KR100760565B1 - Iron powder removal apparatus of adhesion on conduction roll for strip plate - Google Patents

Abstract

An object of the present invention is to separate the iron foreign matter adhering to the surface of the conductive roll contained in the electrolytic solution filled in the plating cell to perform the plating operation on the strip surface by using a magnetic force generated in the magnet and to remove the iron foreign matter attached to the magnet It is removed using a brush roll to prevent deterioration of quality due to iron foreign substances.

In order to achieve the above object, the present invention provides a permanent magnet 6 attached to both edge portions of the conductive roll 2 installed inside the plating cell 1 to plate the surface of the strip S. On the upper side of the cell 1 is provided a support member 10 which is moved in the width direction of the conducting roll 2 by the driving of the motor 11, the upper portion of the support member is moved by a cylinder 26 A driving roll 23 is supported and supported by the support arm 24 and rotates in contact with the conductive roll. The upper surface of the supporting member is installed close to the circumferential surface of the conductive roll and is rotated by receiving the rotational force of the driving roll. A circular magnet wheel 20 for collecting the foreign matter attached to the roll is provided, the lower portion of the opposite side of the magnet wheel in contact with the conductive roll is rotated by the rotational force of the driving roll while receiving the metallic foreign matter attached to the magnet wheel A brush roll 30 for separating is provided Will.

Plating cell, conductive roll, brush roll, electromagnet, permanent magnet

Description

Iron powder removal apparatus of adhesion on conduction roll for strip plate}

1 is a side view showing a typical plating cell.

Figure 2 is a perspective view of the iron component removal apparatus according to the present invention.

3 is a cross-sectional view showing an iron component removing device according to the present invention.

4 is a cross-sectional view taken along the line AA of FIG.

Figure 5 is a front view showing a state of removing the iron component with the iron component removal apparatus according to the present invention.

※ Explanation of symbols about main part of drawing ※

S: Strip 1: Plating Cell

2: conductive roll 6: permanent magnet

10: support member `11: motor

14: central axis 16: rib

17: electromagnet 18: slip ring

20: magnet wheel 21: magnetic block

23: drive roll 24: support arm

26: cylinder 30: brush roll

The present invention relates to a removal apparatus for removing iron (Fe) component foreign matter adhering to the surface of the conductive roll contained in the plating cell to pass through the strip in the plated steel sheet manufacturing process to perform the plating operation, and more specifically, By installing circular permanent magnets in contact with both edges, it collects the iron foreign substances attached to the surface of the conductive roll rotated inside the plating bath filled with the electrolytic solution by the magnetic force of permanent magnets and electromagnets, and collects the collected foreign substances on the brush roll. The present invention relates to an iron component removing device attached to a conductive roll for strip plating that can be removed by using.

In general, in the plated steel sheet manufacturing process, when plating the surface of the strip (S), the strip (S) is passed through the plating cell (1) filled with the electrolyte, and the conductive roll is immersed in the electrolyte in the plating cell (1). (2) is rotated and the strip (S) is in close contact with the surface of the conducting roll (2) is rotated while the current flows into the plating cell (1) by the anode (4) seated at a predetermined interval to the bridge (3) Zinc (Zn) ions in the electrolytic solution are electrically bonded to the strip (S) and plating is performed.

When the electroplating operation in such a plating cell (1), the iron component is precipitated during the electrical coupling process of the strip (S) and zinc ions in the electrolytic solution in the plating cell (1) and the iron component remains in the electrolyte and the strip (S) Hot-rolled and steel-making peeling defects on the surface of the strip S, such as an edge portion, are adsorbed onto the conductive roll 2 and the refractive roll 5 while passing through the plating cell 1 so that iron components are adsorbed on the surface of the conductive roll. It is causing the strip surface dent defect.

In particular, when the iron component is adsorbed to the band portion of the conduction roll 2 and the current flows into the conduction roll 2, the current is concentrated in the region where the iron component is adsorbed, so that spot defects on the surface of the strip S due to the arc are generated. This can reduce the product quality.

Therefore, in order to improve the quality, the iron components attached to the conductive rolls (2) and the refraction rolls (5) should be removed. In this case, the workability is remarkably degraded by stopping the line and removing the iron components. There will be a number of problems, such as the risk of safety accidents.

The present invention has been invented to solve the above problems, the object of the present invention is to provide a magnetic force generated in a circular magnet to the foreign matter attached to the surface of the conductive roll contained in the electrolytic solution filled in the plating cell to perform the plating operation on the strip surface Separation by using iron and foreign substances attached to the magnet by using a brush roll to remove the iron components contained in the electrolyte solution to prevent the deterioration of quality due to the iron foreign substances and to protect workers from the risk of safety accidents In providing.

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

Iron removal device attached to the conductive strip for strip plating of the present invention is installed in the plating cell to remove the iron foreign matter attached to the conductive roll to plate the surface of the strip, both sides of the conductive roll, Permanent magnet is attached to the edge portion, the upper side of the plating cell is provided with a support member which is moved in the width direction of the conductive roll by the drive of the motor, the upper portion of the support member supported by the support arm moved by the cylinder And a driving roll which is rotated in contact with the conductive roll, and is installed on the upper surface of the support member in close proximity to the circumferential surface of the conductive roll and is rotated by the rotational force of the driving roll to collect foreign substances attached to the conductive roll. A circular magnet wheel is provided, and is rotated by receiving the rotational force of the driving roll on the lower side opposite the magnet wheel to which the conductive roll is in contact. A brush roll for separating the adhered metallic foreign matter is provided.

Referring to the present invention having such characteristics in detail as follows.

Figure 2 is a perspective view showing an iron component removing apparatus according to the present invention, Figure 3 is a cross-sectional view showing an iron component removing apparatus according to the present invention, Figure 4 is a cross-sectional view taken along line AA of FIG.

As referred to herein, the iron component removing device of the present invention has a plurality of permanent magnets 6 attached to both corners of the conductive roll 2 in the circumferential direction, and the motor 11 on the upper surface of one side of the plating cell 1. The support member 10 which is moved in the width direction of the conducting roll 2 is installed by the ball screw 12 is rotated in connection with the) and as long as the lower side of the support member 10 to guide the left / right movement A pair of guides 13 are provided.

On the other hand, the upper surface of the support member 10 is fixed to the bearing 15 so that the central shaft 14 is rotatable, and a plurality of ribs 16 are provided on the central circumferential surface of the central shaft 14 and the ribs ( The electromagnet 17 is provided in the edge part of 16, respectively.                     

And the inside of the rib 16 is embedded with a wire for supplying power to the electromagnet 17, the wire is connected to the terminal 19 to selectively contact the slip ring 18 built in the central shaft 14 On the outside of the electromagnet 17 is a circular magnet wheel 20 is installed.

The magnetic wheel 20 has the same number of magnetic blocks 21 and the same number as the rib 16 is installed at equal intervals, the magnetic block 20 is preferably installed so as to be located between the ribs 16.

In addition, the support arm 24 supporting the driving roll 23 is coupled to the hinge 25 at one side of the upper end of the support member 10 and the support arm 24 is selectively moved to the lower portion of the support arm 24. The cylinder 26 to be connected is connected, and the drive pulley 27 is installed on the rotating shaft of the drive roll 23.

A driven gear 32 is formed on an outer circumferential surface of the central shaft 14, an idle gear 31 is gear-coupled to the driven gear 32, and a driving pulley 27 to a rotating shaft to which the idle gear 31 is coupled. The idle pulley 29 is rotated by receiving the rotation force of the belt through the belt 28 is installed.

On the other hand, the brush roll 30 is installed on the other side of the magnet wheel 20, ie, in the opposite direction in which the conductive roll 2 is in contact, and the brush roll 30 is connected to the brush roll 30 through the belt 28 coupled to the idle pulley 29. A driven pulley 33 is installed to rotate by the rotational force transmitted.

Referring to the operation of the present invention made of the above configuration as follows.

Iron foreign matter contained in the electrolyte is contained in the permanent magnet 6 attached to both edge portions of the conductive roll 2 for plating the surface of the strip S while being rotated in the electrolyte filled in the plating cell 1. Attached.

At this time, since the ball screw 12 is rotated when the motor 11 is driven, the support member 10 coupled to the ball screw 12 is moved while being guided by the guide 13 and moved as described above. 20) stops the motor 11 when moved to the edge of the conductive roll (2) to which the iron-based foreign matter is attached.

In this state, when the cylinder 26 is operated, the support arm 24 coupled to the cylinder 26 moves to the conduction roll 2 side, so that the driving roll 23 installed on the support arm 24 is the conduction roll ( It will rotate in close contact with 2).

The driving roll 23 is rotated and the rotational force is to rotate the idle pulley 29 and the driven pulley 33 through the belt 28 and the idle pulley 29 when the idle pulley 29 is rotated Since the idle gear 31 is installed on the rotary shaft of the rotation center shaft 14 is rotated by the driven gear 32 geared with the idle gear 31.

When the central shaft 14 rotates, the magnet wheel 20 fixed by the ribs 16 rotates, so that the foreign matter attached to the edge of the conductive roll 2 adheres to the surface of the magnet wheel 20. Will be.

Meanwhile, when the electromagnet 17 installed on the rib 16 supporting the magnet wheel 20 approaches the conducting roll 2, the magnetic force is supplied from the slip ring 18 embedded in the central shaft 14. At this time, the magnetic force applied to the magnet wheel 20 is greater than the magnetic force of the permanent magnet (6) attached to the conductive roll (2), so that the iron-based foreign matter attached to the permanent magnet (6) is a magnetic wheel ( 20) is attached to the surface.

As the magnet wheel 20 rotates as described above, the iron-based foreign matter attached to the permanent magnet 6 is separated.

On the other hand, the brush roll 30 installed on the other upper surface of the support member 10 is rotated by the rotational force received through the belt 28 installed on the idle pulley 29, the iron component attached to the surface of the magnet wheel 20 The foreign matter is separated by the brush roll 30 and the iron foreign matter not separated by the brush roll 30 moves the surface of the magnet wheel 20 and when the foreign matter is located in the magnetic shield block 21. Since the magnetic force is blocked is to be separated by the brush roll (30).

As described above, the present invention provides the iron portion contained in the electrolyte by the iron component and the strip surface peeling defect, which are precipitated during the electrical coupling process between the strip and the zinc ion in the electrolytic solution in the plating cell during strip surface electroplating, and the edge portion of the conductive roll. It is attached to the permanent magnet attached to the permanent magnet attached to the permanent magnet and the foreign matter attached to the surface of the magnetic wheel is reattached using a brush roll. At the time of adsorption, there is a unique effect that can prevent the occurrence of spot defects, etc., in which an electric current is concentrated at an iron adsorption site.

Claims (2)

In the removal device is installed in the plating cell (1) to remove the foreign matter of iron components attached to the conductive roll (2) for plating the surface of the strip (S), Permanent magnets 6 are attached to both edge portions of the conductive roll, and the support member 10 is moved in the width direction of the conductive roll 2 by driving the motor 11 on the upper side of the plating cell 1. ) Is provided, and a driving roll 23 which is supported by the support arm 24 moved by the cylinder 26 and rotates in contact with the conductive roll is provided on the upper portion of the support member. A circular magnet wheel 20 is installed, which is installed close to the circumferential surface of the conductive roll and receives rotational force of the driving roll to collect iron foreign substances attached to the conductive roll, and is opposite to the magnetic wheel to which the conductive roll is in contact. Iron component removal apparatus attached to the conductive roll for strip plating characterized in that the brush roll 30 for separating the metallic foreign matter attached to the magnet wheel while being rotated by receiving the rotational force of the drive roll. 2. The center of claim 1, wherein each of the plurality of ribs 16 formed on the magnet wheel is provided with an electromagnet 17, and a center for supporting the magnet wheel so that power is supplied to an electromagnet provided on the rib side adjacent to the conducting roll of the electromagnet. An arc-shaped slip ring 18 is provided inside the shaft 14, and a plurality of magnetic shielding blocks 21 are provided on the circumferential surface of the magnet wheel. Removal device.

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