KR101941228B1 - Apparatus fot charging coal in coke oven - Google Patents

Abstract

The present invention relates to an apparatus for inputting coal in a coke oven through input holes of the coke oven. The apparatus for inputting coal in the coke oven includes: a coal supply unit including a hopper unit having a coal storage space, a feeder unit installed on the hopper unit for drawing out the coal, a gate unit for opening and closing the hopper unit while being installed on the lower part of the hopper unit, and a discharging unit extended from the lower part of the gate unit to discharge the coal while being used for supplying the coal to the coke oven through the input holes; a connection unit coupled and installed on the lower part of the coal supply unit; a drop sleeve unit including an upper drop sleeve unit coupled and installed to the lower part of the connection unit to form a path for drawing out the coal discharged through the discharging unit through the input holes and a lower drop sleeve unit coupled and installed to the upper drop sleeve unit in the shape of telescopic double pipes to be lifted up and down to insert a discharging end into the input holes; a sealing unit including a first sealing unit installed on the upper drop sleeve unit for sealing the upper drop sleeve unit and a second sealing unit installed on the lower drop sleeve unit for sealing the lower drop sleeve unit; a guide bracket unit which is installed on the lower drop sleeve unit to lift the drop sleeve units up and down; a horizontal arm unit connected and installed to the guide bracket unit; and a vertical arm unit which is connected and installed to the horizontal arm unit to be lifted and lowered.

Description

[0001] The present invention relates to an apparatus for charging coal in a coke oven,

The present invention relates to an apparatus for charging coal in a coke oven. More particularly, the present invention relates to an apparatus for charging coal in a coke oven. More particularly, the expansion joint of the connecting unit, the extension of the first sealing portion of the sealing unit, and the extension of the expansion portion and the second sealing portion, The leakage of the noxious gas between the inlet port of the coke oven and the outlet end of the lower drop sleeve portion is blocked by the flexibility of the triple bellows and the double damping and tilting function of the buffer portion and the elevation unit The present invention relates to a coke oven coal charging device capable of preventing safety accidents and preventing operator safety, maximizing reliability and stability, reducing maintenance time and cost, and maximizing productivity.

The coke oven is equipped with a high-temperature industrial furnace in which coke oven coal is charged from a coal bin storing coal and then charged into a carbonizing chamber.

When the coal charged in the carbonization chamber of the coke oven is calcined for a predetermined time, it is extracted from the carbonization chamber, and the extracted coke is made into a cooled coke after being digested and transferred to a post-treatment process. Such charging and discharging operations are carried out continuously and repeatedly.

Thus, a charging device for the coke oven traveling at the top of the coke oven is used to charge coal into the carbonization chamber of the coke oven.

Generally, the coke oven coal loading apparatus performs the function of charging coal into the carbonization chamber of the coke oven while traveling from the top of the coke oven. That is, as shown in FIG. 1, the conventional coal charging apparatus 1 of the coke oven feeds the coke which has completed a predetermined process to the inlet 2 while traveling at the top of the coke oven 3. At this time, the entry opening 2 of the coke oven 3 is automatically opened and closed by the opening /

Conventionally, the coal charging apparatus of the coke oven has been continuously used to damage or break the various parts of the coal charging apparatus of the coke oven or the opening and closing parts of the charging apparatus of the coke oven by thermal deformation due to high temperature, , It is not completely sealed at the time of entering the coal furnace, and harmful gas including high-temperature sulfur is ejected through such a gap, thereby threatening the safety of workers and causing environmental pollution.

Further, in the conventional coal charging apparatus of the coke oven, there is always a risk that personnel accidents may occur due to the discharge of harmful gas at high temperature, thereby reducing the reliability and stability of the apparatus and drastically reducing the durability.

Further, since the conventional coal charging apparatus of the coke oven is thermally deformed by the high-temperature noxious gas flowing out through the gap, the equipment itself is damaged or damaged, so that the maintenance time and cost of the coke oven charging device or the coke oven There has been a problem of increasing.

In addition, the conventional coal charging apparatus of the coke oven has a problem in that the productivity of a steel plant is reduced due to failure to operate the blast furnace of a steel plant due to an increase in maintenance time of the equipment.

Korean Patent Laid-Open Publication No. 10-2004-0044698 Korean Patent Laid-Open Publication No. 10-2013-0140240

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a cushioning device, a cushioning device, a cushioning device, a cushioning device, The flexibility of the triple bellows and the double damping and tilting function of the buffer unit and the elevation unit prevent the leakage of the noxious gas between the inlet port of the coke oven and the outlet end of the lower drop sleeve unit despite the thermal deformation of the inlet port of the oven To prevent safety accidents, to ensure the safety of workers, to maximize the reliability and stability of equipment by preventing personnel accidents, to reduce maintenance cost and time of coal charging equipment of coke oven, and to increase productivity To provide a coke oven coal charging device.

In order to accomplish the object of the present invention, a coal charging apparatus for a coke oven according to the present invention includes a hopper unit having a space for storing coal in a coke oven coal charging apparatus for charging coal through a cage oven entrance, A feeder installed at the hopper to draw coal, a gate installed at a lower portion of the hopper to open and close the hopper, and a discharge unit extending downward from the gate to discharge the coal, A coal supply unit for supplying coal to the entrance of the coke oven; A connecting unit coupled to a lower portion of the coal supply unit; An upper drop sleeve portion connected to a lower portion of the connection unit and constituting a passage for drawing coal discharged through the discharge portion to the inlet port, and a lower drop sleeve portion connected to the upper drop sleeve portion through a telescope A drop sleeve unit having a lower drop sleeve portion coupled to be lifted up and down in the form of a double tube; A sealing unit having a first sealing portion provided in the upper drop sleeve portion to seal the upper drop sleeve portion and a second sealing portion provided in the lower drop sleeve portion to seal the lower drop sleeve portion; And a guide bracket installed on the lower drop sleeve to raise and lower the drop sleeve unit, a horizontal arm connected to the guide bracket, and a vertical arm connected to the horizontal arm so as to be vertically movable And an elevating unit.

In another preferred embodiment of the coal charging apparatus of the coke oven according to the present invention, the connecting unit of the coal charging apparatus of the coke oven comprises: a stationary plate portion installed at a lower portion of the discharging portion; A connection plate portion provided to face the fixed plate portion while being spaced apart from the vertical plate portion; And a stretch joint part extending vertically between the fixing plate part and the connection plate part.

Further, in another preferred embodiment of the coke oven coal charging apparatus according to the present invention, the connecting unit of the coal charging apparatus of the coke oven has one side from the outside of the expansion joint to reduce the impact when the drop sleeve unit ascends and descends And a cushioning portion coupled to the fixing plate portion and the other end of the cushioning portion to be coupled to the connection plate portion.

Further, in another preferred embodiment of the coke oven coal charging apparatus according to the present invention, the first sealing portion of the sealing unit of the coal charging apparatus of the coke oven is vertically spaced apart from the connecting plate portion, A support plate portion coupled to a lower portion of the sleeve portion; A vertical plate part extending in a vertical direction between the connection plate part and the support plate part and surrounding the upper drop sleeve part; An extension part having one side connected to the connection plate part and the other side connected to the upper part of the vertical plate part; And an extension portion having one side coupled to the support plate portion and the other side coupled to a lower portion of the vertical plate portion.

Further, in another preferred embodiment of the coke oven coal charging apparatus according to the present invention, the second sealing portion of the sealing unit of the coal charging apparatus of the coke oven is arranged so as to face the support plate portion, A coupling plate portion coupled to a lower portion of the sleeve portion; A base plate portion coupled to a leading end of the ejection end of the lower drop sleeve portion so as to face the coupling plate portion while being spaced apart vertically downward; And an extension part having one side coupled to the coupling plate part and the other side coupled to the base plate part.

In another preferred embodiment of the coke oven coal charging apparatus according to the present invention, the elevating unit of the coal charging apparatus of the coke oven comprises a fixed bracket unit fixedly installed on the outer circumference of the lower drop sleeve unit; A cylinder part connected to the fixing bracket part; And a rod part connected to the base plate part at one side and connected to the cylinder part to move up and down while moving to the inside of the cylinder part.

In another preferred embodiment of the coke oven coal charging apparatus according to the present invention, the expansion joint, the extension, the extension, and the extension of the coke oven coal charging apparatus may be formed as a bellows.

The coal charging apparatus of the coke oven according to the present invention is characterized in that the expansion joint portion of the first sealing portion of the connecting unit and the extension portion of the expansion portion and the second sealing portion of the sealing unit are respectively formed into bellows, , The flexibility of the triple bellows and the double damping and tilting function of the cushioning portion and the elevating unit completely seal the gap between the inlet port of the coke oven and the discharge port of the lower drop sleeve portion, It is possible to completely prevent the leakage of the harmful gas, thereby preventing a safety accident, safely protecting workers, and preventing environmental pollution.

In addition, the coal charging apparatus of the coke oven according to the present invention has an effect of maximizing the reliability and stability of the coal charging apparatus of the coke oven by preventing personnel accident from occurring by preventing leakage of harmful gas.

Furthermore, since the coal charging apparatus of the coke oven according to the present invention prevents leakage of high-temperature noxious gas and has flexibility, it is possible to reduce the maintenance cost and maintenance time of the coke oven charging device and the coke oven There is an effect.

In addition, the coal charging apparatus of the coke oven according to the present invention has the effect of maximizing the productivity of the steel plant by reducing the maintenance time, thereby reducing the non-use time.

1 is a conceptual diagram of a conventional coal charging apparatus for a coke oven.
2 is a block diagram of a coke oven coal charging apparatus according to an embodiment of the present invention.
Fig. 3 shows an enlarged view of a portion A in Fig.
Fig. 4 shows an enlarged view of part B in Fig.
Fig. 5 shows an enlarged view of part C of Fig.
FIG. 6 shows a state before the coke oven coal charging apparatus according to the embodiment of the present invention is charged into the coke oven.

Hereinafter, a detailed description will be given with reference to the drawings of the coal charging apparatus of the coke oven according to the embodiment of the present invention. The following embodiments are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. Therefore, the present invention is not limited to the embodiments described below, but may be embodied in other forms. In the drawings, the size and thickness of an apparatus may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. However, it should be understood that the present invention is not limited to the embodiments disclosed herein but may be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification. The dimensions and relative sizes of the layers and regions in the figures may be exaggerated for clarity of illustration.

The terminology used herein is for the purpose of describing embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. &Quot; comprise "and / or" comprising ", as used in the specification, means that the presence of stated elements, Or additions.

2 is a block diagram of a coke oven coal charging apparatus according to an embodiment of the present invention. Fig. 3 shows an enlarged view of part A of Fig. 2, Fig. 4 shows an enlarged view of part B of Fig. 2, and Fig. 5 shows an enlarged view of part C of Fig. FIG. 6 shows a state before the coke oven coal charging apparatus according to the embodiment of the present invention is charged into the coke oven.

The definitions of terms used below are as follows. The term " vertical "means the direction in which the same member is in the up and down direction on the paper," width "means the width direction in the same member, and" length " The term "upper" means the upper surface in the vertical direction in the same member, "lower" means the lower surface in the vertical direction in the same member, "vertical upper" means upper direction in the vertical direction, Means the downward direction of the vertical direction.

2 to 6, a coal charging apparatus 10 for a coke oven according to an embodiment of the present invention will be described. 2 to 6, a coal charging apparatus 10 for a coke oven according to an embodiment of the present invention includes a coal supply unit 100, a connection unit 200, a drop sleeve unit 300, (400), and a lift unit (500).

An apparatus for charging coal in a coke oven for charging coal through an inlet of a coke oven,

The coal supply unit 100 includes a hopper unit 110, a feeder unit 120, a gate unit 130 and a discharge unit 140. The coal supply unit 100 supplies coal to the inlet port 3 of the coke oven 3 do.

The hopper part 110 is a place where coal charged in the coke oven 3 is temporarily stored and has a space for storing such coal.

The feeder unit 120 is installed in the hopper unit 110 and performs a function of extracting coal. Although not shown in the drawings, the feeder portion 120 extends up and down the inside of the hopper portion to the discharge portion in order to forcibly push out the coal (coke) stored in the hopper portion 110 by the discharge portion 140 described later A screw shaft provided on an outer circumferential surface of the screw shaft, driving means for driving the screw shaft to rotate, and fixing means for fixing the screw shaft to the inside of the hopper portion. The screw shaft is rotatably installed inside the hopper portion by a fixing means. The screw blades may also be spirally arranged to push the coke out to the discharge. The maximum outer diameter of the screw blades is formed to be approximately equal to or slightly smaller than the inner diameter of the discharge portion of the hopper so as to prevent the coal from adhering between the inner wall of the discharge portion and the screw blade. The driving means can be installed inside or outside the hopper portion, and is preferably formed by a driving motor.

The gate unit 130 is installed at a lower portion of the hopper unit 110 to open and close the hopper unit. The gate portion 130 opens and closes the lower portion of the hopper portion 110 while performing a linear reciprocating motion by a hydraulic or pneumatic cylinder. That is, the gate unit 130 is connected to the end of the rod of the hydraulic or pneumatic cylinder, and moves the gate unit 130 forward or backward by the operation of the hydraulic or pneumatic cylinder, Respectively.

The discharge unit 140 is formed at a lower portion of the gate unit 130 to form a passage through which the coal is discharged.

The connection unit 200 is coupled to a lower portion of the coal supply unit 100.

The drop sleeve unit 300 includes an upper drop sleeve portion 310 and a lower drop sleeve portion 320.

The upper drop sleeve portion 310 is coupled to the lower portion of the connection unit 200 and constitutes a passage through which the coal discharged through the discharge portion 140 is led out to the inlet port 2.

The lower drop sleeve portion 320 can be raised and lowered in the form of a telescopic double tube to the upper drop sleeve portion 310 so that the lower end 321 of the lower drop sleeve portion 320 is drawn into the entry port 2 Respectively. That is, the lower drop sleeve portion 320 is positioned below the upper drop sleeve portion 310 when the lower drop sleeve portion 320 is drawn out. The inner diameter of the lower drop sleeve portion 320 is formed to be larger than the outer diameter of the upper drop sleeve portion 310 so that when the lower drop sleeve portion 320 is lowered, Is extended. That is, in a state in which the hub drop sleeve portion 320 is lifted and lowered, the lower drop sleeve portion 320 is held in a form to surround the upper drop sleeve portion 310.

 The drop sleeve unit 300 has a double pipe structure of an inner pipe and an outer pipe and forms an extension passage through which the coal is discharged to perform a guide passage function of drawing coal of the coal supply unit 100 to the inlet port 2 do.

The sealing unit 400 includes a first sealing portion 410 and a second sealing portion 420.

The first sealing portion 410 is installed in the upper drop sleeve portion 410 to seal the upper drop sleeve portion 310.

The second sealing portion 420 is installed under the lower drop sleeve portion 420 to seal the lower drop sleeve portion 320.

 The lifting unit 500 includes a guide bracket portion 540, a horizontal arm portion 550, and a vertical arm portion 560.

The guide bracket portion 540 is installed in the lower drop sleeve portion 320 to move the drop sleeve unit 300 up and down.

One side of the horizontal arm portion 550 is connected to the guide bracket portion 540 in a tilting and rotatable manner and the other side thereof is connected to a vertical arm portion 550 to be described later in a tilting and rotatable manner.

One side of the vertical arm portion 560 is connected to the horizontal arm portion 570, and the other side is connected to the hydraulic or pneumatic cylinder rod.

When the rod of the hydraulic or pneumatic cylinder is moved forward or backward, the vertical arm portion 560 connected to the vertical or vertical arm portion 560 is lifted or lowered. The horizontal arm portion 550, which is tilted and rotatably connected to the vertical arm portion 560, The lower drop sleeve portion 320 is moved up and down while rotating.

Therefore, in the coal charging apparatus of the coke oven according to the present invention, the coal charging apparatus of the coke oven is damaged by the flexible and smooth upward and downward movements in the process of drawing the coal into the inlet of the coke oven by the sealing member and the elevating unit Can be minimized, and the durability can be increased.

2 and 6, the connecting unit 200 of the coal charging apparatus 10 of the coke oven according to the embodiment of the present invention includes a fixed plate portion 210, a connecting plate portion 220, And a joint 230. 2 and 6, the connecting unit 200 of the coal charging apparatus 10 of the coke oven according to another embodiment of the present invention may further include a buffering part 240.

The fixed plate portion 210 is installed at a lower portion of the discharge portion 140.

The connecting plate portion 220 is disposed to face the fixed plate portion 210 while being spaced apart from the fixed plate portion 210 vertically downward. That is, the connecting plate portion 220 is installed so as to be parallel to the upper surface of the fixed plate portion 220 and the coke oven 3 in a state of being spaced apart.

The fixing plate portion 210 and the connecting plate portion 220 may be formed in any shape as long as they are formed in parallel to each other and in parallel with the upper surface of the coke oven 3. 2 and 6 are shown to be formed in a rectangular shape for convenience, but are not limited thereto. The fixing plate portion 210 and the connection plate portion 220 are preferably formed of a metal material, but are not limited thereto and may be formed of a plastic or an alloy.

The expansion joint 230 is installed between the fixed plate portion 210 and the connection plate portion 220 in the vertical direction. The expansion joint 230 is formed in a bellows structure.

Although not shown in the drawing, the expansion joint 230 is formed with a first flange and a second flange that engage with the fixed plate portion 210 and the coupling plate portion 220, and the first flange and the second flange form a And are formed to face each other with respect to the stretchable and contractible portion. That is, the stretchable and contractible portion has one end engaged with the first flange and the other end engaged with the second flange.

The shock absorber 240 is configured such that one side of the shock absorber 230 is coupled to the fixed plate 210 and the other side of the shock absorber 230 is coupled to the connection plate 220 And is installed in combination. At least two buffers 240 may be provided between the fixed plate portion 210 and the connecting plate portion 220, and preferably the buffer portion 240 may be provided between the discharge portion and the central axis of the intestinal inlet Four of them are installed at an angle of 90 degrees, so that the impact can be most effectively reduced.

As described above, in the coal charging apparatus of the coke oven according to the embodiment of the present invention, the flexibility according to the bellows structure of the expansion joint portion 230 of the connection unit 200 and the shock absorption function of the buffering portion 240 cause thermal deformation It is possible to prevent the harmful gas, harmful substances or coke from leaking to the outside when the coal is introduced into the coke oven, and also to prevent the leakage of the coke oven to the outside when the entrance of the coke oven is damaged or the coal charging device of the coke oven is damaged or broken. It is possible to prevent the leakage of high-temperature heat, thereby protecting the operator from safety accidents, preventing environmental pollution, and preventing damage to the charging device of the coke oven from the harmful gas and high temperature.

2 to 4, the first sealing portion 410 of the sealing unit 400 of the coke oven coal charging apparatus 10 according to an embodiment of the present invention includes a supporting plate portion 411, A plate portion 412, a stretching portion 413, and an extension portion 414.

The support plate portion 411 is coupled to the lower portion of the upper drop sleeve portion 310 so as to face the connection plate portion 220 while being spaced vertically downward. The support plate portion 411 may be formed in any shape as long as it is formed as a plate formed parallel to the support plate portion 411 and the upper surface of the coke oven 3. 2 to 4 are shown to be formed in a rectangular shape for the sake of convenience, but are not limited thereto. The support plate portion 411 is preferably made of a metal material, but is not limited thereto. The support plate portion 411 may be formed of plastic or an alloy.

The vertical plate portion 412 is installed to surround the upper drop sleeve portion 310 while vertically extending between the connection plate portion 220 and the support plate portion 411.

The extension portion 413 is coupled to the connection plate portion 220 at one side and to the upper portion of the vertical plate portion 412 at the other side.

One end of the extension 414 is coupled to the support plate 411 and the other end is coupled to the lower portion of the vertical plate 412.

That is, the extension portion 413 seals the upper portion of the upper drop sleeve portion 310, and the extension portion 414 is formed to seal the upper portion of the upper drop sleeve portion 310.

The extension portion 413 and the extension portion 414 are formed in a bellows structure.

The engaging portion of the extension portion 413 and the extension portion 414 is engaged with the outer peripheral edge of the upper drop sleeve portion 310 by the bearing 415 and the housing 416, It is possible to prevent the joining portion from being damaged even during the horizontal movement of the coal charging apparatus in the middle or the coke oven.

As described above, the coal charging apparatus of the coke oven according to the embodiment of the present invention has flexibility and durability according to the bellows structure of the extension part 413 and the extension part 414 of the first sealing part 410 of the sealing unit 400, In case of damaging the entry opening of the coke oven by thermal deformation or damaging or destroying the coal charging device of the coke oven, it is possible to prevent the harmful gas or harmful substance or coke from flowing out to the outside when the coal is introduced into the coke oven. And the leakage of high-temperature heat is secondarily blocked, thereby maximizing the durability, reliability, and stability of the apparatus.

2 and 5, the second sealing portion 420 of the sealing unit 400 of the coal charging apparatus 10 of the coke oven according to the embodiment of the present invention includes a coupling plate portion 421, A plate portion 422, and an extension portion 423.

The coupling plate portion 421 is coupled to the lower portion of the lower drop sleeve portion 320 so as to face the support plate portion 411 while being spaced vertically downward.

The base plate portion 422 is coupled to the distal end of the ejection end 421 of the lower drop sleeve portion 420 so as to face the coupling plate portion 421 while being spaced vertically downward.

The coupling plate portion 421 and the base plate portion 422 may be formed in any shape as long as they are formed of plates that are parallel to each other and parallel to the upper surface of the coke oven 3. 2 and 5 are illustrated as being formed in a rectangular shape for convenience, but are not limited thereto. The coupling plate portion 421 and the base plate portion 422 are preferably formed of a metal material, but are not limited thereto. The coupling plate portion 421 and the base plate portion 422 may be formed of plastic or an alloy.

The extended portion 423 is coupled to the coupling plate portion 421 at one side and the base plate portion 422 at the other side. The extension portion 423 is formed in a bellows structure.

Although not shown in the drawing, such an extension 423 is formed with an engaging plate portion 421, a base plate portion 422, a first flange and a second flange, and the first flange and the second flange are engaged with each other As shown in FIG. That is, the stretchable and contractible portion has one end engaged with the first flange and the other end engaged with the second flange.

As described above, in the coal charging apparatus of the coke oven according to the embodiment of the present invention, due to flexibility and durability according to the bellows structure of the extended portion 423 of the second sealing part 420 of the sealing unit 400, When the entrance of the coke oven is damaged, or when the coal charging device of the coke oven is damaged or broken, it is possible to prevent the harmful gas, the harmful substance or the coke from leaking to the outside when the coal is introduced into the coke oven, It is possible to reduce the maintenance cost and the maintenance time of the coke oven charging device and the coke oven.

2 and 5 to 6, the elevating unit 500 of the coal charging apparatus 10 of the coke oven according to the embodiment of the present invention includes a fixed bracket unit 510, a cylinder unit 520, And a load section 530. [

The fixing bracket part 510 is fixed to the outer periphery of the lower drop sleeve part 320.

And the cylinder 520 is connected to the fixed bracket part 510.

One side of the rod portion 530 is connected to the base plate portion 422 and the other side is connected to the cylinder portion 520 and moves up and down while moving to the inside of the cylinder portion.

Each of the cylinder portions 520 individually operates to raise and lower the rod portion 530 in the vertical direction so that the engaging plate portion 421 and the base plate portion 422 are lifted and lowered for each time.

In order to perform a smooth tilting operation, three or more of the fixing bracket unit 510, the cylinder unit 520, and the rod unit 530 may be installed. In FIGS. 2 and 6, four discharging portions and four discharging portions are installed at an angle of 90 degrees with respect to the center axis of the charging port. However, the present invention is not limited thereto. For example, They are spaced apart to face each other.

As described above, in the coal charging apparatus of the coke oven according to the embodiment of the present invention, the cylinder 520 and the rod 530 perform the secondary buffering operation and the tilting operation in addition to the primary buffering operation of the buffering part 240 , It is possible to completely block the gap by closing the entrance and spout end of the pipe, so that even if the entrance of the coke oven is damaged due to thermal deformation, or when the charging device of the coke oven is damaged or broken, To prevent the harmful gas or the harmful substance or the coke from leaking to the outside, and to prevent the outflow of the hot heat to the fourth order, thereby reducing the maintenance time of the coke oven and the charging device of the coke oven It is possible to maximize the productivity of the steel plant by reducing the non-use time.

The expansion / contraction portion of the expansion joint, the expansion / contraction portion of the extension portion, the extension portion, and the expansion portion are composed of the composite rubber layer, the reinforcement layer, and the reinforcement layer. Further, if necessary, the stretchable and contractible portion of the expansion joint, the stretchable and contractible portion of the extended portion, the stretched portion, and the expanded portion may further comprise an absorbent layer.

The composite rubber layer is formed in multiple layers. That is, the composite rubber layer may be formed of a connecting layer, a cord layer, and an elastic layer.

The connection layer is formed of polychloroprene rubber (CR) or ethylene propylene diene (EPDM) rubber.

The cord layer is formed of nylon cord paper at the bottom of the connection layer.

The elastic layer is formed of polychloroprene rubber (CR) or ethylene propylene diene (EPDM) rubber at the bottom of the cord layer. As the connecting layer, the cord layer and the elastic layer are formed in multiple stages, durability due to mechanical vibration, chemical resistance and heat resistance can be improved. That is, due to the durability and chemical resistance of the elongating and contracting portions of the expansion joint portion, the elongating and contracting portions of the elongation portion, the elongation portion, and the expansion portion, the elongation joint portion is damaged by the high temperature and high pressure fluid and coke flowing in the discharge portion of the coal charging device of the coke oven Or damage.

The reinforcing layer is laminated on the upper surface of the composite rubber layer and includes stainless steel. Although not limited thereto, the reinforcing layer stainless steel is made of SUS 316L. The reinforcing layer increases the strength of the entire stretchable and contractible portion of the stretchable joint portion, the stretchable and contractible portion of the extended portion, the stretched portion, and the expanded portion, thereby preventing the stretchable portion and the stretched portion, the stretched portion, Leakage and leakage of water can be prevented by the elongating and contracting portion of the expansion joint portion, the elongating and contracting portion of the elongated portion, the elongating portion, and the extending portion, thereby saving the maintenance cost and maintenance time of the coal charging device of the coke oven, Thereby maximizing the convenience of the vehicle, preventing safety accidents, and preventing environmental pollution in advance.

The reinforcing layer is laminated on the upper surface of the reinforcing layer and includes glass fibers.

The reinforcing layer refers to a layer formed of a high-performance composite fiber. The reinforcing layer used throughout the present invention is defined as a fiber including silicon carbide, alumina, and glass fiber.

When the reinforcing layer is used, the impact of the elastic difference between the composite rubber layer and the reinforcing layer can be relaxed, and the life of the stretch joint manufactured using the reinforcing layer can be greatly increased. In addition, heat resistance and chemical resistance can be greatly increased by blocking the heat energy transferred from the composite rubber layer. Further, when the reinforcing layer or the composite rubber layer is broken, the elasticity of the stretchable and contractible portion of the expansion joint, , The elongated portion, and the fluid inside the expanded portion can be prevented from being leaked to the outside.

Preferably, the reinforcing layer may be a mixture of glass fiber and carbon fiber. In this case, not only the heat resistance and the chemical resistance are enhanced but also the durability is high. Therefore, when used as the reinforcing layer, the life span of the stretchable and contractible portion of the expansion joint, the stretchable portion, the stretchable portion, and the expanded portion can be greatly increased.

More preferably, the reinforcing layer may include 100 parts by weight of glass fiber and 30 to 120 parts by weight of carbon fiber and 30 to 120 parts by weight of polyesterimide with respect to the glass fiber.

Even when the composite rubber layer or the reinforcing layer is broken due to the high temperature of the material flowing into the expansion / contraction portion of the expansion joint, the expansion / contraction portion of the extension portion, the extension portion, and the expansion portion, It is possible to prevent the problem that the material flows out to the expansion / contraction portion of the expansion joint portion, the expansion / contraction portion of the extension portion, the extension portion, and the expansion portion for a certain period due to heat resistance. It has an advantage that it has excellent heat resistance and chemical resistance.

The absorbent layer is laminated on the upper surface of the reinforcing layer and comprises viton rubber. Viton rubber is formed of a rubber layer containing fluorine to absorb external impact.

Both the composite rubber layer and the reinforcing layer, between the reinforcing layer and the reinforcing layer, and between the reinforcing layer and the absorbing layer are adhesively bonded together by an adhesive.

A composite rubber layer formed by three layers of a connecting layer, a cord layer, and an elastic layer, a reinforcing layer and an reinforcing layer sequentially stacked on the upper surface thereof, and an absorbing layer formed on the upper surface of the stretching portion, the stretching portion, the stretching portion and the expanding portion of the stretching joint portion By forming the stretchable and contractible portion of the stretchable joint portion, the stretchable and contractible portion of the extension portion, the stretchable portion, and the expanded portion, the manufacturing cost of the stretchable and contractible portion of the stretchable joint portion, the stretchable portion, the stretchable portion, and the expanded portion of the extended portion can be reduced, , It is possible to prevent the breakage and to improve the quality of the elastic member in accordance with an increase in the strength and durability of the stretchable and contractible portion of the expansion joint, the stretchable and contractible portion of the extended portion, the stretched portion, and the expanded portion.

Although not limited thereto, such an adhesive includes any one selected from the group consisting of a ceramic-based adhesive agent, a silicate compound, an epoxy-based adhesive agent, a urethane-based adhesive agent, a silicate compound, colloidal silica, .

Preferably, an adhesive containing 100 parts by weight of an epoxy adhesive, 500 to 2000 parts by weight of lithium silicate and 30 to 400 parts by weight of colloidal silica relative to the epoxy adhesive may be used.

As such, the epoxy adhesive has excellent adhesive strength and heat resistance. In addition, lithium silicate, unlike other silicates, can be remarkably excellent in adhesiveness and can achieve excellent adhesion even in a small amount. In addition, when the lithium silicate contains colloidal silica, the amount of SiO ₂ relative to Li is relatively increased, so that a fine crystal form of SiO _{2 that} is insoluble in lithium silicate is formed. When the heat is applied to the formed gel, the viscosity of the silical silicate increases and the dissolution progresses, so that the heat resistance and the adhesion performance can be rapidly increased. Therefore, the formed gel has the advantage of maintaining high heat resistance and adhesion at high temperature.

More preferably, the colloidal silica may be contained in an amount of 55 to 340 parts by weight. If the content of colloidal silica exceeds 340 parts by weight, gelation may not proceed. When the amount of colloidal silica exceeds 340 parts by weight, the gel is progressed to gel, May occur.

The chemical resistance may be particularly important when the stretchable and contractible portion of the expansion joint, the stretchable portion, the stretchable portion of the extension, and the expansion portion are located inside. Accordingly, the adhesive for the reinforcing layer and the reinforcing layer may be excellent in heat resistance and particularly excellent in chemical resistance.

Accordingly, the reinforcing layer and the reinforcing layer may be laminated by using an adhesive containing 100 parts by weight of a ceramic-based adhesive, 20 to 50 parts by weight of colloidal silica and 0.05 to 1 part by weight of a second sodium phosphate with respect to the ceramic-based adhesive.

The colloidal silica is disposed between the ceramic-based adhesives to increase the heat resistance of the adhesive. In addition, when the second sodium phosphate is included, the reactivity of the colloidal silica and the ceramic adhesive is delayed, and the adhesive layer including the second lateane is characterized in that it has a strong resistance to strong acidity or strong alkalinity.

Further, in order to maximize the adhesive force of each layer and reduce the manufacturing time, the adhesive layer is formed on the upper surface of the connection layer of the composite rubber layer, the groove portion is formed on the upper surface of the reinforcing layer, and the concave portion is formed on the upper surface of the reinforcing layer . Accordingly, it is possible to shorten the manufacturing time and reduce the manufacturing cost by bringing the adhesive between the composite rubber layer and the reinforcing layer, between the reinforcing layer and the reinforcing layer, and between the reinforcing layer and the absorbing layer in the shortest time while remaining the adhesive agent in the recessed portion, the groove portion and the concave portion.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

10: coke oven charging device, 100: coal supply unit,
200: connection unit, 300: drop sleeve unit,
400: sealing unit, 500: elevating unit.

Claims (7)

An apparatus for charging coal in a coke oven for charging coal through an inlet of a coke oven,
A hopper part having a space for storing coal; a feeder part installed in the hopper part to draw coal; a gate part installed at a lower part of the hopper part to open and close the hopper part; A coal supply unit for supplying coal to the inlet of the coke oven;
A connecting unit coupled to a lower portion of the coal supply unit;
An upper drop sleeve portion connected to a lower portion of the connection unit and constituting a passage for drawing coal discharged through the discharge portion to the inlet port, and a lower drop sleeve portion connected to the upper drop sleeve portion by a telescope type A drop sleeve unit having a lower drop sleeve portion coupled to be lifted up and down in the form of a double pipe;
A sealing unit having a first sealing portion provided in the upper drop sleeve portion to seal the upper drop sleeve portion and a second sealing portion provided in the lower drop sleeve portion to seal the lower drop sleeve portion; And
And a vertical arm portion connected to the horizontal arm portion so as to be able to move upward and downward, a guide bracket portion provided on the lower drop sleeve portion to move up and down the drop sleeve unit, a horizontal arm portion connected to the guide bracket portion, Unit,
The connecting unit includes:
A stationary plate portion provided at a lower portion of the discharge portion;
A connection plate portion provided to face the fixed plate portion while being spaced apart from the vertical plate portion;
A stretch joint part extending vertically between the fixed plate part and the connection plate part; And
And a cushioning part having one side fixed to the fixed plate part and the other side fixed to the connection plate part from the outside of the expansion joint part to reduce an impact when the drop sleeve unit ascends and descends,
Wherein the first sealing portion of the sealing unit
A support plate portion coupled to a lower portion of the upper drop sleeve portion so as to face the connection plate portion while vertically separating from the support plate portion;
A vertical plate part extending in a vertical direction between the connection plate part and the support plate part and surrounding the upper drop sleeve part;
An extension part having one side connected to the connection plate part and the other side connected to the upper part of the vertical plate part; And
And an extension part having one side connected to the support plate part and the other side connected to the lower part of the vertical plate part.
delete delete delete The method according to claim 1,
And the second sealing portion of the sealing unit,
A coupling plate portion coupled to a lower portion of the lower drop sleeve portion so as to face the support plate portion while being vertically spaced apart from the coupling plate portion;
A base plate portion coupled to a leading end of the ejection end of the lower drop sleeve portion so as to face the coupling plate portion while being spaced apart vertically downward; And
And an extension part having one side coupled to the coupling plate part and the other side coupled to the base plate part.
6. The method of claim 5,
The elevating unit includes:
A fixing bracket fixedly installed on an outer periphery of the lower drop sleeve;
A cylinder part connected to the fixing bracket part; And
Further comprising a rod part connected to the base plate part at one side and connected to the cylinder part to move up and down while moving to the inside of the cylinder part.
The method according to claim 6,
Wherein the expansion joint, the extension, the extension, and the extension are formed as a bellows.

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