KR101428209B1 - Pipe apparatus for lancing oxygen - Google Patents

Abstract

An oxygen lancing pipe apparatus according to the present invention comprises: a pipe body; An oxygen pipe installed in the pipe main body and generating high temperature on the end side by blowing oxygen into the blast furnace; And an oxygen pipe disposed between the pipe body and the oxygen pipe and disposed inside the blast furnace wall when disposed in the blast furnace and melting together with the pipe body and the oxygen pipe melted and shortened by the high heat on the end side of the oxygen pipe And a replacement notification means for indicating a replacement time.
In the present invention, the replacement notification means is arranged so as to be disposed inside the blast furnace wall when disposed in the blast furnace, so that in the process of gradually melting the present invention due to the high heat generated by the blowing oxygen, By detecting this before the furnace wall of the blast furnace is damaged, it is possible to prevent damage to the furnace wall of the blast furnace.
In addition, since the fuel gas is also blown in the oxygen lancing process, insufficient heat sources are reinforced to maintain the thermal balance, so that the liquid-permeability in the blast furnace can be secured early.

Description

Pipe apparatus for lancing oxygen < RTI ID = 0.0 >

The present invention relates to an oxygen lancing pipe apparatus, and more particularly, to an oxygen lancing pipe apparatus capable of preventing the furnace walls from being damaged in the blast furnace during oxygen blowing.

Generally, in the steel industry, an oxygen lancing operation is carried out in order to facilitate the discharge of the melt through the outlet of the blast furnace, or to remove the now attached due to the solidification of the molten steel in facilities such as ladles, tundishes, have.

Oxygen lancing works by using the high heat generated by the chemical reaction of the injected oxygen to melt refractory or non-penetrating residues such as iron bars in the depth of the blast furnace outlet, It is a process of melting water.

The oxygen lancing work in the blast furnace is as follows. (1) In the blast furnace (1), the liquid permeability of the molten metal (5) remaining in the furnace bottom (3) There is an oxygen loaded lancing operation in which oxygen is intensively blown into the tuyeres 1b and the outlet 1a by using an oxygen pipe.

In the oxygen lancing operation, when the refractory having the depth of the exit port (1a) of about 3500 mm to 5000 mm can not be penetrated by the open air during excavation, the inside of the melt is dissolved by the oxygen pipe and the melt ) Is discharged out of the room.

In the oxygen lancing operation as described above, the oxygen lance pipe apparatus 10 which melts the solidification product as well as oxygen while supplying oxygen is also melted.

In particular, as shown in FIG. 2, when the oxygen lanced pipe apparatus 10 is melted by oxygen-loaded lancing operation for blowing oxygen, the melted portion approaches the furnace wall of the blast furnace 1, Thereby damaging the furnace wall 2.

Therefore, the operator inserts the oxygen lancing pipe apparatus 10 by taking the experience, takes oxygen for a certain period of time, takes out the oxygen lancing pipe apparatus 10, replaces it with a new oxygen lancing pipe apparatus, do.

Since the replacement work of the oxygen lancing pipe apparatus 10 is performed by the experience of the operator, it is possible to cause an accident such as damage of the furnace wall 2 in case of an inexperienced worker.

It is an object of the present invention to provide an oxygen lancing pipe device which is capable of preventing damage to a furnace wall of a blast furnace by means of a replacement notification means incorporated in the course of blowing oxygen in a blast furnace .

According to an aspect of the present invention, there is provided an oxygen lancing pipe apparatus comprising: a pipe body; An oxygen pipe installed in the pipe body and generating high temperature on the end side by blowing oxygen into the blast furnace; And an oxygen pipe which is provided between the pipe body and the oxygen pipe and is melted together with the pipe body and the oxygen pipe by the high heat of the end of the oxygen pipe to inform the replacement time, And a plurality of replacement notification means arranged.

At this time, it is preferable that the replacement notification means is a thermocouple that measures temperature.

delete

The present invention may further include a photographing member mounted on a rear end of the oxygen pipe and photographing a front end portion of the oxygen pipe to indicate a replacement timing of the oxygen lancing pipe apparatus to be burned.

Here, it is preferable that the rear end of the oxygen tube is sealed with a transparent observation window, and the imaging member photographs the front end portion of the oxygen tube through the observation window.

The present invention may further include a fuel gas pipe that surrounds the oxygen pipe and is disposed in the pipe body to blow fuel gas into the blast furnace to reinforce the heat source.

At this time, the oxygen pipe and the fuel gas pipe are respectively connected to the oxygen supply line and the fuel gas supply line, and the oxygen supply line and the fuel gas supply line are respectively equipped with a control valve. The control valve is electrically connected to the control unit .

In addition, the oxygen supply line and the fuel gas supply line may each be equipped with a flow meter.

A refractory may be filled between the pipe body and the fuel gas pipe.

In the oxygen lancing pipe apparatus according to the present invention, since the replacement notification means is arranged inside the blast furnace wall when disposed in the blast furnace, the present invention is melted and gradually shortened due to the high heat generated by the blowing oxygen And it is possible to prevent damage to the furnace wall of the blast furnace by sensing the furnace wall before it is damaged through the replacement notification means.

In addition, the present invention is configured to blow the fuel gas in the oxygen lancing process, thereby enhancing the lack of heat source to maintain the thermal balance, and thus securing the liquid permeability in the blast furnace early.

FIG. 1 is a schematic view showing that an oxygen lancing pipe apparatus according to the prior art is inserted into an outlet to take in oxygen.
FIG. 2 is a schematic view showing that the oxygen lancing pipe apparatus of FIG. 1 is melted in the blast furnace when oxygen is blown, thereby damaging furnace walls of the blast furnace.
3 is a longitudinal sectional view showing an oxygen lancing pipe apparatus according to a preferred embodiment of the present invention.

The oxygen lancing pipe apparatus of the present invention is characterized in that replacement notification means is incorporated in the blast furnace to prevent damage to the blast furnace wall during the oxygen blowing process and the fuel gas can be blown together to reinforce the heat source do.

Hereinafter, the present invention will be described in detail with reference to the drawings.

3 is a longitudinal sectional view showing an oxygen lancing pipe apparatus according to a preferred embodiment of the present invention.

3, the oxygen lancing pipe apparatus 100 of the present invention includes a pipe body 110, and an oxygen pipe 120, which is formed in the pipe body 110, A fuel gas pipe 130, and a replacement notification means 140.

The pipe body 110 is a member that shows the outer shape of the oxygen lancing pipe apparatus 100 and has a structure elongated in a pipe shape.

The pipe main body 110 blows oxygen into the blast furnace 1 through an outlet 1a of the blast furnace 1 (downward inclined or horizontal) and a tuyere 1b. (1a), the tuyeres (1b), and the like.

The oxygen pipe 120 is a pipe through which oxygen is supplied, and may be disposed along the longitudinal direction of the pipe body 110 in the pipe body 110.

At this time, the oxygen tube 120 has a structure in which the front end side which is drawn into the blast furnace 1 is opened and the rear end side which is arranged outside the blast furnace 1 is closed.

The oxygen pipe 120 serves to blow oxygen into the blast furnace 1 through the front end portion and to generate heat at a high temperature as the combustion flame of the coke 4 is generated at the front end portion.

In the past, when the operation of the blast furnace 1 was stopped due to an accident, and the furnace heat was insufficient and the furnace entered the long-term rest period, when the furnace was re-operated, There is a possibility that the melt 5 in which the furnace bottom 3 is cooled by the lack of heat and is dissolved and formed in the tuyeres 1b can not be discharged to the outlet 1a due to a liquid-poor defect.

That is, when the blast furnace 1 is shut down for a long time, it is necessary to secure a heat source in preparation for the idle time. However, since it is stopped in an unexpected state, the operation becomes extremely unstable due to lack of heat during re- .

The tuyere 1b or the outlet 1a is formed by using the oxygen tube 120 in order to ensure the liquid permeability of the melt 5 between the tuyere 1b and the outlet 1a when the blast furnace 1 is aged or unstable. Thereby performing an oxygen lancing operation in which oxygen is supplied intensively.

The oxygen pipe 120 is connected to the oxygen supply line 160 for supplying oxygen. At this time, the oxygen inlet 120a, which is branched at one end of the rear end and extends for a predetermined length, communicates with the oxygen supply line 160 .

The oxygen supply line 160 is connected to the oxygen supply unit 161 and may be equipped with a flow meter 180 for measuring the supply amount of oxygen and a control valve 190 for controlling the supply amount of oxygen.

The flow meter 180 and the control valve 190 may be electrically connected to the controller C and may be controlled through automatic control of the controller C or manual control of the operator based on the measured value of the flow meter 180 .

The fuel gas pipe 130 is a pipe through which fuel gas is supplied, and can be disposed in a longitudinal direction of the pipe body 110 in the pipe body.

At this time, the fuel gas pipe (130) has a structure in which the front end side which is drawn into the blast furnace (1) is opened and the rear end side which is arranged outside the blast furnace (1) is closed.

This fuel gas pipe 130 serves to blow the fuel gas into the blast furnace 1 so as to reinforce the heat source in the blast furnace 1.

Conventionally, when only the oxygen is supplied in a state where the coke 4 is loaded in the blast furnace 1, the combustion efficiency of the coke 4 can be partially improved, but a sufficient heat source can not be supplied.

Accordingly, the present invention further improves the liquid permeability in the blast furnace 1 because the heat source is supplemented to maintain the thermal balance.

The fuel gas introduced through the fuel gas pipe 130 may be made of fuel that can be burned without adversely affecting the aging of the blast furnace 1, for example, COG (Coke Oven Gas) or natural gas .

That is, the fuel gas acts as a heat source and a reducing agent in order to prevent an adverse effect that may occur when only oxygen is blown into the blast furnace 1.

The fuel gas pipe 130 is connected to a fuel gas supply line 170 for supplying a fuel gas. At this time, a gas inlet 130a branched to one side of the rear end and extending for a predetermined length is connected to the fuel gas supply line 170 .

The fuel gas supply line 170 is connected to the fuel gas supply unit 171 and may be equipped with a flow meter 180 for measuring the supply amount of the fuel gas and a control valve 190 for controlling the supply amount of the fuel gas.

The flow meter 180 and the control valve 190 may be electrically connected to the controller C and may be controlled through automatic control of the controller C or manual control of the operator based on the measured value of the flow meter 180 .

The replacement notification means 140 is installed between the pipe body 110 and the oxygen pipe 120 and may be installed between the fuel gas pipe 130 surrounding the oxygen pipe 120 and the pipe body 110 .

A refractory 150 may be filled between the fuel gas pipe 130 and the pipe body 110. The refractory 150 is filled to protect the internal components from the high temperature atmosphere in the blast furnace 1 The replacement notification means 140 may be embedded in the refractory 150.

The replacement notification means 140 informs the replacement time of the pipe body and the oxygen pipe 120, which are melted due to the high temperature generated by the oxygen being blown.

That is, the operator can easily know the replacement timing of the oxygen lancing pipe apparatus 100 of the present invention.

Specifically, the replacement notification unit 140 may utilize a thermocouple that measures temperature. These thermocouples have a conventional sensor structure for sensing temperature.

The thermocouple is electrically connected to an external control unit C through a lead wire 141. The lead wire 141 is connected to a thermocouple at one side and a wire connection part 110a and may be connected to the control unit C. [

In this way, the replacement notification means 140 utilizing the thermocouple can not be temperature-measured by melting due to the high temperature generated by the oxygen, so that the replacement timing of the present invention can be informed.

The thermocouple is disposed between the pipe body 110 and the oxygen pipe 120 and disposed inside the furnace wall 2 of the blast furnace 1 when disposed in the blast furnace 1, Even when the oxygen lancing pipe apparatus 100 is melted, the furnace wall 2 of the blast furnace 1 is not damaged.

As a result of the above process, it can be seen that as the length from the front end portion of the present invention is gradually reduced due to the high temperature during the oxygen lancing operation, The high temperature) gradually moves toward the furnace wall 2 side.

Accordingly, the melting of the present invention due to the high temperature is directed toward the replacement notification means 140, and the replacement notification means 140 is also gradually melted, making it impossible to measure the temperature. As a result, This makes it possible to know the replacement timing of the present invention so that the furnace wall 2 of the blast furnace 1 is not damaged.

Further, when there are a plurality of replacement notification means 140, the temperature can not be measured by melting one by one, so that the melting length of the present invention can be more accurately known, and the rate of melting can be predicted.

Of course, by checking the rise in temperature measured over time by means of a plurality of replacement notification means 140, it is possible to know the predicted value of temperature rise over time, which results in prediction of the melting rate and replacement timing of the present invention can do.

Here, as a preferred example, a plurality of the replacement notification means 140 are disposed one at a position of about 1 m from the front end when the total length of the pipe body 110 is about 6 m, and are arranged one by one at intervals of 100 mm sequentially .

Meanwhile, in the present invention, the observation window 121 and the imaging member 122 may be formed at the rear end of the oxygen pipe 120.

The photographing member 122 is attached to the rear end of the oxygen pipe 120 and performs a function of photographing the front end portion of the oxygen pipe 120 so as to indicate the replacement timing of the oxygen lancing pipe apparatus 100 to be burned.

That is, by observing the front end side of the oxygen pipe 120 with the imaging member 122, the operator can check whether or not the present invention is sufficiently melted to damage the furnace wall 2 of the blast furnace 1, It is possible to know the replacement timing of the oxygen lancing pipe apparatus 100 to be used.

Specifically, the rear end of the oxygen pipe 120 is closed by the transparent observation window 121, and the imaging member 122 can photograph the front end portion of the oxygen pipe 120 through the observation window 121.

The photographing member 122 may be electrically connected to the control unit C and controlled by automatic control by the set program of the control unit C or manual control of the operator.

The oxygen lancing operation of the oxygen lancing pipe apparatus 100 according to the present invention will now be described.

As the time lapses after the start of the oxygen lancing operation, the high temperature generated by the oxygen introduced into the blast furnace 1 gradually melts from the front end portion of the apparatus and becomes shorter in length.

During this process, the thermocouple, which is the replacement notifying means 140 disposed on the front side of the furnace wall 2 of the blast furnace 1, is also melted, so that it is recognized that the temperature can not be measured through the controller C.

The control valve C closes the control valve 190 to shut off the oxygen supply line 160 and the fuel gas supply line 170 to stop the supply of oxygen and fuel gas.

In addition, the oxygen lancing pipe apparatus 100 of the present invention can be taken out from the blast furnace 1 to prevent the furnace wall 2 from being damaged by melting the apparatus of the present invention.

Of course, when the operator recognizes that the temperature of the replacement notification means 140, which is a thermocouple, can not be measured through the display unit (not shown) of the control unit C, the control valve 190 is manually closed, It is possible to prevent damage to the furnace wall 2 of the blast furnace 1 by replacing the present invention after stopping the supply of the gas.

Further, since the photographing member 122 can photograph the flame of the oxygen pipe 120 through the observation window 121 and observe the flame through the display unit of the control unit C, The control valve 190 is manually closed to stop the supply of oxygen and fuel gas in a timely manner and then the present invention is replaced to replace the blast furnace 1 The damage of the furnace wall 2 can be prevented.

According to the present invention configured as described above, since the replacement notification means 140 is disposed inside the furnace wall 2 of the blast furnace 1 when the blast furnace 1 is disposed in the blast furnace 1, It is possible to prevent damage to the furnace wall 2 of the blast furnace 1 by detecting before the furnace wall 2 of the blast furnace 1 is damaged through the replacement notification means 140 in the course of gradually shortening as the invention is melted have.

In addition, since the fuel gas is also blown in the oxygen lancing process, the lack of heat source is reinforced to maintain the thermal balance, so that the liquid-permeability in the blast furnace 1 can be secured early.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

1: blast furnace 1a: outlet
1b: tungsten 2:
3: Root bottom part 4: Coke
5: melt 100: oxygen lancing pipe device
110: pipe body 110a: wire connecting portion
120: Oxygen pipe 120a: Oxygen inlet
121: observation window 122: imaging member
130: fuel gas pipe 130a: gas inlet
140: replacement notification means 141: lead wire
150: refractory 160: oxygen supply line
170: fuel gas supply line 180: flow meter
190: Control valve C: Control part

Claims (9)

A pipe body (110);
An oxygen pipe (120) installed in the pipe body (110) and generating high temperature on the end side by blowing oxygen into the blast furnace (1); And
Is installed between the pipe body 110 and the oxygen pipe 120 and is melted together with the pipe body 110 and the oxygen pipe 120 by the high heat of the end of the oxygen pipe 120, A plurality of replacement notification means 140 spaced from the front end of the pipe main body 110 to the rear end side thereof;
(100). ≪ / RTI >
The method according to claim 1,
Wherein the replacement notification means (140) is a thermocouple for measuring temperature.
delete The method according to claim 1,
An imaging member (122) mounted at a rear end of the oxygen pipe (120) for photographing a front end portion of the oxygen pipe (120) so as to indicate a replacement time of the oxygen lancing pipe apparatus (100)
(100). ≪ / RTI >
5. The method of claim 4,
Wherein the rear end of the oxygen pipe is sealed with a transparent observation window and the imaging member is configured to photograph the front end of the oxygen pipe through the observation window. A lancing pipe device (100).
The method according to claim 1,
A fuel gas pipe 130 which surrounds the oxygen pipe 120 and blows fuel gas into the blast furnace 1 so as to reinforce a heat source disposed in the pipe body 110;
(100). ≪ / RTI >
The method according to claim 6,
The oxygen pipe 120 and the fuel gas pipe 130 are connected to the oxygen supply line 160 and the fuel gas supply line 170,
Wherein the oxygen supply line and the fuel gas supply line are each equipped with a control valve and the control valve is electrically connected to the control unit. Pipe arrangement (100).
8. The method of claim 7,
Wherein the oxygen supply line (160) and the fuel gas supply line (170) are each equipped with a flow meter (180).
The method according to claim 6,
Wherein a refractory (150) is filled between the pipe body (110) and the fuel gas pipe (130).

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