JP3121184B2 - Diagnosis and detection device for electric dust collector - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a diagnosis and detection apparatus for an electric precipitator, which diagnoses the state of each part of the electric precipitator and detects contamination of an electrode portion of the electric precipitator, abnormalities of a high voltage power supply, and the like.

[0002]

2. Description of the Related Art In an electric dust collector, an ionizer generates corona discharge to charge dust in the air, and the charged dust in the air is electrostatically collected by a collector provided with a required potential. Therefore, dust or the like adheres to the electrodes of the ionizer and the collector, thereby contaminating the electrodes of the ionizer and the collector, and the current flowing through the ionizer and the collector becomes larger than a predetermined rated current due to such contamination. Reduce. That is, when insulating dust adheres, the current decreases, but when moisture-containing dust adheres, the current increases.

[0003] Therefore, the electric dust collector monitors such a current, and if the current increases or decreases below a predetermined value, it is considered that a large amount of dust adhered to the electrode.
In such a case, it is necessary to provide a display to the user and thereby perform cleaning or inspection of the electrode.

Conventionally, as such current monitoring, it is detected that the current has increased or decreased to an undercurrent, and when the current has reached an overcurrent value or an undercurrent value, a lamp display is performed. This informs the user of the occurrence of an abnormal condition.

[0005]

In a conventional electric precipitator, a current flowing through an ionizer or a collector is monitored, and when the current becomes an excessive current value or an excessive current value, an abnormal state is notified by a lamp display. However, there is a problem that it is not possible to determine what kind of abnormal state has actually occurred by only such a lamp display.

[0006] The present invention has been made in view of the above,
It is an object of the present invention to provide a diagnosis and detection device for an electric dust collector which detects voltages and currents of an ionizer and a collector and thereby can determine an abnormal state of the electric dust collector in detail and accurately.

[0007]

According to a first aspect of the present invention, there is provided an ion precipitator diagnostic / detection apparatus which generates a corona discharge between a discharge electrode and a discharge counter electrode, and charges the dust in the air with the corona discharge. A dust collecting electrode unit having a collector for collecting dust by electrostatically adsorbing dust charged by the ionizer, connecting a power source for an ionizer to the ionizer, and connecting a power source for a collector to the collector. And a voltage / current determining unit for determining these conditions. The power supply for the ionizer supplies a voltage having a first rated value to the ionizer and a current following the voltage fluctuation while supplying an ionizer voltage that fluctuates between high and low with reference to the first rated value. Control is performed to supply the ionizer current to the ionizer while maintaining the same at a first constant current value, and the voltage control is performed while the ionizer current fluctuates at a value smaller than the first constant current value. To supply the ionizer voltage while maintaining it at a predetermined voltage. The voltage / current determining unit receives the ionizer voltage from the power supply for the ionizer, an ionizer voltage output signal and an ionizer current output signal that are respectively proportional to the ionizer current, and outputs a status of the ionizer based on a combination of the values of these output signals. The gist is to select and display a message to be notified. Claim 2
The voltage / current determining unit includes a voltage value of a voltage having a first rated value of the ionizer voltage, a first constant current value of the ionizer current, and a predetermined number of values each having a value smaller than the first constant current value. Combining the current identification values, providing a message for informing the status of the ionizer to these combination data, and when the ionizer voltage output signal and the ionizer current output signal are input, a combination of these output signals, and A voltage value of the voltage of the first rated value, the first constant current value, and a combination of the predetermined number of current identification values are compared, and a message notifying a status of the ionizer corresponding to the comparison result is selected. It is the gist of displaying. Claim 3
The voltage / current determining unit stores the maximum ionizer voltage value and the maximum ionizer current value in association with a message notifying the abnormality of the ionizer power supply, and notifies the minimum ionizer voltage value and the minimum ionizer current value of the forgetting to turn on the ionizer power supply. The message is stored in association with the message. When the ionizer voltage output signal and the ionizer current output signal are input, a combination of these output signals and a set of the stored maximum ionizer voltage value, maximum ionizer current value, minimum ionizer voltage value, and minimum ionizer current value are stored. The gist is to select and display a message indicating that the ionizer power supply is abnormal or a message indicating that the ionizer power supply has been forgotten to be turned on, corresponding to the comparison result.

According to a fourth aspect of the present invention, there is provided a diagnostic detection device for an electric dust collector.
A corona discharge is generated between the discharge electrode and the discharge counter electrode,
A dust collecting electrode portion having an ionizer for charging dust in the air by the corona discharge and a collector for collecting dust by electrostatically adsorbing the dust charged by the ionizer, and a power supply for the ionizer provided to the ionizer; , A collector power supply connected to the collector, and a voltage / current determining unit for determining these conditions. The collector power supply performs voltage control, and when supplying a collector voltage of a second rated value to the collector, a collector current to the collector increases and the collector voltage increases. When the voltage becomes lower than the second rated value, current control is performed instead of the voltage control to supply the collector current while maintaining the collector current at a constant current value. The voltage / current determining unit receives a collector voltage from the power supply for the collector, a collector voltage output signal and a collector current output signal proportional to the collector current, respectively, and combines the values of the ionizer voltage output signal and the ionizer current output signal. The gist of the present invention is to select and display a message indicating the status of the collector based on the message. 5. The voltage-current determining unit according to claim 5, wherein the voltage value of the collector voltage having the second rated value, a voltage value smaller than the voltage value of the collector voltage having the second rated value,
A collector current value of the constant current value is combined, and a message for informing the status of the collector is provided in correspondence with the combination data. When the collector voltage output signal and the collector current output signal are input, the combination of the output signals, the voltage value of the collector voltage of the second rated value, and the collector voltage of the second rated value are provided. The gist of the present invention is to compare a voltage value smaller than the voltage value with a combination of the collector current value of the constant current value, and select and display a message indicating the state of the collector corresponding to the comparison result. According to a sixth aspect of the present invention, the voltage / current judging section stores a message informing the abnormality of the collector power supply in correspondence with the maximum collector voltage value and the maximum collector current value, and stores the collector power supply value in the minimum collector voltage value and the minimum collector current value. The message notifying that the user has forgotten to put it is stored in association with the message. When the collector voltage output signal and the collector current output signal are input, a combination of these output signals and a set of the stored maximum collector voltage value, maximum collector current value, minimum collector voltage value, and minimum collector current value are stored. The gist is to select and display a message indicating that the collector power supply is abnormal or a message indicating that the collector power is forgotten to be turned on, corresponding to the comparison result.

[0009] The diagnosis and detection device for an electric dust collector according to claim 7 comprises:
A corona discharge is generated between the discharge electrode and the discharge counter electrode,
A dust collecting electrode portion having an ionizer for charging dust in the air by the corona discharge and a collector for collecting dust by electrostatically adsorbing the dust charged by the ionizer, and a power supply for the ionizer provided to the ionizer; , A collector power supply connected to the collector, and a voltage / current determining unit for determining these conditions. The power supply for the ionizer supplies a voltage having a first rated value to the ionizer and a current following the voltage fluctuation while supplying an ionizer voltage that fluctuates between high and low with reference to the first rated value. Performing control to supply the ionizer current to the ionizer while maintaining it at a first constant current value;
While the ionizer current fluctuates at a value smaller than the first constant current value, voltage control is performed to supply the ionizer voltage while maintaining it at a predetermined voltage. The collector power supply performs voltage control, and when supplying a collector voltage of a second rated value to the collector, a collector current to the collector increases and the collector voltage increases. When the voltage becomes lower than the second rated value, current control is performed instead of the voltage control to supply the collector current while maintaining the collector current at a constant current value. The voltage / current determination unit is configured to output the ionizer voltage from the ionizer power supply, an ionizer voltage output signal and an ionizer current output signal proportional to the ionizer current, and a collector voltage from the collector power supply and a collector voltage respectively proportional to the collector current. The gist is to input an output signal and a collector current output signal and to select and display a message based on a combination of these output signals. 9. The voltage / current judging unit according to claim 8, wherein the voltage value of the voltage of the first rated value of the ionizer voltage, the first constant current value of the ionizer current, and a value smaller than the first constant current value. Are combined with a predetermined number of current identification values different from each other, a message notifying the status of the ionizer is provided in correspondence with the first combination data, the voltage value of the collector voltage having the second rated value, the second rated value, A voltage value smaller than the voltage value of the collector voltage is combined with the collector current value of the constant current value, and a message notifying the status of the collector is provided in correspondence with the second combination data. When the ionizer, the collector voltage output signal, the ionizer, and the collector current output signal are input, a combination of these output signals is compared with the provided first combination data and the second combination data. The gist of the present invention is to select and display a message notifying the ionizer status and the collector status corresponding to the result. According to a ninth aspect of the present invention, the voltage / current judging unit stores the maximum ionizer voltage value and the maximum ionizer current value in association with a message notifying the abnormality of the ionizer power supply, and stores the maximum collector voltage value and the maximum collector current in the collector power supply abnormality. Is stored correspondingly. Also, a message notifying that the ionizer power is not turned on is stored in correspondence with the minimum ionizer voltage value and the minimum ionizer current value, and a message notifying that the collector power is not turned on is stored in correspondence with the minimum collector voltage value and the minimum collector current value. . When the ionizer, the collector voltage output signal and the ionizer, the collector current output signal is input, the combination of these output signals, the stored maximum ionizer voltage value and the maximum ionizer current value, the maximum collector voltage value and the maximum A collector current value, a minimum ionizer voltage value and a minimum ionizer current value, are compared with a set of a minimum collector voltage value and a minimum collector current value, and the ionizer power supply corresponding to the comparison result, or a message notifying an abnormality of the collector power supply. The gist of the present invention is to select and display a message indicating that the user has forgotten to turn on the ionizer power supply and the collector power supply.

[0010]

According to the first aspect of the present invention, while a voltage having a first rated value and an analyzer voltage which fluctuates in a high or low manner with reference to the first rated value are supplied to the analyzer from the power supply for the ionizer, Current control following the fluctuation is performed. Therefore, during this voltage change, the analyzer current is maintained at the first constant current value. That is, when the characteristics of the analyzer power supply are plotted in a coordinate system including the analyzer voltage axis and the analyzer current (discharge current) axis, the voltage fluctuates vertically with respect to the voltage axis during voltage fluctuation. Further, while the analyzer current fluctuates at a value smaller than the first constant current value, voltage control is performed to supply the analyzer voltage while maintaining it at a predetermined voltage. That is, until the analyzer current reaches the first constant current value, the analyzer voltage becomes a constant voltage, and only the analyzer current fluctuates. The state of each part of the electric precipitator based on the analyzer voltage and the ionizer current value is displayed by a message by the voltage / current determining unit. Therefore, at a glance, it is possible to instantly know what is wrong with the analyzer and the power supply for the analyzer and what cause. That is, the voltage / current determination unit is configured to identify the voltage value of the first rated value of the analyzer voltage, the first constant current value of the analyzer current, and the voltage value of the analyzer current that has decreased to a value smaller than the first constant current value. A plurality of different current identification values, a maximum analyzer voltage value, a minimum analyzer voltage value, a maximum analyzer current value, and a minimum analyzer current value are provided, and a message corresponding to these values is selected and displayed.

According to a fourth aspect of the present invention, when the power supply for the collector controls the voltage to supply a collector voltage of a constant second rated value, the collector current increases and the voltage of the second rated value increases. If the collector voltage becomes smaller,
Current control is performed by the collector power supply, and the collector current is maintained at a constant current value. Then, the voltage / current determining unit selects and displays a message informing the status of the collector based on the combination of the output signal values proportional to the collector voltage and the collector current at this time. For this reason, at a glance, it is possible to instantly know what is wrong with the collector and the power supply for the collector and what cause.

According to a seventh aspect, a voltage of a first rated value and a voltage of the first rated value are supplied from the power supply for the ionizer to the analyzer.
While supplying the analyzer voltage whose voltage fluctuates high and low with reference to the rated value of, current control that follows the voltage fluctuation is performed. Therefore, during this voltage change, the analyzer current is maintained at the first constant current value. That is, when the characteristics of the analyzer power supply are plotted in a coordinate system including the analyzer voltage axis and the analyzer current (discharge current) axis, the voltage fluctuates vertically with respect to the voltage axis during voltage fluctuation. Further, while the analyzer current fluctuates at a value smaller than the first constant current value, voltage control is performed to supply the analyzer voltage while maintaining it at a predetermined voltage. That is,
Until the analyzer current reaches the first constant current value,
The analyzer voltage becomes a constant voltage, and only the analyzer current fluctuates. On the other hand, the power supply for the collector controls the voltage,
When the collector current increases while the collector voltage of the second fixed value is supplied and the collector voltage becomes smaller than the voltage of the second fixed value, current control is performed by the collector power supply. Thus, the collector current is maintained at a constant current value. The state of each part of the electric precipitator based on the analyzer voltage and the ionizer current value is displayed by a message by the voltage / current determining unit. Therefore, at a glance, it is possible to instantly know what is wrong with the analyzer and the power supply for the analyzer and what cause. Further, a message notifying the status of the collector based on the combination of the output signal values proportional to the collector voltage and the collector current at this time is selected and displayed. For this reason, at a glance, it is possible to instantly know what is wrong with the collector and the power supply for the collector and what cause. That is, the voltage / current determining unit is configured to identify the voltage value of the first rated value of the analyzer voltage, the first constant current value of the analyzer current, and the voltage value for identifying that the analyzer voltage has decreased to a value smaller than the first constant current value. A plurality of different current identification values, a collector voltage value of a second rated value, a voltage value for detecting that the collector voltage has become equal to or less than the collector voltage of the second rated value, a collector current value of a constant current value Is provided. The maximum analyzer voltage value, the minimum analyzer voltage value, the maximum analyzer current value, and the minimum analyzer current value include a maximum collector voltage value, a minimum collector voltage value, a maximum collector current value, and a minimum collector current value. And
Ionizer, collector voltage output signal, ionizer,
When a collector current output signal is input, a message based on a combination of the values of these output signals is selected and displayed. That is, at a glance, it is possible to know where the power supply for the ionizer, the power supply for the ionizer, the power supply for the collector, and the collector are in what kind of condition or what is the cause of the abnormality.

[0013]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing a configuration of a diagnosis and detection device for an electric dust collector according to an embodiment of the present invention. The diagnosis and detection device for an electric precipitator shown in FIG. 1 includes a high-voltage power supply 1 for an ionizer that outputs a high voltage supplied to an ionizer of the electric precipitator, a high-voltage power supply 3 for a collector that outputs a high voltage supplied to a collector, and a power supply for the ionizer. High voltage power supply 1
The dust collecting electrode unit 5 to which the output voltage for the ionizer output from the output terminal 11 of the power supply and the output voltage for the collector output from the output terminal 31 of the high voltage power supply for collector 3 are supplied, and the output terminal 13 of the high voltage power supply 1 for the ionizer. , 15 are supplied with the voltage output signal and the current output signal, respectively, and further, the voltage output signal and the current output signal respectively outputted from the output terminals 33, 35 of the high voltage source for collector 3 are supplied. A voltage / current detection / judgment section 7 for judging an abnormal state of each section of the electric dust collector based on a combination of each voltage and current output signal, and a lamp display corresponding to the abnormal state of each section judged by the voltage / current detection judgment section 7 It has a display unit 9 for performing.

The dust collecting electrode section 5 generates an corona discharge between a discharge electrode and a discharge counter electrode (earth electrode), and charges (ionizes) dust in the air by the corona discharge. A collector that collects dust by electrostatically adsorbing the charged dust, and the output voltages from the ionizer high-voltage power supply 1 and the collector high-voltage power supply 3 are supplied to the ionizer and the collector, respectively; It has become.

As shown in FIG. 2 in detail, the high voltage power supply 1 for the ionizer performs various processes such as filtering, rectification, smoothing, boosting, constant voltage / constant current control, and double voltage rectification using AC 100 V as an input voltage. After that, from the N-fold voltage rectifier circuit to a high voltage having a desired constant voltage and constant current characteristics,
The output terminal 11 outputs the output voltage for the ionizer.

FIG. 4 shows the voltage-current characteristics when the output voltage for the ionizer output from the high-voltage power supply 1 for the ionizer shown in FIG. 2 is supplied to the ionizer. Specifically, the high-voltage power supply 1 for the ionizer is shown. The solid line (a) shows the ionizer voltage with respect to the discharge current when the output voltage for the ionizer from is supplied to the ionizer of the dust collection electrode unit 5. As shown in the figure, the voltage current supplied to the ionizer has a constant voltage characteristic up to a predetermined current value B _{6 as} shown by a solid line (a), and when the voltage current reaches the predetermined current value. , Has a constant voltage and constant current characteristic such that the voltage is reduced while maintaining the predetermined current value.

In contrast to the constant voltage / constant current characteristic shown by the solid line (a), the characteristic shown by the dotted line (b) is the voltage / current characteristic when the constant voltage / constant current control is not performed in the high voltage power supply 1 for the ionizer. Is shown.

As shown in FIG. 3, the collector high-voltage power supply 3 performs various processes such as boosting, constant-voltage / constant-current control, and voltage-double rectification using 24 V DC as an input voltage. The rectifier circuit outputs a high voltage having a desired constant voltage / constant current characteristic, and outputs the output voltage from the output terminal 31 as a collector output voltage.

FIG. 5 shows the high voltage power supply 3 for the collector shown in FIG.
Shows the voltage-current characteristics when the collector output voltage output from the collector is supplied to the collector. Specifically, the collector output voltage from the collector high-voltage power supply 3 is supplied to the collector of the dust collection electrode unit 5. The collector voltage with respect to the collector current in this case is shown by a solid line (a). As shown in the figure, the voltage current supplied to the collector has a constant voltage characteristic up to a predetermined current value as shown by a solid line (a), as in the case of the ionizer shown in FIG. When the voltage reaches the predetermined current value, the voltage has a constant voltage / constant current characteristic such that the voltage decreases while maintaining the predetermined current value.

In contrast to the constant voltage / constant current characteristic shown by the solid line (a), the characteristic shown by the dotted line (b) is the voltage / current when the constant voltage / constant current control is not performed in the high voltage power supply for collector 3. The characteristics are shown.

In the high voltage power supply 1 for an ionizer shown in FIG. 2, the voltage output signal and the current output signal output from the output terminals 13 and 15 are the output voltage for the ionizer output from the output terminal 11 and the output voltage for the ionizer. Is proportional to the current in the first embodiment, and therefore has the characteristics shown in FIG. In this manner, the voltage and current output signals output from the output terminals 13 and 15 corresponding to the ionizer output voltage output from the ionizer high-voltage power supply 1 are supplied to the voltage / current detection determination unit 7 in FIG. It has become.

Similarly, in the collector high-voltage power supply 3 shown in FIG. 3, the voltage output signal and the current output signal output from the output terminals 33 and 35 are the same as the collector output voltage and the output voltage output from the output terminal 31. 5 is proportional to the current at the output voltage for the collector.
Has the characteristics shown in FIG. As described above, the voltage and current output signals output from the output terminals 33 and 35 corresponding to the collector output voltage output from the collector high-voltage power supply 3 are supplied to the voltage / current detection determination unit 7 in FIG. It has become.

As described above, the voltage / current detection / determination section 7 of FIG. 1 is supplied with the voltage output signal and the current output signal corresponding to the output voltage for the ionizer from the high voltage power supply 1 for the ionizer, and the high voltage power supply 3 for the collector. Supplies a voltage output signal and a current output signal corresponding to the collector output voltage. An abnormal state of each part of the electric dust collector is determined based on the voltage output signal and the current output signal.

Next, the operation of the voltage / current detection / judgment section 7 will be described with reference to FIGS.
This will be described in detail with reference to the table shown in FIG.

In a normal rated state, the ionizer operates at the point B on the voltage-current characteristic shown by the solid line (a) in FIG. 4, and the collector has the voltage-current characteristic shown by the solid line (a) in FIG. It operates at point D above, thereby generating corona discharge by the ionizer to charge dust in the air, and collects the charged dust in the air electrostatically by the collector.

In the case where the ionizer operates in the normal rated state, for example, if dust or dust adheres to the ionizer, the discharge current from the ionizer is reduced. As a result, the operating point at point B in FIG. It moves to the left on the solid line (a) and reaches point B1. When the point B1 is reached, the discharge current of the _ionizer is reduced to be smaller than a predetermined I _refMAX ,
This reduced current is detected by the voltage / current detection determination unit 7. When the voltage / current detection determination unit 7 identifies that the current is a current reduced to the point B1, this is contamination of the ionizer due to dust or dust adhering to the ionizer as shown in the table of FIG. As a result of this determination, as shown in FIG. 6, the lamp of "wash" on the display unit 9 is turned on, and thereby the ionizer is contaminated.
Notify the user that the ionizer needs to be cleaned.

Further, when the dust or the like adhering to the ionizer further increases and the operating point reaches the point B2 further left from the point B1, the discharge current of the ionizer is reduced to a smaller value. The current reduced to the value is also detected by the voltage / current detection determination unit 7. Then, when the voltage / current detection determination unit 7 identifies that the reduced current is a current further reduced to the point B2 from the point B1, as shown in the table of FIG. 6, this indicates that dust or dust adheres to the ionizer. It is determined that the ionizer is contaminated due to the above operation. As a result of this determination, a lamp of “inspection” on the display unit 9 is turned on as shown in FIG. 6, whereby the ionizer is further contaminated and the ionizer is inspected. Notify the user that there is a need to do so.

Further, when the discharge current of the ionizer decreases and the operating point reaches a point C which is further left than B2 in FIG. 4, and the current I _refmin at this time is detected by the voltage / current detection determining section 7, The voltage / current detection judging unit 7 calculates the current
It is determined that the ionizer has been forgotten to be inserted as shown in correspondence with the detection point C, and the lamp of "inspection" of the voltage / current detection determination unit 7 is displayed, and the lamp of the setting mistake is also turned on.

If the dust adhering to the ionizer is, for example, dust containing water, the operating point shown in FIG.
It moves rightward from the point to the point B3, and the voltage and current signals in this case are supplied to the voltage / current detection determination unit 7,
The voltage / current detection determination unit 7 similarly determines that the ionizer is dirty, displays a lamp of "inspection" as shown in FIG. 6, and also turns on a lamp for confirmation of inspection.

The high voltage power supply 1 for the ionizer has a constant voltage and constant current characteristic as shown by a solid line (a) in FIG.
When the constant-voltage / constant-current control unit of the high-voltage power supply 1 for the ionizer becomes defective, the characteristic shown in FIG. 4 becomes a characteristic shown by a dotted line (b). As a result, the operating point, which was at point B in the normal rated state, moves to point B5 on the dotted line (b) as shown in FIG. Then, the voltage and current signal of the high voltage power supply for ionizer 1 at the time of moving to the point B5 is also detected by the voltage / current detection determination section 7, and the voltage / current detection determination section 7 uses the detected high voltage power supply for ionizer based on the detected voltage and current signal. It is determined that the abnormality is No. 1, and as shown in FIG. 6, a lamp of “check” is displayed as a high-pressure portion abnormality, and a lamp of high-pressure check is turned on.

Further, even when dust or dust adheres to the collector, the collector current similarly decreases, whereby the operating point at point D in FIG. 5 moves on the solid line (a).
It reaches D1 point. The current and the voltage at the point D1 are detected by the voltage / current detection determination unit 7. The voltage / current detection determination unit 7 determines from the current and the voltage that the ionizer is contaminated due to the attachment of dust or dust to the collector. As a result of the determination, as shown in FIG. In addition to displaying a lamp of "CHECK" on the display unit 9, a lamp for checking is turned on, thereby notifying the user that the collector is dirty and that the collector needs to be checked.

Similarly to the abnormality of the high voltage power supply 1 for the ionizer, when the voltage power supply 3 for the collector is in an abnormal state, the operating point is shifted from the point D on the solid line (A) as shown in FIG. It will move to the point D2 or D3 on the dotted line (b). Then, the voltage and current signal of the high-voltage power supply for collector 3 when moving to the point D2 or D3 is also detected by the voltage / current detection judging section 7, and the voltage / current detection judging section 7 uses the detected voltage and current signal for the collector. High voltage power supply 3
Is determined to be abnormal, and as shown in correspondence with D2 or D3 in FIG. 6, a lamp of "inspection" is displayed as a high-pressure part abnormality, and a lamp for high-pressure inspection is turned on.

In the above-described embodiment, the display section 9 is configured by lamp display. However, the display section 9 may be displayed by characters using a liquid crystal panel or the like, in which case the display can be easily identified.

[0035]

As described above, fluctuations in the voltage and current supplied to the ionizer and the collector are detected, and an abnormality corresponding to the combination of these voltages and currents is notified by a message. Thus, the effect is obtained that anyone can immediately grasp from any abnormality at a glance. Therefore, prompt maintenance preparations for abnormalities are possible.

Further, according to the present invention, based on the detected combination of each voltage and current of the ionizer and the collector, contamination of the ionizer, contamination of the collector, and abnormality of the high-voltage power supply can be identified, and further, each abnormal state is displayed. As a result, an abnormal part can be quickly identified and an accurate repair can be performed.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of a diagnosis and detection device of an electric dust collector according to an embodiment of the present invention.

FIG. 2 is a circuit diagram showing a configuration of a high-voltage power supply for an ionizer used in the diagnosis and detection device of the electric dust collector of FIG.

FIG. 3 is a circuit diagram showing a configuration of a high-voltage power supply for a collector used in the diagnosis and detection device of the electric dust collector of FIG. 1;

FIG. 4 is a diagram showing current-voltage characteristics of the high-voltage power supply for the ionizer shown in FIG. 2;

FIG. 5 is a diagram showing current-voltage characteristics of the high-voltage power supply for collector shown in FIG. 3;

6 is a diagram showing causes and lamp indications corresponding to detection points detected by the diagnosis and detection device of the electrostatic precipitator shown in FIG.

[Explanation of symbols]

 Reference Signs List 1 High voltage power supply for ionizer 3 High voltage power supply for collector 5 Dust collection electrode unit 7 Voltage / current detection judgment unit 9 Display unit

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Tsuyoshi Murayama 2-27-4 Chatan, Soka-shi, Saitama TT Heights 4-203 (72) Inventor Ishi ▲ saki ▼ ▲ Yasu ▼ Tsukasa 3-Matsushima, Edogawa-ku, Tokyo 9-2 (72) Inventor Kensuke Tominaga 1-13-2 Wakaba-cho, Tachikawa-shi, Tokyo Keyaki Plateau 28-204 (56) References JP-A-4-200659 (JP, A) JP-A-2-253868 ( JP, A) JP-A-62-186959 (JP, A) JP-A-63-130151 (JP, A) JP-A-2-222737 (JP, A) JP-A-4-35908 (JP, U) (58) ) Surveyed field (Int.Cl. ⁷ , DB name) B03C 3/00-3/88

Claims (9)

(57) [Claims] A corona discharge is generated between a discharge electrode and a discharge counter electrode, and an ionizer for charging dust in the air by the corona discharge and electrostatically adsorbing the dust charged by the ionizer. A dust collecting electrode unit having a collector for collecting dust, a power source for an ionizer connected to the ionizer, a power source for a collector connected to the collector, and a voltage / current determining unit for determining these conditions. A diagnosis and detection device for a dust collector, wherein the power supply for the ionizer supplies a voltage having a first rated value to the ionizer and an ionizer voltage that fluctuates between high and low with respect to the first rated value. Performs current control following the voltage fluctuation to supply the ionizer current to the ionizer while maintaining it at a first constant current value. While the ionizer current fluctuates at a value smaller than the first constant current value, voltage control is performed to maintain and supply the ionizer voltage at a predetermined voltage. Said ionizer voltage from a power supply,
A diagnosis of an electrostatic precipitator, wherein an ionizer voltage output signal and an ionizer current output signal proportional to the ionizer current are input, and a message notifying the ionizer status based on a combination of these output signal values is selected and displayed. Detection device. 2. The voltage / current judging section comprises: a voltage value of a voltage having a first rated value of the ionizer voltage;
The first constant current value of the ionizer current;
A combination of a predetermined number of current identification values, each having a value smaller than a constant current value, and a message notifying the status of the ionizer corresponding to the combination data, wherein the ionizer voltage output signal and the ionizer current output signal are input. When comparing the combination of these output signals with a combination of the voltage value of the voltage of the first rated value, the first constant current value, and the predetermined number of current identification values, the comparison result The diagnostic detection device for an electrostatic precipitator according to claim 1, wherein a message for notifying a status of the ionizer corresponding to (i) is selected and displayed. 3. The voltage / current judging unit stores the maximum ionizer voltage value and the maximum ionizer current value in association with a message notifying the abnormality of the ionizer power supply, and stores the minimum ionizer voltage value and the minimum ionizer current value in the ionizer power supply. When the ionizer voltage output signal and the ionizer current output signal are inputted, the combination of these output signals and the stored maximum ionizer voltage value and maximum ionizer current value are stored. 3. The method according to claim 1, wherein a comparison is made with a set of a minimum ionizer voltage value and a minimum ionizer current value, and a message indicating that the ionizer power supply is abnormal or a message of forgetting to turn on the ionizer power supply corresponding to the comparison result is selected and displayed. Electric dust collector described Diagnostic detection device. 4. A corona discharge is generated between a discharge electrode and a discharge counter electrode, and an ionizer for charging dust in the air by the corona discharge and electrostatically adsorbing the dust charged by the ionizer. A dust collecting electrode unit having a collector for collecting dust, a power source for an ionizer connected to the ionizer, a power source for a collector connected to the collector, and a voltage / current determining unit for determining these conditions. A diagnosis and detection device for a dust collector, wherein the power supply for the collector performs a voltage control to supply a collector voltage of a second rated value to the collector, and a collector current to the collector is provided. Is increased and the collector voltage becomes smaller than the voltage of the second rated value, the current control is performed instead of the voltage control to keep the collector current constant. The voltage / current judging unit receives a collector voltage output signal and a collector current output signal proportional to the collector voltage and the collector current from the collector power supply, respectively, and outputs the ionizer voltage output signal. A diagnostic detection device for an electrostatic precipitator, wherein a message notifying the status of the collector based on a combination of values of an ionizer current output signal is selected and displayed. 5. The voltage / current judging section comprises: a voltage value of the collector voltage having the second rated value, a voltage value smaller than a voltage value of the collector voltage having the second rated value, and a collector current value having the constant current value. And a message notifying the status of the collector corresponding to the combined data. When the collector voltage output signal and the collector current output signal are input, a combination of the output signals and the second signal A voltage value of the collector voltage of the rated value of, a voltage value smaller than the voltage value of the collector voltage of the second rated value,
The diagnosis and detection device for an electrostatic precipitator according to claim 4, wherein a comparison is made with a combination of the collector current values of the constant current value, and a message indicating the status of the collector corresponding to the comparison result is selected and displayed. 6. The voltage / current judging section stores a message notifying the abnormality of the collector power supply in correspondence with the maximum collector voltage value and the maximum collector current value, and stores the collector power supply value in the minimum collector voltage value and the minimum collector current value. When the collector voltage output signal and the collector current output signal are inputted, the combination of these output signals and the stored maximum collector voltage value and maximum collector current value, 6. The method according to claim 4, further comprising comparing a set of a minimum collector voltage value and a minimum collector current value with a message indicating that the collector power supply is abnormal or a message indicating that the collector power supply has been forgotten to be turned on. The diagnostic detection device for an electric dust collector according to the above. 7. An ionizer for generating a corona discharge between a discharge electrode and a discharge counter electrode, and electrostatically adsorbing dust charged in the air by the corona discharge and dust charged by the ionizer. A dust collecting electrode unit having a collector for collecting dust, a power source for an ionizer connected to the ionizer, a power source for a collector connected to the collector, and a voltage / current determining unit for determining these conditions. A diagnosis and detection device for a dust collector, wherein the power supply for the ionizer supplies a voltage having a first rated value to the ionizer and an ionizer voltage that fluctuates between high and low with respect to the first rated value. Performs current control following the voltage fluctuation to supply the ionizer current to the ionizer while maintaining it at a first constant current value. While the ionizer current fluctuates at a value smaller than the first constant current value, voltage control is performed to maintain and supply the ionizer voltage at a predetermined voltage, and the power supply for collector performs voltage control. When supplying the collector voltage of the second rated value to the collector, the collector current to the collector increases and the collector voltage becomes smaller than the voltage of the second rated value. In this case, the current control is performed instead of the voltage control to supply the collector current while maintaining the collector current at a constant current value.The voltage / current determination unit includes the ionizer voltage from the ionizer power supply,
An ionizer voltage output signal and an ionizer current output signal proportional to the ionizer current, a collector voltage from the collector power supply, and a collector voltage output signal and a collector current output signal respectively proportional to the collector current are input, and a combination of these output signals is input. A diagnostic detection device for an electrostatic precipitator, wherein a message based on a message is selected and displayed. 8. The voltage / current judging section comprises: a voltage value of a voltage having a first rated value of the ionizer voltage;
The first constant current value of the ionizer current;
A combination of a predetermined number of current discriminating values, each having a value smaller than the constant current value, and providing the first combination data with a message notifying the status of the ionizer, and the collector voltage of the second rated value A voltage value, a voltage value smaller than a voltage value of the collector voltage of the second rated value, a collector current value of the constant current value, and a message notifying the status of the collector corresponding to the second combination data; When the ionizer, the collector voltage output signal, the ionizer, and the collector current output signal are input, a combination of these output signals is compared with the provided first combination data and the second combination data. Select the ionizer status and collector status message corresponding to the result. Diagnostic detection apparatus for an electric dust collector of claim 7, wherein the display. 9. The voltage / current judging section stores a message informing the abnormality of the ionizer power supply in correspondence with the maximum ionizer voltage value and the maximum ionizer current value, and stores the abnormality of the collector power supply in the maximum collector voltage value and the maximum collector current. In addition, a message notifying that forgetting to turn on the ionizer power is stored in correspondence with the minimum ionizer voltage value and the minimum ionizer current value, and the collector power supply value is stored in the minimum collector voltage value and the minimum collector current value. A message notifying the forgetting to be inserted is stored in association with the ionizer, the collector voltage output signal and the ionizer, when the collector current output signal is input, the combination of these output signals, the stored maximum ionizer voltage value and the maximum Iona Is compared with a set of a maximum collector voltage value and a maximum collector current value, a minimum ionizer voltage value and a minimum ionizer current value, and a minimum collector voltage value and a minimum collector current value. The diagnosis and detection device for an electric dust collector according to claim 7 or 8, wherein a message notifying an abnormality of the ionizer power supply and the collector power supply or a message notifying that the ionizer power supply and the collector power supply are forgotten to be turned on is selected and displayed.