KR20110074152A - Apparatus for controlling electrostatic precipitator - Google Patents

Abstract

PURPOSE: A control device of a sintering precipitator is provided to enhance the productivity of sintered ore and prevent environmental contamination since the clogging of the lower hopper of a sintered precipitator is previously detected and accordingly a suitable measure is possible. CONSTITUTION: A control device of a sintering precipitator comprises a reference-temperature setting unit(100), a comparison/calculation unit(200) and a vibrator control unit(300). The reference-temperature setting unit compares a reference temperature(a) set by an operator with the temperature(b) of the dust collecting chamber in a sintering precipitator(10). The reference-temperature setting unit outputs a signal value(c) if the temperature of the dust collecting chamber is equal to or higher than the reference temperature. When the output signal value is received, the comparison/calculation unit adds/subtracts the temperature(d) lf the lower hopper of the sintering precipitator to compare it with deviation(w) set by the operator.

Description

Sintered Dust Collector Controller {APPARATUS FOR CONTROLLING ELECTROSTATIC PRECIPITATOR}

The present invention relates to a sintered dust collector control device, and more particularly, to a sintered dust collector control device capable of preventing clogging of the lower hopper of the sintered dust collector installed in the sintering plant.

In the sintered ore manufacturing process, the sintering which is charged downward on the blended raw material and the upper light charged on the sintered trolley is performed by suction force acting on the lower part of the sintered trolley by the main air blower.

On the other hand, in the process of sintering in the downward direction by the suction force of the main air blower is mixed with the suction air of the high temperature dust is sucked in the air in front of the main blower 20 in order to prevent the release of such dust in the air sintering dust collector ( 10) (see FIG. 1, see FIG. 1 below).

Therefore, dust is collected in the sinter dust collector 10 and then removed before being released into the atmosphere. The dust flowing into the dust chamber 11 of the sinter dust collector 10 is applied to the high voltage applied by the charge transformer 15. Collected by the discharge electrode to form an electric field, the collected dust falls to the lower hopper 12 provided in the lower part of the dust collecting chamber 11 by vibrating shock by the thruster (16) and accumulate the chain conveyor 14 It is transferred to the double damper 13 through the upper damper (13a) and the lower damper (13b) of the double damper 13 in order to be removed to the dust hopper (not shown).

However, when the lower hopper 12 is clogged due to a sudden increase in dust or infiltration of moisture introduced into the sintering dust collector 10, dust is accumulated up to the dust chamber 11 so that the inside of the dust chamber 11 is kept at a low voltage. Time is maintained. In this case, the charged transformer 15 is automatically tripped, and at this time, a large amount of dust is released into the atmosphere, thereby causing environmental pollution. In addition, since the operation of the sintering plant had to be stopped for a certain time in order to maintain the blocked lower hopper 12, there was a problem in that the productivity of the sintered ore decreased.

The present invention has been proposed to solve the problems described above, to provide a sintered dust collector control device to prevent the environmental pollution and improve the productivity of the sintered ore by detecting the hopper clogging of the lower hopper of the sintered dust collector in advance to take necessary measures. The purpose.

The sintered dust collector control apparatus according to the present invention for achieving the above object, and compares the reference temperature set by the driver with the dust chamber temperature of the sintered dust collector and outputs a signal value when the dust chamber temperature is equal to or higher than the reference temperature When a reference temperature setting unit and an output signal value of the reference temperature setting unit are received, the signal value is added to or subtracted from the lower hopper temperature of the sintering dust collector, and compared with the deviation value set by the driver, and the result is greater than the deviation value. And a vibrator controller for controlling an operation interval of the vibrators installed in the lower hopper of the sintered dust collector according to the received signal value when the output signal value of the comparison operator is received. .

The sintering dust collector control apparatus includes a counter controller for counting the number of times the output signal value of the comparison operation unit is received and outputting the signal value as a signal value, and a first ratio for calculating the signal value after calculating the output signal value of the counter control unit. And a damper control unit for controlling the operation interval of the damper of the sintered dust collector using the output signal value of the first proportioner.

The apparatus for controlling sintering dust collector is configured to calculate an operating speed of the chain conveyor of the sintering dust collector using the second proportioner which calculates a signal value after calculating the output signal value of the counter controller and outputs the signal value. It is preferable to further include a chain conveyor control unit for controlling.

In the first proportioner, an operation is performed to output a signal value linearly inversely proportional to the output signal value of the counter controller.

In the second proportioner, an operation is performed to output a signal value linearly proportional to an output signal value of the counter controller.

According to the sintered dust collector control apparatus as described above, the clogging of the lower hopper of the sintered dust collector is detected in advance, and the necessary measures are taken accordingly, whereby environmental pollution can be prevented, and the productivity of the sintered ore can be improved.

Hereinafter, a sintered dust collector control apparatus according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3, with reference to FIG. 1.

First, referring to the configuration of the sintered dust collector 10, the dust collecting chamber 11 of the sintered dust collector 10 is provided with a dust collecting chamber thermometer 11a for measuring the temperature of the dust collecting chamber 11, the lower hopper 12 A plurality of lower hopper thermometers 12a and lower hoppers 12 arranged at height intervals are provided with a vibrator 12b for applying a vibration to smoothly discharge dust accumulated in the lower hopper 12. Here, when dust is not accumulated in the lower hopper 12, the same temperature is measured by the plurality of lower hopper thermometers 12a disposed at the predetermined height intervals regardless of the height interval, but the lower hopper 12 When dust of a certain height is accumulated in the lower hopper thermometer (12a) buried in the dust measures a lower temperature value than the lower hopper thermometer (12a) not buried in the dust. This is because the lower hopper thermometer 12a is less affected by the high temperature intake air passing through the dust collecting chamber 11 when the dust is buried in the dust.

In addition, a lower portion of the lower hopper 12 is provided with a chain conveyor 14 for transporting dust discharged from the lower hopper 12, the chain conveyor 14 is driven by a drive motor 14a.

In addition, a double damper 13 is installed below the drive motor 14a to transfer the dust transferred from the chain conveyor 14 to a dust hopper (not shown), and the double damper 13 is an upper damper ( 13a) and the lower damper 13b.

In the sintering dust collector control apparatus according to the embodiment of the present invention, when dust is accumulated in the lower hopper 12 and clogging occurs, the temperature of the lower hopper thermometer 12a installed at each height in the lower hopper 12 is changed in advance. It is to detect and thereby block the operation of the vibrator (12b) and the double damper (13) and the operating speed of the chain conveyor 14 to eliminate clogging of the lower hopper 12, the reference temperature setting unit ( 100, a comparison operation unit 200, and a vibrator control unit 300.

The reference temperature setting unit 100 compares the reference temperature (a) set by the driver through the control panel (P) with the dust chamber temperature (b) of the sintering dust collector 10, the dust chamber temperature (b) is If it is equal to or higher than the reference temperature a, the signal value c is output. Here, the signal value (c) is the dust collecting chamber temperature (b), and the output of the signal value (c) when the dust collecting chamber temperature (b) is equal to or higher than the reference temperature (a) is the sintering dust collector (10). Does not output the signal value c until it reaches about 130 ° C., which is the dust collection chamber temperature b at the time of initial operation and is normally operated, and then outputs the signal value c thereafter. Therefore, the reference temperature (a) is usually determined around 130 ° C, and the dust collecting chamber temperature (b), which is the signal value (c), is also equal to or slightly higher than 130 ° C.

When the output signal value c of the reference temperature setting unit 100 is received, the comparison operation unit 200 adds or subtracts the signal value c from the lower hopper temperature d of the sintering dust collector 10 to the driver. Compared with the deviation value w set through the control panel P, and outputs a signal value e when the result is larger than the deviation value w. At this time, the comparison operation unit 200 outputs a signal value (v) to the alarm 900 so that the alarm sounds to inform the operator that the dust accumulated in the lower hopper 12 is blocked.

On the other hand, the lower hopper temperature (d) is a temperature sequentially measured from the lower hopper thermometer 12a located at the bottom of the plurality of lower hopper thermometer 12a disposed at a predetermined height interval in the lower hopper 12. Therefore, when dust accumulates in the lower hopper 12 and the lower hopper thermometer 12a located at the bottom is first buried in the dust, the lower hopper thermometer 12a measures a temperature lower than the dust collecting chamber temperature b. In this case, the difference between the signal value (c), which is the lower hopper temperature (d) and the dust collecting chamber temperature (b), is equal to or greater than the deviation value (w). In this case, the comparison operation unit 200 outputs the signal value (e). do.

Subsequently, when dust is accumulated in the lower hopper 12, another lower hopper thermometer 12a is buried in the dust, and the lower hopper temperature d measured from the lower hopper thermometer 12a is also the dust collecting chamber temperature b. It becomes lower and the comparison operation unit 200 outputs a signal value (e).

Therefore, as dust accumulates in the lower hopper 12, the number of times of outputting the signal value e output from the comparison operation unit 200 increases. The number of outputs directly affects the number of counters in the counter control unit 400 to be described later. For example, when the number of outputs of the signal value e output from the comparison operation unit 200 is three times, the number of counters in the counter control unit 400 is equally three times.

The vibrator controller 300 is a vibrator 12b installed in the lower hopper 12 of the sintered dust collector 10 according to the received signal value e when the output signal value e of the comparison operation unit 200 is received. To control the working interval.

Here, the output signal value (e) of the comparison operation unit 200 includes a difference value between the dust collecting chamber temperature (b) and the lower hopper temperature (d), and the vibrator control unit 300 includes the signal value (e). ), The greater the difference value, the shorter the idle time is controlled by controlling the vibrator 12b to shorten the operation interval of the vibrator 12b. By the control operation by the vibrator control unit 300, the dust accumulated in the lower hopper 12 can be quickly discharged.

On the other hand, the sintered dust collector control apparatus according to an embodiment of the present invention may further include a counter controller 400, the first proportioner 500 and the damper controller 600.

The counter control unit 400 counts the number of times the output signal value e of the comparison operation unit 200 is received and outputs it as a signal value g, and the first ratio 500 is the counter control unit 200. The signal value h is output after the calculation using the output signal value of g) and the damper control unit 600 uses the output signal value h of the first proportioner 500. The operation interval of the damper 13 of 10 is controlled.

Here, the signal value (g) is the number of counters by the counter controller 400, and the first proportioner 500 is the output signal value (g) of the counter controller 200, as shown in FIG. An operation for outputting a pause time that is a signal value h that is linearly inversely proportional to the number of in counters is performed.

The damper controller 600 sequentially outputs a signal value i corresponding to the idle time, which is the signal value h, to sequentially operate the upper damper 13a and the lower damper 13b of the double damper 13, respectively. However, as the number of counters in the counter control unit 200 increases, the operation interval is reduced by controlling to have a shorter idle time. By the control operation by the damper controller 600, the dust transferred from the chain conveyor 14 can be quickly transferred to the dust hopper.

On the other hand, the sintered dust collector control apparatus according to an embodiment of the present invention may further include a second proportioner 700 and the chain conveyor control unit 800.

The second proportioner 700 calculates the signal value j after calculating using the output signal value g of the counter control unit 200, and outputs the signal value j. The output signal value j of 700 controls the operating speed of the chain conveyor 14 of the sintered dust collector 10.

Here, the signal value (g) is the number of counters by the counter controller 400, and the second proportioner 700 is an output signal value (g) of the counter controller 200, as shown in FIG. An operation for outputting the speed of the drive motor 14a, which is a signal value j linearly proportional to the number of in counters, is performed.

The chain conveyor control unit 800 controls the speed of the drive motor 14a of the chain conveyor 14 by outputting a signal value k corresponding to the speed of the drive motor 14a which is the signal value g. As the number of counters in the counter control unit 200 increases, the driving speed of the chain conveyor 14 is increased by controlling the driving motor 14a to be driven at a higher speed. By the control operation by the chain conveyor control unit 800 it is possible to quickly transfer the dust by the chain conveyor (14).

According to the sinter dust collector control device as described above, clogging of the lower hopper of the sinter dust collector is detected in advance, and the necessary action is applied to the operation interval of the vibrator 12b and the double damper 13 and the operation speed of the chain conveyor 14. The control is made so that clogging of the lower hopper 12 can be eliminated, thereby preventing environmental pollution, and improving the productivity of the sintered ore.

While specific embodiments of the present invention have been illustrated and described, those of ordinary skill in the art may vary the present invention without departing from the spirit of the invention as set forth in the following claims. It should be understood that modifications and changes can be made.

1 is a view showing a sinter dust collector installed in a sintering plant.

Figure 2 schematically shows the configuration of the sintered dust collector control apparatus and the sintered dust collector according to an embodiment of the present invention.

3 is a view showing the operating characteristics of the first proportioner applied to the sintered dust collector control apparatus according to an embodiment of the present invention.

3 is a view showing the operating characteristics of the second proportioner applied to the sintered dust collector control apparatus according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: sintered dust collector 11: dust collector

12: lower hopper 13: damper

14: chain conveyor 100: reference temperature setting unit

200: comparison operation unit 300: vibrator control unit

400: counter control unit 500: first proportioner

600: damper control unit 700: second proportioner

800: chain conveyor control unit 900: alarm

Claims (5)

The reference value (a) set by the driver is compared with the dust collecting chamber temperature (b) of the sintering dust collector 10, and when the dust collecting chamber temperature (b) is equal to or higher than the reference temperature (a), a signal value (c) is obtained. A reference temperature setting unit 100 for outputting; When the output signal value c of the reference temperature setting unit 100 is received, the signal value c is added to or subtracted from the lower hopper temperature d of the sintering dust collector 10 to set a deviation value w set by the driver. A comparison operation unit 200 which compares with and outputs a signal value e when the result is greater than the deviation value w; And Vibrator for controlling the operation interval of the vibrator (12b) installed in the lower hopper 12 of the sintered dust collector 10 according to the received signal value (e) when the output signal value (e) of the comparison operation unit 200 is received Control unit 300; Sintered dust collector control device comprising a. The method according to claim 1, The sintering dust collector control apparatus includes a counter control unit 400 that counts the number of times of the output signal value e of the comparison operation unit 200 and outputs the signal as the signal value g, and the output signal of the counter control unit 200. Sintering dust collector 10 by using a first proportioner 500 that calculates a value g and then outputs a signal value h, and an output signal value h of the first proportioner 500. Sintered dust collector control device further comprises a damper control unit 600 for controlling the operation interval of the damper (13). The method according to claim 2, The sintering dust collector control apparatus includes a second proportioner 700 which calculates the signal value j after calculating using the output signal value g of the counter controller 200, and the second proportioner 700. Sintered dust collector control device further comprises a chain conveyor control unit (800) for controlling the operating speed of the chain conveyor (14) of the sintered dust collector (10) using the output signal value (j) of the. The method according to claim 2, The first proportioner (500) is a sintered dust collector control device characterized in that the calculation is performed to output a signal value (h) which is inversely inversely proportional to the output signal value (g) of the counter control unit (200). The method of claim 3, The second proportioner (700) is a sintered dust collector control device characterized in that the calculation is performed to output a signal value (h) linearly proportional to the output signal value (g) of the counter control unit (200).

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