KR20110065618A - Apparatus for guiding strip movement - Google Patents

Abstract

PURPOSE: A device for guiding strip movement is provided to make the zigzag progressing of a steel sheet using a guide device of contactless type. CONSTITUTION: A device for guiding strip movement comprises a movable device body(30) and a magnetic field making pole(50). The movable device body is formed on one side of progressing steel sheet. The movable device moves in one of thickness direction and progressive direction of steel sheet using a transporting unit(10). The magnetic field making pole is connected with the movable device body to generate magnetic field and guides the progressing of the steel sheet. The conveying unit comprises a moving block and a moving arm. The moving block is located between unit bodies in the progressive direction of the steel sheet using a first driving source(14). The moving arm is located on the moving block in the progressive direction of the steel sheet using a second driving source(18) and is connected with the movable device body.

Description

Apparatus for Guiding Strip Movement

The present invention relates to a steel sheet progress guide device for guiding the progress of a continuous steel sheet, in particular, a plated steel sheet undergoing a plating bath, and more specifically, to further construct guide points of the steel sheet through a guide device provided in a non-contact type and movable type. Steel plate progress guide that realizes bending progress (zigzag progress) of steel plate while shortening the existing span between rolls, and prevents vibration and bending of continuous progress (plating) steel sheet and also adjusts tension of steel plate Relates to a device.

In recent years, the corrosion resistance of the steel sheet is improved, the appearance is beautiful, and in particular, the demand for plated steel sheet used for electronic products or automotive steel sheet is increasing.

For example, FIG. 1 shows a plating facility of a known plated steel sheet, in particular a zinc plating facility.

That is, as shown in Figure 1, the steel sheet (cold rolled steel) (S) released from the pay off reel (Pay Off Reel) is heat-treated through a welder and a looper, while passing through the snout and galvanizing bath (110) The molten zinc (110a) filled in the bath is attached to the surface of the steel sheet (S), the gas (inert gas or air) (G) on the surface of the steel sheet in the gas wiping device (air knife) 120 disposed on the plating bath (G) Spray) to adjust the zinc coating thickness of the steel sheet by gas wiping to adjust the zinc plating thickness of the steel sheet.

Then, the steel sheet passes through the cooling facilities (not shown) and the transfer rolls of the upper transfer rolls 130 and passes through the plating deposition amount measuring unit 140, and the measured plating deposition amount is fed back to the gas wiping device 120. The amount of plating adhesion of the steel sheet is adjusted by adjusting the gas discharge pressure, the interval (distance) between the steel sheet S and the gas wiping device, and the like.

Reference numerals 112 and 114, which are not described in FIG. 1, are sink rolls and stabilizing rolls for adjusting the tension of steel sheets and the like.

By the way, the temperature of the molten zinc (110a) filled in the zinc plating bath 110 is about 450 ~ 460 ℃ degree, in particular the steel sheet (S) passing through the plating bath 110 has a variety of steel grades, widths and thicknesses.

Therefore, the load applied to the sink roll 112 (the roll shaft) immersed in the plating bath to guide the progress of the steel sheet may vary depending on the steel sheet, but may take a load of up to 500 kgf, thus generating dynamic characteristics such as vibration. In this case, a load of up to 100 kgf may be applied in the direction of rotation of the sink roll.

Therefore, while the plated steel sheet S passing through the sink roll 112 and the stabilizing roll 114 passes through the upper feed roll 130, there are differences depending on the steel type, width, or thickness of the steel sheet, but vibration is generated. Such vibration of the steel sheet causes plating deviation in the gas wiping device 120, resulting in plating failure of the steel sheet.

On the other hand, as shown in Figure 2, the upper side of the gas wiping device 120 is provided with a steel plate vibration damping mechanism 150 for suppressing the vibration of the steel sheet is advanced.

However, there is a limit in suppressing the vibration of the steel sheet only with such a steel plate vibration suppression mechanism. For example, the known steel plate vibration suppression mechanism 150 suppresses the vibration of the steel sheet by using a mechanical touch roll in contact with the steel sheet, or suppresses the steel sheet vibration by injecting gas into the steel sheet.

However, in the case of using such a mechanical contact roll or gas, the plating liquid adheres to the roll, which causes a problem in the generation of marks on the surface of the steel sheet.

Therefore, the steel plate dust removal mechanism 150 which uses a magnetic force as a non-contact steel plate vibration suppression mechanism for solving the problem of the mechanical contact type or the gas injection type is known.

However, the plated steel sheet vibration suppressing mechanism using the known electromagnetic force is disposed on the upper portion of the steel plate gas wiping device 120 as shown in FIG. It is difficult to change the position of the steel sheet in the advancing direction and to adjust the gap between the damping mechanism and the steel sheet.

For example, in FIG. 1, the distance between the actual plating bath 110 and the upper feed roll 130 is about 50 m. Only the steel plate vibration suppression mechanism 150 provided on the gas wiping device is used for vibration of the steel sheet or bending. Cannot be effectively suppressed.

In addition, since a vibration damping mechanism using a conventional magnetic force is provided in the form of a block (pad), excessive stress concentration occurs when the steel sheet is damped, which in turn causes a steel sheet surface defect such as crushing, in the case of a thin plate of about 0.6t. There was a problem in that the bending of the steel sheet (bending phenomenon of only a specific portion) was easily caused.

Moreover, in recent years, due to the rapid increase in demand for plated steel sheets such as automobile steel sheets, it is necessary to increase the size of the plating equipment or to perform high-speed plating of the steel sheets. It is.

Accordingly, the applicant of the present invention, in addition to the existing plated steel sheet vibration damping mechanism, provides the present invention, to suppress the vibration or bending phenomenon during the progress of the continuous steel sheet, in particular, the plated steel sheet, and to provide a tension control Proposed.

The present invention has been proposed to solve the conventional problems as described above, the object of the present invention is to suppress the generation of vibration of the continuous progress (plating) steel sheet, reduce the amount of semi-curvature of the steel sheet, and also to adjust the tension of the steel sheet, Ultimately, to provide a steel sheet progress guide device for improving the plating quality of the steel sheet.

As a technical aspect for achieving the above object, the present invention provides a mobile device provided on at least one side of the traveling steel sheet and provided to be movable in at least one of the thickness direction and the traveling direction of the traveling steel sheet through the transfer unit. body; And,

A magnetic field generating pawl associated with the mobile device body and provided to generate a magnetic field to guide the traveling steel sheet;

It provides a steel sheet progress guide device configured to include.

Preferably, the transfer unit, the moving block provided to be movable in the advancing direction of the steel plate between the unit body via the first drive source provided on the unit body, the thickness of the steel sheet via the second drive source provided to the moving block It may be configured to include a movable arm provided to be movable in the direction and the movable device body is connected.

More preferably, the first drive source is composed of a screw bar installed as a motor between the unit body as a drive and penetrated through the moving block, and is connected between the unit bodies to both sides of the first drive source. It further comprises a first guide rod provided to guide the movement of the moving block through the moving block.

More preferably, the second drive source is mounted to the movable block in the thickness direction of the steel plate, provided as a drive cylinder to which the movable device body is connected, both sides of the drive cylinder is connected to the movable device body and the moving block It further comprises a second guide rod provided to guide the movement of the mobile device body through the.

At this time, the steel sheet suction side and the propulsion side devices disposed on both sides of the advanced steel sheet may be alternately arranged in the steel plate traveling direction to implement the bending progress of the steel sheet.

On the other hand, the present invention as another technical aspect, the apparatus body disposed on both sides of the progress steel sheet; And,

A magnetic field generating pole mounted to the apparatus body to generate a magnetic field to guide the traveling steel sheet;

It comprises a, and the steel sheet suction side and the propulsion side devices disposed on both sides of the advanced steel sheet is alternately arranged in the steel plate progress direction to provide a steel sheet progress guide device configured to implement the bending progress of the steel sheet.

According to the steel sheet progress guide device of the present invention, since the guide points of the advanced steel sheet is further constructed through a guide device provided in a non-contact and movable type, the bending progress of the steel sheet while reducing the existing (feed) span between rolls ( Zigzag progression).

Therefore, the present invention is to suppress the generation of vibration of the continuous progress (plating) steel sheet through the guide of the advanced steel sheet as described above, to reduce the amount of half-curvature of the steel sheet, and also to adjust the tension of the steel sheet.

As a result, the present invention eliminates the plating deviation in the gas wiping device, in particular, by suppressing the vibration of the plated steel sheet continuously running in the section from the gas wiping device in the plating bath to the upper feed roll of the rough steel plate. It is to provide various excellent effects such as improving the plating quality of the steel sheet.

Hereinafter, a preferred embodiment of the present invention according to the accompanying drawings.

First, Figure 2 shows the installation state of the steel sheet progress guide device 1 according to the present invention.

However, in the present embodiment, the steel sheet progress guide device 1 of the present invention is installed in the plate section (section between the gas wiping device 120 and the upper feed roll 130) of the plated steel sheet (S), in particular, galvanized steel sheet. Explain as. However, although not shown in the drawings, the apparatus of the present invention can be applied to other continuous production processes of steel sheet based on the continuous progress of other steel sheets.

For example, as shown in FIG. 2, the steel plate advancing guide apparatus 1 of the present invention is basically a plate section of the plated steel sheet S using (magnetic) magnetic fields as described in detail below. One or more may be disposed between the upper steel plate vibration removing mechanism 150 and the upper feed roll 130 of the gas wiping device 120 positioned directly above the plating bath 110.

For example, in FIG. 2, the distance in the actual process between the steel plate vibration suppression mechanism 150 and the upper feed roll 130 is about 50 m. When the apparatus of the present invention is installed in two stages (or three stages) in the vertical direction, The interval (guide point) for guiding the progress of the steel sheet is shorter than the gap between the existing steel sheet vibration mechanism and the upper feed roll (130).

That is, due to the present invention the plated steel sheet (S), the steel sheet vibration mechanism-> the lower invention device (1)-> the upper invention device-> the upper feed roll 130 when the sheet steel guide point is increased when the plate This shortens the vibration or bending generation section of the steel sheet at the time of mailing, thereby eliminating room for vibration or bending of the steel sheet.

Further, as will be described in detail below, the apparatus of the present invention is divided into a steel plate suction side apparatus and a steel plate propulsion side apparatus and alternately arranged in the steel plate traveling direction, so that the plated steel sheet S is as shown in FIG. After the steel plate vibration removing mechanism 150, the zigzag progression, that is, the bending progression between the upper feed rolls 130 is implemented.

Therefore, the bending progress of the steel sheet disperses the stress of the steel sheet as compared with the conventional straight vertical movement, thereby further preventing the occurrence of vibration or bending, and also facilitates the tension control of the steel sheet through the suction and propulsion of the steel sheet.

Therefore, the apparatus of the present invention, in particular, guides the progress of the steel sheet in a non-contact manner, it is preferable to guide the progress of the plated steel sheet conveyed while the plating liquid is attached to the surface, but is not necessarily limited to this as described above.

On the other hand, Figure 2 is shown that the device body 30 of the device of the present invention is provided as a movable type, as described above, the present invention, even if the device does not move even if the implementation of the zigzag bending process of the steel sheet Since suppressing the vibration of the steel sheet or bending, it will be possible that the device body 30 is arranged in a fixed manner irrespective of the transfer unit 10.

However, in the present invention, since the apparatus body 30 is provided to be movable in the steel plate thickness direction and the traveling direction through the transfer unit 10 in the apparatus 1 of the present invention, it is possible to control the degree of bending of the steel sheet. It demonstrates with the apparatus provided with a unit.

In summary, as shown in FIG. 2, the apparatus 1 of the present invention is disposed on both sides of the plated steel sheet S which is advanced from the steel plate plating bath to the upper feed roll 130, and at least two pairs of these pairs are at least up and down. It is arranged to reduce the steel sheet guide point spacing, as shown in Figure 2, the interval between each of the steel sheet vibration mechanism 150 and the pair of the invention device (1) and the upper feed roll 130 of the upper and lower sides is constant It is preferable to arrange.

Alternatively, the at least one pair of apparatuses of the present invention may be closer to the steel plate vibration suppression mechanism 150 side, so that the plating thickness control in the gas wiping apparatus 1 is stably maintained.

On the other hand, as shown in Figures 2, 3 and 6, the steel sheet advance guide device 1 of the present invention, specifically provided on at least one side of the advanced steel sheet while the transfer unit 10 of the steel sheet The mobile device body 30 is provided to be movable in at least one of the thickness direction (horizontal direction) and the traveling direction (vertical direction), and generates a magnetic field while cooperating with the mobile device body 30 to guide the progress of the steel sheet. And magnetic field generating poles 50 provided to do so.

Therefore, in the apparatus 1 of the present invention, the movable device body 30 is moved in the thickness direction and the moving direction of the steel sheet through the transfer unit 10, and the magnetic field generating pole 50 provided in the movable device body 30 as described above. In accordance with the direction of the (electric) magnetic field generated in the) as shown in Figure 2, while the suction and propulsion of the steel plate is implemented (see the arrow), the steel sheet is stably transferred to the upper feed roll 130 without vibration or bending.

At this time, as shown in Figures 3 to 8, the transfer unit 10 in the apparatus of the present invention, the unit body 12 is provided as a block (plate) of the rectangular shape arranged up and down in the steel plate traveling direction A moving block 16 provided to reciprocate in a traveling direction, ie, a vertical direction, of the steel plate between the unit bodies via a first drive source 14 provided in the second drive source 18 provided in the moving block 16. It is provided so as to be capable of reciprocating movement in the thickness direction of the steel sheet and is configured to include a movable arm 20 to which the movable device body 30 is connected.

At this time, the unit body 12 is not shown separately in the figure, but is connected to the fixed frame of the fixture is fixedly arranged.

On the other hand, the first drive source 14 may be provided as a screw bar installed between the unit body to drive as a motor 16 and fastened through the moving block 12.

Of course, in the present embodiment, the first drive source 14 is shown and described with a screw bar, but it will be possible to enable the movement of the moving block as another drive source, for example, a drive cylinder.

In addition, the second driving source 18 may be mounted to the moving block 16 in a steel plate thickness direction (horizontal direction), and may be provided as a driving cylinder to which the mobile device body is connected.

As described above, the second drive source 18 of the drive cylinder can also use a screw bar as a matter of course.

In addition, more preferably, first guide rods 22 connected between the unit bodies 12 and penetrating the moving block 16 are provided at both sides of the screw bar, which is the first driving source 14. Can be.

At this time, the first drive source 14, which is the screw bar, is connected to the motor 14a on the unit body by the coupling, such a screw bar is fastened through the screw groove (unsigned) formed in the moving block, the lower end Is fastened to a bearing block (unsigned) installed in the lower unit body 12.

Therefore, when the driving motor 14a is driven, the screw bar 14 moves in the advancing direction (vertical direction) of the steel plate while the moving block 14 is supported by the first guide rod 22 according to the rotational direction thereof. do.

Next, the movable arm 20 connected to the rod 18a of the driving cylinder 18 is fixed to the movable block 14 as the driving cylinder, which is the second driving source 18, moves forward or backward in the thickness direction of the steel plate. The movable device body 30 is moved horizontally toward the steel plate, and thus, the distance between the steel plate and the magnetic field generating pole 50 is adjusted according to the movement of the steel plate of the movable device body 30, which is the steel sheet suction force or Allows adjustment of propulsion.

In addition, since the suction or propulsion position of the steel plate of the magnetic field generating pole 50 is adjusted in accordance with the movement of the moving block as described above, as shown in FIG. It is to ensure that it is implemented stably without being.

In addition, both sides of the driving cylinder operated in the thickness direction (horizontal direction) of the steel plate, which is the second driving source 18, are connected to the movable device body 30 and pass through the movable block 16 to move the movable device body 30. It may further include a second guide rod (24) provided to guide the movement of the.

That is, since the second guide rod 24 passes through a hole formed in the moving block, the movable device body 30 stably moves the device body 30 when the horizontal drive cylinder of the second driving source 18 is operated. Will keep it.

On the other hand, as shown in Figures 3 and 6, the moving block 16 in the device of the present invention in a planar 'T' shape, the screw bar of the first drive source 14 and the first guide rod 22 is linked The first portion 16a and the second driving source 18, which is a horizontal driving cylinder, may be mounted and the second portion 16b to which the second guide rod 24 is connected.

In this case, preferably, the first and second guide rods 22 and 24 may be provided with liner rings for suppressing friction with the guide rods (not shown) of the moving block passing through the guide rods. While they closely pass through the moving block, it is necessary to ensure that the movement of the moving block and the mobile device body 30 is eccentrically and stably implemented. By the way, the operation of the first and second drive sources of the apparatus of the present invention is not continuously repeated, but only when adjusting the device arrangement according to the steel grade, thickness, width and plate speed of the steel sheet, there will be no equipment overload.

Next, the magnetic field generating pole 50 of the apparatus of the present invention, which generates a (full) magnetic field that suppresses vibration or bending when the steel sheet is passed through the suction or propulsion of the steel sheet, the steel sheet is applied to the mobile device body 30. It may include a core member 52 which is mounted toward the core member, and an electromagnetic coil 54 that is wound around the core member 52 and generates a magnetic field upon application of current. Alternatively, the core member itself may be a permanent magnet.

Of course, in order to control the magnetic field, a form in which the electromagnetic coil is wound around the core member to allow the direction of the magnetic field to be adjusted in accordance with the application of electric current may be preferable.

On the other hand, as shown in Figures 2, 3 and 6, the magnetic field generating pole 50 of the present invention is to suck or push the steel plate in accordance with the magnetic field direction.

At this time, More preferably, the magnetic field generating pole 50 on the steel sheet suction side, as shown in Figures 2 and 6 to 8, the plurality of core members (52a) (52b) to the movable device body 30 To install, and to coil the electromagnetic coils (54a) (54b), respectively, to configure the core member in a multi-stage type, for example, to provide a two-stage core member of the '' 'shape.

Therefore, the steel sheet progress guide device 1 of the present invention as shown in Figure 2, when guiding through the plated steel sheet (S), the device is disposed between the gas wiping device 120 and the upper feed roll 130, On the suction side of the steel sheet, a magnetic field generating pole 50 including a multi-stage core member for increasing magnetic field generation is provided, and on the steel plate propulsion side, the magnetic field generating pole 50 including one end of the core member is staggered from each other in the steel plate traveling direction. It is preferable to arrange.

At this time, while the steel sheet passes through the steel sheet suction side and the propulsion side, the tension control is also easily performed.

For example, in the apparatus having the two-stage magnetic field generating pole 50 on the steel sheet suction side, each electromagnetic coil wound on the core member is applied with DC or AC current to generate a magnetic field direction for sucking the steel sheet. The magnetic field force is stronger than a single magnetic field generating pole on the propulsion side, so that the steel sheet suction can be more stably implemented.

For example, in the magnetic field generating pole 50 of the present invention, when the current application direction is adjusted to the electromagnetic coil wound on the core member, the generated magnetic field direction is adjusted, and thus, as shown in FIGS. 2, 3, and 7, By adjusting the direction of magnetic field generation, the zigzag arrangement of the steel sheet suction and propulsion side apparatus of the present invention is possible.

On the other hand, as shown in Figs. 3 and 7, in the device 1 of the present invention, the magnetic tension is increased at the end of each of the core members 52, 52a, 52b of the magnetic field generating pole 50. It further includes pole extension ends 56, 56a and 56b (also referred to as pole shoes) which have an area larger than that of the core member.

Since the pole extension end faces the steel plate in the form of larger area than the pole, the steel plate distribution and uniformity of the magnetic field affecting the steel plate are increased, so that partial distortion or bending of the steel plate is not generated during the suction or propulsion of the steel plate. Will not. Particularly, even in the case of thin plates, partial stress concentration does not occur, so that the plate of the steel sheet can be stably implemented.

At this time, the core member of the magnetic field generating pole 50 in the device of the present invention, the mobile device body 30 is connected to the transfer unit 10 is actually a rectangular plate form, such a device body is preferably cut It is preferable to form it with a non-magnetic substance which does not affect, but it can be manufactured, for example from stainless steel, a ceramic, etc.

Meanwhile, in the apparatus of the present invention, the core member may be formed of a magnetic material. For example, the core member may be manufactured by laminating magnetic plates.

In this case, the magnetic field generated in the magnetic field generating pole is blocked in the emission of the device body in the rear, the leakage of the magnetic field through the device body will be blocked so that the influence of the steel sheet of the magnetic field is not lowered.

On the other hand, as shown in Figures 2 and 7, between the two-stage core member 52a, 52b of the 'c' shape in the device of the present invention and the electromagnetic pole 50 (extended end 56 of) Preferably, a rangefinder sensor 70 (displacement sensor) for measuring the distance (gap) between the traveling steel sheet, that is, the plated steel sheet S, is further disposed. Such a rangefinder sensor 70 may include an apparatus controller (see FIG. 2). May be electrically connected to C).

In addition, the steel plate vibration suppression mechanism 150 may be electrically connected to the power supply unit P, and the control unit may control the steel sheet vibration suppression through the steel sheet vibration suppression mechanism by controlling the power supply.

Therefore, in the apparatus of the present invention, when the gap between the magnetic field generating pole 50 and the steel sheet is always transmitted to the controller C in real time, the controller C drives the motor 14a for driving the screw bar, which is the first drive source 14 of the apparatus. ) And a power supply (P) for applying current to the coil (54), while controlling the hydraulic or pneumatic supply unit (U), to control the forward and backward operation of the horizontal drive cylinder (second drive source 18) do.

As a result, the present invention in real time, while passing through the gas wiping device 120 in the steel plate plating line and guides the plate of the steel sheet between the upper feed roll 130, suppress the vibration and the half-curvature due to the conventional steel plate stress concentration Without forming, it is possible to allow a stable progression, which in turn will precisely maintain the steel plate thickness control in the gas wiping device.

In particular, the present invention is to guide the optimum steel sheet plate can be automatically controlled in real time the interval between the steel sheets of the magnetic field generating pole or the upper and lower positions of the device via the first, second drive source.

On the other hand, preferably, as shown in Fig. 2, the apparatus of the present invention having the two-stage core member on the steel sheet suction side and the suction side and the propulsion side apparatus of the present invention having the one end core member are arranged in a jig to suck and propel the steel sheet. Of course, this is done to take turns.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. I would like to know that those with ordinary knowledge in the industry can easily know

1 is a schematic diagram showing a plating process of a galvanized steel sheet related to the present invention

Figure 2 is a block diagram showing a galvanized steel sheet is applied to the steel sheet progress guide device according to the present invention

3 to 5 is a perspective view, a side view and a plan view showing a steel plate propulsion side device in the steel sheet progress guide apparatus according to the present invention

6 to 8 is a perspective view, a side view and a plan view showing the steel sheet suction side apparatus in the steel sheet progress guide apparatus according to the present invention

Explanation of symbols on the main parts of the drawings

1 .... Steel plate progress guide device 10 .... Transfer unit

12 .... Unit body 14 .... First drive source (screw bar)

16 .... Moving block 18 .... Second drive source (drive cylinder)

20..Move arm 22,24 .... 1st, 2nd guide rod

30 .... Mobile device body 50 .... Magnetic field generating pole

52 ... core member 54 ... electromagnetic coil

56 .... extension pole 70 .... odometer sensor

C .... Device control unit P .... Motor and coil power supply unit

U .... cylinder hydraulic supply unit 130 .... upper feed roll

150 ... steel plate vibration suppressor

Claims (6)

A mobile device body provided on at least one side of the traveling steel plate and provided to be movable in at least one of a thickness direction and a traveling direction of the traveling steel plate through a transfer unit; And, A magnetic field generating pawl associated with the mobile device body and provided to generate a magnetic field to guide the traveling steel sheet; Steel plate progress guide device configured to include. The method of claim 1, The transfer unit may include a moving block provided to be movable in a moving direction of the steel plate between the unit bodies via a first driving source provided in the unit body; And, A movable arm provided to be movable in the thickness direction of the steel sheet through a second driving source provided in the movable block and to which the movable device body is connected; Steel sheet progress guide device comprising a. The method of claim 2, The first drive source is composed of a screw bar installed to drive as a motor between the unit body and fastened to the moving block, And a first guide rod connected to both sides of the first driving source and provided to guide the movement of the moving block through the moving block. The method of claim 2, The second drive source is mounted to the moving block in the thickness direction of the steel plate, provided as a drive cylinder to which the movable device body is connected, Both sides of the drive cylinder further comprises a second guide rod connected to the movable device body and provided to guide the movement of the movable device body through the moving block. The method according to any one of claims 1 to 4, The steel sheet suction side and the propulsion side device disposed on both sides of the advanced steel sheet alternately arranged in the direction of the steel sheet to implement the bending progress of the steel sheet. Device bodies disposed on both sides of the steel sheet; And, A magnetic field generating pole mounted to the apparatus body to generate a magnetic field to guide the traveling steel sheet; And a steel plate suction side and a propulsion side device disposed on both sides of the advanced steel sheet alternately disposed in the steel sheet traveling direction to implement bending progress of the steel sheet.

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