KR102005307B1 - Apparatus for snout of galvanizing pot - Google Patents

Abstract

It is possible to automatically control the bath surface of the bath surface of the molten zinc port and the space formed between the inner surface of the Snart and the dam so as to keep the bath surface constant so as to remove the ash generated in the Snout during the hot dip galvanizing, A dam which is formed at the lower end of the slat and extends upward along the steel plate to form a space inside the slat; And a bath surface height sensing unit installed in the space between the inner surface and the dam for controlling the bath surface of the molten zinc between the snout and the dam.

Description

[0001] APPARATUS FOR SNOUT OF GALVANIZING POT [0002]

Disclosed is a Snart apparatus for controlling the bath surface of a molten zinc port to reduce ash generated in the Snart during hot dip galvanizing.

Generally, the hot-dip galvanizing port is a cold-rolled coil which is continuously passed through a pay-off reel and a welder, and is heat-treated in a heating furnace in order to remove the residual stress imparted to the steel plate. The heated steel sheet is put into a Zn pot filled with molten zinc while being maintained at a proper temperature by a galvanizing operation.

Between the heating furnace and the zinc port, a Snout is installed to prevent surface oxidation due to exposure of the steel sheet heat treated at a high temperature to the atmosphere. The Snath is filled with an inert gas for preventing plating failure due to surface oxidation of the steel sheet.

At the lower part of the snout there is installed a dam in contact with molten zinc. Molten zinc is applied to the surface of the steel plate as the steel plate passes between the dam and the dam.

The hot dip galvanizing surface inside the hot-dip galvanizing port and the hot-dip galvanized hot dip galvanizing surface inside the hot-dip galvanizing hot-dip galvanized hot-dip galvanized hot-dip galvanized hot-dip galvanized hot-

To this end, the operator uses the Snooth internal camera installed in the central cab to monitor the interior and adjust the speed of the metal pump and the level of the dam. The progress speed of the steel sheet changes depending on the operating conditions and the amount of hot zinc contained in the hot zinc port is varied.

Further, since the port for supplementing zinc to the molten zinc port is separately operated, the amount of molten zinc to be supplemented to the working pot is changed when the zinc ingot is supplied. The operator must keep the amount of zinc overflowing from the dam constantly to keep the flow of the port constant at all times. If there is not enough monitoring or other activities, the amount of zinc in the dam will change, (Ash) defect occurs.

There is always a need to maintain the height of the bath surface constantly or to change the height of the Snooth equipment in accordance with the bath surface, but there is a problem that the durability of the equipment is drastically lowered due to the continuous evaporation of zinc or high temperature.

It is possible to automatically control the bath surface of the bath surface of the molten zinc port and the space formed between the inner surface of the Snart and the dam to maintain the bath surface constant so as to remove the ash generated in the Snart during the hot dip galvanizing, Device.

A Snout apparatus of a hot-dip zinc port is formed by a slug which is installed in a zinc port containing molten zinc and whose lower end is immersed below a bath surface of the zinc port, A dam forming a space inside the nut and a bath surface height sensing unit installed in a space formed between the inner surface of the snout and the dam and controlling the bath surface of the molten zinc between the snout and the dam .

The Snout apparatus may have a structure in which the height difference between the bath surface of the zinc port and the bath surface of the space between the snout and the dam is controlled through the bath surface height sensing unit.

The bath surface height sensing unit includes a boom which is brought into contact with the bath surface of the space between the snout and the dam and is raised or lowered according to the height of the bath surface and a lever connected to the boom to change its position by the rising or falling of the boom can do.

The bath surface height sensing unit may further include at least one or more sensors disposed on the inner wall of the snout so as to be close to one end of the leverage, and a sensing sensor sensing a height of the bath surface due to the movement of the leverage and transmitting a sensing signal .

The Snooth apparatus may further include a pump connected to the Snooth and sucking molten zinc stored in the space between the Snooth and the dam.

The snout device may further include a controller for driving the pump to control the bath surface of the space between the snout and the dam to a predetermined height by sensing the sensing sensor.

According to the present apparatus, the generation of ash can be effectively suppressed by automatically controlling the bath surface of the molten zinc port and the bath surface of the space formed by the inner surface of the Snart and the dam. It is possible to improve the workability of the operator by automatically controlling the bath surface inside the snout.

Also, the ash in the dam can be easily discharged to the outside of the dam to maintain the cleanliness of the inside of the hot-dip zinc port and prevent the ash from adhering to the steel plate surface in the hot-dip zinc port, thereby improving the quality of the product.

1 is a view schematically showing a Snout apparatus of a molten zinc port according to the present embodiment.
FIG. 2 is a schematic view of a bath surface height sensing unit of the Snooth apparatus according to the present embodiment.
3 is a view schematically showing the height of the bath surface when the pump is operated in the Snooth apparatus according to the present embodiment.
4 is a view schematically showing the state of the boiling surface when the pump is operated in the Snooth apparatus according to the present embodiment.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the invention. The singular forms as used herein include plural forms as long as the phrases do not expressly express the opposite meaning thereto. Means that a particular feature, region, integer, step, operation, element and / or component is specified, and that other specific features, regions, integers, steps, operations, elements, components, and / And the like.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a view schematically showing a Snout apparatus of a molten zinc port according to the present embodiment. FIG. 2 is a schematic view of a bath surface height sensing unit of the Snooth apparatus according to the present embodiment.

As shown in Figs. 1 and 2, a Snout apparatus 1 of a hot-dip galvanizing port for controlling a hot-dip surface of molten zinc contained in a zinc port (not shown) and a molten zinc hot- do.

In the present embodiment, the Snout apparatus 1 of the molten zinc port comprises a Snout 10 installed at a zinc port containing molten zinc and a lower end immersed below a bath surface of the zinc port, A dam 20 extending upward from the lower end of the slab 10 along the steel plate S to form a space in the slab 10 and a dam 20 formed between the inner surface of the slab 10 and the dam 20, And a bath surface height sensing unit 30 installed in the space to control the bath surfaces L1 and L2 of the molten zinc between the snout 10 and the dam 20.

The Snooth apparatus 1 controls the bath surfaces L1 and L2 of the space formed between the inner surface of the snout 10 and the dam 20 to control the molten zinc bath surface of the zinc port and the bath surfaces L1, L2 can be automatically controlled. The bath surfaces L1 and L2 of the space formed by the inner surface of the snout 10 and the dam 20 can be sensed through the bath surface height sensing unit 30 and controlled to an appropriate bath surface height.

That is, the Snooth apparatus 1 determines a difference in height between the bath surface of the zinc port and the bath surface (L1, L2) of the space between the snout 10 and the dam 20 from the bath surface height sensing unit 30, As shown in FIG.

The bath surface of the zinc port and the bath surface (L1, L2) of the space may have a height difference depending on the amount of molten zinc to be supplied or the amount of molten zinc to be consumed.

If the bath surface of the zinc port is located higher than the dam 20 in the snout 10, the bath surface in the snout 10 may have the same height. If the bath surface inside the dam 20 becomes lower than the upper end of the dam 20 due to the lowering of the bath surface inside the snout 10 during the continuous plating process of the steel strip S, The ash can not be discharged and can be attached to the steel sheet S to be plated. In order to prevent this, the bath surface inside the snout 10 is adjusted.

When the molten zinc in the dam 20 is overflowed, the molten zinc overflows with the ash, thereby preventing the ash from adhering to the steel sheet S during plating. For this purpose, the bath surface inside the snout 10 can be controlled by using the bath surface height sensing unit 30.

In the present embodiment, the bath surface height sensing unit 30 contacts the bath surfaces L1 and L2 of the space between the snout 10 and the dam 20, and moves up or down according to the height of the bath surface. And a lever 32 connected to the ball 31 and variable in position by a rise or a fall of the ball 31.

The bath surface height sensing unit 30 can sense the height of the bath surface by using the change of the position of the lever 32 connected to the bowl 31 as the bowl 31 is raised or lowered. A center member 33 is provided at an intermediate portion of the lever 32 so that the lever 31 can be raised or lowered with respect to the center member 33.

In addition, at least one or more of the bath surface height sensing unit 30 is provided on the inner wall of the snout 10 so as to be close to one end of the lever 32, and the height of the bath surface due to the movement of the lever 32 And a sensing sensor 34 for sensing and transmitting a sensing signal.

The detection sensor 34 senses the position of the lever 32 whose position is changed by the rise or fall of the boom 31 and transmits the detection signal to the outside to detect the position of the boom 31 according to the position of the boom 31 The height can be controlled.

The snout device 1 may further include a pump 40 connected to the snout 10 and sucking molten zinc stored in a space between the snout 10 and the dam 20. The pump 40 sucks molten zinc in the space to overflow the molten zinc in the dam 20 to discharge the ash floating in the dam 20 to the outside of the dam 20.

As a result, the ash in the dam 20 is easily discharged to the outside of the dam 20 to maintain the cleanliness of the inside of the hot-dip zinc port and prevent the ash from adhering to the surface of the steel plate S in the hot- Can be improved.

The snout device 1 drives the pump 40 so that the sensing surface of the bath surface between the snout 10 and the dam 20 is sensed by the sensing sensor 34, And a control unit 50 for controlling the operation of the apparatus. The control unit 50 may send a signal to drive the pump 40. When the bath surface of the space between the inner wall of the snout 10 and the dam 20 is maintained similar to the bath surface of the zinc port, the ash in the dam 20 is not discharged to the outside, Senses the flow of the molten zinc in the space by driving the pump 40 to overflow the molten zinc in the dam 20 by discharging the molten zinc in the space.

3 is a view schematically showing the height of the bath surface when the pump is operated in the Snooth apparatus according to the present embodiment.

3, when the steel plate S is plated, the bath surface of the zinc port is the same as the bath surface of the space between the inner wall of the snout 10 and the dam 20. In this case, the pump 40 is not operated and the snout 10 is raised by the worker's action to match the bath surface inside the snout 10 with the height of the dam 20.

4 is a view schematically showing the state of the boiling surface when the pump is operated in the Snooth apparatus according to the present embodiment.

As shown in FIG. 4, when the steel sheet S is plated, the height of the molten zinc in the dam 20 is continuously lowered due to consumption of the molten zinc. In this case, since the ash generated in the dam 20 can not be discharged to the outside of the dam 20, the pump 40 is operated to overflow the molten zinc in the dam 20 to the outside of the dam.

Therefore, it is possible to effectively suppress the occurrence of ash by automatically controlling the bath surface of the hot melt surface of the molten zinc port and the space formed between the inner surface of the slug 10 and the dam 20, So that the workability of the operator can be improved.

While the illustrative embodiments of the present invention have been shown and described, various modifications and alternative embodiments may be made by those skilled in the art. Such variations and other embodiments will be considered and included in the appended claims, all without departing from the true spirit and scope of the invention.

1: Snout device 10: Snout
20: dam 30: bath surface height sensing unit
31: Breech 32: Lever
33: center member 34: detection sensor
40: pump 50:
L1, L2: Bath surface S: Steel plate

Claims (6)

A snout that is installed in a zinc port containing molten zinc and whose lower end is immersed below the molten metal surface of the zinc port;
A dam extending upwardly from the steel plate to the inside of the lower end of the snout to form a space inside the snout; And
A bath surface height sensing unit installed in a space formed between the inner surface of the snout and the dam, for controlling a bath surface of molten zinc between the snout and the dam,
Lt; / RTI >
The bath surface height sensing unit includes a boom which is brought into contact with the bath surface of the space between the snout and the dam and is raised or lowered according to the height of the bath surface and a lever connected to the boom to change its position by the rising or falling of the boom Snout apparatus of molten zinc pot. The method according to claim 1,
And the height difference between the bath surface of the zinc port and the bath surface of the space between the snout and the dam is controlled through the bath surface height sensing unit. delete The method according to claim 1,
Wherein the bath surface height sensing unit is further provided with at least one or more sensors disposed on the inner wall of the snout so as to be close to one end of the leverage and further comprising a sensor for detecting a height of the bath surface due to the movement of the leverage, The snooze device of the port. 5. The method of claim 4,
Further comprising a pump connected to the snout to draw molten zinc stored in the space between the snout and the dam. 6. The method of claim 5,
And a controller for sensing the bath surface of the space between the snout and the dam by the sensing sensor and driving the pump to control the bath surface to a constant height.

Images