KR20090015313A - Coal bunker - Google Patents

Abstract

A coal bunker having a function preventing attachment of coal is provided to improve work efficiency of a cokes factory by storing and discharging the coal smoothly. A coal bunker(1) having a function preventing attachment of coal includes the followings: a bunker body(10) loading the coal; a removal unit(30) removing the adhered coal on an inner surface of the bunker by using air and installed on the bunker body; and a temperature control unit(50) of the bunker body preventing the coal attachment by drying moisture of the coal, and be placed in outer wall of the bunker body.

Description

Call Bunker with Call Attachment Prevention Function

The present invention relates to a call bunker for storing the coal (coal) supplied to the blast furnace in the coke plant, more specifically, the inside of the bunker of the call by preventing the charged call attached to the inside of the bunker due to various factors, such as moisture The present invention relates to a call bunker having a call attachment prevention function that prevents a call charge space of a bunker from accumulating and ultimately achieves smooth call storage and discharge, thereby improving coke plant operation or blast furnace operation.

In steel mills, coal is processed in yards through various processes of the coke plant, and finally cokes are produced and put into the blast furnace as fuel.

For example, FIG. 1 schematically illustrates several processes of such a coke plant.

For example, as shown in FIG. 1, the call imported from the coal yard 110 and transferred to the conveyor is crushed in the crasher 120, and after the surge treatment 130, the coal humidification facility (hereinafter, 'CMCP'). (Coal Moisture Control Process (140) is about 80 ~ 90 ℃ rolling drying is carried out.

Next, as shown in FIG. 1, the call dried in the CMCP 140 is stored in the call bunker 150 through a belt conveyor, and is discharged from the call bunker 150 if necessary, and coal is charged in the charging vehicle.

Then, it is charged into the carbonization chamber of the coke oven 160 through a charging car and undergoes a drying process for a predetermined time, and passes through a dry fire extinguishing facility (hereinafter referred to as 'CDQ') (coke dry quenching) 170. ) As a heat source.

By the way, in the process of conjoining the call in the CMCP 140, the call contains about 9 to 12% of water so that the water is vaporized and the residual water vapor is evaporated during the transport on the conveyor, but the water remains The raw call is loaded into the call bunker 150.

Meanwhile, as shown in FIG. 2, the call bunker 150 is also commonly referred to as a coal bin bunker. Such a call bunker is not shown in detail with a separate sign in FIG. It is covered with a concrete structure and a liner of about 4m and the exterior is made of steel shell.

In addition, the call bunker 150 has a basis weight hopper 152 for a basis weight is disposed at the bottom, and the charging vehicles not shown in the lower portion is located, such a call bunker 150, air hammer 154 and the vibrator ( 156 and gate 158 are provided.

At this time, the air hammer and the vibrator is to facilitate the dispensing of the charged call.

However, in the call bunker 150 as described above, condensation occurs in the liner and the iron skin of the 4m line, and coal is generated therein.

That is, as shown in Figure 1, the call is charged in the inside of the call bunker 150, but the moisture is dried in the CMCP, but the remaining moisture still remains and the inner surface of the call bunker 150 by the condensation as described above Adhering coal is generated in the coal, and such coal is accumulated over time, and in severe cases, a problem of reducing the call storage capacity by reducing the call charge space (S) inside the call bunker occurred.

Therefore, a separate operation is performed by the worker to manually remove the coal coal inside the call bunker, and there is a high possibility of delay in dispensing a call or a safety accident of the worker.

In addition, as the coal attached to the inside of the bunker is discharged by being mixed with the normal call, other problems may be caused to reduce the blast furnace charging quality of the call.

In particular, when the CPCP 140, which is the step before the call bunker, is called, the call bunker should be stored after being stored for a long time of about 7 to 10 hours, at which time the moisture of the stored call deepens the adhesion of the call to the inside of the bunker. In this case, the problems described above may occur more frequently.

Above all, a certain amount of coke must be introduced into the blast furnace due to the reduction of the call charge space, and the reduction operation is performed by reducing the bunker discharge amount of the call, which in turn adversely affects the blast furnace operation.

On the other hand, although the conventional call bunker 150 is provided with an air hammer 154 or the vibrator 156, this is to facilitate the bunker discharge of the call, and to effectively remove or prevent the coal stuck inside the bunker It was impossible.

At this time, as shown in Figure 2, where the coal is most concentrated in the call bunker is the inclined portion (150a) of the lower vertically inclined in the bunker 150 to form a discharge outlet.

Accordingly, the Applicant of the present invention has proposed a call bunker having a function of preventing the call adhesion as a whole by preventing the coal from occurring on the inclined portion of the bunker and inducing the bunker dropout of the coal.

The present invention has been proposed in order to solve the conventional problems as described above, the object of the object is, by preventing the call is attached to the inside of the bunker due to various factors such as moisture, the call of the bunker by the cumulative adhesion of the inside of the bunker of the call It is to provide a call bunker with a call attachment prevention function that prevents the reduction of charging space and ultimately realizes smooth call storage and discharge, thereby improving coke plant operation or blast furnace operation.

The present invention as a technical aspect for achieving the above object,

A bunker body into which a call is charged; And,

Attached coal removal means provided in the bunker body to remove adherent coal attached to the inner surface of the bunker body by using air, and is provided to surround at least a part of the bunker body on the outside of the bunker body, but dryes the call moisture Any or all of the bunker body temperature control means for preventing;

It provides a call bunker with a call prevention function configured to include.

Preferably, the coal briquette removing means and the bunker body temperature adjusting means are disposed in the lower inclined portion of the call bunker body.

More preferably, the coal removing means, at least one high-pressure air inlet connected in communication with the bunker body; And,

A high pressure air supply pipe connected to the air inlet and having a pulse valve intermittently passing an air supply to implement an air canon;

It may be configured to include.

The bunker body temperature adjusting means includes a heating member which is disposed at intervals on the outer side of the call bunker body and removes the call moisture by adjusting the temperature in the bunker body.

Preferably, the heating member of the bunker body temperature adjusting means may be composed of a steam line disposed at intervals on the outer side of the call bunker body.

More preferably, the steam line of the heating member may be arranged to extend from the upper side to the lower side of the bunker in a zigzag form to a connection bracket connected between the support members attached to the outer side of the call bunker body at regular intervals.

The support member is composed of an H-beam, and a connecting bracket is connected between the flanges, and a steam line of the heating member is fixed to the connecting bracket, and the support member has a call bunker body and an upper side of the steam line. It is further provided with a heat insulating board to block the outside to facilitate temperature adjustment of the bunker body.

As described above, according to the call bunker having the call attachment prevention function of the present invention, the call charged by various factors such as moisture is prevented from being attached to the inside of the bunker, thereby preventing the call loading space of the bunker due to accumulation of the inside of the bunker of the call. To provide an excellent effect.

Accordingly, smooth call storage and dispensing of the call bunker is performed to ultimately implement smooth call storage and discharge to provide another excellent effect of improving coke plant operation or blast furnace operation.

Hereinafter, a preferred embodiment of the present invention according to the accompanying drawings in detail as follows.

First, Figure 3 shows the overall configuration of the call bunker 1 having a call attachment prevention function according to the present invention.

For example, as shown in Figure 3, the call bunker (1) having a call attachment prevention function of the present invention, the bunker body 10, the call is largely charged, and the bunker body 10 is provided in the air Grenade removal means 30 for removing the adherent coal (C) attached to the inner surface of the bunker body through the canon, and is provided to surround at least a portion of the bunker body (10) at the outside of the bunker body (10) One or all of the bunker body temperature adjusting means 50 which maintains a constant temperature to dry the call moisture to prevent the call attachment may be configured in one embodiment.

That is, in the call bunker 1 of the present invention, when a call is inserted into the call bunker body 10, the coal removing means 30 provided in the bunker body 10 to be described in detail is operated. The coal is attached to the inside of the bunker body 10 due to various factors such as humidity. For example, the coal to which the call of the bunker body 10 is attached in the air canon manner is attached (C in FIG. 3). Remove

Alternatively, the bunker body temperature adjusting means 50 which is operated at the same time as the stick coal removing means or separately operated and provided to surround at least a part of the bunker body at the outside of the bunker body 10 will be described in detail below. By keeping the temperature inside the bunker through 40-70 ° C to dry the moisture of the call charged in the bunker body, it is characterized by preventing the inside of the bunker of the call by moisture.

At this time, even when using the coal briquette removing means 30 and the bunker body temperature adjusting means 50 at the same time or at least one of the coal bunker 1 of the present invention, the coal briquettes are increased in the interior of the call bunker. It is possible to restrain, and thereby to secure the charging space.

On the other hand, the bunker of the present invention is a hopper form in which the bottom outlet is narrowed vertically, and substantially the coal briquettes are most easily generated in the inclined portion partitioned by 10a of FIG. 3 in which the inner diameter is rapidly reduced. This is the most compressed part because the coal briquettes generated by the aggregation of moisture and the coal briquettes generated by the compression are easily made.

Thus, as shown in Figure 3, in the call bunker 1 of the present invention, the coal removing means 30 and the bunker body temperature adjusting means 50 is a lower inclined portion 10a of the call bunker body 10 ) Is required.

Of course, it is also possible to install the means in the vertical portion of the bunker body (10).

Next, FIG. 3 and FIG. 4 show the coal briquetting means 30 in detail in the call bunco 1 of the present invention having a call attachment preventing function according to the present invention.

That is, as shown in Figure 4, in the call bunker of the present invention, the coal briquette removing means 30, at least one high-pressure air inlet 32 connected in communication with the bunker body 10, and the air inlet And a high pressure air supply pipe 36 connected to 32 and having a pulse valve 34 intermittently passing the air supply to implement the air canon.

The high pressure air supply pipes 36 are connected to the main high pressure air supply pipes 38, respectively.

Therefore, the pulse valve 34 is intermittently introduced into the bunker body 10 through the high pressure air supply pipe 36 and the air inlet 32 at intervals of several seconds.

That is, the coal briquette removing means 30 uses high pressure air, which is a type of 'air cannon', which is connected to the inside of the bunker body in an intermittent manner by attaching the high pressure air to the inside of the bunker body, in particular, the inclined portion. The removal of the stick coal (C), and the introduction of such high pressure air will also suppress the generation of stick coal if it is used when the actual call is charged.

For example, in the present invention, the 'air canon' refers to the action of intermittently continuously injecting high pressure air into the bunker body.

Next, Fig. 3, Fig. 5 and Fig. 6 shows the bunker body temperature adjusting means 50 of the call bunker 1 having the function of preventing the sticking of the call according to the present invention.

3 and 5, the bunker body temperature adjusting means 50 of the present invention is provided in the form of surrounding the lower inclined portion 10a of the call bunker body.

5 and 6 show the bunker body temperature adjusting means in detail. Based on this, the bunker body temperature adjusting means 50 of the present invention is spaced apart from the outer side of the call bunker body 10. The heating member 52 is disposed to keep the temperature in the bunker constant and remove the call moisture.

Therefore, when the heating member 52 is operated, the internal temperature of the call bunker body 10 can be adjusted and maintained at a desired temperature, for example, about 40-70 ° C. In this case, the moisture of the charged call is dried to naturally retain moisture. Adhesion of call by carbonization, i.e., prevents the call from sticking inside the bunker.

For example, it is most desirable to keep the temperature inside the bunker at 40 ° C. to maintain the moisture content of the call at about 10-12%, but as previously described, to raise the temperature to 60 ° C. when the CMCP is at rest. It is preferable to suppress the generation of sticking coal caused by long-term storage of the call according to the CMCP pause.

Of course, such a bunker temperature may be provided by installing a thermometer (not shown) in the bunker body 10 and adjusting or supplying or subtracting steam from a steam line that is a heating member in consideration of the measured internal temperature of the bunker body.

For example, as shown in FIGS. 5 and 6, the heating member 52 of the bunker body temperature adjusting means 50 may be provided as a steam line disposed at intervals outside the call bunker body 10. Can be.

In addition, upper and lower portions of the steam line, which is the heating member 52, a steam supply pipe 58a for circulation supply of steam and a discharge line 58b for dissipating condensed water by passing heat while passing through the steam line, respectively. Connected.

And, as shown in Figure 6, the steam line of the heating member 52 is jig to the connecting bracket 56 connected between the support member 54 attached to the outer space of the call bunker body 10 at regular intervals. It is preferable to arrange | position so that it may elongate from the bunker upper side to a lower side in a jeg form.

That is, the support member 54 is mounted at predetermined intervals while being surrounded by the H-beam on the inclined portion of the bunker body 10 and connects the connecting bracket 56 between the flanges 54a between the H-beams. Fixing and connecting to the connection line 56, the steam line, which is a heating member that is continuously extended in a zigzag from the upper side to the lower side.

At this time, it is important that the steam line is not in close contact with the iron shell of the bunker body 10, it is necessary to arrange the outer space of the bunker body at intervals D as shown in Figs. 5 and 6, which is the shell of the bunker body If the contact temperature is too high, the internal temperature of the bunker body is excessively high so that the moisture of the call is not maintained properly. If the call is too dry, it may cause other problems due to the scattering of the call.

In addition, the connecting bracket 36 connects and fixes the horizontal connecting table 56a at the upper and lower sides between the H-beam flanges, which are the supporting members, and connects the vertical connecting table 56b therebetween, and wires or fixtures thereon. Unsigned) may be used to install a steam line, i.e., a pipe through which steam flows.

Next, as shown in FIG. When the insulation plate 60 is further attached to the H-beam that is the support member above the steam line of the heating member 520, the insulation plate blocks the atmospheric contact between the call bunker body 10 and the steam line that is the heating member. It would be desirable because it would minimize heat loss for temperature maintenance.

Therefore, when the appropriate steam is supplied to the steam line in the present invention, a space in which heat is continuously supplied between the H-beam, the carbon plate, and the outer surface of the bunker body will be implemented, thereby making it easy to maintain the temperature inside the bunker.

As a result, the call bunker 1 of the present invention removes the stick coal itself or prevents the coal from occurring through the stick coal removing means 30 when the call is charged, and at the same time or individually, the bunker body temperature adjusting means ( Through 50), the temperature inside the bunker is properly maintained so that the moisture content of the charging call in the bunker (body) is appropriate, so that coal coal is not generated at the source.

In particular, since the coal is generated on the surface of the bunker body, the bunker body temperature adjusting means 50 maintains the inside temperature of the bunker body appropriately.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be modified and modified in various ways without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1 is a schematic diagram showing a call treatment process of a coke plant

Figure 2 is a schematic diagram showing the state of internal sticking coal generated in the conventional call bunker

Figure 3 is an overall configuration showing a call bunker having a call attachment prevention function according to the present invention

Figure 4 is a block diagram showing a bunker installation state of the coal removal means in the call bunker of the present invention

Figure 5 is a configuration diagram showing the installation state of the bunker body temperature adjusting means in the call bunker of the present invention

6 is a detailed view of FIG.

Explanation of symbols on the main parts of the drawings

1 .... call bunker with a call prevention function according to the present invention

10 .... Bunker body 30 .... Means to remove coal

32 .... High pressure air inlet 34 .... High pressure air supply line

36 .... Pulse valve 50 .... Bunker body temperature control means

52 .... heating element 54 .... supporting element

56 .. Connecting bracket 60 .... Insulation plate

Claims (7)

A bunker body 10 into which a call is charged; And, Attached coal removal means 30 provided in the bunker body 10 to remove the coal attached to the inner surface of the bunker body by using air, and to surround at least a part of the bunker body at the outside of the bunker body 10. Any one or both of the bunker body temperature adjusting means provided to dry the call moisture to prevent the call adhesion; Call bunker with a call prevention function configured to include. The method of claim 1, The attachment coal removing means 30 and the bunker body temperature adjusting means 50 is a call bunker having a call attachment prevention function, characterized in that disposed on the lower inclined portion (10a) of the call bunker body (10). The method according to claim 1 or 2, The attachment coal removing means 30, at least one high-pressure air inlet 32 connected in communication with the bunker body (10); And, A high pressure air supply pipe 36 connected to the air inlet 32 and having a pulse valve 34 intermittently passing the air supply to implement the air canon; Call bunker with a call attachment prevention function, characterized in that configured to include. The method according to claim 1 or 2, The bunker body temperature adjusting means (50), characterized in that it comprises a heating member 52 for removing the call moisture by maintaining a constant temperature in the bunker while being disposed at the outer periphery of the call bunker body (10) A call bunker with a call prevention function. The method of claim 4, wherein The heating member (52) of the bunker body temperature adjusting means (50) is a call bunker with a call attachment prevention function, characterized in that consisting of steam lines arranged at intervals on the outside of the call bunker body (10). The method of claim 5, wherein the steam line of the heating member is in the zigzag form on the lower side of the bunker in a zigzag form connected to the connecting bracket 56 connected between the support members 54 attached to the outer side of the call bunker body 10 at regular intervals. Call bunker having a call attachment prevention function, characterized in that arranged to be extended to. According to claim 6, wherein the support member 54 is composed of an H-beam, the connecting bracket 56 is connected between the flanges 54 therebetween, the steam line of the heating member is fixed to the connecting bracket, The call bunker having a call attachment prevention function, characterized in that the support member is further provided with a heat insulating plate 60 to block the call bunker body and the outside to facilitate the internal temperature adjustment of the bunker body to the upper side of the steam line.

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