JPH03270745A - Abnormality detection circuit of electric precipitator - Google Patents

Abstract

PURPOSE:To inform the generation of abnormality to a user by using a dust collecting element, a high voltage turn-OFF means, a high voltage output variable means and a display means. CONSTITUTION:When an outlet 1 is inserted, photocouplers 10, 91 are turned ON. A high voltage generator 11 is turned ON and low voltage is applied to a dust collecting element 12. The abnormality detecting reference level set to a CPU 8 is also set to the lowest reference level. When it is judged that the abnormality detecting reference level reaches an upper limit reference level, abnormality is detected. When abnormality is detected, it is judged that abnormality is caused by arc discharge under high voltage and a high voltage power supply is turned OFF. Then, the LED showing the display of the dust collecting element is allowed to light. By this method, the cause of abnormality can be judged and accurate repairing can be carried out.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to an abnormality detection circuit that detects an abnormality in an electrostatic precipitator that collects dust using static electricity generated by high voltage.

<Prior Art> In an abnormality detection circuit of a conventional electrostatic precipitator, when an abnormality in a dust collection element is detected based on the voltage applied to the load or the current flowing through the load, the application of high voltage is temporarily stopped.

FIG. 5 is a main circuit diagram for explaining the operation of the abnormality detection circuit of this conventional electrostatic precipitator, in which a high voltage is applied from a high voltage generator 42 to high voltage electrodes 41a and 41b. . This applied voltage is divided by resistors 42b and 42c and monitored by the CPU 43. A high voltage on/off command signal is supplied from the CPU 43 to the high voltage generator 42 .

If the applied voltage drops below the reference level for some reason, the CPO 43 detects this and issues a high voltage off signal to the high voltage generator 42. After a while, the high voltage generator 42 is turned on and the operation is resumed.

<Problems to be Solved by the Invention> By the way, there are two types of causes of abnormalities; one is due to water, lumps, etc. adhering to the electrodes. The other cause is a failure such as a short circuit in the control circuit or dust collection element.

The former induces arc discharge that occurs between the electrodes of the dust collection element, and therefore appears only after the voltage between the electrodes reaches a certain level. The latter gradually appears as an overcurrent proportional to the voltage between the electrodes, starting when the voltage is low.

In conventional electrostatic precipitator abnormality detection circuits, the reference level for detecting abnormal conditions is always constant, and even if an abnormality is detected, it is difficult to determine whether it is due to the abnormality or water or lumps attached to the electrodes. It is not possible to determine whether this is due to a failure such as a short circuit in the control circuit or dust collection element.

Therefore, there is a problem in that it is not possible to distinguish between an abnormality due to a failure of the control circuit or dust collection element and an arc discharge due to dust, water, etc., and even if the former failure occurs, it is not possible to notify the user.

An object of the present invention is to detect an abnormality using different criteria corresponding to the cause of the abnormality in an abnormality detection circuit of an electrostatic precipitator that turns off the high voltage output of a high voltage generator when an abnormality is detected, and to notify the user of the abnormality. The object of the present invention is to provide an abnormality detection circuit that can notify the user of an abnormality.

Means for Solving the Problems> To achieve the above object, the abnormality detection circuit of the electrostatic precipitator of the present invention monitors the output of the high voltage generator, and detects the high voltage when an abnormality is detected based on a reference level. High voltage off means for turning off the high voltage output of the generator; high voltage output variable means for increasing the voltage Va applied to the dust collection element from the time the high voltage generator is switched on; A reference level variable means for increasing the voltage Va to an upper reference level in response to an increase in the voltage Va, and displaying an abnormality in the device when an abnormality is detected based on the reference level when the voltage is at the reference level or lower than the upper reference level. It is equipped with a display means.

Function> The above-mentioned abnormality detection circuit increases the high-voltage output Va after turning on the high-voltage generator and starting the operation of the electrostatic precipitator, and the reference level for detecting abnormality is also set to the high-voltage It is gradually increased to the upper limit reference level in accordance with the rise in the output Va.

Figure 1 shows the high voltage output Va and the reference level (voltage v
It is a graph showing the fluctuation state of the current (expressed as th, but it may be based on the current), and is a graph showing the fluctuation state of the current at time t-t.

When the high voltage generator is turned on, the high voltage output Va gradually increases. Along with this, the reference level vth also rises. The reference level vth is the upper reference level Vth
When the value increases to u (time tl), the value remains approximately constant thereafter.

Therefore, immediately after turning on the high voltage generator,
The high voltage output Va is still low, and abnormalities such as arc discharge cannot occur. If a voltage drop below the reference level vth is detected at this time, the cause is considered to be a failure inherent in the device, such as a short circuit in the dust collecting element. At this time, the abnormality detection circuit turns off the high voltage generator and drives the display means to display the abnormality. By the way, standard level v
If an abnormality occurs for the first time after th reaches the upper reference level V thu, it is highly likely that it is due to arc discharge or the like. Therefore, it is not necessarily necessary to externally display the abnormality using the display means.

In the graph of FIG. 1, the high voltage output Va and the reference level vth increase linearly, but they are not limited to this, and may increase stepwise, for example.

<Example> Embodiments will be described in detail below with reference to the accompanying drawings showing examples.

FIG. 2 shows a specific circuit of the abnormality detection circuit.

The voltage of the commercial power supply supplied from the outlet 1 is stepped down through the power transformer 5, rectified and smoothed through the rectifier diode and constant voltage IC 7, and then supplied to the CPU 8 as DC power. Further, the voltage of the commercial power source is also supplied to the fan motor 2 through the relay switch 4a.

The CPU 8 includes an abnormality display unit 13, a fan motor ON relay 4b, a photocoupler 91. ...9n, a high voltage output level switching unit 9, a high voltage power supply unit on/off photocoupler 10, and a high voltage generator 11 are connected. The abnormality display unit 13 includes various abnormality display LEDs 141, 142. −． 14
n is arranged.

The high voltage generator 11 includes a high voltage output level switching photocoupler 91. ..., 9n, and turns on/off the high voltage output in response to the on signal of the high voltage power supply unit on/off photocoupler 10. 12 is a dust collection element to which a voltage is applied from the high voltage generator 11.

The CPU 8 and the photocoupler 10 for turning on and off the high voltage power supply unit are a high voltage off means 16 that monitors the output of the high voltage generation bag W11 and turns off the high voltage output of the high voltage generation device 11 when an abnormality is detected based on a reference level. It fulfills the function of

Further, the CPU 8 and the high voltage output level switching unit 9 function as a high voltage output variable means 15 that increases the voltage Va applied to the dust collection element 12 from the time when the high voltage generator 11 is switched on. It is something.

The operation of the abnormality detection circuit will be explained based on a flowchart (see FIG. 3). First, when the outlet 1 is inserted, the high-voltage power supply unit on/off photocoupler 10 is turned on, and the high-voltage output level switching photocoupler 91 is turned on.

As a result, the high voltage generator 11 turns on (Step ■)
, the lowest voltage v1 is applied from the high voltage generator 11 to the dust collection element 12. At the same time, the abnormality detection reference level vth set inside the CPU 8 is also set to the lowest reference level V thl (step ■).

Next, the abnormality detection reference level vth is set to the upper limit reference level V
Check whether thu has been reached (step ■). If not, proceed to step ■ and check the current high voltage reference level (V
Anomaly detection is performed based on thl).

When time to has elapsed without any abnormality, the applied voltage Va is increased by voltage Vo, the abnormality detection reference level vth is also increased by voltage V tho (step ■), and step ■
Return to Until the high voltage output level reaches the upper limit reference level V thu in step (2), the loop from step (2) to step (2) is repeated. If an abnormality is detected in step (2) during this repetition, it is determined that the dust collection element 12 or a component is malfunctioning (step (2)), the high voltage power supply is turned off, and the abnormality display LEDs 141.142. ..., 1
4n, the LED indicating the dust collection element is turned on.

If it is determined in step (2) that the abnormality detection reference level vth has reached the upper limit reference level V thu, abnormality detection is performed in step [phase]. This content is a step■
It is the same as that of When an abnormality is detected, it is determined that it is caused by arc discharge under high voltage (step ■), and the high voltage power supply is turned off for a time T (step @). This time T
is longer than the time required to eliminate temporary abnormalities such as arc discharge due to dust or arc discharge due to insufficient drying after cleaning the dust collection element (for example, the time required to dry the dust collection element after cleaning). It is chosen so that it is not too long. After time T has elapsed, the high voltage generator 11 is turned on again (step ■), and the following procedure is repeated.

If no abnormality is detected in step [shared], wait for time 10 to elapse in step [yes], and when it has passed, check whether the applied voltage Va has reached the upper limit voltage Vu (step ■), and check whether the applied voltage Va has reached the upper limit voltage Vu. If so, increase the voltage Va by Vo and return to step [stock].

If the upper limit voltage Vu has been reached, the process returns to step [share] without increasing the voltage Va.

FIG. 4 shows the output waveforms of the high voltage output level Va and the abnormality detection reference level vth, which change stepwise over time after the high voltage power supply is turned on. When high voltage output Va is turned on, high voltage output level Va1 abnormality detection reference level vt
Both h are set to initial voltages Val and V thl.

Thereafter, each time t1 elapses, the high voltage output level Va
increases by the voltage Vo, and the abnormality detection reference level vth increases by the voltage Vtho. Abnormality detection standard level v
th reaches the upper limit reference level V thu, the abnormality detection reference level vth is held at vthυ, and when the high voltage output level Va reaches the upper limit reference level VatJ, the high voltage output level Va is held at the upper limit level Vau.

In this way, it is possible to detect whether the abnormality is due to a failure of an element or component or simply due to temporary arc discharge due to water, dust, etc. adhering to the electrode, and to notify the outside only if it is the former.

Note that the present invention is not limited to the above embodiments, and various design changes can be made without changing the gist of the present invention.

<Effects of the Invention> As described above, according to the abnormality detection circuit of the electrostatic precipitator of the present invention, after turning on the voltage Va of the high voltage generator and starting the operation of the electrostatic precipitator, the voltage Va is turned on. At the same time, the reference level for detecting an abnormality is also gradually increased up to the upper limit reference level V thu in accordance with the rise in the high voltage output Va. It can be determined whether the abnormality is due to water or debris adhering to the electrode, or a short circuit in the control circuit or dust collection element.

Therefore, in the case of the former type of failure, the user can be notified through the display means, allowing for appropriate repair.

[Brief explanation of drawings]

Fig. 1 is a waveform diagram of the abnormality detection reference level and high voltage level according to the present invention, Fig. 2 is a schematic block diagram showing the configuration of an abnormality detection circuit of an electrostatic precipitator, and Fig. 3 is an abnormality detection according to the present invention. A flowchart showing the procedure, FIG. 4 is a waveform diagram of the abnormality detection reference level and high voltage output level, and FIG. 5 is a main circuit diagram for explaining the operation of the abnormality detection circuit of a conventional electrostatic precipitator. 8...CPU. 9... High voltage output level switching unit, 10...
・Photocoupler for high voltage power supply unit on/off, 11...
・High voltage generator, 12...Dust collecting element, 13...Display circuit 15...High voltage output variable means 16...High voltage off means Agent Patent attorney Hirokatsu Kamei, ;, Near ', 1
q- (1 other person) 9...High voltage output level switching unit 10--Photocoupler for turning on/off high voltage power supply unit 13--Display circuit

Claims (1)

[Claims] 1. High voltage generator (11) and high voltage generator (11)
) to which the voltage Va generated from the dust collection element ( ) is applied.
12) and monitor the output of the high voltage generator (11),
When an abnormality is detected based on the reference level, the high voltage generator (
High voltage off means (16) for turning off the high voltage output of 11)
and a high voltage output variable means (15) for increasing the voltage Va applied to the dust collection element (12) from the time when the high voltage generator (11) is switched on; and a display means (13) for displaying an abnormality in the apparatus when an abnormality is detected based on the reference level when the reference level is lower than the upper reference level. ) An abnormality detection circuit for an electrostatic precipitator.