KR200272227Y1 - Over plating prevention device of plated steel edge in hot dip plating process - Google Patents

Abstract

The present invention in the hot-dip galvanizing process to uniformly spray the air in the width direction of the plated steel sheet and at the same time to scrape off the plated solution of the edge region in the width direction of the plated steel sheet to uniformly plate the entire surface As the plated steel sheet edge over-plating prevention device,

An overplating prevention device that can cut off the excess liquid by injecting high pressure air onto the surface of the steel sheet S by forming a straight air knife 120 continuous in the width direction on both surfaces of the steel sheet after passing through the plating bath. In the, characterized in that the edge air knife 120 for injecting a high-pressure air at an appropriate length with respect to the surface of both side edge portion in the width direction of the steel sheet (S).

Description

Over plating prevention device of plated steel edge in hot dip plating process

The present invention relates to a device for preventing overplating by adjusting the amount of plating by injecting air to both surfaces of the plated steel sheet, and more particularly, the width of the plated steel sheet while injecting air uniformly in the width direction of the plated steel sheet. An apparatus for preventing overplating edges of a plated steel sheet in a hot-dip plating process that allows the entire surface to be uniformly plated by scraping off the overplated solution of the edge region with respect to the direction.

In general, in the hot-dip plating process of the steel sheet, the coating amount of the surface of the steel sheet is uniformed by injecting air to both surfaces of the steel sheet immediately after the plating bath (that is, the process of preventing overplating). An air knife is used for the air knife, and the air knife is made of a straight line continuously extending in the width direction of the steel plate in order to uniformly scrape the plating amount attached to the surface of the steel plate. In the case of using an air knife that injects air in a straight line, the plating liquid is effectively scraped off while the injection air having sufficient shear stress impinges on the surface of the steel sheet at the middle portion of the steel sheet, but at the edge of the steel sheet, Vortex caused by non-uniformity of colliding injection air is not generated, and thus the injection air does not have sufficient shear stress, so that the edge portion of the steel sheet is overplated as compared with the intermediate portion.

1 is a schematic view of the air wiping method of the plating amount control method used in the hot dip plating process, the zinc is attached to the surface of the steel sheet (S) while passing through the zinc plating tank 110 containing the molten zinc. . In order to match the amount of zinc plating attached to the order of the demand price, a linear air knife 120 installed to spray air to both surface portions of the steel plate S is used, and a lip of the air knife 120 is used. The high pressure air injected through the 122 collides with the surface of the steel sheet S to remove the overplated adhesion amount, wherein the gap between the air knife 120 and the steel sheet S and the pressure of the injection air are adjusted. It is possible to adjust the amount of plating to be cut. The gap between the air knife 120 and the steel sheet (S) is measured by the gap position sensor 130 and adjusted using the gap adjusting motor 132, the pressure of the injection air through the pressure sensor 140 It is measured and adjusted using the pressure regulating valve 142. In addition, the average plating amount in the longitudinal direction is measured by scanning the surface of the steel sheet S passing through the air knife 120 by the plating amount sensor 150, and an error occurs between the measured plating amount and the demanded order quantity. In this case, the gap or pressure is controlled by the driver or the computer to reduce the error.

Reference numeral 160 is a blower for supplying air to the air knife 120, 171 is locked in the galvanizing bath 110, the sink roll for guiding the steel sheet (S), 172 is the sink roll 171 A stabilization roll (173) provided at the upper side and stabilized while guiding the steel sheet (S), refers to a turning roll for supporting the steel sheet (S) so as to change the traveling direction.

However, when the plating amount is controlled by using the air knife 120 of the linear form by such a conventional method, the average plating amount measured in the longitudinal direction of the steel sheet (S) can be made so that the demand can match the order plating amount However, no uniform plating profile is formed in the width direction. In particular, due to the nonuniformity of the injection air colliding with the surface of the steel sheet S near both edges in the width direction of the steel sheet S, vortices are generated around it, so that the injection air does not have sufficient shear stress and is located in the middle portion. Compared with this, there is a problem in that overplating occurs.

The present invention was devised to solve such a conventional problem, and its purpose is to uniformly inject air in the width direction of the plated steel sheet by an air knife, and at the same time, the plated solution of the edge region in the width direction of the plated steel sheet. The present invention provides a device for preventing overplating edges of a plated steel sheet in a hot-dip plating process in which the entire surface can be uniformly plated by scraping off the metal.

1 is a schematic view showing a hot-dip galvanizing process equipment equipped with a conventional plated steel plate over-plating prevention device

Figure 2 is a block diagram showing a device for preventing overplating the edge of the plated steel sheet in the hot dip plating process according to the present invention

Figure 3 is a perspective view showing the lip shape of the edge air knife of the present invention

Figure 4 is a block diagram showing a state in which the edge air knife of the present invention is mounted with a conventional air knife.

Explanation of symbols on the main parts of the drawings

11,12 ... proximity sensor 20 ... moving table

30 ... electric motor 40 ... air knife for edge

42 ... Lip 50 ... Air Supply Line

120 ... Air Knife S ... Steel Plate

The present invention as a technical configuration for achieving the above object,

In the over-plating prevention device that can cut the excess liquid by injecting a high-pressure air to the surface of the steel sheet by forming a continuous straight air knife in the width direction on both surfaces of the steel sheet after passing through the plating tank,

By providing an edge plated steel plate edge over-preventing device in the hot-dip galvanizing process characterized in that the air knife for the edge for injecting high-pressure air at a suitable length with respect to the surface of both edges in the width direction of the steel sheet. .

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a schematic view showing the edge of the plated steel sheet over-plating prevention apparatus in the hot dip plating process according to the present invention, the edge position of the steel sheet (S) is changed according to the width change and meandering degree of the steel sheet (S) Therefore, a plurality of proximity sensors 11 and 12 are used to detect the edge position. The proximity sensors 11 and 12 are maintained at a distance apart from each other in the width direction of the steel plate S. If the distance is set smaller, the proximity sensor 11 and 12 may be more sensitively detected that the edge position of the steel plate S is changed. Will be.

The proximity sensors 11 and 12 are mounted on the movable table 20, and the movable table 20 is coupled to the screw shaft 32 installed in the width direction of the steel plate S to rotate the screw shaft 32. When the movable table 20 to move in the width direction of the steel plate (S), the screw shaft 32 is connected to the electric motor 30 is provided with a rotational force. The electric motor 30 may be fixed to the installation frame, not shown, but is preferably mounted on both ends of the air knife 120 as shown in Figure 3, the interval between the steel plate (S) and the air knife 120 If this is adjusted, it is good to make the device also interlocked with it. Of course, the movable table 20 is to be prevented by the guide rail, etc. not shown and to be moved only in the width direction of the steel sheet (S) along the screw shaft (32).

And, the movable base 20 is equipped with an edge air knife 40, the edge air knife 40 has a length greater than the total length for the steel plate edge over-plating area that can be generated normally It is preferable to have a lip 42, that is, an air injection hole, and the air injection portion 43 of the lip 42 has a larger width at the edge of the steel sheet and decreases in width toward the center. Of course, the reason for forming the shape of the lip 42 is that the overplating of the steel plate edge region occurs more toward the outside, so that the plating profile in the width direction of the steel sheet (S) can be continued in a uniform state will be.

In addition, the proximity sensor (11) 12 and the electric motor 30 and the opening and closing valve (not shown) of the air supply line 50 to be described later is connected to a separate control unit so as to operate by a pre-programmed programming. do.

Reference numeral 50 denotes an air supply line for supplying high pressure air to the edge air knife 40.

The action of preventing overplating of the steel sheet by the apparatus of the present invention having the above-described configuration will be described.

The present invention is difficult to solve the over-plating phenomenon in the width direction of the steel sheet (S), which is a problem with the conventional technology only by the air knife 120 of the straight form, and separate the air knife 40 for the steel sheet edge The idea is that it is necessary.

In other words, by additionally providing a separate air knife 40 to the edge portion in the width direction of the steel sheet (S) where overplating occurs, the overplated amount of the steel plate edge portion is scraped off.

It is preferable that the device of the present invention be operated together with the air knife 120 operation, and the air knife 120 and the edge air knife 40 simultaneously spray high-pressure air on the surface of the steel plate S. The overplating layer on the surface is scraped off, whereby the excess liquid of the steel plate edge region overplated from the center portion is removed by the edge air knife 40 of the present invention, so that the plating amount of the steel plate surface is more uniform in the width direction. It can be formed in a state. In addition, the lip 42 of the edge air knife 40 of the present invention injects more air toward the steel sheet edge so that the plating profile in the steel plate width direction is formed very uniformly.

In addition, the proximity sensors 11 and 12 detect a change in position of the edge portion of the steel sheet S to allow the edge air knife 40 to inject air at an optimal position. If the steel plate S is detected in only one of the two sensors 11 and 12, it means that the edge air knife 40 of the present invention is properly positioned at the edge position of the steel plate S (normal state). At this time, the edge air knife 40 continuously sprays air onto the surface of the steel sheet S while maintaining its position.

On the other hand, if the steel plate (S) is detected in all of the plurality of sensors (11, 12) means that the edge air knife 40 of the present invention is biased toward the center of the steel plate (S), in this case the electric motor ( By the rotation of 30, the movable base 20 and the edge air knife 40 mounted thereon are moved to the steel plate edge side, and the outer sensor 11 does not detect the steel plate S, that is, the above-mentioned normal state. When it is at to stop the rotation of the electric motor 30 to maintain the edge air knife 40 in that position.

In addition, if the steel sheet (S) is not detected in all of the plurality of sensors (11, 12) means that the edge air knife 40 of the present invention is offset to the outside of the edge side of the steel sheet (S), in this case In the state by moving the movable table 20 and the edge air knife 40 mounted thereon by the rotation of the electric motor 30, the inner sensor 12 detects the steel sheet (S), that is, When in the normal state to stop the rotation of the electric motor 30 to maintain the edge air knife 40 in that position.

That is, by the rotation of the plurality of proximity sensors 11, 12 and the electric motor 30 according to the detected value, the edge air knife 40 of the present invention is maintained at the optimum position in the above normal state. By injecting air to the steel sheet edge, it is possible to uniformly form a plating profile with respect to the steel sheet width direction.

As described above, according to the plated steel sheet edge overplating prevention device in the hot dip plating process according to the present invention, in addition to the air knife for injecting air over the entire width direction of the steel sheet, the edge air knife for injecting air only at the edge of the steel sheet By providing a uniform plating profile in the width direction of the steel sheet to improve the quality of the plated steel sheet, as well as to prevent the loss of the plating solution due to over-plating is advantageous in terms of economics.

In addition, by the plurality of sensors for detecting the edge position of the steel sheet to maintain the edge air knife in the optimum position has an effect that can be more uniform plating profile in the steel plate width direction.

In addition, the lip, which is an air injection hole of the edge air knife, has a larger width toward the edge of the steel sheet and effectively prevents overplating toward the edge of the steel sheet, thereby making it possible to make the plating profile in the width direction of the steel sheet more uniform. Has the effect.

Claims (5)

An overplating prevention device that can cut off the excess liquid by injecting high pressure air onto the surface of the steel sheet S by forming a straight air knife 120 continuous in the width direction on both surfaces of the steel sheet after passing through the plating bath. To The edge of the plated steel sheet in the hot-dip galvanizing process characterized in that the edge air knife 120 for injecting a high-pressure air in a suitable length for the surface of both edges in the width direction of the steel sheet (S) Device. The method of claim 1, The edge air knife 120 is installed in the steel plate width direction and is connected to the screw shaft 32 is provided with a rotational power by the electric motor 30 in the hot dip plating process, characterized in that movable in the steel plate width direction Plated steel sheet edge over-plating prevention device. The method of claim 2, A plurality of proximity sensors 11 and 12 configured to detect the steel sheet S at an appropriate distance in the steel plate width direction behave integrally with the air knife 120 and are sensed by the proximity sensors 11 and 12. Plated steel sheet edge over-plating prevention device in the hot-dip plating process, characterized in that for driving the electric motor 30 by the position information of the edge of the steel sheet. The method according to claim 1 or 2, The edge air knife 40 is a plated steel sheet edge over-plating prevention device in the hot-dip galvanizing process, characterized in that the air knife 120 behaves together in the direction when the steel knife (120) near or away from the steel sheet side. The method according to any one of claims 1 to 3, Lip 42, which is an air spraying hole of the edge air knife 40, is gradually increased in width toward the steel sheet edge side plated steel sheet edge over-plating prevention device in the hot dip plating process.