KR20200137120A - Countercurrent flow preventing apparatus of pickling agent and countercurrent flow preventing method thereof - Google Patents

Abstract

The present invention relates to an apparatus for preventing backflow of a pickling solution in a pickling bath, and a method for preventing backflow thereof. According to the present invention, the apparatus for preventing backflow of a pickling solution in a pickling bath comprises: a pickling bath main body (10); a main pipe (20) consisting of a horizontal main pipe (21) and a vertical main pipe (25); a plurality of distribution pipes (40); a discharge movement pipe (50); and a backflow prevention mechanism (60). According to the present invention, corrosion of a supply pipe line can be prevented.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The device for preventing backflow of pickling liquid in a pickling tank and a countercurrent flow preventing method thereof

The present invention relates to a device for preventing backflow of pickling liquid in a pickling tank and a method for preventing backflow using the device for preventing backflow, and more particularly, when the boiler that heats and sprays steam into the pickling tank is stopped, A device for preventing backflow of pickling liquid in a pickling tank and a method for preventing backflow using the device for preventing backflow to prevent corrosion of a supply pipe line.

In general, hot-rolled steel sheets used in the manufacture of cold-rolled, stainless steel and electrical steel sheets undergo rolling and cooling processes in an atmospheric state at a high temperature above the recrystallization temperature during the manufacturing process, and scale by reaction between iron, the main component of the steel sheet, and surrounding oxygen. A layer is formed.

Such a scale layer must be removed immediately before rolling due to the beautiful characteristics of cold-rolled, stainless steel, and electrical steel sheets. At this time, an acid solution such as hydrochloric acid is essentially used, which is performed in a pickling tank.

The pickling process in the above-described pickling tank is shown in FIG. 1. The pickling process is, after connecting the strips 202 to each other by a welding machine 201 in a facility installed on one side of the pickling tank 200, In the descaling device 203, cracks are applied to the scale layer on the surface. Then, the strip surface is removed by pickling reaction with hydrochloric acid through the pickling tank 200 to maintain cleanliness, and the strip 202 on which pickling has been performed proceeds to a post-treatment process.

On the other hand, the strip that has undergone the pickling process is cold-rolled through linsing and drying at the rear side, and a side trimming device 205, and finally cut to the size desired by the secondary process or the customer to produce the product. After completion, carry out the transfer process.

At this time, if the operation of the boiler that heats and sprays steam into the pickling tank is stopped during the above pickling process, the steam remaining in the spray nozzle and the pickling liquid near the spray nozzle will flow back. Since corrosion of the moving line is rapidly increased, there is a problem that frequent replacement of the main moving line is required.

Registered Patent No. 10-1182087

Accordingly, the present invention was invented to eliminate the above problems, and to prevent corrosion of the supply pipe line by preventing the pickling liquid in the pickling tank from flowing backward from the injection nozzle when the boiler that heats and sprays steam into the pickling tank is stopped. It was completed as a technical task with the focus on the pickling solution backflow prevention device in the pickling tank and the backflow prevention method using the backflow prevention device.

The present invention for achieving the above technical problem, in constructing the pickling liquid backflow prevention device in the pickling tank, the pickling tank main body 10 in which the pickling liquid 2 to be immersed is filled; A main pipe 20 horizontally provided on the lower side of the pickling tank body 10 and connected to the boiler power supply unit 29 to supply and move steam; The main pipe 20 is a horizontal main pipe 21 provided on the lower side of the pickling tank body 10, and a vertical main pipe extending vertically along the outer wall of the pickling tank body 10 at the end of the horizontal main pipe 21 (25) a horizontal staying pipe (30) provided at the end of the vertical main pipe (25) to have the same diameter as the vertical main pipe (25); A distribution pipe 40 distributed over and connected to the horizontal staying pipe 30, having a diameter smaller than that of the horizontal staying pipe 30 and each provided with a valve 42; A discharge transfer pipe 50 connected to the distribution pipe 40 and immersed in the pickling liquid 2 filled in the pickling tank body 10; The discharge transfer pipe 50 is provided along the inner wall of the pickling tank main body 10 and is provided with a plurality of spray nozzles 52 toward the pickling liquid 2 side, and the boiler power supply unit 29 on the discharge transfer pipe 50 ) When the operation is stopped, the steam sprayed to the pickling solution 2 through the injection nozzle 52, and a backflow prevention port 60 provided to prevent reverse flow of a portion of the pickling solution in contact with the injection nozzle 52; It provides a pickling liquid backflow prevention device in the pickling tank comprising a.

In this case, a water separator 27 is connected to the main pipe 20 so as to remove moisture from the steam moving through the main pipe 20.

In addition, the discharge moving pipe 50 is divided into a rear moving pipe 51 and a front discharge pipe 52 with a backflow prevention port 60 as the center, and the discharge moving pipe 50 is configured to be formed of Teflon or FRP material. It is characterized.

In addition, the backflow prevention port 60 includes an input path 67 connected to the end of the rear moving pipe 51 and a discharge path 68 connected to the end of the front discharge pipe 52. It is formed in communication with each other through, and the expansion portion 63 is formed between the moving path 62 and the discharge path 68, the expansion inclined surface 64 is formed on the lower side of the expansion portion 63 , A ball valve 65 having a diameter larger than the diameter of the expansion inclined surface 64 is seated on the expansion inclined surface 64, and when the steam moved through the inlet path 67 is moved forward, the ball valve 65 is It is deviated upward from the expansion slope 64 so that the steam moves through the discharge path 68, and when the steam moved through the discharge path 68 moves in the reverse direction, the ball valve 65 rubs against the expansion slope 64 It is characterized in that it is configured to prevent backflow toward the input path 67 by closing the moving path 62.

In addition, the horizontal retention pipe 30 is characterized in that it is configured to be provided with a vacuum dissolving member 92 for relieving the vacuum state in the horizontal retention pipe 30.

In another aspect of the present invention, in implementing a method for preventing backflow using a device for preventing backflow of pickling liquid in a pickling tank, the pickling tank main body 10 is filled with the pickling liquid 2 to be immersed in the pickling tank, and the pickling It is horizontally provided on the lower side of the tank main body 10, and is connected to the boiler power supply unit 29 and includes a main pipe 20 for supplying and moving steam, and the main pipe 20 is at the lower side of the pickling tank main body 10. It consists of a horizontal main pipe (21) provided, and a vertical main pipe (25) extending vertically along the outer wall of the pickling body (10) at the end of the horizontal main pipe (21), and at the end of the vertical main pipe (25) Equipped with a horizontal retention pipe (30) provided to have the same diameter as the vertical main pipe (25), a plurality of distribution and connection on the horizontal retention pipe (30), and has a smaller diameter than the horizontal retention pipe (30) Each has a distribution pipe 40 provided with a valve 42, and a discharge transfer pipe 50 connected to the distribution pipe 40 and immersed in the pickling liquid 2 filled in the pickling tank body 10. And, the discharge transfer pipe 50 is provided along the inner wall of the pickling tank main body 10 and is provided with a plurality of spray nozzles 52 toward the pickling liquid 2 side, and a boiler on the discharge transfer pipe 50 When the power supply unit 29 is stopped, a reverse flow prevention port provided to prevent reverse flow of the steam sprayed to the pickling solution 2 through the injection nozzle 52 and a portion of the pickling solution in contact with the injection nozzle 52 ( 60) is provided to prevent the pickling liquid in the pickling tank body 10 from flowing back from the injection nozzle 52 together with the steam when the boiler for heating and spraying steam into the pickling tank body 10 is stopped. It provides a reverse flow prevention method using a pickling liquid reverse flow prevention device in the pickling tank characterized by.

At this time, the backflow prevention port 60 includes an input path 67 connected to the end of the rear moving pipe 51 and a discharge path 68 connected to the end of the front discharge pipe 52. It is formed in communication with each other through, and the expansion portion 63 is formed between the moving path 62 and the discharge path 68, the expansion inclined surface 64 is formed on the lower side of the expansion portion 63 , A ball valve 65 having a diameter larger than the diameter of the expansion inclined surface 64 is seated on the expansion inclined surface 64, and when the steam moved through the inlet path 67 is moved forward, the ball valve 65 is It is deviated upward from the expansion slope 64 so that the steam moves through the discharge path 68, and when the steam moved through the discharge path 68 moves in the reverse direction, the ball valve 65 rubs against the expansion slope 64 It is characterized in that the flow path 62 is closed to prevent reverse flow toward the input path 67.

In addition, a water separator 27 is connected on the main pipe 20 to remove moisture from the steam moving through the main pipe 20.

In addition, the discharge moving pipe 50 is divided into a rear moving pipe 51 and a front discharge pipe 52 with a backflow prevention port 60 as the center, and the discharge moving pipe 50 is formed of Teflon or FRP material. .

In addition, a vacuum canceling member 92 is provided on the horizontal staying pipe 30 to relieve a vacuum state inside the horizontal staying pipe 30.

According to the present invention described above, when the boiler that heats and sprays steam into the pickling tank is stopped, the pickling liquid in the pickling tank is prevented from flowing back from the spray nozzle, thereby preventing corrosion of the supply pipe line.

1 is an exemplary diagram of a pickling process according to the prior art
FIG. 2 is a perspective view illustrating a device for preventing backflow of pickling liquid in a pickling tank according to the present invention.
3 is an exemplary side view of an apparatus for preventing backflow of pickling liquid in a pickling tank according to the present invention
4 is an exemplary diagram of an embodiment in which steam is supplied and moved into the pickling tank according to the present invention
Figure 5 is an exemplary diagram of an embodiment of countercurrent movement in the pickling tank according to the present invention
6 is an exemplary cross-sectional view of a backflow prevention device according to the present invention
Figure 7 is an exemplary view of the use of the backflow prevention device according to the present invention
Figure 8 is another exemplary embodiment of the backflow prevention device according to the present invention

Hereinafter, with reference to the accompanying drawings, specific details for the implementation of the present invention will be described in more detail.

The present invention prevents reverse flow of the pickling liquid in the pickling tank from the spray nozzle when the boiler that heats and sprays steam into the pickling tank, thereby preventing the corrosion of the supply pipe line, and the reverse flow of the pickling liquid in the pickling tank. As for a method for preventing backflow using a prevention device, referring to Figs. 2 to 8, the pickling tank main body 10, the main pipe 20, the horizontal staying pipe 30, the distribution pipe 40, the discharge moving pipe 50, and It comprises a backflow prevention device (60).

The pickling tank main body 10 for realizing the present invention is immersed in the pickling product as shown in Figs. 2 and 3 in order to pickle items to be pickled, such as cold rolled, stainless steel, and hot rolled steel sheets used in the manufacture of electrical steel sheets. It is configured to be filled with the pickling solution (2) to be filled.

A main pipe 20 for supplying and moving high-temperature steam to heat the pickling liquid 2 filled in the pickling tank main body 10 is provided at a lower portion of the pickling tank main body 10. At this time, the main pipe 20 is horizontally provided on the lower side of the main body 10 as an embodiment, and is connected to the boiler power supply unit 29.

In addition, the main pipe 20 is a horizontal main pipe 21 provided on the lower side of the pickling tank body 10, and vertically extending along the outer wall of the pickling tank body 10 at the end of the horizontal main pipe 21 It consists of a vertical main pipe (25).

The end of the vertical main pipe 25 is provided with a horizontal staying pipe 30 provided to have the same diameter as the vertical main pipe 25 as shown in FIG. 2. In addition, a plurality of distribution pipes 40 are provided on the horizontal staying pipe 30 by being distributed and connected, having a diameter smaller than that of the horizontal staying pipe 30 and each provided with a valve 42.

In addition, a discharge transfer pipe 50 connected to the distribution pipe 40 and immersed in the pickling liquid 2 filled in the pickling tank body 10 is provided, and the discharge transfer pipe 50 is the pickling tank body 10 ) Is provided along the inner wall of the pickling solution (2) and is provided with a plurality of spray nozzles (52), on the discharge transfer pipe (50), through the spray nozzle (52) when the boiler power supply unit (29) is stopped. A reverse flow prevention port 60 is provided to prevent reverse flow of the steam sprayed toward the pickling liquid 2 and a portion of the pickling liquid in contact with the spray nozzle 52.

At this time, the main pipe 20, the horizontal staying pipe 30, and the distribution pipe 40 are usually formed of stainless steel, but in the case of the discharge transfer pipe 50, a portion in direct contact with the pickling solution 2 is included. Therefore, in order to prevent corrosion due to this, the discharge moving pipe 50 is made of Teflon or FRP material.

Teflon has properties such as almost perfect chemical inertness and heat resistance, non-adhesiveness, excellent insulation stability, corrosion resistance, chemical resistance, and low coefficient of friction by forming a very stable compound due to the strong chemical bond between fluorine and carbon. .

In addition, the FRP (fiber reinforced plastics) is a plastic composite material reinforced with glass and carbon fiber, and is a high-performance, high-functional material that is lightweight and excellent in corrosion resistance and moldability.

On the other hand, a water separator 27 is connected to the main pipe 20 so that the moisture of the steam moving through the main pipe 20 is removed, and the discharge moving pipe 50 has a backflow prevention port 60 at the center. It is divided into a rear moving pipe 51 and a front discharge pipe 52.

In addition, the backflow prevention port 60 includes an input path 67 connected to the end of the rear moving pipe 51 and a discharge path 68 connected to the end of the front discharge pipe 52. It is formed in communication with each other through the, as shown in Figs. 6 and 7, an extension part 63 is formed between the moving path 62 and the discharge path 68, but on the lower side of the extension part 63 An expansion inclined surface 64 is formed, and a ball valve 65 having a diameter larger than the diameter of the expansion inclined surface 64 is seated on the expansion inclined surface 64, and the forward direction of the steam moving through the input path 67 When moving, the ball valve 65 is deviated upward from the expanding slope 64 so that the steam is moved through the discharge path 68, and when the steam moved through the discharge path 68 moves in the reverse direction, the ball valve 65 Is configured to prevent reverse flow toward the input path 67 by rubbing against the expanding slope 64 and closing the moving path 62.

At this time, in order to increase the close contact between the expansion slope 64 and the ball valve 65, a contact pad 89 made of Teflon or FRP material may be provided on the surface of the expansion slope 64 as shown in FIG. 8. Accordingly, it is possible to maximize the backflow prevention efficiency by increasing the close contact between the expansion slope 64 and the ball valve 65, and since the Teflon and FRP materials have excellent corrosion resistance, there is no concern about corrosion. In addition, by configuring the adhesion pad 89 to be detachable, replacement and repair are facilitated.

In addition, a vacuum canceling member 92 for canceling a vacuum state inside the horizontal staying tube 30 may be further provided on the horizontal staying tube 30.

The backflow prevention method using the pickling liquid backflow prevention device in the pickling tank of the present invention as described above includes a pickling tank body 10 filled with pickling liquid 2 to be immersed in a pickling tank, and the pickling tank body ( 10) is provided horizontally at the lower side of the boiler, and is connected to the boiler power supply unit 29 to provide a main pipe 20 for supplying and moving the steam, and the main pipe 20 is a horizontal provided at the lower side of the pickling tank body 10 It consists of a main pipe 21 and a vertical main pipe 25 extending vertically along the outer wall of the pickling tank body 10 at the end of the horizontal main pipe 21, and a vertical main pipe at the end of the vertical main pipe 25 ( 25) is provided with a horizontal retention pipe 30 that is provided to have the same diameter as the horizontal retention pipe 30, is distributed to and connected to a plurality of horizontal retention pipes 30, has a diameter smaller than that of the horizontal retention pipe 30, and each valve ( 42) is provided with a distribution pipe 40, and a discharge transfer pipe 50 connected to the distribution pipe 40 and immersed in the pickling liquid 2 filled in the pickling tank body 10, The discharge transfer pipe 50 is provided along the inner wall of the pickling tank main body 10 and is provided with a plurality of spray nozzles 52 toward the pickling liquid 2 side, and the boiler power supply unit 29 on the discharge transfer pipe 50 ) When the operation is stopped, the steam sprayed to the pickling solution 2 through the injection nozzle 52 and a backflow prevention port 60 provided to prevent reverse flow of some of the pickling solution in contact with the injection nozzle 52. It is provided to prevent the pickling liquid in the pickling tank body 10 from flowing back from the spray nozzle 52 together with the steam when the boiler for heating and spraying steam into the pickling tank body 10 is stopped.

At this time, the backflow prevention port 60 includes an input path 67 connected to the end of the rear moving pipe 51 and a discharge path 68 connected to the end of the front discharge pipe 52. It is formed in communication with each other through, and the expansion portion 63 is formed between the moving path 62 and the discharge path 68, the expansion inclined surface 64 is formed on the lower side of the expansion portion 63 , A ball valve 65 having a diameter larger than the diameter of the expansion inclined surface 64 is seated on the expansion inclined surface 64, and when the steam moved through the inlet path 67 is moved forward, the ball valve 65 is It is deviated upward from the expansion slope 64 so that the steam moves through the discharge path 68, and when the steam moved through the discharge path 68 moves in the reverse direction, the ball valve 65 rubs against the expansion slope 64 In order to prevent reverse flow toward the input path 67 by closing the movement path 62, a water separator 27 is connected on the main pipe 20 to provide moisture of the steam moving through the main pipe 20 It is desirable to allow this to be removed.

In addition, the discharge moving pipe 50 is divided into a rear moving pipe 51 and a front discharge pipe 52 around the backflow prevention port 60, and the discharge moving pipe 50 is preferably formed of Teflon or FRP material. And, it is preferable that the horizontal retention pipe 30 is provided with a vacuum dissolving member 92 for relieving the vacuum state inside the horizontal retention pipe 30.

According to the pickling liquid backflow prevention device in the pickling tank and the reverse flow prevention method using the backflow prevention device of the present invention as described above, when the boiler that heats and sprays steam into the pickling tank is stopped, the pickling liquid in the pickling tank flows back from the injection nozzle. By preventing this, it is possible to prevent corrosion of the supply pipeline.

The present invention described above has been described with reference to an embodiment shown in the drawings, but this is only exemplary, and various modifications and other equivalent embodiments are possible from those of ordinary skill in the art. Should be clarified. Accordingly, the true technical protection scope of the present invention should be interpreted by the appended claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

2: pickling amount 10: pickling tank body
20: main pipe 21: horizontal main pipe
25: vertical main pipe 29: boiler power supply
30: horizontal stay pipe 40: distribution pipe
50: discharge moving pipe 52: spray nozzle
60: backflow prevention port

Claims (10)

In configuring the pickling liquid backflow prevention device in the pickling tank,
A pickling tank main body 10 in which the pickling liquid 2 to be immersed in the pickling product is filled;
A main pipe 20 horizontally provided on the lower side of the pickling tank body 10 and connected to the boiler power supply unit 29 to supply and move steam;
The main pipe 20 is a horizontal main pipe 21 provided on the lower side of the pickling tank body 10, and a vertical main pipe extending vertically along the outer wall of the pickling tank body 10 at the end of the horizontal main pipe 21 It consists of (25),
A horizontal retention pipe 30 provided to have the same diameter as the vertical main pipe 25 at the end of the vertical main pipe 25;
A distribution pipe 40 distributed over and connected to the horizontal staying pipe 30, having a diameter smaller than that of the horizontal staying pipe 30 and each provided with a valve 42;
A discharge transfer pipe 50 connected to the distribution pipe 40 and immersed in the pickling liquid 2 filled in the pickling tank body 10;
The discharge moving pipe 50 is provided along the inner wall of the pickling tank main body 10 and is provided with a plurality of spray nozzles 52 toward the pickling liquid 2 side,
On the discharge transfer pipe 50, the reverse flow of the steam sprayed to the pickling solution 2 through the injection nozzle 52 when the boiler power supply unit 29 is stopped and a portion of the pickling solution in contact with the injection nozzle 52 Backflow prevention device provided to prevent the pickling liquid in the pickling tank comprising a;
The method of claim 1,
A device for preventing reverse flow of pickling liquid in a pickling tank, characterized in that a water separator (27) is connected to the main pipe (20) to remove moisture from the steam moving through the main pipe (20).
The method of claim 2,
The discharge moving pipe 50 is divided into a rear moving pipe 51 and a front discharge pipe 52 around a backflow prevention port 60, and the discharge moving pipe 50 is configured to be formed of Teflon or FRP material. A device to prevent backflow of pickling liquid in the pickling tank.
The method of claim 3,
The backflow prevention port 60 includes an input path 67 connected to the end of the rear moving pipe 51 and a discharge path 68 connected to the end of the front discharge pipe 52 through a moving path 62. Is formed in communication with,
An expansion part 63 is formed between the moving path 62 and the discharge path 68, and an expansion inclined surface 64 is formed on the lower side of the expansion part 63, and the expansion inclined surface 64 A ball valve 65 having a diameter larger than the diameter of the expansion slope 64 is seated, and when the steam moved through the inlet path 67 moves in the forward direction, the ball valve 65 moves upward from the expansion slope 64 It is separated so that the steam is moved through the discharge path 68, and when the steam moved through the discharge path 68 moves in the reverse direction, the ball valve 65 rubs against the expansion slope 64 and causes the movement path 62 The pickling liquid backflow prevention device in the pickling tank, characterized in that it is configured to prevent reverse flow toward the input path 67 by closing.
The method of claim 4,
A device for preventing reverse flow of pickling liquid in the pickling tank, characterized in that on the horizontal retention pipe (30), a vacuum canceling member (92) for relieving the vacuum state in the horizontal retention pipe (30) is provided.
In implementing a reverse flow prevention method using a pickling liquid reverse flow prevention device in the pickling tank,
A pickling tank main body 10 filled with pickling liquid 2 to be immersed in the pickling tank body 10 is provided, and it is horizontally provided on the lower side of the pickling tank main body 10, and is connected to the boiler power supply unit 29 to supply steam. A main pipe 20 is provided to move, and the main pipe 20 includes a horizontal main pipe 21 provided at a lower portion of the pickling bath body 10, and a pickling bath body 10 at the end of the horizontal main pipe 21. It is composed of a vertical main pipe 25 formed vertically extending along the outer wall of the vertical main pipe 25, and has a horizontal retention pipe 30 provided to have the same diameter as the vertical main pipe 25 at the end of the vertical main pipe 25, and the horizontal A plurality of distribution pipes 40 are distributed and connected on the staying pipe 30, having a diameter smaller than that of the horizontal staying pipe 30 and each provided with a valve 42, and the distribution pipe 40 A discharge transfer pipe 50 connected to and immersed in the pickling liquid 2 filled in the pickling tank main body 10 is provided, and the discharge transfer pipe 50 is provided along the inner wall of the pickling tank main body 10 to provide acid A plurality of spray nozzles 52 are provided toward the washing liquid 2 side, and on the discharge transfer pipe 50, steam that has been sprayed toward the pickling liquid 2 through the injection nozzle 52 when the boiler power supply unit 29 is stopped. And, when the operation of the boiler for heating and spraying steam into the pickling tank body 10 is stopped, provided with a reverse flow prevention port 60 provided to prevent reverse flow of a part of the pickling liquid in contact with the injection nozzle 52 Backflow prevention method using a pickling liquid backflow prevention device in the pickling tank, characterized in that the pickling liquid in the pickling tank body 10 is configured to prevent reverse flow from the injection nozzle 52 together with steam.
The method of claim 6,
The backflow prevention port 60 includes an input path 67 connected to the end of the rear moving pipe 51 and a discharge path 68 connected to the end of the front discharge pipe 52 through a moving path 62. Is formed in communication with, and an extension part 63 is formed between the moving path 62 and the discharge path 68, and an enlarged inclined surface 64 is formed at the lower side of the extension part 63, and the A ball valve 65 having a diameter larger than the diameter of the expansion slope 64 is seated on the expansion slope 64, and when the steam moved through the inlet path 67 moves forward, the ball valve 65 is the expansion slope surface. It is deviated upward from 64 so that the steam moves through the discharge path 68, and when the steam moved through the discharge path 68 moves in the reverse direction, the ball valve 65 rubs against the expansion slope 64 and moves. Backflow prevention method using a pickling liquid backflow prevention device in the pickling tank, characterized in that by closing the furnace (62) to prevent reverse flow toward the input furnace (67).
The method of claim 7,
A method for preventing backflow using a pickling liquid backflow prevention device in a pickling tank, characterized in that a water separator (27) is connected to the main pipe (20) to remove moisture from the steam moving through the main pipe (20).
The method of claim 8,
The discharge moving pipe (50) is divided into a rear moving pipe (51) and a front discharge pipe (52) around a backflow prevention port (60), and the discharge moving pipe (50) is a pickling tank characterized in that it is formed of Teflon or FRP material. Backflow prevention method using the pickling liquid backflow prevention device inside.
The method of claim 9,
A method for preventing reverse flow using a device for preventing reverse flow of pickling liquid in a pickling tank, characterized in that a vacuum canceling member 92 is provided on the horizontal holding pipe 30 to relieve a vacuum state inside the horizontal holding pipe 30.

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