KR101184945B1 - Stand pipe for coke oven - Google Patents

Abstract

The present invention relates to a riser for a coke oven, and more particularly, to a riser for a coke oven, which can prevent foreign matter from adhering and prevent deformation or breakage.
The present invention is installed in the carbonization chamber to guide the gas generated in the carbonization chamber; A fireproof material installed on the inner wall of the main body; And a steam supply unit for injecting steam into the inner wall of the refractory material.

Description

Lift pipe for coke oven {STAND PIPE FOR COKE OVEN}

The present invention relates to a riser for a coke oven, and more particularly, to a riser for a coke oven, which can prevent foreign matter from adhering and prevent deformation or breakage.

Typical steelmaking consists of a steelmaking process to produce molten iron, a steelmaking process to remove impurities from molten iron, a casting process to solidify the liquid iron, and a rolling process to make iron steel or wire.

The process of making pig iron, the first step in making steel from iron ore, is called steelmaking, and the process of making steel from pig iron is called steelmaking.

The casting process is a process of injecting liquid molten steel into a mold and then cooling and solidifying it while passing through a continuous casting machine to continuously produce an intermediate material such as a slab or a bloom.

In this process, the bloom is converted into a billet (Billet) again through a rolling mill, and processed into a wire rod through a wire mill.

Further, the slab is produced as a heavy plate through a plate rolling mill or as a hot rolled coil or a hot rolled steel plate while passing through a hot rolling mill.

The steelmaking process for producing molten iron may be performed by a blast furnace for producing molten iron from iron ore, and charged with coke and sintered raw material dried in the coke oven into the sintering process to produce a sintered ore charged in the blast furnace.

The coke oven is equipped with a riser pipe for transferring gas generated during the dry distillation to the Mars plant.

The technical structure described above is a background technique for assisting the understanding of the present invention, and does not mean the prior art widely known in the technical field to which the present invention belongs.

It is an object of the present invention to provide a riser for a coke oven that can prevent foreign matter from adhering and prevent deformation or breakage.

In order to achieve the above object, the present invention, the main body is installed in the carbonization chamber to guide the gas generated in the carbonization chamber; A fireproof material installed on the inner wall of the main body; And a steam supply unit for injecting steam into the inner wall of the refractory material.

The steam supply unit may include a guide tube inserted into the refractory material through an insertion hole formed in the main body and the refractory material; An insertion tube inserted into the guide tube and formed with an inlet and an outlet; And a stopper provided in the discharge port and having a plurality of injection holes formed therein.

In addition, a gap is formed between the inner wall of the guide tube and the outer wall of the insertion tube.

In addition, the end of the insertion tube is formed with a collecting portion for collecting steam, characterized in that the discharge port is provided with the stopper is formed on the upper surface of the collecting portion.

In addition, the stopper is characterized in that the upper surface is sealed and a plurality of injection holes are continuously formed in the circumferential surface.

In addition, the steam supply unit, a temperature sensor for sensing the internal temperature of the main body; And a controller for driving the steam generator when the temperature detected by the temperature sensor is equal to or greater than a set temperature.

In addition, the guide tube is inserted into the main body so as to be lowered in the outward direction of the main body, characterized in that the discharge pipe is connected to the outer end of the guide tube.

Since the riser for the coke oven according to the present invention is not overheated more than necessary, there is an advantage of preventing the accumulation of foreign matter on the inner wall of the riser by suppressing carbon generation due to thermal decomposition of the gas.

In addition, the riser for the coke oven according to the present invention is not overheated to prevent damage to the refractory material and the outer shell due to thermal deformation, and to prevent the deformation or breakage of the connection between the riser and the gas collecting tube. There is an advantage to this.

1 is a view showing a coke oven installed with a riser according to an embodiment of the present invention.
2 is a cross-sectional view showing a riser for a coke oven according to an embodiment of the present invention.
3 is a cross-sectional view showing a steam supply unit of the riser for the coke oven according to an embodiment of the present invention.
Figure 4 is a block diagram showing the steam supply of the riser for the coke oven according to an embodiment of the present invention.
5 is a cross-sectional view showing a steam supply unit of the riser for the coke oven according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the riser for the coke oven according to the present invention.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a view showing a coke oven installed with a riser according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing a riser for the coke oven according to an embodiment of the present invention, Figure 3 is a view of the present invention 4 is a cross-sectional view showing a steam supply of the coke oven riser according to an embodiment, Figure 4 is a block diagram showing the steam supply of the coke oven riser according to an embodiment of the present invention.

1 to 4, the coke oven rising pipe 30 according to an embodiment of the present invention is installed in the carbonization chamber 10 and the body 32 for guiding the gas generated in the carbonization chamber 10 and , A fireproof material 34 installed on the inner wall of the main body 32, and a steam supply unit 50 for spraying steam on the inner wall of the fireproof material 34.

After the coal is charged into the carbonization chamber 10 of the coke oven 100 and the dry distillation process is performed, gas generated in the carbonization chamber 10 is collected along the riser 30 and along the gas collecting tube (not shown). It is transferred to the Hwaseong plant.

The gas generated during the dry distillation process is at a temperature of about 30 degrees at the beginning of the dry distillation process, and rises to about 1000 degrees at the end of the dry distillation process after about 28 hours.

Gas may be thermally decomposed by the temperature change of the rising gas during the dry distillation process, and carbon may be attached to the inner wall of the refractory material. You can prevent it.

Therefore, thermal decomposition of the gas due to overheating of the riser 30 can be suppressed, and breakage of the refractory material 34 caused by the temperature change of the riser 30 can be prevented, and thermal deformation of the main body 32 can be prevented. As a result, the connection portion between the main body 32 and the gas collecting tube can be prevented from being deformed or broken.

The steam supply unit 50 is inserted into the guide tube 52 and the guide tube 52 which is inserted into the refractory material 34 through the insertion hole 36 formed in the main body 32 and the refractory material 34. Insertion pipe 54 is formed 54a and the discharge port 54b, and a stopper 56 is provided in the discharge port 54b and a plurality of injection hole 56a is formed.

The guide tube 52 is formed in a pipe shape and the insertion tube 54 is fitted to the inner end disposed inside the main body 32, and the supply pipe 52a to which steam is provided is connected to the outer end.

Insertion tube 54 is formed in a smaller diameter than the guide tube 52 is inserted into the guide tube 52 from the inner end of the guide tube 52, a plurality of inlets on the peripheral surface of the insertion tube 54 54a is formed, and the discharge port 54b is formed in the outer edge part of the insertion pipe 54. As shown in FIG.

Since a gap is formed between the inner wall of the guide tube 52 and the outer wall of the insertion tube 54, steam is filled in the space between the guide tube 52 and the insertion tube 54 to guide the inside of the high temperature riser 30. It is possible to prevent the pipe 52 and the insertion pipe 54 from being damaged.

At the end of the insertion tube 54, a collecting portion 54c for collecting steam is formed, and a discharge port 54b is formed on the top surface of the collecting portion 54c.

The collecting portion 54c is formed in a cylindrical shape having a large cross-sectional area compared to the cross-sectional area of the insertion tube 54, so that the steam introduced into the insertion tube 54 through the inlet 54a is collected in the collecting portion 54c. When the pressure of the collecting portion 54c rises to reach the limit value, steam is injected into the main body 32 through the discharge port 54b and the injection hole 56a.

The stopper 56 installed in the discharge port 54b has an upper surface sealed and a plurality of injection hole portions 56a are formed in the circumferential surface thereof. The direction of travel is switched to the injection through the injection hole 56a toward the inner wall of the refractory material.

Since the injection hole 56a is continuously formed on the entire circumferential surface of the stopper 56, it is possible to inject steam to the entire refractory material 34 facing the stopper 56.

Therefore, it is possible to effectively prevent the riser 30 from overheating.

In addition, the steam supply unit 50 of the present embodiment is a temperature sensor 58 for detecting the internal temperature of the main body 32, and the steam generator 72 when the temperature detected by the temperature sensor 58 is above the set temperature It further includes a control unit 80 for driving.

At the beginning of the dry distillation process, if the steam generator 72 connected to the supply pipe 52a is not driven and the temperature inside the riser 30 detected by the temperature sensor 58 is greater than or equal to the set temperature, the controller 80 transmits it. The steam generator 72 is driven according to the signal.

Therefore, the steam generator 72 is not driven at the initial stage of the carbonization process in which carbon is not generated, and the steam generator 72 is driven in the latter part of the carbonization process in which the rising pipe 30 is overheated and the thermal decomposition of the gas proceeds. 30 is injected into the steam.

Looking at the operation of the coke oven riser according to an embodiment of the present invention configured as described above are as follows.

After the coal is charged into the carbonization chamber 10 of the coke oven 100 and the dry distillation process is started, gas generated in the carbonization chamber 10 is collected along the riser 30 and transferred to the Hwaseong plant along the gas collection tube. do.

As the drying process progresses, the temperature of the gas discharged from the carbonization chamber 10 is increased. When the temperature of the gas rises above the set temperature, the steam generator may be controlled by the controller 80 according to a signal transmitted from the temperature sensor 58. A drive signal is sent to the terminal 72.

When the steam generator 72 is driven, steam is supplied to the guide tube 52 along the supply pipe 52a, and steam introduced along the guide tube 52 is supplied into the insertion tube 54 through the inlet 54a. do.

The steam introduced into the insertion tube 54 is collected in the collecting portion 54c, and when the pressure of the collecting portion 54c rises to the limit value, the steam rises through the discharge hole 54b and the injection hole 56a. 30) It is injected into the inside to prevent the riser 30 overheating above a certain temperature.

At this time, since the steam injected into the riser 30 is injected laterally through the injection hole 56a formed on the circumferential surface of the stopper 56, the steam is injected directly to the refractory material 34 to cool the refractory material 34. You will do it effectively.

In addition, since the plurality of injection hole portions 56a are continuously formed on the entire circumferential surface of the stopper 56, steam is injected to the entire refractory material 34 disposed opposite the stopper 56 to prevent overheating of the riser 30. Effectively prevented.

5 is a cross-sectional view showing a steam supply unit of the riser for the coke oven according to another embodiment of the present invention.

Referring to FIG. 5, the guide tube 152 of the coke oven rising tube 130 according to another embodiment of the present invention is inserted into the main body 132 to form an inclination lowering in the outward direction of the main body 132 and guides. The discharge pipe 190 is connected to the outer end of the pipe 152.

In addition, the main body 132 into which the guide tube 152 is inserted and the insertion hole 136 of the refractory material 134 also have an inclination toward the outside of the main body 132.

After being introduced into the guide tube 152 through the supply pipe 152a, the steam injected into the riser 130 along the insertion tube 154 may generate condensed water in the guide tube 152. For example, since the inclination of the guide tube 152 is lowered to the outside of the riser 130, the condensed water generated in the guide tube 152 is discharged to the outside of the riser 130.

Condensed water moved to the outside of the riser 130 along the inclined surface of the guide tube 152 is discharged to the outside of the guide tube 152 along the discharge pipe 190 connected to the outer end of the guide tube 152.

As a result, it is possible to provide a riser for a coke oven that can prevent foreign matter from adhering and prevent deformation or breakage.

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 embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

In addition, although the riser for the coke oven has been described as an example, this is merely exemplary, and the riser of the present invention may be used in products other than the coke oven.

Accordingly, the true scope of the present invention should be determined by the following claims.

10: carbonization chamber 30: riser
32: main body 34: fireproof material
36: insertion hole 50: steam supply
52: guide pipe 52a: supply pipe
54: insertion tube 54a: inlet
54b: discharge port 54c: collecting part
56: stopper 56a: injection hole
58: temperature sensor 72: steam generator
80: control unit 100: coke oven

Claims (7)

A main body installed in the carbonization chamber to guide the gas generated in the carbonization chamber;
A fireproof material installed on the inner wall of the main body; And
A steam supply unit for injecting steam into the inner wall of the refractory material;
The steam supply unit,
A guide tube inserted into the refractory material through an insertion hole formed in the main body and the refractory material;
An insertion tube inserted into the guide tube and formed with an inlet and an outlet; And
And a stopper provided in the discharge port and having a plurality of injection holes formed therein.
delete The method of claim 1,
A riser for a coke oven, characterized in that a gap is formed between the inner wall of the guide tube and the outer wall of the insertion tube.
The method of claim 1,
The end of the insertion tube is formed with a collecting portion for collecting steam, the discharge pipe for the coke oven, characterized in that the discharge port is provided with the stopper is formed on the upper surface of the collecting portion.
The method of claim 1,
The stopper is a coke oven ascending pipe, characterized in that the upper surface is sealed and a plurality of injection holes are formed continuously in the peripheral surface.
The steam supply unit according to claim 1 or 3, wherein the steam supply unit
A temperature sensor for sensing an internal temperature of the main body; And
And a control unit for driving a steam generator when the temperature detected by the temperature sensor is greater than or equal to a set temperature.
The method according to claim 6,
The guide tube is inserted into the main body so as to be lowered in the outward direction of the main body, the discharge pipe for the coke oven, characterized in that the discharge pipe is connected to the outer end of the guide tube.

Images