KR20130060081A - Gas supply apparatus for ladle furnace - Google Patents

Abstract

PURPOSE: An inactive gas supply device of a ladle furnace is provided to control the opened extent of a conduit line of a gas supply pipe unit supplying inactive gas as a control unit operates a flow rate control valve when a sensing unit senses a clogged gas blowing-in hole of a bubbling cone of the ladle furnace. CONSTITUTION: An inactive gas supply device of a ladle furnace(1) comprises a gas supply pipe unit(10), a gas supply unit(20), a flow rate control valve unit(30), a sensing unit(40), and a control unit(50). The gas supply pipe unit is arranged in the lower part of the ladle furnace and connected to a gas blowing-in hole of a bubbling cone(1a). The inactive gas flows into inside of the ladle furnace through the gas blowing-in hole. The gas supply unit supplies the inactive gas to the inside of the gas supply pipe unit. The flow rate control valve unit is mounted in the gas supply pipe unit and control a flow rate of the inactive gas blown into the inside of the ladle furnace through the gas supply unit. The sensing unit is arranged in the gas supply pipe unit and senses clogging of the gas blowing-in hole. The control unit, which is connected to the sensing unit and a valve unit, controls the flow rate of the inactive gas blown into the inside of the ladle furnace by operating the valve unit when the sensing unit senses clogging of the gas blowing-in hole.

Description

Gas Supply Apparatus for Ladle furnace

The present invention relates to an inert gas supply device to a ladle, and more particularly, to a flow control apparatus for a ladle to control the inert gas flow rate to enable smooth operation.

In general, during continuous casting, molten steel is dissolved and then subjected to oxidation refining to control the molten steel temperature and carbon concentration by blowing gaseous oxygen into the molten steel furnace.

The oxidation refining operation involves blowing gaseous oxygen into molten steel to cause decarburization, dephosphorization, and desulfurization of molten steel.

After oxidizing and refining molten steel, sulfur and oxygen in the molten steel are removed, and ferroalloy, a preparation material, and the like are finely adjusted to remove the sulfur and oxygen in the molten steel.

In recent years, refining has been performed in ladle furnaces after tapping into a separate ladle furnace (LF).

Related prior arts include Korean Patent Publication No. 2008-0062396 'Bubble Plugs for Ladles' (published on July 3, 2008).

It is an object of the present invention to provide an inert gas supply device to a ladle capable of controlling the amount of inert gas blown by checking the blowing state of the inert gas blown into the ladle into the bubbling cone in real time.

An object of the present invention is an apparatus for blowing inert gas in a ladle furnace for heating the molten steel stored therein with arc heat and blowing the inert gas into the bottom,

A gas supply pipe portion provided at a lower portion of the ladle furnace and connected to a blowing hole of a bubbling cone having a gas blowing hole for blowing an inert gas into the ladle furnace;

A gas supply unit connected to the gas supply pipe member and supplying an inert gas into the gas supply pipe member;

 A flow control valve part mounted on the gas supply pipe part to adjust a flow rate of an inert gas supplied into the ladle through the gas supply part;

A detector provided in the gas supply pipe and detecting a blockage of the gas blowing hole of the bubbling cone;

Inert gas supply to the ladle including a control unit connected to the sensing unit and the valve unit and controlling the flow rate of the inert gas supplied into the ladle by operating the valve unit according to the blockage of the injection hole detected by the sensing unit. It is solved by providing a device.

The detection unit according to the present invention is mounted on the gas supply pipe portion pressure gauge for measuring the pressure in the gas supply pipe portion; And a flow meter mounted on the gas supply pipe part to measure a flow rate of the gas transferred through the gas supply pipe part.

The pressure gauge according to the present invention is a digital pressure gauge, the flow meter is a digital flow meter, the sensing unit further includes a transmitter (trannsmitter) for transmitting the measured value of the pressure gauge and the flow meter to the control unit.

The control unit according to the present invention receives the digital pressure gauge and the measured value from the digital flow meter from the transmitter, when the received pressure value is higher than the predetermined reference pressure value and the received flow rate value is a predetermined reference flow rate value If it is smaller, the flow rate control valve part is operated to increase the opening amount of the pipeline of the gas supply pipe part.

An inert gas supply device to a ladle according to the present invention includes an emergency gas pipe part connected to the gas supply pipe part; An emergency valve unit mounted to the emergency gas pipe member to open and close a pipeline of the emergency gas pipe member, and connected to the controller; And an emergency gas supply part connected to the emergency gas pipe part and supplying an inert gas.

The ladle furnace inert gas supply device according to the present invention has an effect of smoothly supplying the inert gas during operation in the ladle furnace to prevent accidents during operation, and to improve the quality and productivity of the molten steel that is operated in the ladle furnace.

1 is a schematic view showing an inert gas supply device to a ladle in accordance with the present invention;
Figure 2 is a schematic diagram showing an embodiment of the inert gas supply device to the ladle according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to Figure 1, the ladle furnace (1) is formed on the inner side of the inner wall made of a refractory body, the molten steel is stored therein. And an electrode for generating arc heat, an addition device for adding an alloying element and a refining agent therein, and a bubbling cone 1a provided on the lower surface of the ladle furnace 1 to blow inert gas therein. do.

That is, the ladle furnace (1) is to immerse the electrode in the slag of the molten steel, to generate an arc heat by applying power, and to heat the molten steel by the generated arc heat to control the temperature while the alloying element and the refining agent with the additive device It is added to molten steel and blows inert gas into molten steel with the said bubbling cone 1a, and is used for manufacturing special steel.

The ladle furnace (1) is stored in the molten steel discharged from the electric furnace is transferred to the ladle operating position and then connected to the inert gas supply device is carried out operation.

The inert gas supply device of the ladle furnace 1 according to the present invention includes a gas supply pipe part 10 connected to the bubbling cone 1a. The bubbling cone 1a has a cone shape, and a gas blowing hole through which an inert gas passes through the top and the bottom thereof is formed.

For example, the inert gas may be an argon (Ar) gas, and other inert gases may be used.

The gas supply pipe part 10 is connected to the gas blowing hole to blow gas into the ladle furnace 1 through the gas blowing hole of the bubbling cone 1a.

One end of the gas supply pipe part 10 is connected to the mall gas intake hole as described above, and the other end is connected to the gas supply part 20 for supplying gas.

The gas supply unit 20 includes a main gas storage tank for storing an inert gas blown into the ladle furnace 1. The inert gas in the main gas storage tank is supplied to the gas blowing hole of the bubbling cone 1a through the gas supply pipe part 10 and blown into the molten steel of the ladle furnace 1 through the gas blowing hole.

The gas supply pipe part 10 is equipped with a flow control valve part 30 for adjusting the opening and closing amount of the pipe. The flow control valve unit 30 is equipped with a flow control valve unit 30 for adjusting the flow rate of the inert gas supplied into the ladle furnace 1 through the gas supply unit 20.

In addition, the gas supply pipe part 10 is provided with a sensing unit 40 for detecting a blockage of the gas blowing hole of the bubbling cone 1a.

The sensing unit 40 is mounted on the gas supply pipe unit 10 and the pressure gauge 41 for measuring the pressure in the gas supply pipe unit 10;

It is attached to the gas supply pipe 10 includes a flow meter 42 for measuring the flow rate of the gas transported through the gas supply pipe 10.

The pressure gauge 41 is preferably a digital pressure gauge so that the gas pressure in the gas supply pipe part 10 can be confirmed with an accurate value, and the flow meter 42 is a flow rate of the inert gas flowing in the gas supply pipe part 10. It is preferable that the digital flowmeter is used to check the exact value.

In addition, the sensing unit 40 and the valve unit are connected to the control unit 50, and the control unit 50 controls the flow control valve unit 30 when the detection unit 40 detects a blockage of the injection hole. It operates to control the flow rate of the inert gas supplied into the ladle furnace (1).

In addition, the detector 40 further includes a transmitter 43 for transmitting the measured values of the pressure gauge 41 and the flow meter 42 to the controller 50.

That is, the controller 50 receives the digital pressure gauge and the pressure and the flow rate of the exact value measured from the digital flowmeter from the transmitter 43, and when the received pressure value is higher than a predetermined reference pressure value When the received flow rate value is smaller than the predetermined reference flow rate value, the flow rate control valve unit 30 is operated to increase the opening degree of the pipe of the gas supply pipe unit 10, thereby allowing the ladle furnace (through the gas supply pipe unit 10). 1) The amount of inert gas blown into the inside is kept constant.

Meanwhile, referring to FIG. 2, the inert gas supply device of the ladle furnace 1 according to the present invention includes an emergency gas pipe part 60 connected to the gas supply pipe part 10;

An emergency valve part 70 mounted to the emergency gas pipe part 60 to open and close a pipe of the emergency gas pipe part 60, and connected to the control part 50; And

It is preferable to further include an emergency gas supply unit 80 which is connected to the emergency gas pipe unit 60 and supplies an inert gas.

The emergency gas pipe part 60 is connected to the gas supply pipe part 10 between the sensing part 40 and the gas supply part 20 so as to detect the sensing part 40, that is, the pressure gauge 41 and the flow meter. It is preferable to allow 42 to accurately check the supply state of the actual gas blown into the ladle furnace 1 through the gas supply unit 20.

The emergency gas pipe part 60 and the emergency gas supply part 80 are provided with the ladle furnace 1 through the bubbling cone 1a whose blowing holes are blocked by the amount of inert gas supplied from the gas supply part 20. If it is not possible to maintain a normal amount of gas blown into the inside of the ladle furnace (1) by supplying an additional gas to maintain a normal amount of gas blown.

That is, the control unit 50 operates the flow control valve to detect the blockage of the gas intake hole in the sensing unit 40 even when the pipeline of the gas supply pipe unit 10 is completely opened. 70 is operated to open the conduit of the emergency gas pipe part 60 to supply an inert gas stored in the emergency gas supply part 80 to the gas supply pipe part 10 to ladle through the gas supply pipe part 10. The blowing amount of the inert gas blown into the furnace 1 is increased.

On the other hand, the method for controlling the blowing flow rate of the inert gas using the inert gas supply device of the ladle furnace 1 according to the present invention is as follows.

The ladle furnace 1, which once stored the molten steel exited from the electric furnace, is transferred to the operation position and then connected to the inert gas supply device of the present invention.

That is, the bubbling cone 1a of the ladle furnace 1 is connected to the gas supply pipe part 10.

During operation of the ladle furnace 1, the control unit 50 operates the flow control valve unit 30 to open a conduit of the gas supply pipe unit 10 so that the inert gas of the gas supply unit 20 is discharged from the gas intake hole. Blow into the ladle furnace (1) through.

At this time, the sensing unit 40, that is, the pressure gauge 41 and the flow meter 42 measures the pressure in the gas supply pipe unit 10 and the flow rate of the inert gas in real time and transmits it to the controller 50. .

The gas blowing hole of the bubbling cone may be partially blocked due to a cause such as now during the operation of the ladle furnace 1.

The controller 50 compares the pressure value and the flow rate value at the time of normal blowing with the pressure value and the flow rate value transmitted from the sensing unit 40, and controls the flow rate according to the degree of clogging of the gas injection hole according to the difference value. The valve portion 30 is operated to increase the opening amount of the gas supply pipe portion 10 to increase the supply amount of the inert gas.

The pressure value and the flow rate value during the normal blowing can be changed according to the operating environment, and when the control unit 50 is 20% or more of the pressure value during the normal blowing, that is, the preset reference pressure value, that is, the flow rate value during the normal blowing, If it is 20% or less of a preset reference flow rate value, it is determined that the gas injection hole is blocked, and the amount of opening of the inert gas blown into the ladle furnace 1 is controlled by increasing the opening amount of the gas supply pipe part 10. do.

In addition, when the gas injection hole is determined to be clogged even when the pipeline of the gas supply pipe part 10 is completely opened, the controller 50 operates the emergency valve part 70 to operate the emergency gas pipe part 60. The pipe is gradually opened to control the amount of inert gas blown into the ladle furnace 1.

The inert gas supply device of the ladle furnace 1 according to the present invention smoothly supplies an inert gas during the operation of the ladle furnace 1 to prevent accidents during operation, the quality and productivity of the molten steel to be operated in the ladle furnace (1) To improve.

The present invention is not limited to the above-described embodiments, and various changes can be made without departing from the gist of the present invention, which is understood to be included in the configuration of the present invention.

1: ladle 10: gas supply pipe part
20 gas supply unit 30 flow control valve unit
40: sensing unit 41: pressure gauge
42: flow meter 43: transmitter
50 control unit 60 emergency gas unit
70: emergency valve 80: emergency gas supply

Claims (5)

It is a device for heating the molten steel stored therein with arc heat and blowing the inert gas in the ladle furnace which blows the inert gas into the bottom.
A gas supply pipe portion provided at a lower portion of the ladle furnace and connected to a blowing hole of a bubbling cone having a gas blowing hole for blowing an inert gas into the ladle furnace;
A gas supply unit connected to the gas supply pipe member and supplying an inert gas into the gas supply pipe member;
A flow control valve part mounted on the gas supply pipe part to adjust a flow rate of an inert gas supplied into the ladle through the gas supply part;
A detector provided in the gas supply pipe and detecting a blockage of the gas blowing hole of the bubbling cone;
A ladle connected to the sensing unit and the valve unit, the control unit controlling a flow rate of an inert gas supplied into the ladle by operating the valve unit according to a blockage of the injection hole detected by the sensing unit. Inert gas supply to the furnace. The method according to claim 1,
The sensing unit includes:
A pressure gauge mounted on the gas supply pipe part to measure a pressure in the gas supply pipe part; And
And a flow meter mounted on the gas supply pipe and measuring a flow rate of the gas transferred through the gas supply pipe. The method according to claim 2,
The pressure gauge is a digital pressure gauge, the flow meter is a digital flow meter,
The detecting unit further comprises a transmitter (trannsmitter) for transmitting the measured value of the pressure gauge and the flow meter to the control unit. The method according to claim 3,
The control unit receives the digital pressure gauge and the numerical value measured from the digital flow meter from the transmitter, the received pressure value is higher than a predetermined reference pressure value and the received flow rate value is smaller than a predetermined reference flow value. An inert gas supply device for a ladle according to claim 1, wherein the flow rate control valve part is operated to increase the opening amount of the pipe line of the gas supply pipe part. The method according to claim 1,
An emergency gas pipe part connected to the gas supply pipe part;
An emergency valve unit mounted to the emergency gas pipe member to open and close a pipeline of the emergency gas pipe member, and connected to the controller; And
And an emergency gas supply part connected to the emergency gas pipe part and supplying an inert gas.

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