KR102146435B1 - Rapping control method for electrostatic precipitator - Google Patents

Abstract

The electric dust collector of the present invention includes a dust collecting chamber including a discharge electrode, a dust collecting plate, a thrust part, and a DC charging part, a dust collecting part including a plurality of dust collecting chambers, and a control unit. The dust collection room is a space where dust contained in the exhaust gas is collected, a discharge electrode that generates a corona discharge to charge dust, a dust collection plate that collects charged dust, a dust collector that separates dust by pressing the dust collection plate, and a high voltage is applied to the discharge electrode and the dust collection plate. It is configured to include a DC charging unit to be applied, and the dust collecting unit includes a plurality of dust collecting chambers, and the control unit includes a function of controlling the charge of the DC charging unit of each dust collecting chamber and a function of controlling the thrust of the chase unit. The dust collection plate is sequentially pressed from the adjacent dust collection room to the dust collection room adjacent to the outlet. At this time, the DC charging part of the dust collecting room where the thrusting is performed stops charging to increase the efficiency of thrust, and the DC charging part of the dust collecting room closer to the outlet than the dust collecting room where thrusting is performed increases the amount of charge to collect re-dispersed dust. do.

Description

Electric dust collector control method {RAPPING CONTROL METHOD FOR ELECTROSTATIC PRECIPITATOR}

The present invention relates to a method for controlling an electric precipitator, and more particularly, to a method for controlling a charge of a DC charging unit during chase by a method for controlling an electric precipitator.

An electrostatic precipitator is a device that charges dust particles by corona discharge using static power and moves them to the surface of a dust collecting plate by an electric field and collects them.In addition to heavy fuel combustion boilers, power plants, cement kilns, glass melting furnaces, steelmaking furnaces It is mainly used in plants that discharge a large amount of dust, such as incinerators.

The electric dust collector removes the dust collected on the surface of the dust collection plate by the action of the electric field by hitting the dust collection plate by using a thrusting device and dropping the dust downward.

In recent years, since regulations on dust emission concentration and fine dust have been strengthened, electric precipitators are operated at maximum power to maintain low emission concentrations, thus consuming a lot of power. In addition, when the dust collection plate is hit to discharge the dust collected on the dust collection plate to the outside, the dust is re-dispersed, so it is not efficient to simply hit the dust collection plate at a regular or random cycle.

An object of the present invention is to provide a method for solving the problem of increasing the concentration of dust in the filtered gas temporarily discharged due to dust re-dispersed when the dust collection plate is crushed in order to separate the dust collected on the dust collection plate in the electric dust collector.

An electric dust collector according to an aspect includes a dust collecting chamber including a discharge electrode, a dust collecting plate, a thrust part, and a DC charging part, a dust collecting part including a plurality of dust collecting chambers, and a controller.

The dust collection chamber is a space in which dust contained in exhaust gas is collected, and includes a discharge electrode, a dust collecting plate, a thrust part, and a DC charging part.

The discharge electrode generates a corona discharge inside the dust collection chamber to charge dust, and the charged dust moves to the dust collection plate by an electric field and is collected on the dust collection plate.

The dust collecting unit is a device that punches the dust collecting plate to separate the dust attached to the dust collecting plate.

The DC charging unit is a power supply device including a transformer and a rectifier that applies high voltage to the discharge electrode and the dust collector.

The dust collection unit includes a plurality of dust collection chambers, and filters dust in the exhaust gas introduced through an inlet and discharges it through an outlet.

The control unit includes a function of controlling the charge of the DC charging unit of each dust collecting chamber and a function of controlling the chase of the chase unit.

The electric dust collector according to an aspect sequentially hits the dust collection plate from the dust collection room adjacent to the inlet to the dust collection room adjacent to the outlet. At this time, the DC charging part of the dust collecting room where the thrusting is performed stops charging to increase the efficiency of thrust, and the DC charging part of the dust collecting room closer to the outlet than the dust collecting room where thrusting is performed increases the amount of charge to collect re-dispersed dust. do.

Another aspect of the electrostatic precipitator selects a dust collection room to perform thrust based on the accumulated charge amount of each DC charging section, and the DC charging section of the dust collection room to perform thrust stops charging, and a dust collection room to perform thrust. The DC charging part of the dust collecting room closer to the outlet can collect re-dispersed dust by increasing the amount of charge.

Another aspect of the electric precipitator may reduce the amount of charge and perform the thrust instead of stopping the charging of the DC charging part of the dust collecting chamber to perform thrust.

According to the proposed invention, in order to separate the dust collected on the dust collection plate in the electric dust collector, the dust re-dispersed when the dust collection plate is crushed is efficiently re-collected, thereby solving the problem of increasing the dust concentration in the filtered gas temporarily discharged.

1 is a block diagram conceptually showing an electric dust collector including four dust collection chambers according to an exemplary embodiment.
2 is a flowchart of sequentially performing POR in an electric precipitator including four dust collection chambers according to an exemplary embodiment.
3 is a flowchart of performing POR based on an accumulated charge amount in an electric precipitator including four dust collection chambers according to another embodiment.
FIG. 4 is a flowchart illustrating a dust collecting chamber adjacent to an outlet in an electric dust collector including four dust collecting chambers according to another exemplary embodiment.

The foregoing and additional aspects are embodied through embodiments described with reference to the accompanying drawings. It is understood that the constituent elements of each embodiment can be variously combined within the embodiment unless otherwise stated or contradictory to each other. Each block in the block diagram may represent a physical part in some cases, but may be a part of a function of one physical part or a logical representation of a function across a plurality of physical parts in another case. Sometimes the entity of a block or part of it can be a set of program instructions. All or part of these blocks may be implemented by hardware, software, or a combination thereof.

1 is a block diagram conceptually showing an electric dust collector including four dust collection chambers according to an exemplary embodiment. The electric precipitator 10 according to an embodiment includes a dust collecting chamber including a DC charging unit 300, a thrust unit 400, a discharge electrode 500, and a dust collecting plate 600, and a dust collecting unit 100 including a plurality of dust collecting chambers. ), and a control unit 200.

Flue gas is a gas that is subject to dust collection and is a gas containing dust. This is the gas before being collected through the electric dust collector 10.

The dust collection room is a space where dust contained in exhaust gas is collected. To increase dust collection efficiency, the dust collection room is divided into unit dust collection rooms. For each dust collecting room, a DC charging unit 300, a chute unit 400, a discharge electrode 500, and a dust collecting plate 600 are configured. It is possible to set differently the amount of electric charge charged in each dust collecting room and the thrust cycle of the dust collecting plate 600.

When a high voltage is applied from the DC charging unit 300 that supplies high voltage power, the discharge electrode 500 generates negative ions through ionization due to corona discharge in the dust collection chamber, and the generated negative ions collide with dust particles, resulting in It charges dust with negative ions. The dust particles charged to the negative electrode move to the dust collecting plate 600 by an electric field action.

The dust collecting plate 600 collects dust that is positively charged and negatively charged in the dust collecting chamber. According to one aspect, the dust collecting plate 600 may be configured in a plate shape.

The dust collecting part 400 is a device that separates dust by adding dust attached to the surface of the dust collecting plate 600. That is, it is a device that applies a mechanical force to the dust collecting plate 600 to remove and lower the dust attached to the surface of the dust collecting plate 600.

The DC charging unit 300 is a power supply device, including a transformer and a rectifier, and applies a high voltage between the discharge electrode 500 and the dust collector 600. According to an embodiment, the DC charging unit 300 supplies DC power.

The dust collecting unit 100 includes a plurality of dust collecting chambers divided into unit dust collecting chambers. The dust collecting unit 100 performs electric dust collection to collect dust in the exhaust gas introduced through an inlet 110 and discharges the filtered gas through an outlet 120.

The controller 200 is a device that controls the operation of the electric precipitator 10 and controls the charging of the DC charging unit 300 according to the amount of dust, and controls the chase duration time and the chase period of the chase unit 400. The control unit 200 controls the dust collecting plate 600 to be sequentially performed from the dust collecting chamber adjacent to the inlet 110 of the dust collecting unit 100 to the dust collecting chamber adjacent to the outlet 120. The control unit 200 stops charging of the DC charging unit 300 of the dust collecting room performing thrust and increases the amount of charge of the DC charging part 300 of the dust collecting room closer to the outlet 120 than the dust collecting chamber performing thrusting. To perform control. The control unit 200 stops charging of the DC charging unit 300 of the dust collecting room performing the chase and controls the dust collecting plate 600 to chase in order to increase the efficiency of the chase. At this time, there is a problem that the dust collected in the dust collecting plate 600 is re-dispersed, so the control unit 200 re-disperses by increasing the amount of charge in the dust collection room, which is closer to the outlet 120 than the dust collection room in which the dust collection is performed. It is controlled so that it can collect the dust.

Referring to the electric dust collector 10 having four dust collection chambers illustrated in FIG. 1, the control unit 200 sequentially performs the thrusting from the first dust collection chamber 150 to the fourth dust collection chamber 180. I can. When hitting the first dust collecting chamber 150, the control unit 200 stops charging of the DC charging unit 300 of the first dust collecting chamber 150 and controls the chase unit 400 to hit the dust collecting plate 600. , The second dust collection chamber 160 to the fourth dust collection chamber 180, which are closer to the outlet 120 than the first dust collection chamber 150, control to increase the amount of charge of the DC charging unit 300 more than usual. When sequentially hitting the second dust collecting chamber 160, the control unit 200 stops charging of the DC charging unit 300 of the second dust collecting chamber 160 and controls the chase unit 400 to control the dust collecting plate 600. In addition, control is performed to increase the amount of charge of the DC charging unit 300 of the third dust collecting chamber 170 and the fourth dust collecting chamber 180 closer to the outlet 120 than the second dust collecting chamber 160. In this manner, the electric dust collector 10 shown in FIG. 1 sequentially performs thrusting up to the fourth dust collection chamber 180.

The electric dust collector 10 shown in FIG. 1 includes four unit dust collection chambers, but this is for convenience of description and the number of unit dust collection chambers is not limited. Depending on the amount of dust to be treated, less than 4 unit dust collection chambers may be included, and 4 or more may be included.

The electric dust collector 10 according to another embodiment includes a dust collecting chamber including a DC charging unit 300, a chase unit 400, a discharge electrode 500, and a dust collecting plate 600, and a dust collecting unit including a plurality of dust collecting chambers ( 100) and a control unit 200.

The control unit 200 that controls the unit dust collection room to sequentially hit the dust collection room adjacent to the outlet 120 among the unit dust collection rooms, that is, the last dust collection room among the unit dust collection rooms that are sequentially blasted, performs a chase. Charging of the DC charging unit 300 of the unit dust collection chamber to be performed is not stopped. This is because, unlike other unit dust collection rooms, there is no unit dust collection room to collect re-dispersed dust on the path through which exhaust gas is filtered and discharged. Although stopping the charging of the DC charging unit 300 and purging the dust collecting plate 600 increases the efficiency of the dust collecting plate, the outlet 120 is used to prevent the discharge of gas having a high concentration of dust due to the re-dispersed dust. In the case of the nearest unit dust collection room, the dust collection plate 600 may be beaten without stopping the charging of the DC charging unit 300.

The electric dust collector 10 according to another embodiment includes a dust collecting chamber including a DC charging unit 300, a chase unit 400, a discharge electrode 500, and a dust collecting plate 600, and a dust collecting unit including a plurality of dust collecting chambers ( 100) and a control unit 200.

The control unit 200 of the electric precipitator 10 according to another embodiment sequentially selects a unit dust collection room to be added based on the cumulative charge amount of the DC charging unit 300 proportional to the dust collection amount in addition to the control control for the unit dust collection room. You can control to choose and hit. The controller 200 may select and control a dust collection room in which the accumulated charge amount of the DC charging unit 300 of the unit dust collection room exceeds the reference accumulated charge amount of each preset dust collection room. The standard accumulated charge amount of each dust collection room may be set differently according to the dust collection room. At this time, the control unit 200 stops charging of the DC charging unit 300 of the unit dust collection room selected to perform the thrust, and the DC charging unit 300 of the dust collecting room closer to the outlet 120 than the dust collecting room performing thrust. Control to increase the amount of charge can be performed.

The control unit 200 may increase dust collection efficiency by adding a large amount of dust accumulated in the dust collecting plate 600 to a unit dust collecting room in which the dust collection efficiency is low, in addition to sequential thrusting of the unit dust collection chamber.

The electric dust collector 10 according to another embodiment includes a dust collecting chamber including a DC charging unit 300, a chase unit 400, a discharge electrode 500, and a dust collecting plate 600, and a dust collecting unit including a plurality of dust collecting chambers ( 100) and a control unit 200.

In addition to controlling the unit dust collection chambers to be sequentially beaten, the controller 200 may control to select and beat the unit dust collection chambers to be beaten based on the accumulated charge amount of the DC charging unit 300 proportional to the dust collection amount. . In this case, when the unit dust collection room to be added is a dust collection room adjacent to the outlet 120 among the unit dust collection rooms, charging of the DC charging unit 300 of the unit dust collection room is not stopped. This is because, unlike other unit dust collection rooms, there is no unit dust collection room to collect re-dispersed dust on the path through which exhaust gas is filtered and discharged. Although stopping the charging of the DC charging unit 300 and purging the dust collecting plate 600 increases the efficiency of the dust collecting plate, the outlet 120 is used to prevent the discharge of gas having a high concentration of dust due to the re-dispersed dust. In the case of the nearest unit dust collection room, the dust collection plate 600 may be beaten without stopping the charging of the DC charging unit 300.

The electric dust collector 10 according to another embodiment includes a dust collecting chamber including a DC charging unit 300, a chase unit 400, a discharge electrode 500, and a dust collecting plate 600, and a dust collecting unit including a plurality of dust collecting chambers ( 100) and a control unit 200.

The control unit 200 of the electric precipitator 10 according to another embodiment is a unit to be added when the unit dust collection chamber is sequentially chased or by selecting a unit dust collection chamber based on the accumulated charge amount of the DC charging unit 300 Instead of stopping the amount of charge of the DC charging unit 300 of the dust collecting chamber, it is possible to control the charge by reducing the amount of charge.

However, according to the aspect of the invention, if the unit dust collection room to be added is a unit dust collection room adjacent to the outlet 120, the control unit 200 may control the DC charging unit 300 to control the charge without reducing the amount of charge. I can. This is because, unlike other unit dust collection rooms, there is no unit dust collection room to collect re-dispersed dust on the path through which exhaust gas is filtered and discharged.

2 is a flowchart of sequentially performing POR in an electric precipitator including four dust collection chambers according to an exemplary embodiment. A method of controlling the electric precipitator 10 according to an aspect includes a charge control step in a dust collecting chamber to be chase, a chase step, and a charge amount increase step.

The electric precipitator 10 according to an aspect includes a discharge electrode 500, a dust collecting plate 600, a thrust part 400, and a DC charging unit 300 for applying a high voltage between the discharge electrode 500 and the dust collecting plate 600. A dust collection unit 100 for filtering exhaust gas introduced through the inlet 110 including a dust collection chamber and a plurality of dust collection chambers to be discharged through the outlet 120, and charging and additional charging of the DC charging unit 300 It includes a control unit 200 for controlling the chute of the unit 400.

The charging control step of the dust collecting room to be crushed in the method of controlling the electric precipitator 10 according to an aspect is a step in which the control unit 200 controls the DC charging unit 300 of the dust collecting room to perform chase to stop charging. When a high voltage is applied to the dust collecting plate 600 when the dust collecting plate 600 is crushed, the efficiency of separating the dust from the dust collecting plate 600 is lowered. Accordingly, in order to increase the efficiency of thrust and separate the dust from the dust collecting plate 600, the DC charging unit 300 is controlled to stop DC charging.

The chase step is a step in which the control unit 200 controls and chases the chase unit 400 of the dust collection room to perform the chase. The dust collecting plate 600 is pressed to separate the dust attached to the dust collecting plate 600 and dispensing it to the outside of the dust collecting room. At this time, dust attached to the dust collecting plate 600 may be re-dispersed.

In the step of increasing the amount of charge, the control unit 200 increases the amount of charge by controlling the DC charging unit 300 of the dust collection room closer to the outlet 120 than the dust collection room in which the thrust is to be performed. In order to separate the dust collected in the dust collection plate 600, the dust collection plate 600 is re-scattered and the concentration of the dust increases. Therefore, the outlet ( 120), that is, the control unit 200 to collect the dust re-dispersed from the dust collection room behind the dust collection room that performs the blasting on the exhaust path of the exhaust gas with higher efficiency. Control to increase the amount of charge of the charging unit 300 is performed.

The control unit 200 sequentially controls and controls the dust collection unit 400 from the unit dust collection room adjacent to the inlet 110 to the unit dust collection room adjacent to the outlet 120 to control the dust collection room. At this time, when the unit dust collecting room adjacent to the outlet 120 to be added at the end is added, charging of the DC charging unit 300 of the unit dust collection room is not stopped. This is because, unlike other unit dust collection rooms, there is no unit dust collection room to collect re-dispersed dust on the path through which exhaust gas is filtered and discharged.

Referring to FIG. 2, the procedure of FIG. 2 is a procedure for an electric precipitator 10 including four unit dust collecting chambers, like the electric precipitator 10 shown in FIG. 1. The electric dust collector 10 is for convenience of description, and the number of unit dust collection rooms is not limited to four.

The electric dust collector 10 sequentially performs thrusting from the first dust collecting chamber 150 to the fourth dust collecting chamber 180. First, when the first dust collecting chamber 150 is added, the controller 200 controls the DC charging unit 300-1 of the first dust collecting chamber 150 to stop charging (S1000). This is because when a high voltage is applied to the dust collecting plate 600-1 when the dust collecting plate 600-1 of the first dust collecting chamber 150 is hit, the efficiency of the thrust is lowered. To solve this problem, the DC charging unit 300- Control 1) to stop charging. The control unit 200 stops charging of the DC charging unit 300-1 of the first dust collecting chamber 150 and hits the dust collecting plate 600-1 of the first dust collecting chamber 150 (POR, Power-off Rapping. , S1020). At this time, in order to efficiently collect the dust re-dispersed in the first dust collection chamber 150, the controller 200 controls the DC lower of the second dust collection chamber 160, the third dust collection chamber 170, and the fourth dust collection chamber 180. All (300-2, 300-3, 300-4) is controlled to increase the amount of charge (S1040). The control unit 200 stops the thrusting of the dust collecting plate 600-1 of the first dust collecting chamber 150 and restarts charging of the DC charging unit 300-1 of the first dust collecting chamber 150 (S1060 ). In addition, the DC charging units 300-2 and 300-3 of the second dust collecting chamber 160, the third dust collecting chamber 170, and the fourth dust collecting chamber 180, which have been increased to collect re-scattered dust due to the chute. , 300-4) also returns to the normal state (S1080). The control unit 200 that has performed the thrust with respect to the first dust collecting chamber 150 sequentially performs the thrust with the second dust collecting chamber 160. When the second dust collecting chamber 160 is crushed, the controller 200 controls the DC charging unit 300-2 of the second dust collecting chamber 160 to stop charging (S1100). This is because when a high voltage is applied to the dust collector plate 600-2 when hitting the dust collector plate 600-2 of the second dust collection chamber 160, the efficiency of the thrust decreases. To solve this problem, the DC charging unit 300- Control 2) to stop charging. The control unit 200 stops charging of the DC charging unit 300-2 of the second dust collecting chamber 160 and hits the dust collecting plate 600-2 of the second dust collecting chamber 160 (POR, Power-off Rapping. , S1120). At this time, in order to efficiently collect the dust re-dispersed in the second dust collecting chamber 160, the controller 200 is configured to use the DC charging units 300-3 and 300- of the third dust collecting chamber 170 and the fourth dust collecting chamber 180. Control 4) to increase the amount of charge (S1140). The control unit 200 stops thrusting of the dust collecting plate 600-2 of the second dust collecting chamber 160 and restarts charging of the DC charging unit 300-2 of the second dust collecting chamber 160 (S1160). In addition, the amount of charge of the DC charging units 300-3 and 300-4 of the 3rd dust collection chamber 170 and the 4th dust collection chamber 180, which was increased to collect re-dispersed dust due to the thrust, also returns to normal. Make it (S1180). The control unit 200 that has performed the thrust with respect to the second dust collecting chamber 160 sequentially performs the thrust with the third dust collecting chamber 170. When the third dust collecting chamber 170 is crushed, the controller 200 controls the DC charging unit 300-3 of the third dust collecting chamber 170 to stop charging (S1200). This is because when a high voltage is applied to the dust collecting plate 600-3 when the dust collecting plate 600-3 of the third dust collecting chamber 170 is applied, the efficiency of the thrust decreases. To solve this problem, the DC charging unit 300- 3) to stop charging. The control unit 200 stops charging of the DC charging unit 300-3 of the third dust collecting chamber 170 and hits the dust collecting plate 600-3 of the third dust collecting chamber 170 (POR, Power-off Rapping). , S1220). At this time, in order to efficiently collect the dust re-dispersed in the third dust collecting chamber 170, the controller 200 controls the DC charging unit 300-4 of the fourth dust collecting chamber 180 to increase the amount of charge (S1240). ). The control unit 200 stops the thrusting of the dust collecting plate 600-3 of the third dust collecting chamber 170 and restarts charging of the DC charging unit 300-3 of the third dust collecting chamber 170 (S1260). In addition, the amount of charge of the DC charging unit 300-4 of the fourth dust collecting chamber 180, which has been increased in order to collect re-scattered dust due to the chute, is also restored to the normal state (S1280). The control unit 200 that has performed the thrust with respect to the third dust collecting chamber 170 sequentially performs the thrust with the fourth dust collecting chamber 180. When the fourth dust collecting chamber 180 is crushed, the controller 200 controls the DC charging unit 300-4 of the fourth dust collecting chamber 180 to control the dust collecting plate 600- of the fourth dust collecting chamber 180 without stopping charging. 4) is added (S1300).

3 is a flowchart of performing POR based on an accumulated charge amount in an electric precipitator including four dust collection chambers according to another embodiment. The control method of the electric precipitator 10 according to another aspect includes a charge control step in a dust collection room to be chase, a chase step, and an increase in the amount of charge, and a dust collection room to perform the chase before performing the charge control step in the dust collection room to be chase. It may further include the step of selecting.

The electric dust collector 10 according to another aspect includes a discharge electrode 500, a dust collecting plate 600, a thrust part 400, and a DC charging unit 300 for applying a high voltage between the discharge electrode 500 and the dust collecting plate 600. ), a dust collecting unit 100 for filtering exhaust gas introduced through the inlet 110 including a plurality of dust collecting chambers and discharging through the outlet 120, and charging of the DC charging unit 300 It includes a control unit 200 for controlling the chute by the chute unit 400.

According to another aspect, the control unit 200 of the control method of the electric dust collector 10 controls the DC charging unit 300 of the dust collection room to perform the purging to stop charging. You can select a dust collection room to perform.

In the step of selecting a dust collection room to perform the purging, the control unit 200 compares the accumulated charge amount of the DC charging unit 300 of each dust collection room with the reference accumulated charge amount of each dust collection room to select a dust collection room to perform the purging. This is the step.

In this aspect of the control method of the electric dust collector 10, in parallel with sequentially purging the unit dust collection chambers, pursuing is performed by selecting a unit dust collection chamber to perform purging based on the accumulated charge amount of the DC charging unit 300.

Referring to FIG. 3, the procedure of FIG. 3 is a procedure for the electric precipitator 10 including four unit dust collection chambers, like the electric precipitator 10 shown in FIG. 1, and the procedure shown in FIG. It can be done in parallel. The electric dust collector 10 is for convenience of description, and the number of unit dust collection rooms is not limited to four.

The controller 200 accumulates accumulated charge amount data of the DC charging unit 300 of each unit dust collection chamber from the first dust collection chamber 150 to the fourth dust collection chamber 180. In the example shown in FIG. 3, the control unit 200 is performing a thrust with respect to the second dust collecting chamber 160. First, the controller 200 collects accumulated charge amount data of the DC charging unit 300-2 of the second dust collecting chamber 160 (S2000). At this time, the control unit 200 also collects the accumulated charge amount data of the DC charging units 300-1, 300-3, and 300-4 of the other dust collection rooms as well. The controller 200 compares the collected accumulated charge amount of the DC charging unit 300-2 of the second dust collecting chamber 160 with a preset reference charge amount of the second dust collecting chamber 160 (S2020 ). As a result of the comparison, if the accumulated charge amount of the DC charging unit 300-2 of the second dust collecting chamber 160 is not greater than the reference charge amount of the second dust collecting chamber 160, the thrust is not performed, but the second dust collecting chamber 160 If it is greater than the reference charge amount of, the second dust collecting chamber 160 is selected as a unit dust collecting chamber to perform the thrust. When the second dust collecting chamber 160 is crushed, the controller 200 controls the DC charging unit 300-2 of the second dust collecting chamber 160 to stop charging (S2040). This is because when a high voltage is applied to the dust collector plate 600-2 when hitting the dust collector plate 600-2 of the second dust collection chamber 160, the efficiency of the thrust decreases. To solve this problem, the DC charging unit 300- Control 2) to stop charging. The control unit 200 stops charging of the DC charging unit 300-2 of the second dust collecting chamber 160 and hits the dust collecting plate 600-2 of the second dust collecting chamber 160 (POR, Power-off Rapping. , S2060). At this time, in order to efficiently collect the dust re-dispersed in the second dust collecting chamber 160, the controller 200 is configured to use the DC charging units 300-3 and 300- of the third dust collecting chamber 170 and the fourth dust collecting chamber 180. Control 4) to increase the amount of charge (S2080). The controller 200 stops thrusting of the dust collecting plate 600-2 of the second dust collecting chamber 160 and restarts charging of the DC charging unit 300-2 of the second dust collecting chamber 160 (S2100). In addition, the amount of charge of the DC charging units 300-3 and 300-4 of the 3rd dust collection chamber 170 and the 4th dust collection chamber 180, which was increased to collect re-dispersed dust due to the thrust, also returns to normal. Make it (S2120).

FIG. 4 is a flowchart illustrating a dust collecting chamber adjacent to an outlet in an electric dust collector including four dust collecting chambers according to another exemplary embodiment.

Referring to FIG. 4, the procedure of FIG. 4 is a procedure for an electric precipitator 10 including four unit dust collection chambers, such as the electric precipitator 10 shown in FIG. 1, and the procedure shown in FIG. It can be done in parallel. The electric dust collector 10 is for convenience of description, and the number of unit dust collection rooms is not limited to four.

The controller 200 accumulates accumulated charge amount data of the DC charging unit 300 of each unit dust collection chamber from the first dust collection chamber 150 to the fourth dust collection chamber 180. In the example shown in FIG. 4, the controller 200 is performing a thrust with respect to the fourth dust collecting chamber 180. The fourth dust collecting chamber 180 is a unit dust collecting chamber adjacent to the outlet 120. The controller 200 collects accumulated charge amount data of the DC charging unit 300-4 of the fourth dust collecting chamber 180 (S3000 ). At this time, the control unit 200 also collects the accumulated charge amount data of the DC charging units 300-1, 300-2, and 300-3 of the other dust collection rooms as well. The controller 200 compares the collected accumulated charge amount of the DC charging unit 300-4 of the fourth dust collecting chamber 180 with a preset reference charge amount of the fourth dust collecting chamber 180 (S3020). As a result of the comparison, if the accumulated charge amount of the DC charging unit 300-4 of the fourth dust collecting chamber 180 is not greater than the reference charge amount of the fourth dust collecting chamber 180, the thrust is not performed, but the fourth dust collecting chamber 180 If it is greater than the standard charge amount of, the fourth dust collecting chamber 180 is selected as a unit dust collecting chamber to perform the thrust. When adding the fourth dust collecting chamber 180 adjacent to the outlet 120, the control unit 200 controls the DC charging unit 300-4 of the fourth dust collecting chamber 160 to prevent charging from being stopped. The dust collecting plate 600-4 of (180) is beaten (S3040).

A method of controlling the electric precipitator 10 according to another aspect may include a charging control step in a dust collecting room to be crushed, a chase step, and a charge amount increasing step. In addition, before performing the charging control step of the dust collecting chamber to be chased, the step of selecting a dust collecting chamber to perform chasing may be further included.

The electric dust collector 10 according to another aspect includes a discharge electrode 500, a dust collecting plate 600, a thrust part 400, and a DC charging unit 300 for applying a high voltage between the discharge electrode 500 and the dust collecting plate 600. ), a dust collecting unit 100 for filtering exhaust gas introduced through the inlet 110 including a plurality of dust collecting chambers and discharging through the outlet 120, and charging of the DC charging unit 300 It includes a control unit 200 for controlling the chute by the chute unit 400.

In another aspect, the charging control step of the dust collecting room to be crushed in the control method of the electric precipitator 10 may be a step of reducing the electric charge amount of the DC charging unit 300 of the dust collecting room in which the control unit 200 performs chase. Instead of stopping the charge amount of the DC charging unit 300 of the dust collecting room to perform the thrust, the amount of charge can be reduced and the dust collecting plate 600 of the dust collecting chamber may be thrust (PRR, Power reduced Rapping).

In the above, the present invention has been described through embodiments with reference to the accompanying drawings, but the present invention is not limited thereto, and it should be interpreted to cover various modified examples that can be apparently derived from those skilled in the art. The claims are intended to cover these variations.

10: electric dust collector
100: dust collecting unit
110: inlet 120: outlet
150: first dust collection room 160: second dust collection room
170: 3rd dust collection room 180: 4th dust collection room
200: control unit
300: DC charging section
400: Chutabu
500: discharge electrode
600: dust collecting plate

Claims (8)

A discharge electrode that causes corona discharge to charge dust in the exhaust gas, a dust collection plate that collects charged dust, a dust collection unit that separates dust by collecting the dust attached to the dust collection plate, a transformer and a rectifier, and a high voltage between the discharge electrode and the dust collection plate A dust collection unit that has a plurality of unit dust collection chambers in which dust contained in exhaust gas is collected, including a DC charging unit that applies power, is installed in succession, and filters dust in the exhaust gas drawn through an inlet and discharges it through an outlet. ; And
A control unit controlling charging of each DC charging unit and controlling a chase duration time and a chase period of each chase unit;
Including,
Controller, but since the unit collecting chamber adjacent to the dust collection inlet to the unit collecting chamber adjacent to the outlet Tjuta the jipjinpan sequentially outlets than the unit collecting chamber to stop the charge of the DC to all of the unit collecting chamber for performing Tjuta and performs Tjuta An electric precipitator that increases the amount of charge in the DC charging part of the unit dust collection room close to.
The method of claim 1,
The control unit is an electric dust collector that does not stop the charging of the DC charging unit of the dust collection room that performs the chase when the dust collection plate in the dust collection room adjacent to the outlet is crushed.
The method of claim 1,
The control unit hits the dust collecting plate of the dust collecting room where the accumulated charge of the DC charging part of the dust collecting room is larger than the standard accumulated charge of each dust collecting room, but stops the charging of the DC charging part of the dust collecting room and performs the thrust. An electric dust collector that increases the amount of charge in the DC charging part of the dust collection room closer to the outlet than the dust collection room.
The method of claim 3,
The control unit is an electric dust collector that does not stop the charging of the DC charging unit of the dust collection room that performs the chase when the dust collection plate in the dust collection room adjacent to the outlet is crushed.
The method according to any one of claims 1 to 4,
The control unit is an electric dust collector that charges by reducing the amount of charge of the DC charging unit in the dust collecting chamber that performs the thrust.
A plurality of unit dust collection chambers including a discharge electrode, a dust collecting plate, and a thrust part, and a DC charging part for applying a high voltage between the discharge electrode and the dust collecting plate are installed in succession, and the exhaust gas introduced through the inlet is filtered to provide an outlet. In the electric dust collector control method comprising a dust collecting unit discharged through the, and a control unit for controlling the charge of the DC charging unit and the thrust of the chase unit,
A charge control step of a dust collection room to be chased by the control unit to stop charging by controlling a DC charging unit of the unit dust collection room to perform chasing;
A thrust step of controlling the thrust part of the unit dust collecting room in which the thrust is to be performed by the control unit to perform a thrust;
A charge amount increasing step of increasing an amount of charge by controlling a DC charging unit of the unit dust collecting room closer to the outlet than the unit dust collecting room in which the thrust is to be performed;
Including,
The control unit sequentially controls the chase unit from the unit dust collection room adjacent to the inlet to the unit dust collection room adjacent to the outlet, and does not stop charging of the DC charging unit when chase the unit dust collection room adjacent to the outlet.
The method of claim 6, before performing the charge control step in the dust collecting room to be chase
Selecting, by the control unit, a dust collecting room to perform a thrust by comparing the accumulated charge amount of the DC charging unit of each dust collecting chamber with a reference accumulated charge amount of each dust collecting chamber;
Electric dust collector control method further comprising a.
The method of claim 6 or 7, wherein the step of controlling the charge of the dust collecting chamber to be beaten is
A method for controlling an electric precipitator, which is a step of reducing an amount of charge of a DC charging unit of a dust collecting room in which the control unit performs thrust.

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