KR20200116216A - Apparatus for preventing edge area of plate from being overcoated - Google Patents

Abstract

According to one embodiment of the present invention, an apparatus for preventing an edge unit of a coated steel plate from being overcoated comprises: first air knives placed to face each other with the coated steel plate in between, and spraying gas towards both surfaces of the coated steel plate, respectively; a baffle plate placed between the first air knives and respectively adjacent to both edge units of the coated steel plate; second air knives whose pair is placed on each of the first air knives to face the edge units of the coated steel plate and the baffle plate at the same time, so as to spray gas to the edge units of the coated steel plate and the baffle plate; and a driving unit connected to the second air knives to horizontally move the second air knives horizontally in a longitudinal direction of the first air knives. The second air knives are connected to the baffle plate, and the second air knives and the baffle plate can move horizontally as one body. The apparatus for preventing an edge unit of a coated steel plate from being overcoated is able to easily prevent the coated steel plate from being overcoated even if the width of the coated steel plate is changed.

Description

Device to prevent excessive plating on the edge of plated steel sheet{APPARATUS FOR PREVENTING EDGE AREA OF PLATE FROM BEING OVERCOATED}

It relates to a device for preventing excessive plating of the edge portion of the plated steel sheet.

In general, steel sheets exposed to the outside have poor durability such as rust and corrosion due to oxidation on the surface, so they are plated with molten metal such as zinc or aluminum, and then used in various forms after surface treatment.

A plated steel sheet is core with uniform plating thickness suitable for the purpose and flatness without bending or bending, and if the coil is unwound after winding with excessive plating on the edge in the plating process, wave is generated and the marketability is hindered. Becomes.

In the process of producing a continuous hot-dip plated steel sheet, a method of controlling the plating amount using an air knife device is used. A high-pressure gas is injected on the surface of the steel sheet to be plated while passing through the molten zinc or aluminum metal, and the molten metal is pushed out with the pressure to control the plating amount. As the thickness of the steel sheet increases and the amount of plating increases, the speed of the steel sheet continuously transferred is slowed, and the pressure of the gas sprayed from the air knife device is controlled to be low. In this case, the force to push the molten metal adhering to the surface of the steel sheet is insufficient, and the edge portion is solidified higher than the reference plating thickness, resulting in a transient film. In addition, excessive plating may occur at the edge portion due to the shape or vibration of the steel plate or the vortex of the gas injected from the air knife device.

Korean Patent Registration 10-1694450

The present invention provides a device for preventing overplating at the edge portion of the plated steel sheet that can prevent overplating at the edge portion by adjusting the plating amount of the plated steel sheet, and easily prevent overplating at the edge portion even if the width of the plated steel sheet changes. It aims to do.

However, the object of the present invention is not limited thereto, and even if not explicitly stated, the object or effect that can be grasped from the solutions or embodiments of the problems described below will be included therein.

An apparatus for preventing overplating of an edge portion of a plated steel sheet according to an exemplary embodiment of the present invention includes: a first air knife disposed to face each other with a plated steel plate therebetween, and spraying gas to both surfaces of the plated steel plate; A baffle plate positioned between the first air knife and disposed adjacent to both edge portions of the plated steel plate; A pair of second air knives disposed on each of the first air knives and arranged to face the edge portion of the plated steel plate and the baffle plate at the same time to inject gas to the edge portion of the plated steel plate and the baffle plate; And a driving unit connected to the second air knife and horizontally moving the second air knife along the longitudinal direction of the first air knife, wherein the second air knife is connected to the baffle plate and The air knife and the baffle plate can be moved horizontally integrally.

The first air knife has a length longer than the width of the plated steel plate and includes a body portion having a flow path through which the gas flows therein, and a first nozzle portion provided on one surface of the body portion to inject the gas toward the plated steel plate In addition, a plurality of through holes connecting the flow path and the first nozzle may be provided on one surface of the body part.

The first nozzle part includes a first lip extending from a lower portion of the one surface toward the plated steel plate and a second lip extending downwardly inclined toward the plated steel plate from an upper portion of the one surface, and the second air knife includes the second air knife. It can be placed on the inclined surface that the 2 lip implements.

The second air knife is placed on the first air knife and connects between the second nozzle unit and the driving unit, and connects the second nozzle unit to the second nozzle unit to inject the gas toward the plated steel sheet. It includes a holder having a hollow tube structure to supply, and the baffle play may be connected to and supported by the holder.

An injection angle for injecting the gas from the second air knife and an injection angle for injecting the gas from the first air knife may be different from each other with respect to the surface of the plated steel sheet.

The second air knife may be treated by at least one of a chromium plating coating, a chromium nitride coating, and a titanium nitride coating.

The driving unit may include an actuator connected to each of the second air knives and a cable carrier connected to the second air knives to support a cable supplying the gas to the second air knives.

According to an embodiment of the present invention, an edge portion of a plated steel sheet capable of preventing overplating at the edge portion by adjusting the plating amount of the plated steel sheet, and easily preventing overplating at the edge portion even if the width of the plated steel sheet changes. An overplating prevention device may be provided.

The various and beneficial advantages and effects of the present invention are not limited to the above description, and will be more easily understood in the course of describing specific embodiments of the present invention.

1 is a schematic diagram showing a wound state of a plated steel sheet in which an edge portion is overplated.
Figure 2 is a perspective view schematically showing an edge portion of the overplating prevention device of a plated steel sheet according to an exemplary embodiment of the present invention.
3 is a cross-sectional view schematically showing an edge portion of the plated steel sheet of FIG. 2 for preventing excessive plating.
4 is a front view schematically showing an edge portion of the plated steel sheet of FIG. 2 for preventing excessive plating.
5A and 5B are schematic diagrams illustrating a process of horizontally moving a baffle plate and a second air knife by a driving unit in response to a change in the width of the plated steel sheet.

Hereinafter, preferred embodiments will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention. However, in describing a preferred embodiment of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, the same reference numerals are used throughout the drawings for portions having similar functions and functions.

In addition, throughout the specification, when a part is said to be'connected' to another part, it is not only'directly connected', but also'indirectly connected' with another element in the middle. Include. In addition, "including" a certain component means that other components may be further included rather than excluding other components unless specifically stated to the contrary.

Referring to FIG. 1, it can be seen that the edge of the coil is swollen while the plated steel sheet TP on which the edge portion is overplated is wound in a coil shape (TC). Looking at the cross section after unwinding the coil, it can be divided into a material layer (C), a bottom plating layer (B), a top plating layer (A), a normal plating thickness (G), an overplated plating thickness (E), and an edge portion (D). have. The thicker the plating thickness and the material layer, the slower the rate at which the plated steel sheet (TP) is produced, and at this time, the pressure of the gas injected from the air knife must be controlled to be low so that the plated steel sheet (TP) can be produced with the target plating thickness. However, when the pressure of the gas injected from the air knife decreases, the pressure and flow rate of the gas are insufficient in the edge portion D, which refers to a section within 50 mm from both ends of the plated steel sheet (TP) in the width direction. It is solidified in the form of an overplated plating thickness (E) higher than ).

When winding with a coil with an overplated plating thickness (E), the edge portion (D) becomes swollen. When the coil thus produced is unwound and used for processing, since the edge portion (D) is stretched more than the portion of the normal plating thickness (G), waves such as bends and bends are generated, resulting in poor product quality due to shape defects.

The apparatus for preventing overplating at the edge portion of the plated steel sheet according to an exemplary embodiment of the present invention can prevent the occurrence of overplating plating thickness occurring at the edge portion of the plated steel sheet, and can uniformly adjust the plating amount as a whole.

An apparatus for preventing overplating of an edge portion of a plated steel sheet according to an exemplary embodiment of the present invention will be described with reference to FIGS. 2 to 5. FIG. 2 is a perspective view schematically showing an apparatus for preventing overplating of an edge portion of a plated steel sheet according to an exemplary embodiment of the present invention, and FIG. 3 is a cross-sectional view schematically showing an apparatus for preventing overplating of an edge portion of the plated steel sheet of FIG. 4 is a front view schematically showing the device for preventing overplating of the edge portion of the plated steel sheet of FIG. 2, and FIGS. 5A and 5B are the baffle plate and the second air knife horizontally moving by the driving unit in response to the width change of the plated steel sheet. It is a schematic diagram showing the process.

Referring to the drawings, the apparatus 1 for preventing overplating of an edge portion of a plated steel sheet according to an exemplary embodiment of the present invention may include a first air knife 10.

A pair of the first air knives 10 may be disposed to face each other with a plated steel plate TP interposed therebetween. The first air knife 10 may control the plating amount by spraying gas to both surfaces of the plated steel sheet TP.

The first air knife 10 may include a body portion 11 and a first nozzle portion 12. The body portion 11 may have a length longer than the width of the plated steel sheet TP and may have a hollow structure in which a flow path 11a through which gas flows is formed. The first nozzle part 12 is provided on one surface of the body part 11 to inject gas toward the plated steel sheet TP.

A plurality of through holes 11b connecting the flow path 11a and the first nozzle 12 may be provided on one surface of the body 11. Accordingly, the gas supplied to the flow path 11a in the body 11 may move to the first nozzle 12 through the plurality of through holes 11b.

The first nozzle part 12 is a first lip 12a extending toward the plated steel plate TP from the lower part of the body part 11 and downwards toward the plated steel plate TP from the upper part of the body part 11 It may include a second lip 12b extending obliquely. The gas flowing into the space between the first lip 12a and the second lip 12b through a plurality of through holes 11b on one side of the body 11 is the first lip 12a and the second lip 12b. It may be sprayed forward through the nozzle 12c provided at the tip of the.

In FIG. 2, in order to better understand the structures of the body portion 11 and the first nozzle portion 12 of the first air knife 10, the side surfaces are shown in an open state.

Referring to the drawings, an apparatus 1 for preventing overplating at an edge portion of a plated steel sheet according to an exemplary embodiment of the present invention may include a baffle plate 30.

The baffle plate 30 is positioned between the first air knives 10 facing each other, and may be disposed adjacent to both edge portions of the plated steel plate TP. The baffle plate 30 may be disposed substantially parallel to the plated steel plate TP at both edge portions of the plated steel plate TP and not in contact with the plated steel plate TP.

The baffle plate 30 may prevent gas injected from the first air knife 10 disposed to face each other from colliding with the outside of the edge portion of the plated steel plate TP. That is, since the first nozzle portion 12 of the first air knife 10 has a structure longer than the width of the plated steel plate TP, gas is also injected outside the edge portion outside the width of the plated steel plate TP, In the absence of the baffle plate 30, gases injected from each of the first air knives 10 collide with each other to generate noise and eddy currents, and an unspecified pattern may be generated due to the eddy currents. In order to prevent this phenomenon, the baffle plate 30 may be disposed adjacent to both edge portions of the plated steel sheet TP.

Referring to the drawings, an apparatus 1 for preventing overplating of an edge portion of a plated steel sheet according to an exemplary embodiment of the present invention may include a second air knife 20.

A pair of second air knives 20 may be placed on each of the first air knives 10. That is, four second air knives 20 are provided, and two pairs of second air knives 20 may be arranged to face each other.

The second air knife 20 may be positioned to face the edge portion of the plated steel plate TP and the baffle plate 30 at the same time. That is, the plated steel plate TP may be positioned between the edge portion and the baffle plate 30 at both edge portions of the plated steel plate TP and may be disposed in a structure facing a portion of the edge portion of the plated steel plate TP and a portion of the baffle plate 30.

The second air knife 20 may inject gas to the edge portion of the plated steel plate TP and the baffle plate 30. When the plating solution MC melted in the plating bath (not shown) adheres to the surface of the plated steel plate TP and rises together with the plated steel plate TP, the first air knives disposed on both surfaces of the plated steel plate TP ( By 10), the plating solution (MC) over a certain amount flows down, and some of them are collected at the edge of the plated steel sheet (TP). The plating solution MC collected at the edge of the plated steel sheet TP is pushed down by the gas sprayed by the second air knife 20. That is, the gas injected by the first air knife 10 and the gas injected by the second air knife 20 merge to push the plating solution MC with the increased pressure and flow rate of the gas. Therefore, it is possible to prevent the edge portion of the plated steel sheet TP from being overplated. In addition, the plating solution MC sandwiched between the baffle plate 30 and the plated steel plate TP may be removed.

The second air knife 20 may include a second nozzle part 21 and a holder 22. The second nozzle part 21 is placed on the first air knife 10 and may inject gas toward the plated steel plate TP. The holder 22 may be connected to the second nozzle part 21 to support the second nozzle part 21 and connect between the second nozzle part 21 and the driving part 40 to be described later. The holder 22 may have a hollow tube structure for supplying gas to the second nozzle part 21.

In one embodiment, the baffle plate 30 may be connected to and supported by the holder 22. That is, the baffle plate 30 and the second air knife 20 may be connected to each other to form an integral structure.

In an embodiment, the second air knife 20 may be disposed on an inclined surface formed by the second lip 12b of the first nozzle unit 12 among the first air knife 10. Specifically, the second nozzle part 21 of the second air knife 20 is on the inclined surface of the second lip 12b inclined downward at a predetermined inclination toward the plated steel plate TP of the first nozzle part 12. Can be set. Accordingly, an injection angle for injecting gas from the second air knife 20 and an injection angle for injecting gas from the first air knife 10 based on the surface of the plated steel sheet TP may be different from each other. For example, the first air knife 10 can be sprayed perpendicularly to the surface of the plated steel sheet TP at a spraying angle approximately perpendicular to the surface, and the second air knife 20 can be sprayed obliquely at an acute spraying angle. I can. Of course, the injection angle of the first air knife 10 may be an acute angle rather than a right angle, and in this case, it may be different from the injection angle of the second air knife 20. In this way, since the second air knife 20 is disposed to inject gas at an angle downward, the plating solution MC collected at the edge portion of the plated steel sheet TP can be more easily pushed downward.

In one embodiment, since the second air knife 20 injects a high-pressure gas, the plating liquid MC that is pushed down is partially scattered and attached to the second air knife 20, and moves along the second lip 12b. In doing so, there may be problems such as friction and wear. Therefore, the plating solution (MC) does not adhere well, it is easy to remove even if it is attached, and the second air knife 20 is at least one of a chromium plating coating, a chromium nitride coating, and a titanium nitride coating so that excellent performance in friction and abrasion is secured. Can be handled by Of course, according to the embodiment, the first air knife 10 may be similarly processed.

Referring to the drawings, the apparatus 1 for preventing overplating of an edge portion of a plated steel sheet according to an exemplary embodiment of the present invention may include a driving unit 40.

The driving unit 40 is connected to the second air knife 20 and can horizontally move the baffle plate 30 along with the second air knife 20 along the longitudinal direction of the first air knife 10.

The driving unit 40 includes an actuator 41 connected to each of the second air knife 20 and a cable (not shown) connected to the second air knife 20 to supply gas to the second air knife 20. It may include a supporting cable carrier (42).

The actuator 41 may be configured as a cylinder or a motor, but is not limited thereto. The cable carrier 42 may support a power cable (not shown) or a hydraulic (pneumatic) cable (not shown) for driving the actuator 41 in addition to a cable supplying gas to the second air knife 20. .

The driving unit 40 may appropriately move the positions of the second air knife 20 and the baffle plate 30 in correspondence with the width size of the plated steel plate TP. In one embodiment, the driving unit 40 may horizontally move the baffle plate 30 and the second air knife 20 in real time by sensing the edge of the plated steel sheet TP through the sensing means. Therefore, even if the width size of the plated steel plate TP is not constant, the baffle plate 30 and the second air knife 20 can be moved to match the position of the edge portion of the plated steel plate TP in response to the changing width size. have. A sensor may be used as the sensing means, but is not limited thereto.

In the present embodiment, it is illustrated that the driving unit 40 is connected to the second air knife 20, but is not limited thereto. Depending on the embodiment, the driving unit 40 may be connected to the baffle plate 30, and similarly, the second air knife 20 connected to the baffle plate 30 may be moved horizontally together with the baffle plate 30.

As described above, the apparatus 1 for preventing overplating of the edge portion of the plated steel sheet according to the present invention injects gas to the first air knife 10 to control the plating amount of the plated steel sheet TP to wipe it, and additionally plate it. By wiping by spraying gas with the second air knife 20 arranged corresponding to both edge portions of the steel plate TP, the edge portion is prevented from being overplated, thereby uniformly controlling the plating amount as a whole.

In particular, it has a structure in which the second air knife 20 and the baffle plate 30 are integrally connected, and the second air knife 20 and the baffle plate 30 are integrally horizontally moved through the driving unit 40 to form a plated steel sheet. Even if the width size of (TP) is not constant, it can be matched to the position of the edge of the plated steel sheet (TP). Therefore, it is possible to actively respond to a change in the width of the plated steel sheet TP.

The embodiments of the present invention have been described above with reference to the accompanying drawings, but those of ordinary skill in the art to which the present invention pertains have realized that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. You can understand. Therefore, it should be understood that the embodiments described above are illustrative in all respects and are not limiting.

1... Device to prevent overplating at the edge of plated steel sheet
10... the first air knife
20... 2nd air knife
30... baffle plate
40... drive

Claims (7)

A first air knife disposed to face each other with a plated steel plate therebetween, and spraying gas to both surfaces of the plated steel plate;
A baffle plate positioned between the first air knife and disposed adjacent to both edge portions of the plated steel plate;
A pair of second air knives disposed on each of the first air knives and arranged to face the edge portion of the plated steel plate and the baffle plate at the same time to inject gas to the edge portion of the plated steel plate and the baffle plate; And
A driving unit connected to the second air knife and horizontally moving the second air knife along the longitudinal direction of the first air knife;
Including,
The second air knife is connected to the baffle plate, and the second air knife and the baffle plate are integrally horizontally moved.
The method of claim 1,
The first air knife has a length longer than the width of the plated steel plate and includes a body portion having a flow path through which the gas flows therein, and a first nozzle portion provided on one surface of the body portion to inject the gas toward the plated steel plate And a plurality of through-holes connecting the flow path and the first nozzle part to one surface of the body part.
The method of claim 2,
The first nozzle part includes a first lip extending from a lower portion of the one surface toward the plated steel sheet and a second lip extending downwardly inclined toward the plated steel sheet from an upper portion of the one surface,
The second air knife is disposed on an inclined surface formed by the second lip, wherein the edge portion of the plated steel sheet is overplated.
The method of claim 1,
The second air knife is placed on the first air knife and connects between the second nozzle unit and the driving unit, and connects the second nozzle unit to the second nozzle unit to inject the gas toward the plated steel sheet. It includes a holder having a hollow tube structure to supply,
The baffle play is connected to and supported by the holder.
The method according to claim 3 or 4,
Prevention of overplating of the edge portion of the plated steel plate, characterized in that the injection angle for injecting the gas from the second air knife and the injection angle for injecting the gas from the first air knife are different from each other with respect to the surface of the plated steel plate Device.
The method of claim 1,
The second air knife is treated by at least one of a chromium plating coating, a chromium nitride coating, and a titanium nitride coating.
The method of claim 1,
The drive unit comprises an actuator connected to each of the second air knives, and a cable carrier connected to the second air knife to support a cable supplying the gas to the second air knife. Edge part overplating prevention device.

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