KR20130067385A - Apparatus for controlling a dipping of steel plate - Google Patents

Abstract

PURPOSE: A steel plate control device is provided to improve the surface quality of steel plates by preventing the vortex movement of gas and the scattering of metal particles causing damage to the surface of the steel plates. CONSTITUTION: A steel plate control device comprises spraying parts(101) and suction parts(102). The spraying parts spray gas to the surface of steel plates on which molten metal is attached. The suction parts are separated from the spraying parts. The suction parts draw in the gas and metal particles scattered from the surface of the steel plates when the gas is sprayed.

Description

Steel Plate Plating Control Unit {APPARATUS FOR CONTROLLING A DIPPING OF STEEL PLATE}

The present invention relates to a steel plate plating control device for controlling the amount of molten metal attached to the surface of the steel sheet in the molten metal plating process, and more particularly, to a steel plate plating control device that can provide a more improved surface quality of the steel sheet.

In general, the steel sheet is plated with a metal, for example, zinc, so that corrosion resistance, paintability, processability, weldability, etc. are improved, so that the steel sheet is used in various industrial fields such as civil engineering, construction, automobile, and electric equipment.

Also, in the molten metal plating process for plating metal on a steel sheet. The steel sheet is plated and continuously immersed in a plating bath containing molten metal. The steel sheet is pulled out of the plating bath. The gas wiping device injects a high pressure gas to the surface of the steel sheet until the molten metal adhered to the surface of the steel sheet solidifies. As a result, the amount of molten metal attached to the surface of the steel sheet is controlled.

On the other hand, when gas is injected to the surface of the steel sheet in the molten metal plating process, the steel sheet moves at a high speed. For this reason, metal particles scatter around the steel plate with molten metal, and vortex flow of gas occurs. At this time, metal particles are imprinted on the surface of the plated steel sheet, and a check mark is formed. Therefore, the quality of the surface of the plated steel sheet is deteriorated in the process of controlling the amount of molten metal adhered to the surface of the steel sheet in the molten metal plating process.

The present invention is to provide a steel plate plating control apparatus that can improve the surface quality of the steel sheet by preventing damage to the surface of the steel sheet in the molten metal plating process.

In addition, the present invention is to provide a steel plate plating control device to implement a smooth molten metal plating process.

The present invention is a steel plate plating control device for controlling the amount of molten metal attached to the surface of the steel sheet in the molten metal plating process, the injection parts for injecting gas to the surface of the steel plate to which the molten metal is attached (between the injection portion The steel sheet to which the molten metal is attached passes; And suction parts positioned to be spaced apart from the injection parts and suctioning metal particles separated and scattered from the surface of the steel plate by the gas injection of the injection parts together with the gas (steel plate having the molten metal attached between the suction parts). The steel plate plating control apparatus characterized by the above-mentioned.

The suction part may have a cylindrical shape, and may rotate around a rotation axis parallel to the injection parts (suction openings are formed on an outer circumferential surface of the body part, and the metal particles are formed together with the gas through the suction openings). Flows into the body); A suction driving part connected to the body part to introduce the metal particles into the body part together with the gas and to discharge the metal particles to the outside of the body part; A connection part connecting the body part and the suction driving part to form a discharge path of the metal particles and the gas discharged to the outside of the body part; And a filtering unit installed on the connection unit to block the inflow of the metal particles into the suction driving unit.

In addition, the body portion discloses a steel plate plating control device, characterized in that movable in the up, down, left and right directions with respect to the steel sheet and the injection portion.

In addition, the suction openings each have a shape corresponding to the width of the steel sheet, discloses a steel plate plating control device, characterized in that formed along the circumferential direction of the body portion.

The steel plate plating control apparatus according to the present invention has the following effects.

(1) The steel plate plating control apparatus according to the present invention includes injection parts and suction parts, the injection parts in the molten metal plating process by injecting a gas to the surface of the steel sheet to which the molten metal is attached to the molten metal attached to the surface of the steel sheet To control the amount of. At this time, the suction portions suck the solid or liquid metal particles separated from the surface of the steel sheet together with the gas. Therefore, the steel plate plating control apparatus according to the present invention has the effect that the surface quality of the steel sheet can be improved by blocking the vortex flow of the metal particles and vortex flow which can cause surface damage of the steel sheet.

(2) Since the steel plate plating control apparatus according to the present invention blocks the vortex flow of the gas, the feed rate reducer of the steel sheet conventionally made to reduce the vortex flow of the gas is not made. Therefore, the steel plate plating control apparatus according to the present invention has the effect of providing a smooth molten metal plating process.

1 is a perspective view showing a molten metal plating control apparatus according to a preferred embodiment of the present invention.
2 is a view showing the operation of the molten metal plating control apparatus shown in FIG.
3 is a perspective view illustrating a modified state of a body part of a suction part in the molten metal plating control apparatus shown in FIG. 1.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view showing a steel plate plating control apparatus 100 according to a preferred embodiment of the present invention, Figure 2 is a view showing the operation of the steel plate plating control apparatus 100 shown in Figure 1, Figure 3 1 is a perspective view showing a modified state of the body portion of the suction unit in the molten metal plating control device shown in FIG. As shown in Figures 1 to 3, the steel plate plating control apparatus 100 according to a preferred embodiment of the present invention includes a spraying portion 101 and the suction portion 102, the steel sheet in the molten metal plating process ( The amount of molten metal attached to the surface of 10) is controlled. Thus, the surface of the steel sheet 10 is plated with the amount of metal to be obtained. At this time, the metal used is preferably zinc.

The injection units 101 inject a gas to the surface of the steel sheet 10. At this time, the molten metal is attached to the surface of the steel sheet 10, the steel sheet 10 passes between the injection portion 101. For this reason, the molten metal is separated from the state adhered to the surface of the steel plate 10, and the amount of the molten metal adhered to the steel plate 10, that is, the plating amount is controlled. At this time, the molten metal is separated from the surface of the steel sheet 10 and consists of metal particles 20, the metal particles 20 is in a solid or liquid state. In addition, the injection unit 101 may be made in the form of a nozzle, or may be made in the form of a gas wiping device.

The suction parts 102 are spaced in parallel with the injection parts 101 and suck the metal particles 20 separated from the surface of the steel sheet 10 by the gas injection of the injection parts 101 together with the gas. It is made when the steel sheet 10 passes between the suction portions 102. In addition, the suction unit 102 includes a body 121, a suction driving unit 123, a connection unit 125, and a filtration unit 127.

The body portion 121 is formed in a cylindrical shape and rotates about a rotation axis parallel to the injection portion 101. In addition, a plurality of suction openings 121a are formed on the outer circumferential surface of the body portion 121. The metal particles 20 separated from the surface of the steel sheet 10 are introduced into the body portion 121 through the suction openings 121a together with the gas. Accordingly, the body part 121 may block the vortex flow of the metal particles 200 and the vortex flow of the gas, thereby preventing damage to the steel plate 10 due to the vortex flow of the metal particles 20 and the vortex flow of the gas.

In addition, as shown in FIG. 1, the suction openings 121a are illustrated as having a circular shape, but are not limited thereto, and various shapes such as a rectangle (shown in FIG. 3A), a triangle, a pentagon, and the like are illustrated. It can be transformed into In addition, as shown in (b) of FIG. 3, the suction openings 121a may be formed along the circumferential direction of the body portion 121, respectively, having a shape corresponding to the width of the steel plate 10.

In addition, although not specifically illustrated, the body 121 may be connected to the motor through a belt or a screw, and may rotate by driving the motor. On the other hand, the rotation of the body portion 121 is not limited to this, it may be made through various types of devices capable of rotating the body portion 121.

The suction driving part 123 is connected to the body part 121. The suction driver 123 allows the metal particles 20 separated from the steel plate 10 to flow into the inside of the body 121 through the suction openings 121a together with the gas, and discharges to the outside of the body 121. Let's go back. Continuous operation of the suction drive 123 continuously prevents the metal particles 20 from scattering and vortex flow of the gas.

The connection part 125 connects the body part 121 and the suction driving part 123 and forms a movement path of the metal particles 20 and the gas discharged to the outside of the body part 121. At this time, the metal particles 20 and the gas are guided to the suction driver 123 along the connection portion 125. Thus, the metal particles 20 and the gas sucked into the body portion 121 do not affect the surface of the steel sheet 10 at all.

The filtration unit 127 is installed on the connection unit 125 to block the movement of the metal particles 20. As a result, the metal particles 20 and the gas are separated from the outside of the body portion 121, the gas is finally discharged from the suction drive unit 123, and the metal particles 20 are collected in the filter unit 127. It is treated separately.

On the other hand, in the suction unit 102, the body portion 121 is movable in the up, down, left and right directions with respect to the rotation axis as necessary. Although not specifically illustrated, this may be achieved by moving the body 121 together with a moving device for moving the suction driving unit 123 in the up, down, left, and right directions, without being limited thereto. It can be made through various types of mobile devices that can be moved. As a result, the body portion 121 may be changed in distance or position with respect to the steel sheet 10 and the injection portion 101 according to the state of the molten metal plating process.

While the present invention has been described in connection with certain exemplary embodiments, it will be understood by those skilled in the art that various changes may be made without departing from the scope of the present invention. In addition, the description in parentheses among the description of the claims is intended to prevent the ambiguity of the description, and the scope of the claims should be interpreted including all the descriptions in the parentheses.

100: steel plate plating controller
101: jet
102: suction part
121: body
123: suction drive unit
125: connection
127: filter section

Claims (4)

In the steel plate plating control device for controlling the amount of molten metal attached to the surface of the steel sheet in the molten metal plating process,
Injection parts for injecting gas onto a surface of the steel plate to which the molten metal is attached (the steel plate to which the molten metal is attached passes between the injection parts); And
Suction portions positioned apart from the spray portions and suctioning metal particles separated and scattered from the surface of the steel sheet by the gas injection of the spray portion together with the gas (the steel sheet having the molten metal adhered therebetween Steel plate plating control device comprising a).
The method of claim 1, wherein the suction unit,
A cylindrical body having a cylindrical shape and rotating about a rotation axis parallel to the injection parts (suction openings are formed on an outer circumferential surface of the body part, and the metal particles flow into the body part together with the gas through the suction openings). do);
A suction driving part connected to the body part to introduce the metal particles into the body part together with the gas and to discharge the metal particles to the outside of the body part;
A connection part connecting the body part and the suction driving part to form a discharge path of the metal particles and the gas discharged to the outside of the body part; And
And a filtering part installed on the connection part to block the inflow of the metal particles into the suction driving part.
3. The method of claim 2,
The steel plate plating control device, characterized in that the body is movable in the up, down, left and right directions with respect to the steel sheet and the injection portion.
3. The method of claim 2,
The suction openings each have a shape corresponding to the width of the steel sheet, characterized in that formed along the circumferential direction of the body portion.

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