KR102252091B1 - Strip edge overcoating protect device - Google Patents

Abstract

In the steel plate edge overplating prevention apparatus according to an embodiment of the present invention, in the steel plate edge overplating prevention apparatus disposed on both sides of a steel plate transferred between an upper anode and a lower anode, the body in which a processing groove is formed; A flat plate seated in the processing groove; A body cover disposed on the upper side of the flat plate and fixedly coupled to the body; An upper cover disposed on the front and upper portions of the body and coupled by fixing bolts; It includes a lower cover disposed at the front lower portion of the body and coupled by a fixing bolt.

Description

Steel plate edge overcoating prevention device {STRIP EDGE OVERCOATING PROTECT DEVICE}

The present invention relates to a steel plate edge overplating prevention apparatus, and to a steel plate edge overplating prevention apparatus capable of preventing the occurrence of overplating and dents on the edge of the steel plate.

In general, the electroplating process, which is one of the iron making processes, is performed by electrochemically decomposing and bonding a plating solution to form a zinc (Zn) coating film on the surface of the cold-rolled steel sheet. This electroplating process generally has a horizontal cell structure in order to continuously proceed to produce a large amount of plated steel sheet.

Normally horizontal cells use sulfuric acid, which has low electrical conductivity, as an electrolyte, so the distance between the poles between the steel plate (-) and the anode (+) is shortened to 9 mm (in the case of a normal vertical cell, 50 mm with a hydrochloric acid bath) to reduce overvoltage. prevent.

However, an edge mask is used to prevent the occurrence of overplating and dendritic crystals at the edge of the steel plate at a short distance, but equipment accidents occur due to collisions with the steel plate during proximity control. Dendritic crystals are generated.

In addition, referring to FIG. 1, the edge of the steel plate 100 moving between the upper anode 110 and the lower anode 120 is caused by overplating due to an overcurrent (C). Tree) grows in the shape of a tree, and the size of the tree-shaped dendritic crystal grows as the high-quality steel with a large amount of plating is produced.

In addition, since dendritic crystals are plated abnormally, if they collide with the plating solution supplied during the plating process and fall out, they are inserted between the steel plate 100 and the conductor roll 200 to cause a dent in the steel plate 100. , There is a need for a sudden repair due to the surface imprinting of the conduction roll 200.

When the dendritic crystal grows to a certain size or more and falls off, there is a problem that the dropped dendritic crystal is not dissolved in the plating solution until it goes down to the circulation tank and then rises back to the plating bath, causing a dent.

In addition, the existing edge mask device is manufactured by dipping by lining it with FRP (Fiber glass Reinforced Plastic) material, but FRP, a non-conductor, is a material that combines glass fiber with epoxy resin and uses sulfuric acid as an electrolyte for plating. When it comes into contact with the solution, the epoxy resin melts and the bonding strength is weakened, so it is easily damaged. In addition, in an edge mask device made of an FRP material, the thin side of the edge mask begins to be damaged first, and the portion in contact with the steel plate is irregularly damaged, resulting in deterioration of the edge mask function.

Meanwhile, FIG. 2 is a plan view for explaining the flow of the plating solution after spraying the positive pressure nozzle 300 in the case of the conventional edge mask member. If there is no edge mask, the plating solution flows out to the side of the steel plate 100 during the plating process. There is a problem in that it can flow out together with the dendrite to the front end, the rear end, and the left and right conduction rolls 200 together.

3 is a plan view for explaining the flow of the plating solution after spraying the positive pressure nozzle solution when there is a conventional edge mask. When the edge mask 500 is installed as shown in FIG. 3, the plating solution does not flow out to the side and the front end of the plating bath and Since it flows only to the rear end, in order to reduce the generation of dendrites when working over 70g/m2, the edge mask should be placed close to the steel plate 100 to prevent current concentration.

However, referring to FIG. 4, there is a gap between the steel plate 100 and the edge mask 500, and the closer to the steel plate to reduce the gap, the greater the amount of dents generated. In the solution parallel flow section in which the solution (L) flows in the forward direction, when the dendrites are removed, there is a problem that a dent may occur due to the rotational direction of the energization roll 200 in the forward direction in which the dentrite moves toward the energization roll 200. .

Korean Patent Registration No. 10-1598180 (registered on February 22, 2016)

An object of the present invention is to prevent overplating by overlapping the edges of the steel plate so that the current is not concentrated, and even if dendrites are generated, the dendrites are discharged through the pipe of the plate together with the plating solution to prevent dents. It is to provide a device to prevent overplating of the edge of the steel sheet.

In the steel plate edge overplating prevention apparatus according to an embodiment of the present invention, in the steel plate edge overplating prevention apparatus disposed on both sides of a steel plate transferred between an upper anode and a lower anode, the body in which a processing groove is formed; A flat plate seated in the processing groove; A body cover disposed on the upper side of the flat plate and fixedly coupled to the body; An upper cover disposed on the front and upper portions of the body and coupled by fixing bolts; It includes a lower cover disposed at the front lower portion of the body and coupled by a fixing bolt.

In the above, the body is characterized in that a plurality of discharge grooves for inserting a pipe are formed on one side, and a pipe disposed in the discharge groove is provided on the flat plate.

In the above, the body is provided with a separation preventing groove for fixing the plate to be seated and not flowing, and the plate is characterized in that the separation prevention protrusion corresponding to the separation preventing groove is formed.

In the above, the upper cover and the lower cover are coupled by a fixing bolt in front of the body to form a deguon shape.

The steel plate edge overplating prevention apparatus of the present invention has an effect of preventing overplating of the edge of the steel plate by overlapping the edges of the steel plate so that the current is not concentrated.

In addition, even if dendrites are generated, the dendrites are discharged together with the plating solution through a flat pipe, so that they are not guided to the energizing rolls, thereby preventing the occurrence of dents.

In addition, there is an economic effect that can be used semi-permanently by forming a rigid structure as the flat plate made of steel or titanium is stably fixed to the separation preventing groove of the body.

1 is a view showing the generation of dendritic crystals occurring at the edge of a steel sheet in a conventional electroplating process.
2 is a plan view illustrating a flow of a plating solution after spraying a positive pressure nozzle in a conventional edge mask member.
3 is a plan view illustrating a flow of a plating solution after spraying a positive pressure nozzle when there is a conventional edge mask.
4 is a cross-sectional view illustrating a current and a plating solution flow inside a conventional horizontal cell.
5 is an overall perspective view of a horizontal cell including a device for preventing excessive plating of a steel plate edge according to an embodiment of the present invention.
6 is an exploded perspective view of a steel plate edge overplating prevention apparatus according to an embodiment of the present invention.
7 is an assembled perspective view of a steel plate edge overplating prevention apparatus according to an embodiment of the present invention.
8 is a cross-sectional view for explaining the current inside the horizontal cell and the flow of the plating solution included in the device for preventing excessive plating on the edge of a steel plate according to an embodiment of the present invention.
9 is a plan view for explaining the current inside the horizontal cell and the flow of the plating solution included in the device for preventing excessive plating on the edge of a steel plate according to the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, the spirit of the present invention is not limited to the presented embodiments, and those skilled in the art who understand the spirit of the present invention can add, change, or delete other elements within the scope of the same idea. Other embodiments included within the scope of the inventive concept may be easily proposed, but this will also be said to be included within the scope of the inventive concept. In addition, components having the same function within the scope of the same idea shown in the drawings of each embodiment will be described using the same reference numerals.

5 is an overall perspective view of a horizontal cell including a steel plate edge overplating prevention apparatus according to an embodiment of the present invention, and FIG. 6 is an exploded perspective view of a steel plate edge overplating prevention apparatus according to an embodiment of the present invention. 7 is an assembled perspective view of a steel plate edge overplating prevention device according to an embodiment of the present invention.

The steel plate edge overplating prevention device 50 may be disposed on both sides of the steel plate 1 transferred between the upper anode 10 and the lower anode 9.

The steel plate edge overplating prevention device 50 is manufactured in a form in which a cover is coupled to the front where the steel plate 1 is located in order to overlap the edge of the steel plate 1, and a linear sensor of the plating bath (not shown) By detecting the edge of the steel plate 1, it can be moved to be close to the position of the detected edge by the moving rod 8.

Specifically, referring to FIG. 5, the frame 7 fixedly coupled by the ball screw 5 and the ball screw nut 6 by the drive of the servo motor 4 can be moved forward or backward, and the frame 7 As the moving rod 8 coupled to one side of the body 20 is coupled to the body 20, the width and the amount of meandering of the steel plate 1 sensed by the linear sensor are transmitted to the servomotor 4 to reduce the edge of the steel plate 1 By tracking, the steel plate edge overplating prevention device 50 is moved to be close to the edge of the steel plate 1.

The steel plate edge overplating prevention apparatus 50 of the present invention includes a body 20, a flat plate 25, a body cover 34, an upper cover 31, and a lower cover 32.

The body 20 has a processing groove 21 formed on the inside thereof, so that the flat plate 25 is seated.

In addition, a plurality of discharge grooves 24 are formed on one side of the body 20.

The plurality of discharge grooves 24 allow the pipe 27 provided on the flat plate 25 to be inserted.

In addition, the body 20 is formed with a separation preventing groove 22 for fixing the flat plate 25 to be seated in the processing groove 21 so as not to flow.

The flat plate 25 is seated in the processing groove 21 of the body 20 and includes a plurality of pipes 27 inserted and disposed in the respective discharge grooves 24 of the body 20.

In particular, the flat plate 25 is made of stainless steel or titanium material to prevent equipment accidents in which the fixed part of the moving rod 8 is removed, and the moving rod 8 is combined, and it is not easily melted even if the plating solution L contacts. It may be seated and coupled to the body 20 made of a material such as PVDF (polyvinylidene fluoride).

Further, at the rear end of the flat plate 25, an insert 28 made of steel can be welded to the coupling part of the moving rod 8, and the insert 28 is inserted into the body 20 when the flat plate 25 is joined. (23) is formed.

In addition, the flat plate 25 is formed so as to correspond to the separation prevention groove 22 of the body 20 so as to be symmetrically formed in the front and the rear, respectively, to form a substantially cross shape when coupled to the body 20, the left and right and It prevents up-and-down flow and makes it stably fixed.

Due to this structure, the steel plate edge overplating prevention device 50 is not easily damaged due to the rigid structure, so it can be used semi-permanently.

The body cover 34 is disposed on the top of the flat plate 25 and is coupled to the body 20 by welding so that the flat plate 25 is firmly fixed.

The upper cover 31 is disposed on the front and upper portions of the body 20 and is coupled by a fixing bolt 33.

The lower cover 32 is disposed at the front and lower portions of the body 20 and is coupled by a fixing bolt 33.

The upper cover 31 and the lower cover 32 are provided to prevent overplating of the edges of the steel plate 1, and overlap the edges of the steel plate 1 to prevent concentration of current, thereby preventing overplating.

The upper cover 31 and the lower cover 32 are coupled to the front of the body 20 so that the body 20 has a roughly degeun shape when viewed from the side.

Further, an edge torch roller 36 is provided on one side of the flat plate 25 for removing dendrites generated on the edge of the steel plate 1.

The flat plate 25 has both ends longer than the body 20 so that when coupled to the body 20, both ends are exposed to the outside, and an edge torch roller 36 is installed at one end of the exposed ends of both sides.

In addition, at the other end of the flat plate 25, an indicator 29 for determining the position of the edge of the steel plate 1 is provided, and in front of the flat plate 25 where the indicator 29 is located, a processing jaw for coupling with the body 20 is provided. 30 can be formed.

8 is a cross-sectional view for explaining the current and the plating solution flow in the horizontal cell included in the device for preventing overplating of the edge of a steel sheet according to an embodiment of the present invention, and FIG. 9 is included in the device for preventing overplating of an edge of a steel sheet according to the present invention. It is a plan view for explaining the current and plating solution flow inside the horizontal cell.

In the electroplating process, the plating solution (L) is supplied from the top or the bottom through the static pressure nozzle (13). Referring to Figs. 8 and 9, the plating solution (L) flowing in the reverse flow section of the solution is in the reverse direction ( Since it does not affect the conduction roll 2 disposed on the left side in the reverse flow direction and the support roll 3 provided in a pair with the conduction roll 2, even if dendrite occurs, the discharge passage provided in the center of the travel direction ( (Not shown), the dendrites are transported and discharged to suppress the occurrence of dents.

However, the plating solution (L) flowing through the solution parallel flow section causes dendrites due to the forward direction (parallel flow direction) of the steel plate (1), is difficult to remove, and may lead to an equipment accident. ) To be discharged to the outside, thereby preventing the plating solution L from moving to the energizing roll 2 disposed on the right side, thereby suppressing the occurrence of dents.

In addition, during the electroplating process, during the flow of the plating solution (L), the plating solution (L) escapes through the pipe (27) during the plating process in the parallel flow section (the rear end of the plating bath), and it is generated and dropped due to a defect in edge proximity control, etc. It discharges the dendrite.

Furthermore, the time for the current to flow in at the front end (the part where the upper cover 31 and the lower cover 32 are located) and the rear end of the steel plate edge overplating prevention device 50 is the upper cover 31 and the lower cover 32 There is a concern that dendrites may be generated faster than the overlapping time close to and in this case, by using the edge torch roller 36 in parallel, it is possible to prevent the occurrence of dents due to some dendrites that are unavoidably generated in the plating process.

1: steel plate 2: energized roll
3: Support roll 4: Servo motor
5: Ball screw 6: Ball screw nut
7: frame 8: moving rod
9: lower anode 10: upper anode
13: static pressure nozzle
20: body 21: machining groove
22: separation prevention groove 23: inset insertion groove
24: discharge groove 25: flat plate
26: departure bump 27: pipe
28: insert 29: indicator
30: processed jaw 31: upper cover
32: lower cover 33: fixing bolt
34: body cover 36: edge torch roller
50: steel plate edge overplating prevention device
C: overcurrent L: plating solution

Claims (4)

In the steel plate edge overplating prevention device disposed on both sides of the steel plate transferred between the upper anode and the lower anode,
A body in which a processing groove is formed on the inside;
A flat plate seated in the processing groove;
A body cover disposed on the upper side of the flat plate and fixedly coupled to the body;
An upper cover disposed on the front and upper portions of the body and coupled by fixing bolts; And
It includes a lower cover disposed at the front lower portion of the body and coupled by a fixing bolt,
The body
A plurality of discharge grooves for pipe insertion are formed on one side, and a separation prevention groove is formed for fixing the flat plate so that it does not flow,
The reputation is
A pipe disposed in the discharge groove is provided, and a separation prevention jaw corresponding to the separation prevention groove is formed, and the separation prevention jaws are formed symmetrically at the front and rear sides to correspond to the separation prevention groove, respectively, to form a cross shape and the body When combined with, it prevents left and right and up and down flow and makes it stably fixed,
The steel plate edge overplating prevention device
Induces the plating solution and dendrite generated during the plating process to be discharged to the outside through the pipe of the flat plate,
An apparatus for preventing overplating of an edge of a steel plate, characterized in that it prevents the occurrence of dents due to dendrites generated during the plating process by using the edge torch rollers in parallel. delete delete The method of claim 1,
The upper cover and the lower cover,
A steel plate edge overplating prevention device, characterized in that it is coupled by a fixing bolt in front of the body to form a diguon shape.

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