KR101697674B1 - Raw material supply apparatus - Google Patents

Abstract

The present invention relates to a raw material supply apparatus, which supplies raw material to the interior of the vessel through a bow inlet of the vessel above a vessel to be treated with raw materials, the upper portion is connected to a chute from which the raw material is discharged, An upper tube having an upper portion opened and a receiving portion having a fluid accommodated therein; A lower tube provided inside the upper tube so as to be movable along the longitudinal direction of the upper tube and having a shielding portion inserted into the receiving portion when the lower tube is lowered; And a fluid supply unit for supplying the fluid to the receiving part, and it is possible to prevent the contaminants such as dust, noxious gas and the like from flowing out through the connection part of the pipe.

Description

[0001] Raw material supply apparatus [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a raw material supplying apparatus, and more particularly, to a raw material supplying apparatus capable of preventing contaminants generated during raw material supply from flowing out.

Generally, the coke used in the operation of a blast furnace of a steel mill is subjected to various steps in advance. For example, coke is charged into a carbonization chamber of a coke oven in a large amount (about 32 tons) of coking coal, heated at about 1400 ° C for about 18 hours, extruded and cooled in a separate fire extinguishing facility Process.

The upper part of the coke oven is provided with a coking coal supplying device for supplying coking coal, and a coking oven is provided with a coking oven for loading coking coal on the upper surface of the coking oven, that is, the upper surface of the coking chamber. The inlet port is closed through a lid formed of a steel material. When the coal is charged, the port is opened by separating the lead using a lead lifter provided outside the carbonization chamber. When the entry opening is opened, the raw material inputting tube, for example, a telescope descends from the loading car containing the coking material, and the lower end thereof is inserted into the entry opening. The coke contained in the car is then charged into the coke oven via the telescope.

The telescope for charging the coke oven accommodated in the charging car into the carbonization chamber of the coke oven includes a chute for discharging the coke stored in the charging car connected to the charging car, an upper pipe connected to the charging car to surround the chute, And a lower tube connected to the tube so as to be movable in the vertical direction and a driver moving the lower tube in the vertical direction. At this time, a part of the upper tube can be formed as an expansion tube that can expand and contract in the vertical direction. The lower tube is connected to the upper tube so as to be movable up and down in the upper tube and is raised inside the upper tube before the coke is charged into the carbonization chamber. When the coke is charged into the carbonization chamber, the lower tube is lowered, one side is supported by the lower portion of the upper tube, and the other side is supported by the bow inlet to form the movement path of the coke.

When the lower pipe is lowered for charging the coke, the one side of the lower pipe, for example, the upper side, is in surface contact with the lower inner peripheral surface of the upper pipe to seal the movement path of the coke. However, when the lower pipe is inclined downward or the contact portion between the upper pipe and the lower pipe is worn, there is a problem that contaminants such as dust and noxious gas generated while charging the raw carbon are discharged through the connection portion between the upper pipe and the lower pipe.

In addition, when the lower pipe is lowered to charge the coke, the upper pipe is pulled to extend the expansion pipe, and the expansion pipe is damaged due to repetitive operation, and the pollutant is leaked through the expansion pipe.

KR2015-0016760A KR2014-0077721A

The present invention provides a raw material supply device capable of suppressing or preventing the outflow of contaminants generated during raw material supply.

The present invention provides a raw material supply device capable of stably operating a facility.

A raw material supply apparatus according to an embodiment of the present invention is a raw material supply apparatus for supplying coal to a carbonization chamber through a bow inlet of a coke oven. The upper portion is connected to a chute from which the coal is discharged, An upper tube having a receiving portion for receiving a fluid; A lower tube provided inside the upper tube so as to be movable along the longitudinal direction of the upper tube and having a shielding portion inserted into the receiving portion when the lower tube is lowered; And a fluid supply part for supplying the fluid to the receiving part, wherein the receiving part is formed by bending the lower part of the upper tube in the inside direction, the upper part of the lower tube being bent outwardly, And a discharge pipe for discharging the fluid is connected to the discharge port. The discharge pipe is higher than the discharge port so as to adjust the level of the fluid received in the accommodation part, The lower end portion of the lower end portion of the lower end portion may be provided with a lower rising portion.

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The receiving portion and the shielding portion may be formed to be engaged with each other.

The length of the shield may be equal to or longer than the length from the bottom of the receptacle to the end of the upper tube.

The receiving portion is formed with a supply port through which fluid is supplied, and the discharge port may be formed at a lower position than the supply port.

The fluid supply unit may include a fluid tank for storing the fluid and a supply pipe for connecting the fluid tank and the supply port. The supply pipe may include a valve for opening and closing the fluid passage.

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The raw material supply apparatus according to the embodiment of the present invention can form a sealing portion using a fluid such as water in at least a part of the supply pipe through which the raw material is discharged so as to suppress or prevent the outflow of the contaminants generated during discharge of the raw material have. That is, it is possible to form a sealing part using a fluid at a connection part of a plurality of pipes forming the supply pipe, and to prevent the pollution such as dust, noxious gas and the like from flowing out through the connection part of the pipe. Therefore, environmental pollution caused by dust or noxious gas can be suppressed or prevented.

In addition, the structure of the expansion pipe constituting a part of the supply pipe can be dispensed with, thereby preventing damage to the supply pipe due to long-term use and facilitating maintenance.

In particular, the present invention is useful for an apparatus for charging coal into a carbonization chamber of a coke oven.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a raw material processing apparatus to which a raw material supplying apparatus according to an embodiment of the present invention is applied; FIG.
2 is a view showing a structure of a raw material supply apparatus according to the prior art and a problem occurring in the raw material supply apparatus.
3 is a view showing a raw material supply apparatus according to an embodiment of the present invention.
4 is a view showing a configuration of a main part of the raw material supply apparatus shown in Fig.
5 is a view showing a process of supplying a raw material to a raw material processing apparatus using a raw material supply apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be embodied in various different forms, and it is to be understood that these embodiments are merely illustrative of the principles of the invention and are not intended to limit the scope of the invention to those skilled in the art. It is provided to let you know completely.

The raw material supply apparatus according to the present invention can be applied to supply raw materials to raw material processing apparatuses that store or process various kinds of raw materials. In this embodiment, an example of application to a coke oven for producing coke by burning coke is described. Here, the raw material may be a coking coal such as coal, and the raw material treating apparatus may be a coke oven, and the raw material supplying apparatus may be a charging car storing the coking coal and a raw material supplying pipe connected to the charging car.

FIG. 1 is a view schematically showing a raw material feeder to which a raw material feeder according to an embodiment of the present invention is applied, FIG. 2 is a view showing a structure of a raw material feeder according to the prior art and a problem occurring in the raw material feeder .

1, a raw material supplying apparatus 200, for example, a charging car is provided on a carbonization chamber 100 of a coke oven and is introduced into a carbonization chamber 100 through a gas inlet 102 formed in an upper portion of the carbonization chamber 100 We supply coking coal. The raw material supply device is provided so as to be movable on the upper part of the carbonization chamber 100 for burning the raw coal, and includes a reservoir 210 for storing the raw carbon, a drain connected to the lower portion of the reservoir 210, To the inlet port 102 of the carbonization chamber 100. In this case,

The telescope includes a screw conveyor 212 fixed to the reservoir 210 for discharging the coke from the reservoir 210 and a screw conveyor 212 for discharging the coke discharged from the lower portion of the screw conveyor 212 Chute < / RTI > At this time, the chute 214 is fixedly installed on the reservoir 210 so as to extend in the vertical direction, and has a predetermined length and is formed to be spaced apart from the intestinal inlet 102. A dust or harmful gas generated when discharging the coke through the chute 214 is prevented from being discharged to the outside on the outer side of the chute 214 and a raw material supply pipe 220 may be provided.

The raw material supply pipe 220 includes an upper pipe 222 provided to surround the chute 214 and a lower pipe 224 and a lower pipe 224 which are vertically movable in the upper pipe 222 And a driver 230 that moves in the vertical direction. The raw material supply pipe 220 is formed so as to be able to expand and contract in the up and down direction and the lower pipe 224 is lowered when the raw coal is supplied so as to be in close contact with the entry port 102 of the carbonization chamber 100, And if the charge is not supplied or the charge difference moves, it may rise and be separated from the entry port 102.

2, when the lower pipe 224 is lowered to supply the raw coal, the outer circumferential surface of the lower pipe 224 and the inner circumferential surface of the upper pipe 222 are in surface contact with each other to seal the inside thereof from the outside there was. However, when the contact portion between the lower tube 224 and the upper tube 222 is worn due to the lowering of the lower tube 224 or the use of the lower tube 224 for a long period of time, a gap is formed in the contact portion between the upper tube 222 and the lower tube 224 Often occurs. In this case, contaminants such as dust and noxious gas are leaked to the outside through the gap formed between the upper pipe 222 and the lower pipe 224, thereby polluting the environment.

Therefore, in the present invention, a sealing portion using a fluid such as water is formed at the connection portion between the upper tube 222 and the lower tube 224, and the contaminants are discharged through the connection portion between the upper tube 222 and the lower tube 224 And solved the problem.

FIG. 3 is a view showing a raw material supply apparatus according to an embodiment of the present invention, and FIG. 4 is a view showing a main configuration of a raw material supply apparatus shown in FIG.

Referring to FIG. 3, the raw material supply apparatus according to the embodiment of the present invention includes an upper pipe 222, a lower pipe 224 which is vertically movable in the upper pipe 222, A driver 230 for moving the upper tube 222 and the lower tube 224 in the vertical direction and a sealing portion provided at a connection portion between the upper tube 222 and the lower tube 224.

The upper tube 222 is provided on the outer side of the chute 214 so as to surround the outer circumferential surface of the chute 214. The upper tube 222 may be formed to have a length similar to the length of the chute 214 and may be spaced apart from the outer circumferential surface of the chute 214. The upper tube 222 may be formed in a substantially hollow cylindrical shape and the lower portion may be bent inward to form a receiving portion 223 for receiving the fluid L. [ Here, the receiving portion 223 is described as being formed by bending a part of the upper tube 222, but it is of course possible that a separate structure may be in the form of a structure connected to the upper tube 222, Any shape with a space that can be accommodated is possible.

At this time, the accommodating portion 223 is formed continuously along the circumferential direction of the upper tube 222, and may be formed in a 'U' shape in which the upper side is opened. The accommodating portion 223 may be provided with a supply port 216a for supplying fluid and an outlet port 216b for discharging the fluid. At this time, the supply port 216a may be formed at a position higher than the discharge port 216b and may be formed at a position higher than at least the depth of the accommodating portion 223. The depth of the receiving portion 223 may be a height at which the end of the upper tube 222 bent to form the receiving portion 223 from the bottom of the receiving portion 223 is located.

The receiving portion 223 thus formed may be supplied with a fluid such as water and may include a fluid supplying portion 300 for supplying the fluid. The fluid supply unit 300 may include a fluid tank 310 for storing the fluid and a supply pipe 312 for connecting the fluid tank 310 and the supply port 216a. The fluid tank 310 may be connected to one side of the upper tube 222 or may be connected to the chute 214. The supply pipe 312 may include a valve 314 for opening and closing the flow path. The valve 314 can be opened and closed to selectively supply the fluid to the accommodating portion 223.

The discharge port 216b formed in the receiving portion 223 may be connected to a discharge pipe 316 for discharging the fluid supplied to the inside of the receiving portion 223 to the outside. One end of the discharge pipe 316 may be connected to the discharge port 216b and the other end may be disposed outside the receiving portion 223, that is, outside the upper pipe 222. At this time, an upper side of the discharge pipe 316, that is, one side connected to the discharge port 216b may be formed in a shape of '∩' as shown in FIG. This is because the fluid in the receiving portion 223 can be discharged through the discharge pipe 316 when the discharge pipe 316 is connected to the discharge port 216b in the shape of 'a' or 'a'. Therefore, in forming the discharge pipe 316, one side connected to the discharge port 216b may be formed in a shape of '∩' having a rising part and a falling part so that the fluid can be prevented from being discharged along the discharge pipe 316 have. The rising portion of the discharge pipe 316 is disposed at a height lower than the height of the fluid received in the discharge port 216b or the receiving portion 223 and lower than the inner surface of the receiving portion 223, . Accordingly, the fluid in the accommodating portion 223 can maintain a level of at least the height of the upper side of the discharge pipe 316. Also, when the fluid is excessively supplied to the accommodating portion 223, a phenomenon of being discharged through the discharge pipe 316 and flowing out through the inside of the upper pipe 222 can be prevented.

The lower tube 224 may be formed in a hollow cylindrical shape to enclose the outer side of the chute 214 inside the upper tube 222. The upper portion of the lower pipe 224 is bent in the outward direction to form a shielding part 225 formed in the shape of an inverted U shape and the lower part is inserted into the entry port 102 to charge the carbonization chamber 100 (Not shown) may be formed. The shielding portion 225 may be formed to have a length similar to the depth of the receiving portion 223 or may be formed longer. The shielding part 225 is continuously formed along the upper edge of the lower tube 224 and is formed in a structure to be engaged with the receiving part 223 to form an inner space formed by the upper tube 222 and the lower tube 224. [ It is possible to form a sealing portion that hermetically seals from the outside. It goes without saying that the receiving portion 223 and the shielding portion 225 may be formed in various shapes other than the shapes described above.

The shielding portion 225 may be inserted into the receiving portion 223 of the upper tube 222 to be immersed in the fluid in the receiving portion 223 when the lower tube 224 is lowered for the charging of the raw coal. When the shielding part 225 is inserted into the receiving part 223 and is immersed in the fluid in the receiving part 223, the fluid surrounds the inside and the outside of the shielding part 225 and the lower tube 224 and the upper tube 222 Can be sealed from the outside.

At least one of the upper pipe 222 and the lower pipe 224 may be provided with a stopper 226 for limiting the moving distance of the lower pipe 224. The stopper 226 may be provided on the inner wall of the upper tube 222 and may be provided on the upper side of the accommodating portion 223, for example. The protrusion 227 may be formed in the lower tube 224 to be in contact with the stopper 226 provided in the upper tube 222. The protrusion 227 may include a shielding part 225 inserted into the receiving part 223 As shown in FIG. The stopper 226 may be formed in a ring shape along the inner circumferential surface of the upper tube 222, or may be formed on the inner circumferential surface of the stopper 226 in a spaced relationship. The protrusion 227 may be formed on the outer circumference of the lower tube 224 such as the shielding portion 225 and may have a shape corresponding to the shape of the stopper 226, And can be protruded so as to be in contact with the city stopper 226. At this time, the protrusion 227 may be formed at an upper side of the shielding portion 225, for example, a position not inserted into the accommodating portion 223.

The driver 230 may be fixedly mounted on the chute 214 and may include a driving shaft that moves in the vertical direction. At this time, the end of the drive shaft is connected to the lower tube 224, and the lower tube 224 can be moved up and down by the operation of the driver 230.

When the lower pipe 224 is lowered by operating the driver 230 to charge the coke to the carbonization chamber 100, the shield 225 of the lower pipe 224 is inserted into the accommodating portion 223 of the upper pipe 222 And the inside of the inner space formed by the upper tube 222 and the lower tube 224 can be sealed from the outside by being immersed in the fluid supplied to the receiving portion 223.

A process of supplying coking coal to the carbonization chamber of the coke oven using the raw material supply apparatus according to the embodiment of the present invention will be described.

5 is a view showing a process of supplying a raw material to a raw material processing apparatus using a raw material supplying apparatus according to an embodiment of the present invention.

First, when the carbonized coke is extruded, a new coke is charged into the carbonization chamber 100 of the coke oven 1. A lifter (not shown) is lowered to attach a lid (not shown) to an electromagnet (not shown) to open the intestine entrance 102 and move the charge difference to avoid the lifter from the intestine entrance 102.

The driver 230 is operated to lower the lower tube 224 to insert the lower portion of the lower tube 224 into the entry port 102 of the carbonization chamber 100. As shown in FIG. 5 (a), the lower tube 224 may be disposed at least partially inserted into the upper tube 222 before the lower tube 224 is lowered. When the lower tube 224 is lowered, the shielding portion 225 of the lower tube 224 is inserted into the receiving portion 223 of the upper tube 222 as shown in FIG. 5 (b). When the shielding part 225 is inserted into the receiving part 223, the shielding part 225 is immersed in a fluid supplied in the receiving part 223, for example, water. The shielding portion 225 can enclose the inner space formed by the upper tube 222 and the lower tube 224 from the outside while the inside and the outside of the shielding portion 225 are enclosed by the fluid.

The projection 227 provided on the lower tube 224 contacts the stopper 226 formed on the upper tube 222 when the lower tube 224 is lowered and the projection 227 contacts the stopper 226 The lowering of the lower tube 224 can be stopped.

When the lower tube 224 is moved obliquely by forming the sealing portion using the fluid at the connection portion between the upper tube 222 and the lower tube 224, It is possible to prevent a gap from being generated. Accordingly, it is possible to suppress or prevent the contaminants such as dust and noxious gas from flowing out from the connection portion between the upper pipe 222 and the lower pipe 224.

Then, when charging of the coke is completed, the driver 230 is operated to move the lower tube 224 upward and move it into the upper tube 222.

Also, it is possible to suppress the lowering of the sealing force due to the lack of fluid in the accommodating portion 223 by supplying the fluid to the accommodating portion 223 periodically or every time the raw material is charged.

Although the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be defined by the appended claims and equivalents thereof.

100: Carburizing chamber 102: Entry port
210: reservoir 222: upper tube
223: receiving portion 224: lower tube
225: shielding portion 230: driver

Claims (8)

A raw material feeder for feeding coal to a carbonization chamber through a feed inlet of a coke oven,
An upper part connected to the chute through which the coal is discharged, and an upper part having an upper part opened at the lower part and a receiving part for receiving fluid at the inside;
A lower tube provided inside the upper tube so as to be movable along the longitudinal direction of the upper tube and having a shielding portion inserted into the receiving portion when the lower tube is lowered; And
And a fluid supply part for supplying fluid to the accommodation part,
Wherein the receiving portion is formed by bending the lower portion of the upper tube in the inner direction and the shield portion is formed by bending the upper portion of the lower tube outwardly and forming a discharge port for discharging the fluid supplied from the fluid supply portion,
A discharge pipe for discharging the fluid is connected to the discharge port,
Wherein the discharge pipe is provided with a rising portion that is higher than the discharge port and lower than the end portion of the upper tube so as to adjust the level of fluid contained in the receiving portion. delete The method according to claim 1,
Wherein the accommodating portion and the shielding portion are formed to be in mesh with each other. The method according to claim 1 or 3,
Wherein a length of the shielding portion is equal to or longer than a length from a bottom of the accommodating portion to an end of the upper tube. The method of claim 4,
Wherein the receiving portion is formed with a supply port through which fluid is supplied, and the discharge port is formed at a lower position than the supply port. The method of claim 5,
Wherein the fluid supply unit includes a fluid tank for storing fluid and a supply pipe for connecting the fluid tank and the supply port, and the supply pipe is provided with a valve for opening and closing the flow path inside the supply pipe. delete delete

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