JP3040679U - Electric dust collector - Google Patents

Abstract

(57) 【Abstract】 PROBLEM TO BE SOLVED: To prevent arc discharge from occurring in advance in an electrostatic precipitator by removing foreign matter when it enters the ionizer and then applying a high voltage to the ionizer. . SOLUTION: An ionizer 28, a high voltage power supply circuit 14 for applying a high voltage to the ionizer, a circuit control means 40 for controlling the operation of the high voltage power supply circuit, and an arc discharge when a high voltage is applied to the ionizer An electrostatic precipitator comprising foreign matter removing means 12 for removing the foreign matter when the foreign matter adheres to the ionizer, wherein the circuit control means operates the foreign matter removing means for a certain period of time, It is an electric dust collector that operates a high-voltage power supply circuit.

Description

[Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

 The present invention relates to an electrostatic precipitator equipped with control means for controlling the operation of a high-voltage power supply circuit that applies a high voltage to an ionizer.

[0002]

[Prior art]

 The electrostatic precipitator applies high voltage to the ionizer to generate corona discharge, which collects dust. In the electrostatic precipitator, an arc discharge may occur instantaneously or intermittently due to foreign matter adhering to or entering the ionizer, or arc discharge may occur continuously due to deformation of the electrode of the ionizer. Among such abnormal phenomena of the electrostatic precipitator, when arc discharge occurs instantaneously or intermittently, the abnormality is minor and does not hinder the operation of the electrostatic precipitator. On the other hand, if arc discharge occurs continuously, it will interfere with the operation of the electrostatic precipitator, so it is necessary to stop the operation of the electrostatic precipitator and inspect and repair the electrostatic precipitator.

By the way, conventionally, there is an electrostatic precipitator having a function of detecting an abnormal phenomenon of these electrostatic precipitators and stopping the operation thereof. What is the conventional electrostatic precipitator of this kind? In order to detect such abnormal phenomenon, even if the detected abnormal phenomenon is the above-mentioned minor one, its operation is stopped, and it is necessary to inspect and restart the electrostatic precipitator each time. there were.

In order to solve this problem, there is a conventional electrostatic precipitator that detects only a non-minor abnormal phenomenon of the electrostatic precipitator and stops its operation only in this case (utility model registration No. 2511619). In this electrostatic precipitator, the electrostatic precipitator is not stopped when the arc discharge occurs instantaneously or intermittently, and the electrostatic precipitator is stopped only when the arc discharge is continuously generated. .

[0005]

[Problems to be solved by the device]

 However, since this type of conventional electrostatic precipitator only detects foreign matter adhering to the ionizer, even if foreign matter enters the ionizer, it is not considered to remove the foreign matter. Is. If the foreign matter is not removed from the ionizer in this way, it is a minor abnormality that the foreign matter enters the ionizer, but the detection means continuously detects the foreign matter that has entered the ionizer. There is a case that the operation of the electrostatic precipitator is stopped because it is judged as a serious abnormality that interferes with the operation of the.

[0006]

[Means for Solving the Problems]

 The present invention has been made to solve such a problem.When foreign matter enters the ionizer, the foreign matter is removed and then high voltage is applied to the ionizer to prevent arc discharge from occurring in advance. Specifically, the ionizer, the high-voltage power supply circuit that applies a high voltage to the ionizer, the circuit control unit that controls the operation of the high-voltage power supply circuit, and the high-voltage power supply circuit that controls the operation of the ionizer when the high voltage is applied to the ionizer. An electrostatic precipitator including foreign matter removing means for removing foreign matter that causes electric discharge when attached to the ionizer, wherein the circuit control means operates the foreign matter removing means for a predetermined time. After that, the high-voltage power supply circuit is operated.

According to the present invention having the above-described configuration, after the foreign matter removing means removes the foreign matter, a high voltage is applied to the ionizer to cause corona discharge, so that arc discharge is generated in the ionizer. This can be prevented in advance, and even if foreign matter adheres to or enters the ionizer, arc discharge does not occur again in the ionizer.

[0008]

[Embodiment of the invention]

 Next, an embodiment of the present invention will be described. The electrostatic precipitator according to the present invention further comprises detection means for detecting that the foreign matter is attached to the ionizer, and foreign matter removal control means for controlling the operation of the foreign matter removal means, and the circuit control means comprises: The foreign matter removal control means includes a circuit stopping means for stopping the operation of the high-voltage power supply circuit when the foreign matter is detected by the detection means, and the foreign matter removal control means when the operation of the high-voltage power supply circuit is stopped by the circuit control means. In addition, the foreign matter removing means is operated for a certain period of time.

The circuit control means outputs counting information for counting the number of foreign matter detected by the detecting means, and information about the foreign matter when the number of foreign matter counted by the counting means exceeds a certain number. And a timer means for measuring a certain period of time after the high voltage power supply circuit is stopped by the circuit stopping means and then restarted, and the counting means. It is preferable to include a reset unit that resets the number of counted foreign substances when the foreign substances are not detected by the detection unit within a fixed time period measured in. It is preferable that the timer means is configured to start measurement after a lapse of a certain time after the high voltage power supply circuit is restarted. It is preferable that the foreign matter removal control means operates the foreign matter removal means when the operation of the electrostatic precipitator is started.

It is preferable that the detecting means is performed by detecting occurrence of arc discharge in the ionizer, and the output means includes at least one of an alarm lamp and an alarm buzzer. Is preferred.

Further, in the electrostatic precipitator according to the present invention, it is preferable that the circuit control means and the foreign matter removal control means are composed of a microcomputer, and the foreign matter removal means is a fan motor for rotating a fan. It is preferable that the fan is rotated at a high speed to generate a strong wind to remove the foreign matter.

[0012]

【Example】

 Next, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram of an electrostatic precipitator according to this embodiment. Reference numeral 10 indicates an AC power supply, and a commercial power supply is used. The AC power supply 10 is connected to the fan motor 12 and the high voltage power supply circuit 14 and supplies a current for operating these. Further, the AC power supply 10 is connected to a rectifier circuit 18 via a step-down transformer 16, and the rectifier circuit 18 is further connected via a fan motor control relay 20, a high voltage power supply control relay 22, and a three-terminal regulator 24. It is connected to the computer 26. Therefore, the current is rectified by the rectifier circuit 18 via the step-down transformer 16 and further supplied to the microcomputer 26 via the three-terminal regulator 24. Further, the current is passed through the step-down transformer 16 and the rectifier circuit 18 and then the fan motor control relay 20. It is also supplied to the high voltage source control relay 22.

The high-voltage power supply circuit 14 generates corona discharge by applying a high voltage to the ionizer 28, and its operation is controlled by the microcomputer 26. The electrostatic precipitator according to the present embodiment collects dust by corona discharge generated in the ionizer 28. An abnormality detection sensor 30 that detects arc discharge generated in the ionizer 28 is connected to the ionizer 28, and the abnormality detection sensor 30 is connected to the microcomputer 26.

The fan motor 12 rotates a fan, and by rotating the fan at a high speed, that is, by generating “strong wind”, foreign matter adhering to and entering the ionizer 28 can be removed. The operation of the fan motor 12 is controlled by the microcomputer 26.

A start switch 32 of the electrostatic precipitator, an alarm lamp 34, an alarm buzzer 36, and a reset switch 38 of the electrostatic precipitator are connected to the microcomputer 26. The alarm lamp 34 and the alarm buzzer 36 respectively light up or issue an alarm when the number of arc discharges counted by a counter device 46 described later exceeds a certain number. When the reset switch 38 is turned on, the operation of the electrostatic precipitator other than the lighting of the alarm lamp 34 such as the operation of the fan motor 12 and the alarm of the alarm buzzer 36 is stopped.

As shown in FIG. 2, the microcomputer 26 mainly includes a circuit controller 40 that controls the operation of the high-voltage power supply circuit 14 and a fan motor controller 42 that controls the operation of the fan motor 12. I have it.

The circuit control device 40 controls the number of arc discharges detected by the abnormality detection sensor 30 and the circuit stop device 44 that stops the operation of the high voltage power supply circuit 14 when the arc detection is detected by the abnormality detection sensor 30. And a counting device 46 for counting. The circuit control device 40 operates the high-voltage power supply circuit 14 after the fan motor 12 rotates at high speed for 5 seconds or 10 seconds.

The counting device 46 includes a timer device 48 that measures 10 seconds from 1 second after the high voltage power supply circuit 14 is stopped by the circuit stopping device 44 and then restarted, and a timer device 48. The counting reset device 50 resets the counted number of foreign substances when the arc detection is not detected by the abnormality detection sensor 30 within 10 seconds. The timer device 48 starts the measurement one second after the high voltage power supply circuit 14 is reactivated, because the voltage applied to the ionizer 28 is not stable for one second after the high voltage power supply circuit 14 is restarted. Is.

When the start switch 32 is turned on, the fan motor control device 42 rotates the fan motor 12 at a high speed for 5 seconds to generate “strong wind” from the fan. Further, the fan motor control device 42 causes the fan motor 12 to rotate at high speed for 10 seconds even when the operation of the high-voltage power supply circuit 14 is stopped by the circuit stop device 44, and causes "strong wind" from the fan.

The microcomputer 26 determines whether or not the abnormality detection sensor 30 detects that an arc discharge has occurred in the ionizer 28 in the operation of the electrostatic precipitator according to this embodiment, which will be described later. It is a thing. Further, since the fan motor 12, high-voltage power supply circuit 14, ionizer 28, etc. used in the present embodiment are known ones, the description and illustration of their specific configurations are omitted.

Next, the operation of the electrostatic precipitator according to this embodiment will be described based on the diagram shown in FIG. 1, the schematic diagram shown in FIG. 2, the flowchart shown in FIG. 3, and the time chart shown in FIG. First, when the start switch 32 is turned on, the fan motor control device 42 sends a signal to the fan motor control relay 20 to operate the fan motor 12 in "strong wind" (S100, S102). When the fan motor 12 operates in “strong wind” for 5 seconds, the fan motor control device 42 sends a signal to the fan motor control relay 20 to stop the operation of the fan motor 12 in “strong wind”, and the circuit control device. The reference numeral 40 sends a signal to the high-voltage power supply control relay 22 to operate the high-voltage power supply circuit 14. When activated, the high-voltage power supply circuit 14 applies a high voltage to the ionizer 28, causes corona discharge in the ionizer 28, and starts dust collection (S104). In this way, the high voltage is applied to the ionizer 28 after the fan motor 12 has been operated in “strong wind” for 5 seconds. Therefore, if foreign matter adheres to or enters the ionizer 28, corona discharge is applied to the ionizer 28. Foreign matter can be removed before the occurrence of arcing, and arc discharge can be prevented from occurring in the ionizer 28 in advance.

Next, the microcomputer 26 determines from the signal from the abnormality detection sensor 30 whether or not the occurrence of arc discharge in the ionizer 28 is detected (S106). When it is determined that the arc discharge has been detected (Yes in S106), the circuit control device 40 transmits a signal to the high-voltage power supply control relay 22 to operate the high-voltage power supply circuit 14, that is, the ionizer 28. To stop the corona discharge to (S108). When the corona discharge to the ionizer 28 is stopped, the fan motor control device 42 sends a signal to the fan motor control relay 20 to operate the fan motor 12 in “strong wind” (S110). When it is not determined that the occurrence of the arc discharge is detected (No in S106), the high voltage power supply circuit 14 continues to apply the high voltage to the ionizer 28.

Next, 10 seconds after the abnormality detection sensor 30 detects the arc discharge, the fan motor control device 42 sends a signal to the fan motor control relay 20 to generate “strong wind” of the fan motor 12. Then, the circuit controller 40 sends a signal to the high-voltage power supply control relay 22 to operate the high-voltage power supply circuit 14 to cause the ionizer 28 to generate corona discharge (S112).

Next, the timer device 48 starts measuring 10 seconds (see FIG. 4) one second after the high-voltage power supply circuit 14 applies the high voltage to the ionizer 28 again (see FIG. 4), and the micro computer 26 Within 10 seconds, it is determined whether or not the abnormality detection sensor 30 detects that the ionizer 28 has an arc discharge (S104). When the occurrence of arc discharge is not detected within the 10 seconds, the count reset device 50 resets the number of occurrences of arc discharge counted by the counter device 46 to "0" (return to S106). In this case, the high-voltage power supply circuit 14 continues to apply a high voltage to the ionizer 28, and the microcomputer 28 determines whether or not the abnormality detection sensor 30 has detected that the ionizer 28 is arced (S106). .

When the occurrence of arc discharge is detected within the 10 seconds, the microcomputer 28 determines whether or not the detection is within 10 times in succession, that is, the microcomputer 18 does not return to S 106 once, and S 108 From step S114 to S114, it is determined whether or not the arc discharge is detected 10 times in succession (S116). When the detection is within 10 times in succession, the process returns to S108. That is, the application of voltage to the ionizer 28 is stopped, and the fan motor 12 is operated. When the number of detections reaches 10 times in a row, the micro computer 26 sends a signal to the warning lamp 34 and the warning buzzer 36 to turn on the warning lamp 34, and the warning buzzer 36 issues an alarm (S118). In this case, the operation of the high voltage power supply circuit 14 is stopped by a signal from the circuit control device 40 to the high voltage power supply control relay 22, and the signal from the fan motor control device 42 to the fan motor control relay 20 is The fan motor 12 operates in “strong wind”.

Next, the microcomputer 26 determines whether or not the reset switch 38 has been turned on (S120). When the microcomputer 26 determines that the reset switch 38 is turned on, the operation of the electrostatic precipitator according to this embodiment other than the lighting of the alarm lamp 34 such as the operation of the fan motor 12 and the alarm of the alarm buzzer 36 is stopped. To do. Then, when the start switch 32 is turned on again, the warning lamp 34 is extinguished, and the electrostatic precipitator is restarted (return to S100).

If the microcomputer 26 does not determine that the reset switch 38 has been turned ON, the alarm lamp 34 continues to light and the alarm buzzer 36 continues to sound.

[0028]

[Effect of the invention]

 As described above, according to the present invention, when a foreign matter enters the ionizer, the foreign matter is removed, and then a high voltage is applied to the ionizer to prevent arc discharge from occurring in advance.

[Brief description of the drawings]

FIG. 1 is a block diagram of an embodiment of an electrostatic precipitator according to the present invention.

FIG. 2 is a schematic diagram of a microcomputer used in the embodiment.

FIG. 3 is a flowchart showing the operation of the embodiment.

FIG. 4 is a time chart of the operation of the embodiment.

[Explanation of symbols]

 12 fan motor 14 high-voltage power supply circuit 28 ionizer 40 circuit control device

Claims (10)

[Utility model registration claims] 1. An ionizer (28), and a high voltage power supply circuit (14) for applying a high voltage to the ionizer (28),
In the case where the circuit control means (40) for controlling the operation of the high-voltage power supply circuit (14) and a foreign substance that causes arc discharge when a high voltage is applied to the ionizer (28) are attached to the ionizer (28). And a foreign matter removing means (12) for removing the foreign matter, wherein the circuit control means (40) includes the high voltage power supply circuit (14) after the foreign matter removing means is operated for a predetermined time. ) Operated electric dust collector. 2. The circuit control means (40) further comprises a detection means (30) for detecting that the foreign matter is attached to the ionizer (28).
0) counting means (46) for counting the number of foreign matter detected, and output means (34) for outputting information about the foreign matter when the number of foreign matter counted by the counting means (46) exceeds a certain number. , 36), and the electrostatic precipitator according to claim 1. 3. The foreign matter removal control means (42) for controlling the operation of the foreign matter removal means is further provided with a marking, and the circuit control means (40) has a high voltage when the foreign matter is detected by the detection means (30). A circuit stop means (44) for stopping the operation of the power supply circuit (14) is provided, and the foreign matter removal control means (42) stops the operation of the high voltage power supply circuit (14) by the circuit control means (40). The electrostatic precipitator according to claim 1 or 2, wherein the foreign matter removing means (12) is operated for a predetermined time when the dust collector is activated. 4. The counting means (46) includes a timer means (48) for measuring a certain time after the high voltage power supply circuit (14) is stopped by the circuit stopping means (44) and then restarted, Resetting means (50) for resetting the counted number of foreign matters when the foreign matter is not detected by the detecting means (30) within a fixed time measured by the timer means (48) The electrostatic precipitator according to claim 3, characterized in that. 5. The electrostatic precipitator according to claim 4, wherein the timer means (48) starts measurement after a lapse of a certain time after the high voltage power supply circuit (14) is restarted. 6. The electrostatic precipitator according to claim 2, wherein the output means (34, 36) includes at least one of an alarm lamp (34) and an alarm buzzer (36). . 7. The electrostatic precipitator according to claim 2, wherein the detection means (30) detects that an arc discharge has occurred in the ionizer (28). 8. The foreign matter removal control means (42) is configured to remove the foreign matter removal means (1) when the operation of the electrostatic precipitator is started.
The electrostatic precipitator according to any one of claims 3 to 7, characterized in that 2) is operated. 9. The circuit control means (40) and the foreign matter removal control means (42) are microcomputers (2).
The electrostatic precipitator according to any one of claims 1 to 8, which is constituted by 6). 10. The foreign matter removing means (12) includes a fan motor (12) for rotating a fan, and the foreign matter is removed by rotating the fan at a high speed to generate a strong wind. Item 10. An electric dust collector according to any one of items 1 to 9.