KR20200016158A - With treatment - Google Patents

Abstract

When moving the steel strip 1 through the communication part between the 1st process part and the 2nd process part in which atmospheric gas from which a composition differs, the sealing part prevents the movement of each atmospheric gas through a communication part in a sealing part, Atmospheric gas is injected from the injection section toward the second processing section with respect to the steel strip, and circulated between the suction section and the suction section that sucks the atmospheric gas at a position downstream from the injection section, and exhausts from the sealing exhaust pipe. The amount of the atmospheric gas to be made or the amount of causing the atmospheric gas in the communicating part on the second processing part side to be exhausted from the communicating part exhaust pipe rather than the sealing part is adjusted.

Description

With treatment

The present invention is a process 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 which atmospheric gases having different compositions are accommodated. It is about. In particular, in the above-described processing furnace, when the steel strip is moved through the communication portion between the first processing portion and the second processing portion in which the atmosphere gas having a different composition is contained, the steel strip is not damaged. When the composition contained in the processing part and the second processing part makes it possible to reliably prevent the movement of different atmospheric gases through the communicating part, and particularly, when the concentration of the active gas is contained in the first processing part and the second processing part in a different atmosphere, WHEREIN: It is characterized by the point which mixed the atmospheric gas accommodated in the 1st process part and the 2nd process part, and prevents the density | concentration of the active gas in the atmospheric gas accommodated in the 1st process part and the 2nd process part.

Conventionally, as a processing furnace for processing steel strips, the steel strips are 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. One is being used.

In addition, in the continuous heat treatment equipment of a steel strip, hydrogen having high thermal conductivity is contained as an active gas in the atmosphere gas contained in each processing part, and the density | concentration of the active gas in atmospheric gas is changed in each processing part, and heating and It is made to adjust the temperature of cooling.

And in such a process furnace, the atmospheric gas in the 1st process part and the 2nd process part which accommodated the atmospheric gas from which a composition differs moves through the said communication part, and in the atmosphere gas accommodated in the 1st process part and the 2nd process part, In order to prevent the concentration of the active gas from changing, a pair of sealing rollers are provided in the first processing section or the second processing section to prevent the atmospheric gas from leaking into the communicating section. It is known that the steel strip is sandwiched in between so as to move the steel strip through the communication portion between the first processing portion and the second processing portion.

However, when the steel sheet is moved between the pair of sealing rollers in this manner, the steel sheet is damaged by the roller inserted therein, or the resistance when the steel sheet is moved increases, so that a large driving device is required. There was a problem that the sealing roller was worn.

In addition, conventionally, as shown in Patent Literature 1, a small chamber has a rectangular path through a steel sheet in the center between two zones having different atmospheres in a furnace. ), The gas drawn from the small chambers is blown toward the small chamber side at both rectangular paths, and a certain amount of sealing gas is flowed into the small chambers from each adjacent zone to be dispersed.

However, as shown in this Patent Document 1, however, the steel strip is formed in the rectangular path between the first processing unit and the second processing unit in which the atmosphere gas containing a different composition such as the concentration of the active gas contained in the atmosphere gas is accommodated. When it moved through, the atmosphere gas from which a composition differs flows through this rectangular path, and the fluctuation | variation of the density | concentration of the active gas contained in atmospheric gas, etc. could not be prevented reliably.

Japanese Patent Application Laid-Open No. 8-302430

The present invention is a process 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 which atmospheric gases having different compositions are accommodated. It is a problem to solve the above problems in the above.

According to the present invention, when the steel strip is moved through the communication portion between the first processing portion and the second processing portion in which the atmosphere gas having a different composition is accommodated, the steel strip is not damaged. The composition contained in the first processing unit and the second processing unit can be reliably prevented from moving through the communication unit with different atmospheric gases, and in particular, the first processing unit and the second processing unit can accommodate atmospheric gases having different concentrations of active gases. In one case, it is a subject to prevent the atmosphere gas contained in the 1st processing part and the 2nd processing part from mixing, and changing the density | concentration of the active gas in the atmospheric gas accommodated in the 1st processing part and the 2nd processing part.

In the processing furnace which concerns on this invention, in order to solve the above subjects, a steel strip is connected to a 1st processing part and a 2nd through the communication part between the 1st processing part and the 2nd processing part which accommodated the atmosphere gas from which a composition differs. A processing section configured to move between a processing section, wherein the sealing section prevents an atmosphere gas having a different composition from the first processing section and the second processing section from moving through the communication section. The suction part which inject | pours toward the 2nd processing part from a 1st processing part is provided with respect to the steel strip which moves atmospheric gas, and the suction part which sucks the atmospheric gas sprayed in the position downstream from this injection part is provided, and this suction is carried out. Sealing part exhaust which makes the atmospheric gas sucked by the part return to said injection part to circulate, and exhausts a part of said atmosphere gas. The pipe is provided, and the amount of the atmospheric gas to be exhausted through the sealing part exhaust pipe is adjusted by the sealing part adjusting valve, and the part of the atmospheric gas in the communication part on the downstream side of the sealing part is exhausted. The communication part exhaust pipe was provided, and the communication part adjustment valve was made to adjust the quantity of the atmospheric gas which makes it exhaust through this communication part exhaust pipe.

And in the process furnace of this invention, the atmospheric gas in the said communication part is sprayed from a 1st process part toward a 2nd process part with respect to the steel band which moves from the said injection part, and is downstream from this injection part. In the case of causing suction to the suction unit provided, returning to the above injection unit, causing the atmosphere gas in the communication unit to circulate in the sealing unit, and each atmosphere gas flows into the communication unit from the first processing unit or the second processing unit, In the middle of causing each of the atmospheric gases introduced in this way to circulate in the sealing portion, the sealing portion adjusting valve is exhausted through the sealing portion exhaust pipe as necessary. In addition, a communication part exhaust pipe for exhausting a part of the atmospheric gas in the communication part on the downstream side from the above sealing part is provided, and the amount of the atmospheric gas to be exhausted through the communication part exhaust pipe is communicated by the communication part adjusting valve. If it makes adjustment, even if the atmosphere gas in the 2nd process part downstream from a sealing part or the atmosphere gas of the 1st process part is guided from the sealing part without being attracted enough to said suction part, said communication part adjustment valve This makes it possible to exhaust the gas through the communicating part exhaust pipe, and the atmosphere gas contained in the second processing part and the atmospheric gas contained in the first processing part can be further suppressed from moving through the communicating part.

In addition, in the processing furnace of the present invention, the atmosphere gas in these processing units communicates with each other so as not to be in contact with the steel strip between the communication unit and at least one of the first processing unit and the second processing unit. It is preferable to provide a sealing member that prevents movement to negative portions.

Here, in the treatment furnace of the present invention, as an atmosphere gas having different compositions in the first treatment unit and the second treatment unit, it is possible to use a different concentration of the active gas. In this case, the concentration of the active gas in the atmosphere gas contained in the first processing unit may be different from the concentration of the active gas in the atmosphere gas contained in the second processing unit.

Further, in the treatment furnace of the present invention, the steel strip can be moved between the first treatment portion and the second treatment portion through a communication portion between the first treatment portion and the second treatment portion 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 moved to each processing unit having a different concentration of active gas. It can be heated and cooled appropriately and the steel strip can be processed with high efficiency. In addition, for example, when the concentration of the active gas in the atmosphere gas contained in the first processing unit is lower than the concentration of the active gas in the atmosphere gas contained in the second processing unit, the activity contained in the second processing unit. Atmospheric gas of the communicating part is introduced from the lower concentration of the active gas (injection part) of the active gas so that the atmospheric gas having a higher concentration of gas is less likely to flow into the first processing part having a lower concentration of the active gas in the atmosphere gas. It is preferable to make it flow by inject | pouring toward the suction part with a higher density, and to prevent the density difference of the active gas accommodated in a 2nd process part and a 1st process part to reduce.

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 a communication unit between the first processing unit and the second processing unit in which atmospheric gases having different compositions are accommodated, Since the sealing part which prevents the atmosphere gas which differs in a composition in a 1st process part and a 2nd process part from moving through a communication part was provided, the prior art which moves so that a steel strip is sandwiched between a pair of sealing rollers is moved. As in the case of the case, the steel strip is not damaged, and between the first processing unit and the second processing unit which accommodates the atmosphere gas having a different composition, it is also sure that the atmosphere gas having a different composition moves through the communication unit. Can be prevented.

In addition, when moving a steel strip between a 1st processing part and a 2nd processing part through the communication part between the 1st processing part and the 2nd processing part which accommodated the atmosphere gas of which the composition differs, the 1st processing part and the 1st processing part Atmospheric gases having different compositions in the two treatment sections are maintained in a stable state, and the steel strip can be appropriately heated and cooled in each of the treatment sections having different concentrations of the active gas, and treated 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 the first processing unit and the second processing unit in the processing furnace according to the embodiment of the present invention. It is a schematic explanatory drawing which shows.
2 is a schematic explanatory diagram showing a state of a communication section between a first processing section and a second processing section in the processing furnace according to the above embodiment.

EMBODIMENT OF THE INVENTION Hereinafter, the processing furnace which concerns on embodiment of this invention is demonstrated concretely with reference to an accompanying drawing. In addition, the process concerning this invention is not limited to what was shown to the following embodiment, It can change suitably and can implement in the range which does not change the summary of invention.

In the processing furnace of this embodiment, a mixture of an active gas such as hydrogen gas with an inert gas such as nitrogen gas is used as the atmosphere gas. In addition, the inert gas in the atmosphere gas is not limited to the above-mentioned nitrogen gas, and argon gas and the like can be used. The active gas is not limited to the above-described hydrogen gas, and carbon monoxide gas and the like, depending on the purpose of treatment. Can be used.

Here, in the processing furnace of this embodiment, for example, as shown in FIG. 1, in the first processing unit 10, a low concentration having a low concentration of the active gas through the first processing side atmosphere gas supply pipe 12. While supplying the atmospheric gas, a 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 the communication part 30 is provided between the 1st processing part 10 in which the low concentration atmospheric gas with low concentration of the active gas was accommodated, and the 2nd processing part 20 containing the high concentration atmospheric gas with high concentration of active gas, The elongated steel strip 1 is made to move between the 1st process part 10 and the 2nd process part 20 through this communicating part 30. As shown in FIG.

Here, in the processing furnace of this embodiment, the steel strip 1 is guided into the first processing unit 10, and the steel strip 1 is provided by a feed roller 11 provided in the first processing unit 10. Is moved in the first processing unit 10, the steel strip 1 is treated with a low concentration atmospheric gas having a low concentration of the active gas contained in the first processing unit 10, and then the steel strip 1 is communicated with the above. It guides into the 2nd processing part 20 through the part 30, and the said steel strip 1 is moved in the 2nd processing part 20 by the feed roller 21 installed in this 2nd processing part 20, The steel strip 1 is processed by a high concentration atmospheric gas having a high concentration of the active gas contained in the second processing unit 20.

In addition, in the process furnace of this embodiment, in order to prevent the invasion of outside air, the atmospheric gas is always introduced, but the above-mentioned low concentration atmospheric gas which has been surplused in the said 1st process part 10 is used. The low concentration side atmosphere gas exhaust pipe 13 for providing exhaust from the first processing unit 10 and the low concentration side atmosphere gas for adjusting the amount of low concentration side atmosphere gas to be exhausted through the low concentration side atmosphere gas exhaust pipe 13 are provided. The adjustment valve 13a is provided.

Moreover, the high concentration side atmospheric gas exhaust pipe 23 which makes exhaust the said high concentration atmospheric gas which was surplused in the said 2nd processing part 20 from this 2nd processing part 20 is provided, and this high concentration side atmospheric gas A high concentration side control valve 23a for adjusting the amount of the high concentration side atmosphere gas to be exhausted through the exhaust pipe 23 is provided.

And in the processing furnace of this embodiment, the atmospheric gas in the said 1st process part 10 is hold | maintained in the state of the low concentration atmospheric gas with low density | concentration of active gas, and in the said 1st process part 10, While heating the steel strip 1, the atmospheric gas in the second processing unit 20 is maintained in a state of high concentration atmospheric gas having a high concentration of the active gas, and the above-mentioned in the second processing unit 20 is maintained. The steel strip 1 is cooled.

Here, in the processing furnace of this embodiment, a low concentration atmosphere gas having a low concentration of the active gas in the first processing unit 10 and a high concentration atmosphere having a high concentration of the active gas in the second processing unit 20. The gas moves through the communication section 30, and the concentration of the active gas in the low concentration atmospheric gas in the first processing unit 10, the high concentration atmosphere gas in the second processing unit 20, and the like change. To prevent it.

And in the processing furnace of this embodiment, the said low concentration atmospheric gas in the 1st processing part 10 and said high concentration atmospheric gas in the 2nd processing part 20 are via said communication part 30. In order to suppress a movement, as shown in FIG. 1 and FIG. 2, the sealing part 31 is provided in the said communication part 30, and the circulation fan 311 makes the communication part 30 Atmospheric gas is sprayed from the first processing unit 10 toward the second processing unit 20 through each of the spray units 312 provided on the upper and lower sides of the moving steel strip 1 at the same time. Each suction part 313 comprised of the perforated plate etc. which provided the atmospheric gas injected from the sand part 312 to the steel strip 1 on the upper and lower surfaces of the steel strip 1 in the position downstream from each injection | molding part 312, etc. The circulating wave is sucked through the air, and the atmosphere gas in the communication section 30 is circulated by the circulation fan 311. Through the loop 314 and the cycle and from the respective ejecting portion 312 and each of the suction unit (313 between) of the. In addition, the sealing part exhaust pipe 315 which provides a part of atmospheric gas circulated in the sealing part 31 in this way is provided, and the quantity of the atmospheric gas which makes it exhaust through this sealing part exhaust pipe 315 is a sealing part. It is made to adjust by the adjustment valve 315a.

Moreover, the communication part exhaust pipe 32 which provides a part of atmospheric gas in the communication part 30 by the side of the 2nd process part 20 rather than the said sealing part 31 is provided, and this communication part exhaust pipe 32 is provided. The amount of the atmosphere gas to be exhausted through) is controlled by the communication section regulating valve 32a.

In addition, in the sealing part adjustment valve 315a and the communication part adjustment valve 32a, the quantity which flows atmospheric gas is monitored by adjusting the density | concentration of the atmospheric gas of the 1st process part 10 and the 2nd process part 20, etc., and adjust. .

In the processing furnace of this embodiment, the contact between the communicating section 30 and the second processing section 20 does not come into contact with the moving strip 1 and the second processing section 20 is provided. The non-contact sealing member 33 which prevents a high concentration atmospheric gas from moving to the communicating part 30 is provided.

In the processing furnace of this embodiment, the atmosphere gas in the communication section 30 is circulated in the sealing section 31 as described above, and from the first processing section 10 or the second processing section 20. When the low concentration atmosphere gas or the high concentration atmosphere gas flows into the communication section 30, the sealing section adjustment valve 315a is adjusted by circulating the introduced atmosphere gas in the sealing section 31. The gas is exhausted through the sealing part exhaust pipe 315 described above. In addition, in the communication part 30 on the side of the second processing part 20 than the sealing part 31 described above, for example, a high concentration atmosphere gas in the second processing part 20 and the suction part ( When the low concentration atmospheric gas is guided from the sealing portion 31 without being sufficiently attracted to the 313, such an atmospheric gas is adjusted through the communicating part exhaust pipe 32 by adjusting the communicating part adjusting valve 32a. It is exhausting.

And in the processing furnace of this embodiment, since the sealing member 33 was provided between the communicating part 30 and the 2nd processing part 20 so that it might not contact with the moving steel strip 1 as mentioned above. The movement of the high concentration atmospheric gas in the second processing section 20 to the communication section 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 sandwiched between a pair of sealing rollers and is not damaged as in the prior art, and the first processing unit 10 and the second processing unit 20 are not damaged. The low concentration atmosphere gas and the high concentration atmosphere gas in the low concentration atmosphere gas in the first processing unit 10 and the high concentration atmosphere gas in the second processing unit 20 are prevented from moving through the communication unit 30. The change of active gas concentration, such as hydrogen gas, is reliably prevented.

In addition, in the processing furnace of this embodiment, the elongated steel strip 1 is transferred from the first processing unit 10 in which the low concentration atmospheric gas is stored to the second processing unit 20 in which the high concentration atmospheric gas is accommodated through the communication unit 30. Although guided, on the contrary, it is also possible to guide the long strip 1 from the said 2nd process part 20 to the said 1st process part 10 through the communication part 30. FIG.

In addition, in the process of this embodiment, the atmospheric gas in the 1st process part 10 is hold | maintained in the state of the low concentration atmospheric gas with low density | concentration of active gas, such as hydrogen gas, and the said While heating the steel strip 1, the concentration of the active gas in the second processing unit 20 is maintained in a high concentration atmospheric gas state, and the steel strip 1 in the second processing unit 20 is maintained. Although it was made to cool, the kind of the atmospheric gas accommodated in the 1st processing part 10 or the 2nd processing part 20 is not limited to such a thing, and the 1st processing part 10 or the 2nd processing part ( The process performed in 20) and the height of temperature are not limited to such a thing.

In addition, in the process furnace of this embodiment, although the communication part 30 between the 1st process part 10 and the 2nd process part 20 was provided in the horizontal direction, although not shown in figure, the communication part ( It is also possible to install 30 in a vertical direction or inclined installation.

Moreover, in the process furnace of the said embodiment, the density | concentration of the active gas of the processing part of the upstream of the movement of the steel strip 1 is low, and the 1st processing part and the 1st process part sequentially from the upstream of the movement of the steel strip 1 downstream. Although it called and demonstrated 2 process part, when the density | concentration of the active gas of a downstream process part is low, it can be demonstrated naturally as a 1st process part and a 2nd process part sequentially from the downstream of the movement of the steel strip 1 to an upstream.

In addition, not only one such sealing part 31 can also be provided in multiple numbers continuously. By doing so, it is possible to more reliably prevent the atmosphere 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 portion 31 as described above is provided only in the communication portion 30 between the first processing portion 10 and the second processing portion 20. Although not provided, the third processing unit for accommodating the atmosphere gas having a different composition from the second processing unit 20 is provided, and the communication unit 30 between the second processing unit 20 and the third processing unit is provided. It is also possible to provide the sealing portion 31 as described above.

1: steel belt
10: first processing unit
11: feed roller
12: low concentration atmosphere gas supply pipe
13: low concentration side atmosphere gas exhaust pipe
13a: low concentration side control valve
20: second processing unit
21: feed roller
22: high concentration side atmosphere 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 pipe exhaust pipe
32a: communicating part adjusting valve
33: sealing member
311: circulation fan
312 injection section
313: suction part
314: circulation pipe
315: sealing exhaust pipe
315a: Seal Adjustment Valve

Claims (5)

In the processing furnace which moved the steel strip between a 1st processing part and a 2nd processing part through the communication part between the 1st processing part and the 2nd processing part which accommodated the atmosphere gas of which composition differs, the said 1st processing part And a sealing portion which prevents an atmosphere gas having a different composition in the second processing portion from moving through the communication portion, wherein the second processing portion is disposed from the first processing portion with respect to a steel strip for moving the atmosphere gas in the communication portion. While providing an injection section for injecting toward the air, a suction section for sucking the atmospheric gas injected at a position downstream from the injection section is provided, and the atmospheric gas sucked by the suction section is returned to the above injection section for circulation. And a sealing part exhaust pipe for exhausting a part of the atmosphere gas and exhausting the air through the sealing part exhaust pipe. Is adjusted by the seal adjusting valve, and a communicating part exhaust pipe for exhausting a part of the atmosphere gas in the communicating part on the downstream side from the sealing part is provided, and the atmospheric gas allowing the exhaust gas through the communicating part exhaust pipe. The process characterized in that for adjusting the amount of by the communication section adjustment valve. In the description of claim 1,
A sealing member is provided between the communication section and at least one of the first processing section and the second processing section so as not to come into contact with the steel strip and to prevent the atmosphere gas in these processing sections from moving to the communication section. By processing characterized by one. In the description of claim 1 or 2,
The atmosphere gas from which the said composition differs differs in the density | concentration of active gas, The process characterized by the above-mentioned. In the description of claim 3,
The concentration of the active gas in the atmospheric gas contained in the first processing unit is different from the concentration of the active gas in the atmospheric gas contained in the second processing unit. The method according to any one of claims 1 to 4,
The steel strip is moved from the first processing unit to the second processing unit through a communication unit provided with the sealing unit.

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