KR101697632B1 - Electric power distributing board equipped with self diagnosis - Google Patents

Abstract

The present invention relates to a distribution board, and more particularly to a distribution board having a self-testing function. The present invention is to provide a distribution board which can periodically test characteristics of zero-sequence harmonic filtering of a power distribution apparatus, a lifespan of a zero-sequence harmonic filter, and the like. For this purpose, the distribution board according to a preferable embodiment of the present invention comprises: an overload protection unit which measures the temperature of a zero-sequence harmonic filter via a temperature sensor installed in the zero-sequence harmonic filter, blocks the zero-sequence harmonic filter by turning off a switch when the temperature of the zero-sequence harmonic filter excesses a preset temperature upper limit, and operates the zero-sequence harmonic filter again by turning on the switch when the temperature of the zero-sequence harmonic filter is equal to or lower than a preset lower limit temperature while the zero-sequence harmonic filter has been blocked; and a performance evaluation unit which tests performance of the zero-sequence harmonic filter by using zero-sequence components introduced into a commercial power system during a period for which the zero-sequence harmonic filter has been blocked.

Description

[0001] ELECTRIC POWER DISTRIBUTING BOARD EQUIPPED WITH SELF DIAGNOSIS [0002]

The present invention relates to a distribution board, and more particularly, to a distribution board having a built-in self-diagnosis function.

Power generated by the power plant through the transmission and distribution grid is supplied to the customer. At this time, electric power is branched in the switchgear, the motor control panel, and the distribution panel to be supplied to a plurality of customers. The switchgear, the motor control panel, and the distribution board branch the power from the power distribution system and supply power to the customer. Hereinafter, the electric power distribution apparatus is referred to as a power distribution unit, a motor control panel, and a distribution board. The power distribution device includes a main breaker and a branch breaker. The power supplied through the main breaker branches off to the load side through the branch line, and the branch circuit breaker is installed on the branch line to interrupt the power supplied to the load side.

As is well known, in order to minimize system harm caused by image harmonics generated on the load side, the power distribution apparatus has an image harmonic filtering function. To this end, an image harmonic filter is installed inside the power distribution device. The image harmonics filter deteriorates and performance deteriorates with the number of days of installation. When image harmonics are introduced into the system, problems such as decrease in transmission capacity and loss of transformer, decrease in power factor, condenser phenomenon and burnout, overheating and overheating of neutral line overcurrent occur. Therefore, the image harmonic filtering characteristics of the power distribution apparatus and the life of the image harmonic filter need to be periodically diagnosed.

However, the conventional power distribution device fails to provide the image harmonic filtering characteristic and the diagnostic function for the life of the image harmonic filter.

Korean Patent Publication No. 10-1147004 (Published on May 23, 2012)

Accordingly, it is an object of the present invention to provide a power distribution device capable of periodically diagnosing image harmonic filtering characteristics of a power distribution device and a lifetime of an image harmonic filter.

According to an aspect of the present invention, there is provided a distribution board including a CT (Current Transformer) for measuring image harmonics generated at a load side; And an image harmonic filter for blocking the image harmonics generated at the load side from entering the system,
Especially, image harmonic filter
The temperature of the image harmonic filter is measured through a temperature sensor installed in the image harmonic filter, and when the temperature of the image harmonic filter exceeds a predetermined upper limit temperature, the image harmonic filter is cut off by turning off the switch, An overload protector for turning on the image harmonic filter when the temperature of the image harmonic filter is lower than a predetermined lower limit temperature,
Using the image harmonic measurement value during the switch-off time of the overload protection unit among the image harmonics measurement values measured by the CT, calculates an image signal flowing into the commercial power system at a time when the image harmonic filter is cut off, A performance evaluating unit for diagnosing the performance of the image harmonic filter,
Calculating a rated capacity exceeding time, and when the calculated rated capacity exceeding time exceeds a predetermined reference exceeding time, it is determined that the image harmonic performance index exceeds the predetermined reference performance index due to exceeding the rated capacity, And includes a cause analysis unit for determining that the image harmonic performance index exceeds the predetermined reference performance index if the time exceeding the rated capacity is less than the preset reference time exceeding the predetermined threshold.
Here, the cause analysis unit may provide an alarm notifying a capacity increase when there is a time exceeding a predetermined single rated capacity excess time in the cutoff time.

And the performance evaluating unit may calculate the following equation,

"Image Harmonic Filter Performance Index = Image minus the amount of image input into the system during the time the image harmonic filter is blocked /

And provides an alarm when the calculated image harmonic filter performance index exceeds a predetermined reference performance index.

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The present invention can periodically diagnose the image harmonic filtering characteristics of the power distribution apparatus and the life of the image harmonic filter.

1 is a schematic diagram of a power distribution device according to a preferred embodiment of the present invention.
Fig. 2 is a functional block diagram of the image harmonic filter of Fig.
3 is a graph showing information used for diagnosis of the image harmonic filter.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Like reference numerals are used for like elements in describing each drawing. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, .

On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention.

The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

Hereinafter, a power distribution apparatus according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The items described below are applied in common to the switchgear, the motor control panel, and the distribution panel. That is, in the following, the power distribution device may be any one of a switchboard, an electric motor control board, and a distribution board.

Referring to FIG. 1, an image harmonic filter 100 is connected to R, S, T, N phase bus bars connected to the main breaker 10 of the power distribution device 1. As is well known, the image harmonic filter 100 can remove image harmonics by absorbing image harmonics flowing through an N-phase bus bar and circulating the harmonics therein.

A switch 200 may be provided on the R, S, and T sides corresponding to the output terminals of the image harmonic filter 100. By turning on / off the three switches shown in Fig. 1 at the same time, the image harmonic filter can be turned on / off.

2, the image harmonic filter 100 includes an image distribution unit 110, an overload protection unit 120, a performance evaluation unit 130, a cause analysis unit 140, a display unit 150, a filtering unit 160 < / RTI >

The image minute measuring unit 110 can measure image harmonics generated on the load side through a CT (Current Transformer) installed on the N-phase bus bar. The image minute measuring unit 110 may be installed on the commercial power system side based on a point where the N phase of the image harmonic filter is connected to the N phase bus bar.

The overload protection unit 120 may measure the temperature of the image harmonic filter 100 through a temperature sensor (not shown) provided in the image harmonic filter 100. The overload protection unit 120 may block the image harmonic filter 100 by turning off the switch 200 when the temperature of the image harmonic filter 100 exceeds a predetermined upper limit temperature (for example, 75 DEG C) have. Thus, the image harmonic filter 100 can be prevented from being burned out by overloading. When the image harmonic filter 100 is shut off and the temperature of the image harmonic filter 100 becomes lower than a predetermined lower limit temperature (for example, 45 ° C), the switch 200 is turned on, Can re-apply the image harmonic filter 100. [ In this way, the overload protection unit 120 can prevent the image harmonic filter 100 from being burnt by overloading the image harmonic filter 100 according to the temperature of the image harmonic filter 100.

The performance evaluating unit 130 may perform performance diagnosis of the image harmonic filter 100 using the image signal input to the commercial power system at a time when the image harmonic filter 100 is blocked. FIG. 3 shows an image generated at the load side during the day and an image input to the commercial power system during the day. In FIG. 3, T1 to T4 represent the time when the image harmonic filter 100 is blocked. As is well known, the image harmonic filter 100 is the most essential function to block the image harmonics generated on the load side from entering the commercial power system. Therefore, the performance of the image harmonic filter 100 should be diagnosed in view of whether the image harmonic filter 100 blocks the image harmonics flowing into the commercial power system. However, as described above, when the image harmonic filter 100 is cut off to protect the image harmonic filter 100 due to overload, the image harmonics generated from the load side are directly introduced into the power system. Therefore, the performance of the image harmonic filter 100 should be diagnosed from the viewpoint of whether the image harmonics flowing into the commercial power system exceeds the preset value while the image harmonic filter 100 is shut off.

Accordingly, the performance evaluating unit 130 can diagnose the performance of the image harmonic filter 100 according to the following equation.

In the above expression, "the image signal input into the system during the time when the image harmonic filter is blocked" may be the image signal input into the system during the total time during which the image harmonic filter 100 is blocked by the overload protection unit 120 . In addition, the entire image for one day may be the total image generated by the load during the day.

The performance evaluation unit 130 may display the image harmonic performance index calculated by the above formula through the display unit 150. [ The performance evaluation unit 130 may provide an alarm through the display unit 150 when the image harmonic filter performance index exceeds a preset reference performance index, for example, 20%.

The reason analyzing unit 140 can analyze why the image harmonic performance index exceeds the predetermined reference performance index when the performance evaluating unit 130 exceeds the predetermined reference performance index. At this time, the cause analysis unit 140 may calculate the total time (hereinafter referred to as "rated capacity excess time") exceeding the rated capacity of the image harmonic filter before the image harmonic filter 100 is shut off. The rated capacity overtime may be the sum of times exceeding the rated capacity before each shutdown. In the case of FIG. 3, the sum of times exceeding the rated capacity immediately before T1, T2, T3, and T4 may be the rated capacity excess time.

When the rated capacity excess time exceeds the preset reference exceeded time (for example, 30 minutes), the cause analysis unit 140 determines that the reason why the image harmonic performance index exceeds the preset reference performance index is due to exceeding the rated capacity And inform the display unit 150 of the determination result. On the other hand, when the rated capacity exceeding time is equal to or less than the preset reference exceeding time, it is determined that the image harmonic performance index exceeds the preset reference performance index due to the performance degradation of the image harmonic filter 100, And may be informed via the display unit 150. FIG.

If there is a blocking time exceeding a predetermined single rated capacity exceeding time (for example, 10 minutes) during the blocking time (among T1 to T4 in FIG. 3), the cause analysis unit 140 generates an alarm Can be provided.

The display unit 150 can display the evaluation result of the performance evaluation unit 130 and the evaluation result of the cause analysis unit 140 as described above. As shown in FIG. 3, the display unit 150 can display images input into the commercial power system during the day, images generated at the load side during the day, and rated capacities.

The filtering unit 160 may be implemented in the form of a zigzag wiring transformer as is well known. The filtering unit 160 can remove the image harmonics by circulating the image components flowing through the N-phase side.

100: image harmonic filter
110:
120: Overload protection section
130: Performance evaluation unit
140: Causal Analysis Department
150:
160: Filtering unit

Claims (4)

A CT (Current Transformer) for measuring image harmonics generated at the load side;
And an image harmonic filter for blocking the image harmonics generated at the load side from entering the system,
The image harmonic filter
The temperature of the image harmonic filter is measured through a temperature sensor installed in the image harmonic filter, and when the temperature of the image harmonic filter exceeds a predetermined upper limit temperature, the image harmonic filter is cut off by turning off the switch, An overload protector for turning on the image harmonic filter when the temperature of the image harmonic filter is lower than a predetermined lower limit temperature,
Using the image harmonic measurement value during the switch-off time of the overload protection unit among the image harmonics measurement values measured by the CT, calculates an image signal flowing into the commercial power system at a time when the image harmonic filter is cut off, A performance evaluating unit for diagnosing the performance of the image harmonic filter,
Calculating a rated capacity exceeding time, and when the calculated rated capacity exceeding time exceeds a predetermined reference exceeding time, it is determined that the image harmonic performance index exceeds the predetermined reference performance index due to exceeding the rated capacity, And a cause analysis section for determining that the image harmonic performance index exceeds the predetermined reference performance index when the rated capacity exceeding time is equal to or less than the predetermined reference overtime time,
Wherein the cause analysis unit provides an alarm notifying the capacity increase when there is a time exceeding a predetermined single rated capacity excess time in the cutoff time.
The method according to claim 1,
The performance evaluating unit may calculate the following equation,
Image Harmonic Filter Performance Index = Image in which the image harmonics filter enters the system during the cutoff time / Full image during the day
The performance index of the image harmonic filter is calculated,
Wherein the alarm is provided when the calculated image harmonic filter performance index exceeds a predetermined reference performance index.
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