KR101924908B1 - (kish graphite dust separation appatatus and separation method - Google Patents

Abstract

A Kishchon dust separator and a separation method are disclosed.
Among them, the Kishy Carbon dust collecting and separating apparatus includes a suction duct 110 including a suction fan for sucking the Kishit carbon; A vibrating duct 120 which communicates with the discharge port 112 side of the suction duct 110 and separates the kishch carbon introduced from the suction duct as it is vertically vibrated by the vibration inducing member 150 into carbon and quicklime, ; And a partition wall 133 that is partitioned by the upper channel 131 and the lower channel 132 so as to communicate with the outlet of the vibration duct 120. The carbon contained in the vibration duct and the quicklime And a separation duct 130 for allowing the light carbon to flow into the upper flow path and the quicklime having a relatively heavy specific gravity to be separated and introduced into the lower flow path to be conveyed. The suction duct 110 and the vibration duct 120 are provided with corrugated Further comprising indirectly connected by a rubber duct (140), wherein the vibration duct (120) and the separation duct (130) are directly connected so that the vibration force of the vibration duct is transmitted to the separation duct, And a drive means (152) for driving the eccentric roll to rotate the eccentric roll, wherein the suction duct (110) comprises a suction duct (110) Air introduced into the duct Is formed with an air outlet to the discharge portion, the air outlet is to further include a filter is installed to prevent the leakage of carbon Kish.

Description

(Kish graphite dust separation method and separation method)

The present invention relates to a Kishch carbon dust separation apparatus and a separation method for separating kishch carbon from dust generated during a steelmaking process and then separating the specific gravity from carbon and calcium oxide (CaO).

The slag means an impurity which is generated in a floating state in the process of manufacturing molten steel. Although slag is indispensably necessary in the process of producing molten steel, it is necessary to remove slag floating on the molten steel every time the work process is changed, because additional slag may occur depending on the work process.

Generally, the slag removal operation is carried out in such a manner that the slag is scraped off using the skimmer device while the ladle is inclined.

1 and 2, the ladle 10 is moved up to the slag discharge position by using a moving means 20 such as a bogie or a crane, and then the ladle 10 is moved to the slag discharging position, The skimmer 30 is moved to the ladle 10 while the slider is inclined to the discharge site 40 and the slag is removed by using the skimmer 30 to the discharge site 40 to remove the slag.

At this time, since a large amount of dust is generated in the process of removing the slag on the ladle 10, a dust suction device 50 for dust collection is provided. The dust suction device 50 is provided with a device for sucking and removing dust by using air pressure. For example, the dust suction hood 52 connected to the dust collecting device is moved to the upper portion of the front surface in the inclined direction of the ladle 10 And the dust scattered from the ladle 10 is collected.

However, in spite of the fact that the amount of kishch carbon collected by the dust suction apparatus 50 is large in the prior art, the entire amount is discarded, and a method for recycling it is proposed.

Patent Document 1: Japanese Patent Application Laid-Open No. 10-2013-0107871 (dust suction device) Patent Document 2: Registration No. 10-0865236 (Slag removing device) Patent Document 3: Registration No. 10-1481129 (Molten steel slag separator)

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 Kishit carbon dust separator for collecting kish graphite and separating the specific gravity from carbon and calcium oxide .

It is another object of the present invention to provide a method for separating and separating Kishch carbon dust using the Kishit carbon dust separation apparatus.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise forms disclosed. Other objects, which will be apparent to those skilled in the art, It will be possible.

In order to accomplish the above object, the present invention provides a Kishit carbon dust separation apparatus for collecting and separating Kishch carbon dust generated during a process of removing slag, the apparatus comprising: a suction duct including a suction fan for sucking the Kishch carbon 110); A vibrating duct 120 which communicates with the discharge port 112 side of the suction duct 110 and separates the kishch carbon introduced from the suction duct as it is vertically vibrated by the vibration inducing member 150 into carbon and quicklime, ; And a partition wall 133 that is partitioned by the upper channel 131 and the lower channel 132 so as to communicate with the outlet of the vibration duct 120. The carbon contained in the vibration duct and the quicklime And a separation duct 130 for allowing the light carbon to flow into the upper flow path and the quicklime having a relatively heavy specific gravity to be separated and introduced into the lower flow path to be conveyed. The suction duct 110 and the vibration duct 120 are provided with corrugated Further comprising indirectly connected by a rubber duct (140), wherein the vibration duct (120) and the separation duct (130) are directly connected so that the vibration force of the vibration duct is transmitted to the separation duct, And a drive means (152) for driving the eccentric roll to rotate the eccentric roll, wherein the suction duct (110) comprises a suction duct (110) Air introduced into the duct Portion is formed in the air outlet that can be discharged, the air outlet is to initiate the Kish carbon dust separating apparatus further comprises a filter is installed to prevent the leakage of carbon Kish.

According to the present invention, the separation membrane may further include a separator provided at the tip of the separation membrane for guiding the carbon and the quicklime to be divided into an upper flow path and a lower flow path.

delete

delete

delete

According to the above-mentioned problem solving means, the kishch carbon which has been discarded as a whole can be separated into carbon and lime and recycled, thereby making it possible to economize on the recycling of resources.

1 is a schematic diagram of a state of collecting dust of ladders according to the prior art;
2 is a side view showing a dust suction apparatus according to the prior art;
3 is a schematic view of a Kishchon dust separator according to the present invention
FIG. 4 is a graph showing the operating state of the Kishch carbon dust separator according to the present invention
5 is a detailed view of the vibration generating member according to the present invention
FIG. 6 is a flowchart for explaining a method of separating and separating Kishch carbon dust according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a Kishchon dust separator and a separation method according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a configuration diagram of a Kishch carbon dust separation apparatus according to the present invention, and FIG. 4 is an operational state diagram of a Kishch carbon dust separation apparatus according to the present invention.

3 and 4, the Kishchon dust separator 100 according to the present invention separates the Kishch carbon generated during the process of removing slag into carbon and calcium oxide (CaO) and recycles them. The suction duct 110, a vibration duct 120, and a separation duct 130.

The suction duct 110 is for sucking dusty kish graphite generated during the process of removing the slag on the ladle 10 by the skimmer 30 through the suction port 111. Inside the suction duct 110, A suction fan 113 for forcedly sucking the Kishch carbon into the suction duct 110 is constructed. In addition, a discharge port 112 through which the Kishch carbon sucked by the suction fan 113 is discharged is formed in the lower portion of the suction duct 110.

The vibration duct 120 is connected to the discharge port 112 side of the suction duct 110 so as to separate the specific gravity of the incoming carbon dioxide from the suction duct 110. The vibration duct 120 is provided with a vibration inducing member 150 at a predetermined position. Accordingly, the vibrating duct 120 vibrates in the vertical direction according to the operation of the vibration generating member 150, and the kishch carbon contained in the vibration duct 120 is separated upward and downward by the vibration force.

Especially, the major components of kishy carbon are carbon and quick lime. Since carbon has a specific gravity and light lime has a specific gravity larger than that of carbon, carbon and lime are easily separated by up and down motive force. In other words, carbon with a low specific gravity will rise up, and a high specific gravity will cause a separate state to sink downward.

The vibration inducing member 150 may have the same configuration as that shown in FIG. That is, it may be constituted by an eccentric roll 151 which is eccentrically rotated while being in contact with a lower portion of the vibration duct 120, and a driving means 152 for rotationally driving the eccentric roll.

According to this configuration, when the eccentric roll 151 is rotated by the driving means 152 such as a motor, the eccentric roll 151 is eccentrically rotated, and the vibration duct 120 in contact with the upper portion thereof is vibrated in the vertical direction . However, it goes without saying that this is an embodiment and can cause vibration by other means.

Further, the suction duct 110 and the vibration duct 120 may be connected by a corrugated rubber duct 140. As described above, the vibration duct 120 is vibrated by the vibration inducing member 150, while the suction duct 110 does not need to be vibrated. Therefore, when the vibration duct 120 is connected by the rubber duct 140 between the vibration duct 120 and the vibration duct 120, Not only the vibration force of the vibration duct 120 is transmitted to the suction duct 110 but also the smooth vibration of the vibration duct is enabled as the corrugated rubber duct 140 is elastically deformed according to the vibration of the vibration duct when the vibration duct 120 vibrates .

The separation duct 130 is connected to the outlet side of the vibration duct 120 so as to separate the carbon and lime from the vibration duct. The separation membrane 133 separates the upper channel 131, And a lower flow path 132.

Therefore, carbon having relatively low specific gravity flows into the upper flow path 131 of the carbon and fresh lime flowing from the vibration duct 120, and the quicklime having a relatively heavy specific gravity flows into the lower flow path 132, Clearly separated.

At this time, since the separation duct 130 is directly connected to the vibration duct 120, the vibration force of the vibration duct is transmitted. Therefore, the carbon and the quicklime introduced into each channel of the separation duct 130 can be moved toward the discharge port of each flow channel by the vibration force and the inclined structure to be discharged.

The separation membrane 133 may further include a separator 134 for guiding the carbon and lime to be divided into an upper flow path 131 and a lower flow path 132. In this case, And may be more protruded than the openings of the upper flow path 131 and the lower flow path 132. As a result, the carbon and quicklime can be separated and introduced into the respective flow paths by the protruding separation membrane 133 in advance.

FIG. 6 is a flowchart for explaining a method for separating and separating Kishch carbon dust according to the present invention. The method uses the Kishch carbon dust separator 100 described above.

The first step is a suction step (S10) of sucking the kishch carbon generated during the process of removing slag. The kishch carbon generated from the outside of the suction duct (110) is sucked by the suction fan (113) ).

At this time, a vortex is generated in the suction duct 110 in the course of forced aspiration by the suction fan 113, so that the suction efficiency may be lowered. Therefore, the suction duct 110 may be provided at one side of the suction duct 110 It is preferable to form an air outlet for discharging the introduced air to the outside. It is more preferable that a filter is installed in the air outlet so as to prevent leakage of the carbon black.

Meanwhile, the chish carbon introduced into the suction duct 110 flows into the vibration duct 120 communicated with the suction duct 110 by the suction force of the suction fan 113.

Step 2 is a step (S20) of separating the kishy carbon introduced into the vibration duct 120 from the suction duct 110 by the vibration force of the vibration inducing member 150 to the carbon and quicklime, 120 are vibrated up and down by the vibration-inducing member 150, so that the carbon having a relatively light weight rises up and the specific gravity separation in which the quicklime having a relatively heavy specific gravity sinks downward occurs.

In step 3, the carbon having the specific gravity separated from the vibration duct 120 flows into the upper flow path 131 of the separation duct 130. The quick lime flows into the lower flow path 132, and the brine is completely separated from the carbon and lime .

At this time, the separation duct 130 is directly connected to the vibration duct 120, so that the vibration force of the vibration duct is transmitted to the separation duct 130, so that the carbon and the quicklime therein can be transferred to the outlet side of each flow channel.

Then, the carbon discharged from each of the flow paths 131 and 132 and the quicklime are collected by separate collecting tubes 161 and 162 or collected by moving them to a predetermined place through a conveyor, and then carbon is used to make semiconductor devices. Is used as a raw material to be removed.

The Kishch carbon dust separator and the separation method described above are not limited to the configuration and the method of the embodiment described above, but various modifications can be made by those skilled in the art within the scope of the technical idea of the present invention.

100: Kishch carbon dust collecting and separating device 110: Suction duct
111: inlet 112: outlet
113: Suction fan 120: Vibration duct
130: separating duct 131: upper duct
132: lower flow path 133: separation membrane
134: separator 140: rubber duct
150: Vibration-inducing member

Claims (5)

A Kishit carbon dust separation apparatus for collecting and separating Kishch carbon dust generated during a process for removing slag,
A suction duct (110) including a suction fan for sucking the kishch carbon;
A vibrating duct 120 which communicates with the discharge port 112 side of the suction duct 110 and separates the kishch carbon introduced from the suction duct as it is vertically vibrated by the vibration inducing member 150 into carbon and quicklime, ; And
And is divided into an upper flow path 131 and a lower flow path 132 by the separation membrane 133 so as to communicate with the outlet side of the vibration duct 120. Among the carbon and the quick lime flowing from the vibration duct, And a separation duct (130) for allowing the light carbon to flow into the upper flow path and the quick lime having a relatively heavy specific gravity to be separated and introduced into the lower flow path to be transferred,
The suction duct 110 and the vibration duct 120 are indirectly connected by a corrugated rubber duct 140. The vibration duct 120 and the separation duct 130 are directly connected to each other so that the vibration force of the vibration duct is transmitted to the separation duct Further comprising < RTI ID = 0.0 >
The vibration inducing member 150 further includes an eccentric roll 151 that is eccentrically rotated while being in contact with a lower portion of the vibration duct 120 and a driving unit 152 that rotatably drives the eccentric roll,
The air suction duct (110) has an air outlet formed at one side of the suction duct to discharge the air introduced into the suction duct to the outside, and a filter is installed in the air outlet to prevent the leakage of the gas. Dust separator.
The method according to claim 1,
Further comprising a separator (134) provided at the tip of the separation membrane (133) for guiding the carbon and lime to separate into an upper flow path (131) and a lower flow path (132) .
delete delete delete

Images