KR200331206Y1 - Seal and slurry tank in gas clean line - Google Patents

Abstract

A seal tank and a slurry tank are provided to prevent dust accumulation in an exhaust gas clean line that collects and discharges dust by injecting dust collection to cool and collect the exhaust gas generated during the steelmaking operation of the steel mill.

The seal tank and the slurry tank of the exhaust gas cleaning line to prevent the accumulation of dust may include a screw driven by a motor and a screw pipe installed inside the screw pipe and inclinedly connected to the respective tank bodies, and an upper outlet of the screw pipe. It is characterized in that it has a dust removal means configured to include a dust reservoir connected to the discharge dust is stored.

According to the present invention, the dust accumulated in the seal tank into which the dust collected in the exhaust gas clean line inflow is introduced and the dust accumulated in the slurry tank where the dust and the dust collected are effectively removed and discharged. A more improved effect of improving operating efficiency is obtained.

Description

Seal tank and slurry tank of exhaust gas clean line to prevent dust accumulation {SEAL AND SLURRY TANK IN GAS CLEAN LINE}

The present invention relates to a seal tank and a slurry tank in which dust accumulation is prevented in an exhaust gas clean line that collects and discharges dust by injecting dust collection to cool and collect the exhaust gas generated during the steelmaking operation of a steel mill. The dust accumulated in the slurry tank in which the dust collected from the exhaust gas clean line's separator flows is effectively removed and discharged, thereby improving the operating efficiency of the seal tank and slurry tank of the exhaust gas clean line. The present invention relates to a seal tank and a slurry tank of an exhaust gas clean line, in which dust accumulation is prevented.

Figure 1 shows an exhaust gas clean line for removing dust contained in the flue gas generated in the steelmaking process of the general steel mill, the preliminary treatment of the molten iron from the blast furnace and the first refining in the converter and then the secondary refining and continuous In the steelmaking plant undergoing the casting process, flue gas is generated during operation, and a flue gas clean line for collecting and removing dust contained in such flue gas is required.

That is, as shown in Figure 1, the hot exhaust gas containing a large amount of dust (dust) generated during the blowing in the converter 100 is cooled via the water pipe boiler 120 by the suction force of the suction blower 110 After that, a large amount of cooling water is injected from the separator 130 by using the nozzles 132 and 134 to perform the first dust collecting operation to collect the dust included together with the cooling of the exhaust gas.

In addition, the secondary gas is cleaned again at the front end of the exhaust gas flow control of the secondary dust collector 140 to purify the exhaust gas, and then discharged to the chimney 150 or sent to the storage tank 160 to be stored and reused.

In addition, since the dust collecting state, which is the dust collecting which is the cooling of the exhaust gas and the dust collecting operation during the first dust collecting operation in the separator 130 of the exhaust gas clean line, contains a large amount of dust, the separator 130 is primarily used. It is collected in a seal tank 170 disposed in the lower portion of the seal tank 170 is installed in the lower portion of the separator 130 is shown in more detail in FIG.

That is, as shown in Figure 2, when water is injected through the nozzle 134 of the separator 130, the dust (D) contained in the exhaust gas (G) is collected and the lower chamber tank 170 with water Will be collected.

Next, as shown in Figures 1 and 2, the dust (D) contained in the dust collection is transferred through the settling tank 180 is transferred through the dust collection and recovery pipe 182 connected to the seal tank 170 is processed. After the water is collected in the sump 190 again, the pump 192 is supplied back to the spray nozzles 132 and 134 of the separator 130 and the spray nozzle 142 of the secondary dust collector 140 by the pump 192. While the dust collecting operation is continuously performed, the dust collecting used in the secondary dust collecting unit 140 is collected in the slurry tank 200 and then pumped to the pump 210 and sent to the separator 130 which is the primary dust collecting unit. It is reused and collected together with the seal tank 130 together with the primary dust collection.

On the other hand, Figure 3 shows the seal tank 200 in more detail, the function of such a conventional seal tank 200 is to block the outflow of the exhaust gas (G) and the inflow of external air and discharge only the dust collection Carbon monoxide in the flue gas can cause an explosion accident when the outside air is introduced. On the contrary, when carbon monoxide is released to the outside, a gas poisoning accident is caused by the high concentration of carbon monoxide. Done.

However, as shown in FIGS. 2 and 3, the following problems occur in the seal tank and the slurry tank of the conventional exhaust gas cleaning line, which will be described below.

First, as shown in FIG. 2, while performing the first dust collection in the separator 130, a part of the dust D collected during the dust collection is not discharged and accumulated in the lower portion of the seal tank 170. If this is increased, the adhesion amount of dust D is increased as time passes and is attached to the wall of the separator 130, and at some point, dust D, which has been massed by self-weight, is temporarily lowered. When the dropping is gathered into the drain pipe 172 interposed between the separator 130 and the seal tank 170 and the seal tank 170 at the lower portion thereof, it causes a result of blocking the water outlet through which the dust collector is discharged. For example, the dust collected from the nozzles 132 and 134 of the 130 may not collect about 700 tons of water per hour, but may collect in the separator 130, and eventually, the collected dust may be collected in the secondary dust collector 140. And the dust collection generated from the injection nozzle 142 A mixture is to be introduced into the secondary dust collecting part side a slurry tank 200 shown in going over to a flow rate controller of Figure 3.

Therefore, in the exhaust gas flow rate control unit 144 of the secondary dust collector 140, a problem arises in that the flow rate control of the exhaust gas becomes poor due to the excessive inflow of dust collectors, and operation is impossible in the seal tank 130. Since it is not discharged, the dust collection is not recovered to the sump 190, in which case the water level of the sump 190 is reduced and the pump 192 is stopped, the operation of the overall exhaust gas clean line is unstable or severely stopped the operation. .

In addition, while additional supplemental water is supplied, the amount of water used is increased to increase the maintenance cost of the equipment, and in particular, even in the slurry tank 200 where secondary dust is collected, the storage capacity is increased due to the inflow of dust collected from the primary dust collector. In about 200 tons per hour flowed into the dust collector leaked to the outside of the converter 100, as well as causing a large explosion accident during molten steel, as well as causing environmental pollution.

In addition, as the dust in the dust collecting excessively flowing in the slurry tank 200 is accumulated, the discharge of the dust collecting through the slurry tank 200 is not smooth.

On the other hand, it is difficult for the operator to recognize in advance that the dust accumulated in the seal tank and the slurry tank (170) (200), and when the problem described above occurs, the operator as shown in Figure 2, the separator 130 ) Open the check hole (130a) and drain with a mobile pump (not shown), or manually open the check hole 174 on the side of the seal tank 170, and forcibly discharge the dust and accumulated dust (D) to the outside In this case, the work is delayed and difficult, as well as polluting the environment and the surrounding equipment by the outflow of polluted dust collection, as well as a high risk of worker safety accidents.

In addition, since the collection pipe 182 similarly does not smooth the flow of dust collection when the dust D accumulates therein, the worker opens the inspection opening 182a of the recovery pipe 182 similarly to the seal tank 170. Open dust must be removed to the outside, such a dust in the recovery pipe has a number of problems such as poor operation of the pump equipment.

The present invention has been devised to solve the above-mentioned conventional problems, and the dust accumulated in the separator tank of the exhaust gas clean line and the slurry tank of the secondary dust collecting part is effectively removed, thereby the seal tank of the exhaust gas clean line and the like. The present invention provides a seal tank and a slurry tank of a flue gas clean line, in which dust accumulation is prevented to enable a smoother flow of dust collection through the slurry tank to increase the operation rate of the flue gas clean line using the same.

In addition, another object of the present invention, while the dust collection of the exhaust gas clean line is smoothly circulated to prevent the tank accumulation of dust, there is no external leakage of contaminated dust collection and dust, and pollution of the environment and surrounding equipment is prevented in advance, It is to provide a seal tank and a slurry tank of an exhaust gas clean line to prevent dust accumulation that prevents the accumulation of dust in the pipes such as tanks and recovery pipes, and prevents cost accumulation.

1 is a schematic diagram showing a general exhaust gas clean line

Figure 2 is a schematic diagram showing a seal tank on the side of the separator in the conventional exhaust gas clean line

Figure 3 is a schematic diagram showing a slurry tank in a conventional exhaust gas clean line

Figure 4 is a block diagram showing a seal tank of the exhaust gas clean line to prevent dust accumulation according to the present invention

5 is a partial cutaway perspective view showing the seal tank of the present invention

Figure 6 is an exploded view showing the seal tank of the present invention

7 shows the seal tank of the present invention,

(a) is a plan view

(b) is a cross-sectional view taken along the line A-A of Figure 7a.

Figure 8 is a block diagram showing a slurry tank of the exhaust gas clean line to prevent dust accumulation according to the present invention

Figure 9 is a plan view showing a slurry tank of the exhaust gas clean line to prevent dust accumulation of the present invention

Explanation of symbols on the main parts of the drawings

1 .... Seal tanks and slurry tanks of flue gas cleanliness to prevent dust accumulation

10 .... Seal tank 20, 40 .... Dust removal means

22,42 ... screw 24,44 screw tube

26,46 .... Dust reservoir 28,48 .... Washing water nozzle

29 .... vent pipe 30 .... slurry tank

130 .... Separator 140 .... Secondary Dust Collector

D ... dust

As a technical configuration for achieving the above object, the present invention is connected to the separator and the secondary dust collector side in the exhaust gas clean line, the collecting tank containing dust collected in the separator and the secondary collecting dust collecting tank And in the slurry tank,

A motor driven screw;

A screw pipe installed inside the screw and inclinedly connected to the respective tank bodies; And

A dust storage tank connected to an upper outlet of the screw tube and storing discharge dust;

Characterized in that comprises a dust removal means having a.

Hereinafter, a preferred embodiment of the present invention based on the accompanying drawings.

Figure 4 is a block diagram showing a seal tank of the exhaust gas clean line to prevent dust accumulation according to the present invention, Figure 5 is a partial cutaway perspective view showing the seal tank of the present invention, Figure 6 is a seal tank of the present invention Figure 7 is an exploded view, Figure 7 is a view showing the seal tank of the present invention, Figure 8 is a block diagram showing a slurry tank of the exhaust gas clean line is prevented dust accumulation according to the present invention, Figure 9 It is a top view which shows the slurry tank of the exhaust gas clean line in which dust accumulation is prevented, The structure of the prior art separator and secondary dust collection part is shown with the same code | symbol.

4 and 8 illustrate the seal tank 10 on the side of the separator 130 (see FIG. 1) and the slurry tank 30 on the side of the secondary dust collector 140 (see FIG. 1) according to the present invention. The constitutional feature of the present invention is that each of the seal tank 10 and the slurry tank 30, the dust removing means 20, 40 to enable the external discharge to remove the dust (D) accumulated therein It is provided with, but will be described below by dividing the seal tank 10 and the slurry tank 30 in accordance with the drawings,

On the other hand, each of the dust removing means 20, 40 is further provided with additional wash water nozzles 28, 48, this washing water nozzle is also described in accordance with the drawings, respectively.

First, Figures 4 to 7 shows the seal tank 10 of the exhaust gas clean line to prevent dust accumulation according to the present invention and the dust removal means 20 of the present invention provided therein.

That is, the dust removing means 20, the screw 22 is driven by the motor, the screw 22 is installed therein, the screw pipe 24 is inclinedly connected to the seal tank body 12, and the It is configured to include a dust reservoir (26) connected to the upper outlet (24a) of the screw tube (24) to store the discharge dust (D).

At this time, the screw 22 is connected to the motor 22a installed on the outer upper portion of the screw tube 24 and is fastened to the bearing 22b provided on the upper and lower sides of the screw tube 24 to be rotated when the motor is driven. It may be divided into a screw shaft (22c) and a screw blade (22d) integrally mounted to the screw shaft (22c), and the motor (22a) as a screw tube 24 and a bracket, although not indicated by a separate reference It is fixed and electrically connected to a control panel (not shown) of the clean line for operation control.

Therefore, as shown in Figure 4, when the dust (D) is collected and accumulated in the lower side of the seal tank 10, the operator drives the motor 22a through the control panel, at this time integrated with the screw shaft (22c) The dust D accumulated inside the seal tank 10 as the furnace screw blade 22d is driven to rotate is lifted up through the screw tube 24, and then is dropped and stored in the dust reservoir 26 at the outlet 24a. .

As a result, various problems due to the dust D accumulated in the conventional seal tank 10 can be prevented in advance.

As shown in FIG. 5, the lower outlet 130a of the separator 130 enters through an opening on the body 12 of the seal tank 10, and the body 12 of the seal tank 10 is opened. The upper part is provided with an outlet 14 for discharging dust collection to the outside when the dust removal means 20 is stopped.

On the other hand, as shown in Figure 7, the screw tube 24 is formed in an elliptical shape, it is preferable that the screw 22 is disposed on the bottom side, which is the bottom of the screw tube 24 upon removal of the dust (D) Because it is gathered on the side.

In addition, the washing water nozzle 28 described above is installed inside the screw tube 24. Although the washing water nozzle 28 is not shown in the drawing, it is connected to the washing water tank and is connected to the upper side of the screw tube 24. Connected with the installed washing water supply pipe (28a) is a plurality of leading into the screw tube (24).

Therefore, as shown in Figures 4, 6 and 7b, when the washing water is sprayed from the washing water nozzle 28, the dust (D) attached to the screw blade (22d) is washed and removed, the dust (D) ) And the discharge to the reservoir 26 is smooth.

On the other hand, as shown in Figure 4 and 6, the seal tank side screw pipe 24 is connected to the ventilation pipe 29 having a fan 29a to discharge harmful gas, such a ventilation pipe 29 Although not shown in the drawing, it may be desirable to be connected back to the exhaust gas cleaning line to perform the gas cleaning operation.

Therefore, even when gas enters the inside of the screw tube 24 of the seal tank 10 side, it is externally discharged through the ventilation pipe 29 during the operation of the fan 29a.

After all, the seal tank 10 of the present invention is provided with a dust removal means 20, by the dust (D) accumulated in the seal tank 10, various problems such as poor circulation of dust collection To prevent.

Next, FIG. 8 and FIG. 9 show the slurry tank 30 of the exhaust gas cleaning line and dust removal means 40 of the present invention provided therein, in which dust accumulation is prevented according to the present invention. ) Is made of the same configuration as the dust removing means 20 of the seal tank 10 side.

That is, the screw 42 is driven by the motor, the screw 42 is installed therein, the screw pipe 44 is inclinedly connected to the slurry tank body 32, and the upper outlet port of the screw pipe 44 And a dust reservoir 46 connected with the 44a to store the discharge dust D.

At this time, the screw 42 is connected to the motor 42a installed on the outer upper portion of the screw pipe 44 and is fastened to the bearing 42b provided on the upper and lower sides of the screw pipe 44 to rotate when the motor is driven. It may be divided into a screw shaft 42c and a screw blade 42d integrally mounted to the screw shaft 42c, and although not indicated by a separate reference numeral, the motor 42a is a screw tube 44 and a bracket. It is fixed and electrically connected to a control panel (not shown) of the clean line for operation control.

Therefore, as shown in FIG. 8 and FIG. 9, when the dust D gathers and accumulates on the lower side of the slurry tank 30, the operator drives the motor 42a through the control panel, and at this time, the screw shaft 42c ) And the dust (D) accumulated in the slurry tank (30) while being driven in rotation integrally with the screw blade (42d) ascends through the screw pipe 44 and falls from the discharge port (44a) to the dust storage tank (46). And stored.

As a result, various problems due to the dust D accumulated in the conventional slurry tank 30 can be prevented in advance.

On the other hand, the washing water nozzle 48 described above is installed in the interior of the screw pipe 44, this washing water nozzle 48 is not shown in the figure, but connected to the washing water tank and the upper side of the screw pipe 44 It is connected with the installed washing water supply pipe (48a) is introduced into the plurality of screw pipe (44).

Therefore, as shown in FIGS. 8 and 9, when the washing water is sprayed from the washing water nozzle 48, the dust D attached to the screw blades 42d is washed and removed, thereby always removing the dust D and It is to facilitate the discharge to the reservoir (46).

As a result, the slurry tank 30 of the present invention is provided with a dust removal means 40, thereby preventing various problems such as dust collecting and external leakage due to dust D accumulated in the slurry tank 30. It is to let.

Accordingly, the seal tank and the slurry tank 10, 30 of the present invention, when the dust (D) is accumulated in the interior, the operator does not need to open the inspection port, and forcibly difficult to remove the dust to the outside, the operation of the control panel By simply removing the external discharge through the dust removal means 20, 40.

On the other hand, looking at the operation of the seal tank and the slurry tank (10, 30) of the present invention, as shown in Figure 4, the high-temperature exhaust gas generated during the drilling of molten steel in the converter 100 in the separator 130 The first dust is collected together with cooling, and the secondary dust is collected in the secondary dust collector 140 to produce clean exhaust gas. The dust containing the dust collected after the primary dust is discharged to the seal tank 10 through the outlet 130a. It is introduced, and ascends to the top, the dust collecting is sent to the recovery pipe 182 through the discharge port (14).

Then, when the dust (D) and the dust mass of the heavy specific gravity is collected in the lower portion of the seal tank 10, the motor 22a of the dust removal means 20 of the present invention is driven to the screw blade (22d) is driven By the dust (D) is discharged to the reservoir 26 through the outlet 24a of the screw tube 24, the moisture contained in the dust is drained through the fine holes formed in the lower side of the screw tube 24, This drained dust collector is sent to the settling tank 180, although not shown in the figure.

In addition, the washing water is sprayed through the washing water nozzle 28 at regular intervals to wash the screw blades 22d evenly, and the gas collected in the dust is discharged through the ventilation pipe 29.

Next, looking at the slurry tank 30 of the present invention, when the dust is accumulated in the lower portion of the slurry tank 30 by the operation described above, the screw blade 42d is operated to discharge the dust (D) to the reservoir 46, Washing water is sprayed through the washing water nozzle 48 at a predetermined time to wash the screw blades 42d.

Thus, according to the seal tank and slurry tank of the exhaust gas clean line to prevent the accumulation of dust, the dust collected in the cleanliness agitator to clean the flue gas generated during the operation in the steelmaking process of the steel mill is collected as the dust collector. The dust accumulated in the seal tank is quickly removed and discharged to the outside even if it is introduced into the seal tank, thereby solving problems such as poor purification of dust generated by the blockage of the seal tank.

In addition, the dust accumulated in the seal tank is prevented from accumulating in the dust collecting recovery line, and the pump malfunction is prevented in advance.

In addition, the dust in the slurry tank on the secondary dust collection side where secondary dust collection is collected is also smoothly removed and discharged to the outside, so that the dust collection is reversed to prevent explosion with molten steel discharged from the converter, and the dust collection and dust are leaked by the line. While preventing pollution of the environment and surrounding equipment, it is possible to provide various excellent effects such as blocking costs incurred by water saving and preventing accidents of workers.

While the present invention has been shown and described in connection with specific embodiments so far, it is understood in the art that the present invention may be variously modified and changed without departing from the spirit or the scope of the present invention provided by the following claims. Those of ordinary skill will want to know easily.

Claims (3)

In the exhaust gas clean line, it is installed at the side of the separator 130 and the secondary dust collecting unit 140, and the seal tank and the slurry tank 10 in which dust and secondary dust are collected, including dust collected by the separator 130; 30), Motor-driven screws 22 and 42; Screw tubes (24) (44) that are installed inclined therein and are connected to the respective tank bodies (12) (32); And Dust storage tanks 26 and 46 connected to the upper outlets of the screw pipes 24 and 44 to store the discharge dust D; Dust tank and slurry tank of the exhaust gas clean line to prevent dust accumulation, characterized in that it comprises a dust removal means 20, 40 having a The washing water nozzles 28 and 48 of claim 1, which are installed in the screw pipes 24 and 44 of the dust removing means 20 and 40 to enable the washing of the screws 22 and 42. Seal tank and slurry tank of the exhaust gas clean line to prevent the accumulation of dust, characterized in that further provided The seal tank according to claim 1, wherein the seal tank side screw pipe (24) is connected to a ventilation pipe (29) having a fan (29a) to discharge harmful gas. And slurry tanks