KR101543590B1 - Apparatus and method for preventing a bin chute from being clogging - Google Patents

Abstract

According to an embodiment of the present invention, an apparatus for preventing clogging of an empty chute includes: an empty chute for discharging a coke supplied from the outside, A slide gate for opening and closing the cut-out port to adjust the amount of coke to be cut out; A drive unit for driving the slide gate; And a controller for controlling the drive unit according to the input opening and closing conditions.

Description

[0001] The present invention relates to an apparatus and method for preventing clogging of an empty chute,

The present invention relates to an apparatus and method for preventing clogging of an empty chute, and more particularly, to an apparatus for effectively preventing clogging of a coke discharged through an empty chute slot of a coke sorting facility, The present invention relates to a method for effectively preventing clogging of a coke to be discharged through a coke oven.

Generally, in order to produce steel products at a steel mill, coke and iron ore are charged into the blast furnace, and hot wind is applied to the steel making process to produce molten iron. Coke plays the role of heat source, reducing agent, and breathable oil in the blast furnace.

In order to ensure air permeability in the blast furnace, the coke to be charged into the blast furnace is required to have a particle size of at least a certain size. Generally, fine coke having a particle size of 25 to 75 mm or more is classified through a coke sorting facility and charged into the blast furnace.

One side of the coke sorting facility is provided with an empty sucker for receiving coke from the coke bean and for discharging the coke through the cut-out port. A slide gate is provided at the cutout of the bin shoot, and the opening degree of the cutout opening is determined by the movement of the slide gate.

The slide gate is moved and fixed according to the opening degree of the preset cutout port, and the coke is continuously blown out to the screen member through the cutout port. In the screen member, the coke is sorted by particle size, and the fine coke having a particle size of a certain size or larger is discharged through the fine coke outlet. The discharged coal coke is conveyed and conveyed to the blast furnace.

The particle size distribution of the coke discharged through the cut-off port varies depending on the state of the coke supplied to the coke bins, but the opening of the cut-out opening is fixed and the coke is discharged.

The coke clogging phenomenon of the oral cavity and the empty chute having the opening of the cut-off port is smaller than the particle size distribution of the coke stored in the coke breeze. There arises a problem of delay in loading of coke due to coke clogging of the empty chute and shutdown of operation due to empty chute penetration operation.

If the opening of the cut-off port is large compared with the particle size distribution of the coke stored in the coke bins, the excessive coke oozing phenomenon occurs. There arises a problem that the screen efficiency of the screen member due to excessive coke oozing is reduced and that the conveyance belt is stopped due to overload of the conveyor belt.

Korean Patent Publication No. 10-2013-0059672 (June 23, 2013)

It is an object of the present invention to provide a device for effectively preventing clogging of a coke extracted through an empty chute section of a coke sorting facility for stable blast furnace operation and to prevent clogging of a coke discharged through an empty chute section of a coke sorting facility The present invention provides a method for effectively preventing the above-mentioned problems.

Other objects of the present invention will become more apparent from the following detailed description and drawings.

According to an embodiment of the present invention, an apparatus for preventing clogging of an empty chute includes: an empty chute for discharging a coke supplied from the outside, A slide gate for opening and closing the cut-out port to adjust the amount of coke to be cut out; A drive unit for driving the slide gate; And a controller for controlling the drive unit according to the input opening and closing conditions.

The controller can control the drive unit such that the slide gate is periodically switched to an operating position in which the slide gate partially opens and partially closes the slide opening and an open position in which the slide opening is fully opened.

The controller can control the drive unit such that the slide gate is periodically switched to the operating position and the closed position in which the cutout port is completely closed.

The controller may control the drive unit such that the slide gate is periodically switched to the open position between the closed position and the operative position.

The operating position may include a position of the slide gate having an opening of the cutout opening of 45 to 55%.

The drive unit includes: a moving roller that assists the movement of the slide gate; And a driving motor for supplying a driving force to the driving gear.

According to another embodiment of the present invention, there is provided a method of preventing clogging of an empty chute, comprising the steps of: supplying a coke to an empty chute from the outside and discharging the coke through a discharge port formed in the empty chute; To an open position in which the cut-out port is fully opened and an open position in which the cut-out port is fully opened.

The method for preventing clogging of the empty chute may further include the step of periodically switching the slide gate to the operating position and a closed position for completely closing the cutout opening.

The method for preventing clogging of the empty chute may further include the step of periodically switching the slide gate to the open position between the closed position and the operative position.

Effects of an apparatus and method for preventing clogging of an empty chute according to an embodiment of the present invention will be described as follows.

According to the opening condition, the evacuation opening of the empty chute is opened at regular intervals to prevent clogging of the empty chute. Therefore, there is an effect of preventing a delay in the operation due to the delay in loading of the coke in the blast furnace and an interruption of the operation due to the empty shoot passing operation.

The discharge port is closed at regular intervals according to the closing condition, and the screen member idles for a certain period of time. Since the screen efficiency of the screen member is increased in accordance with idling of the screen member, only coke having a particle size of a certain size or more is charged into the blast furnace. As the ventilation performance in the blast furnace is secured, the quality of the molten iron increases. Further, as the efficiency of the screen member increases, there is an effect of preventing overloading of the conveyor belt.

1 is a side view schematically showing a coke sorting facility.
2 is a perspective view schematically showing a coke sorting facility.
Fig. 3 is a side view schematically showing a bin clogging phenomenon of a coke sorting facility. Fig.
4 is a side view schematically illustrating a drive unit, a controller, and an input unit connected to a coke sorting facility according to an embodiment of the present invention.
5 is a graph schematically showing an opening / closing condition according to an embodiment of the present invention.
FIG. 6 is a graph showing a comparison of operation indexes before and after an improvement according to an embodiment of the present invention.

The present invention relates to an apparatus for preventing clogging of an empty chute and a method for preventing clogging of an empty chute using the same, and embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Accordingly, the shape of each element shown in the figures may be exaggerated and exaggerated to emphasize a clearer description.

In order to produce steel products at a steel mill, it is generally subjected to steelmaking, steelmaking, performance and rolling processes. In the double-refining process, iron ore and coking coal are placed in a blast furnace, and hot air at about 1200 ° C is added to produce molten iron.

Coal charged with coal is generally used for coking coal charged into the blast furnace to produce charcoal. Coke plays a role as a heat source for melting iron ore in the blast furnace and as a reducing agent for reducing iron oxide in iron oxide state by carbon monoxide (CO) generated by combustion of coke. In addition, the coke also acts as a breathable oil retainer to smooth the discharge of combustion gas by forming pores in the blast furnace.

The coke to be charged into the blast furnace is required to have a size larger than a certain particle size in order to improve productivity. Generally, fine coke having a particle size of 20 to 75 mm or more is charged into the blast furnace. When the minute coke below the above range is charged into the blast furnace, the air permeability inside the blast furnace is deteriorated and the blowing amount in the blast furnace is reduced. Decreasing the amount of air flow causes inactivation of iron ore reducing action, which causes the quality of charcoal to fall.

Thus, fine coke having a particle size of a certain size or larger is classified through the coke sorting facility 1 and charged into the blast furnace.

Fig. 1 is a side view schematically showing a coke sorting facility 1, and Fig. 2 is a perspective view schematically showing a coke sorting facility 1. Fig.

As shown in FIGS. 1 and 2, an empty chute 20 for receiving coke from the coke oven 10 and for discharging the coke through the ooze outlet 22 is installed at one side of the coke sorting facility 1 .

The cokes cut out through the cutout 22 are classified by the screen members 50 and 52 according to their sizes. The screen members 50 and 52 include a top mat 50 and a bottom mat 52 having nets of different sizes. A dust prevention cover 54 is provided on the upper side of the upper mat 50 and a spectroscopic treatment bottom plate 56 is provided on the lower side of the lower mat 52.

The screen members 50 and 52 are inclined at a predetermined slope from the side of the empty chute 20 to the side of the coke discharging portions 60 and 62. [ A vibrator 70 is provided below the screen members 50 and 52 to vertically vibrate the screen members 50 and 52. Therefore, the coke discharged by the vertical vibration of the screen members 50, 52 and the inclination of the screen members 50, 52 is classified while moving toward the coke discharge portions 60, 62.

The coke having a particle size smaller than the net size of the upper mat 50 drops to the lower mat 52 and the larger coke having a particle size larger than the mesh size of the upper mat 50 moves to the coke discharging portion 60 . The heavy coke having a size larger than the mesh size of the lower mat (52) among the coke dropped through the upper mat (50) to the lower mat (52) is discharged to the heavy coke discharge part (60) The minute coke having a particle size smaller than the mesh size of the bottom mats 52 is discharged through the bottom mat 52 through the minute coke discharger 62. The bulk coke discharged from the bulk coke discharging portion (60) is loaded on the conveyor belt (80) and conveyed to the blast furnace.

Fig. 3 is a side view schematically showing a bin clogging phenomenon of a coke sorting facility. Fig.

The slide gate 30 is moved and fixed according to the opening degree of the predetermined cut-out opening 22 for coke cutting. The coke stored in the coke bins 10 is supplied to the empty chute 20 and continuously discharged through the discharge opening 22. The opening of the cut-out port 22 is fixed and the coke is continuously blown out. As a result, the following problems arise in accordance with a change in the state of coke particle size distribution stored in the coke oven 10.

When the opening of the cut-out port 22 is small as compared with the particle size distribution of the coke stored in the coke bins 10, the coke is clogged in the empty chute 20 as shown in Fig. The clogging of the bin chute 20 causes a decrease in the amount of coke excrement, which causes a delay in charging the coke in the blast furnace. In addition, in order to solve the clogging phenomenon of the bin chute 20, the bin chute 20 is required to be passed through, which causes a problem of interruption of the operation due to the penetrating operation.

When the opening of the cut-off port 22 is larger than the particle size distribution of the coke stored in the coke bins 10, there is a problem of over-coking. Coke overflow causes a decrease in the screen efficiency of the screen members 50 and 52, so that minute coke having a particle size smaller than a certain size is charged into the blast furnace, resulting in a problem of deterioration of the quality of the charcoal. In addition, the coke is discharged from the coke discharging portions 60 and 62 due to the excessive coke oozing, resulting in a problem of shutting down due to overload of the conveyor belt 80.

4 is a side view schematically illustrating a drive motor, a controller, and an input unit connected to a coke sorting facility according to an embodiment of the present invention.

As shown in FIG. 4, when the operator inputs a predetermined opening / closing condition to the input unit 300, the controller 200 drives the driving unit according to the opening / closing condition. The driving unit may include a driving gear 90, a driving motor 100, and a moving roller 40. The drive gear 90 moves the slide gate 30 in engagement with the gear gear formed on one surface of the slide gate 30. As the slide gate 30 moves, the opening degree of the cutout opening 22 is determined.

The opening and closing conditions may include conditions such as the degree of opening and closing, the period of opening and closing, and the opening and closing time depending on the state of the coke stored in the coke bins 10 and the amount of dead coke required in the blast furnace.

The controller 200 controls the drive unit so that the slide gate 30 is periodically switched to the operating position in which the partition 22 partially opens and partially closes and the open position in which the partition 22 opens completely. It is possible to prevent the clogging of the empty chute 20 in advance by periodically opening the cut-out port 22 completely and cutting out the coke clogged by the empty chute 20. Also, when the input opening time has elapsed, the slide gate 30 is moved to the operating position to enable effective coke discharge.

The controller 200 controls the drive unit such that the slide gate 30 is periodically switched to the operating position and the closed position in which the cutout 22 is completely closed. When the slide gate 30 is switched to the closed position, the coke discharge is stopped and the screen members 50 and 52 idle. The remaining coke in the screen members 50 and 52 is discharged by the idle rotation of the screen members 50 and 52, thereby improving the screen efficiency of the screen members 50 and 52. When the input closing time has elapsed, the slide gate 30 is moved to the operating position to enable effective coke discharge.

The operating position may be the position of the slide gate 30 where the opening 22 has an opening of 45 to 55%.

5 is a graph schematically showing an opening / closing condition according to an embodiment of the present invention, and the opening / closing condition of the present invention is not limited to the following embodiments.

5, the operating position of the present embodiment is the position of the slide gate 30 where the cutout opening 22 is opened by 50%, and the open position is the position of the slide gate 30 where the cutout opening 22 is opened 100% And the closed position is the position of the slide gate 30 where the cutout 22 is opened by 0%.

The slide gate 30 is moved to the open position (100% open) at one cycle after the coke is blown out at the operating position (50% open) for 4 minutes to blow out the coke blocked in the empty chute 20. The slide gate 30 is restored to the operating position (50%) as soon as the slide gate 30 reaches the open position (100% open). The time during which the slide gate 30 stays in the open position (100% open) is within about 30 seconds, and the coke of the empty chute 20 is instantaneously blown out to effectively prevent clogging of the empty chute 20.

In addition, the slide gate 30 is moved to the closed position (0% opening) for 1 minute in a cycle after the coke is blown out at the operating position (50% opening) for 5 minutes. At the closed position (0% opening), the screen members 50, 52 idle to discharge the remaining coke in the screen members 50, 52, thereby improving the efficiency of the screen members 50, 52. After idling for one minute, the slide gate 30 is returned to the operating position (50%).

FIG. 6 is a graph showing a comparison of operation indexes before and after an improvement according to an embodiment of the present invention.

After improving the coke sorting facility 1 according to an embodiment of the present invention, the amount of coke (less than 25 mm in particle size) charged into the blast furnace was reduced, and the amount of change in the amount of coke was also decreased.

As a result, the air permeability in the blast furnace was secured, and the ratio (%) of the blast furnace was constant and the nCO (%) increased. In addition, fuel consumption (kg / t-p) and charter production (t / d) increased compared to the amount of charcoal production.

1: Coke classification facility 10: Coke bean
20: Bin Shoot 22: Section exit
30: slide gate 40: moving roller
50: upper mat 52: lower mat
54: dust prevention cover 56: spectroscopic treatment bottom plate
60: bulk coke discharge part 62: minute coke discharge part
70: Vibrator 80: Conveyor belt
90: drive gear 100: drive motor
200: controller 300:

Claims (9)

An empty chute for discharging the coke supplied from the outside by forming a cut-out port in the lower portion;
A slide gate which is switched to an open position for fully opening the cutout opening, an operating position for partially opening and partially closing the cutout opening and a closed position for completely closing the cutout opening to adjust the amount of coke to be cut out;
A drive unit for driving the slide gate; And
And a controller coupled to the drive unit to control the drive unit,
The controller comprising:
The slide gate controls the drive unit to cut the coke at the operating position,
The slide gate is switched to the open position at a first predetermined period and the slide gate is controlled to be switched to the closed position at a second predetermined period,
Wherein the first period is shorter than the second period. The method according to claim 1,
The controller comprising:
The slide gate is switched to the open position and switched to the operating position after a predetermined first time elapses,
Wherein the first time is within 30 seconds. The method according to claim 1,
The controller comprising:
And the slide gate is switched to the closed position and switched to the operating position after a predetermined second time elapses. The method of claim 3,
The clogging preventing device for the empty chute includes:
And a screen member disposed below the empty chute to sort the coke by particle size,
Wherein the screen member comprises:
And the idle rotation is performed when the slide gate is located at the closed position. The method according to claim 1,
The operating position includes:
And an opening degree of the cutout opening is 45 to 55%. The method according to claim 1,
The driving unit includes:
A drive gear which is movable with the gears formed on one surface of the slide gate to move the slide gate;
A moving roller for assisting the movement of the slide gate; And
And a driving motor for supplying driving force to the driving gear. A coke supplying step of supplying coke to the empty chute from the outside; And
And an extracting step of extracting the coke through an evacuation port formed in a lower portion of the bin chute,
Wherein, in the cutting step,
An operation step of controlling the slide gate such that the slide gate is located at an operating position where the slide gate partially opens and partially closes the cutout opening;
An opening step of controlling the slide gate so that the slide gate is located at an open position where the slide gate is fully opened at a predetermined first period; And
And a closing step of controlling the slide gate so that the slide gate is located at a closed position for completely closing the cut-out port at the second predetermined period,
Wherein the first period is shorter than the second period. 8. The method of claim 7,
Wherein,
Controlling the slide gate such that the slide gate is located in the open position for a first time,
Wherein the first time is within 30 seconds. 8. The method of claim 7,
Wherein the closing step comprises:
Wherein the screen member for sorting the coke by the particle size of the coke at the bottom of the empty chute idles.

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