gas accommodated in the second processing unit. According to the description of claim 1 or 2,
and moving said steel strip from said first processing part to said second processing part through a communication part provided with said sealing part.

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