KR101212579B1 - Distributing board measuring power loss and comparing input harmonic signal and output harmonic signal - Google Patents

Abstract

PURPOSE: Loss measurement and harmonic comparison switchgear is provided to easily check the operation state of the switchgear by displaying loss power, harmonic content variation of input-output, and power factor variation on the front of the switchgear. CONSTITUTION: Switchgear(110) lowers a voltage from the outside and supplies the voltage to a load. A sensor part(120) includes an input side current sensor(121), input side voltage sensor(122), output side current sensor(123), and output side voltage sensor(124). A signal processor(130) converts an analog input-output currents and voltages measured at the sensor part into an digital input-output currents and voltages. The single processor calculates power loss amount and harmonic comparison amount between input and output using the digital input-output currents and voltages. A display part(140) outputs the calculated power loss amount and harmonic comparison amount. [Reference numerals] (110) Switchgear; (121) Input side current sensor; (122) Input side voltage sensor; (123) Output side current sensor; (124) Output side voltage sensor; (130) Signal processor; (140) Display part

Description

Loss Measurement and Harmonic Comparison Switchboard {Distributing board measuring power loss and comparing input harmonic signal and output harmonic signal}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a distribution board. More specifically, the input voltage, current, and output voltage and current are respectively measured and compared to each other, and the loss is measured. The present invention relates to a loss measurement and a harmonic comparison switchgear that compares harmonic content to compare harmonic content.

The switchgear refers to a power supply unit that converts the high-voltage power supplied from the power plant to low pressure and supplies it to the use facilities such as apartments, houses, and factories. The extra-high voltage power supplied to the switchboard is generally around tens of thousands of volts, and the low-voltage power supplied from the switchboard to the facility is typically several hundred volts (for example, domestic power is 220 volts).

In general, a switchgear includes a transformer, an automatic transfer switch, a power fuse, an instrument current transformer, a circuit breaker, a circuit breaker, and the like, and these components are arranged in a multilayer structure in one enclosure. Among them, the part related to the operation of high voltage power is a current transformer, a circuit breaker, etc., and this is generally referred to as a high voltage plate. A part related to low voltage power operation such as a circuit breaker is generally referred to as a low voltage plate.

The brief description of each part is as follows. A transformer is a device that converts high-voltage power to low-voltage power, and as described above, power must be made high because the power having a very high voltage of tens of thousands of V supplied from a power plant must be reduced to a low voltage of several hundred V. The automatic transfer switch is a device for switching high-voltage incoming lines. It is a formal faucet that is used for more than 1000 KVA, and is an LBS that receives electricity supplied from a power plant and an outdoor faucet switch (ASS, Automatic) used for less than 1000 KVA. Sectionalizing Switch), Air Insulated Section Switch (AISS), High Pressure Switch (ALTS) which is mainly used where power failure should not occur due to important facilities, and Low Pressure Switching which is generally provided in buildings receiving high voltage power. There are many types such as ATS. The low voltage plate is provided with various measuring devices and switching equipment for displaying various information related to the operation of the switchgear, and is formed so that a user can monitor or control the state of switchgear using the switchgear.

As described above, the switchgear is equipped with various measuring devices, switching equipment, etc., so that status monitoring and control can be performed. Switchgear is a device that is provided anywhere in the building, such as apartments, houses, factories, etc. Therefore, there is a need for a general person such as an apartment manager to manage the operation state of the switchgear. However, in general, the switchgear is a complicated and difficult configuration that is difficult for the general public to recognize, and there is a problem that it is difficult to easily recognize the state without a professional manpower.

In order to solve this problem, prior art such as Korean Patent Registration No. 0632813 ("Digital Graphics Switchgear System", 2006.09.29), Korean Patent Registration No. 0428789 ("Digital Graphics Switchgear System", 2008.06.25) Discloses a switchgear system having a digital graphic board that measures and outputs voltage, current, power, and the like at various points of the switchgear, and also receives an input and controls each point. However, these digital graphics boards have also been improved in that they simply display each point of the switchboard system on a single screen, and still remain very difficult for non-professional personnel to use.

On the other hand, considering that the main function of the switchgear is to distribute the high-voltage power to low pressure, it can be seen that the most important consideration in the operation of the switchgear is the power loss. In general, the degree of change in the harmonic content and power factor of the input / output is also an important index to see whether the operation of the switchgear is stable.

1. Korea Patent Registration No. 0632813 ("Digital Graphics Distribution System", Sep. 29, 2006) 2. Korean Patent Registration No. 0428789 ("Digital Switchboard System Based on Digital Graphics", 2008.06.25)

Accordingly, the present invention has been made to solve the problems of the prior art as described above, and an object of the present invention is to easily measure and display the loss power, harmonic content change of input / output, power factor change, and the like. It provides loss measurement and harmonics comparison switchboards that make it easy to monitor operating conditions.

Loss measurement and harmonics comparison switchgear of the present invention for achieving the above object, the power distribution unit 110 for supplying a load by lowering the voltage of the power supplied from the outside; An input side current sensor 121 and an input side voltage sensor 122 provided at the power input side of the power distribution unit 110 to measure an input side current and a voltage, respectively, and an output side current provided at the power output side of the water distribution unit 110; A sensor unit 120 including an output side current sensor 123 and an output side voltage sensor 124 each measuring a voltage; A signal processor 130 for digitally converting the analog input / output current and voltage values measured by the sensor unit 120 and calculating a power loss amount and a harmonic comparison amount between the input and output using the digitally converted input / output current and voltage values; A display unit 140 for outputting and displaying the amount of power loss and the harmonic comparison amount calculated by the signal processor 130; And a control unit.

In this case, the signal processing unit 130 compares the voltage harmonics and current harmonics between the input and output to calculate the harmonic content, characterized in that to calculate the harmonic comparison amount.

In addition, the display unit 140 is formed to receive a user input, characterized in that for controlling the operation of the power distribution unit 110 according to the signal received through the display unit 140.

According to the present invention, the loss power, harmonic content change and power factor change generated in the switchgear are displayed on the front of the switchgear, so that the operation state of the switchgear can be easily understood even by a professional. In particular, when control to reduce power and energy is required, it is easy to derive the optimal switchgear operating conditions by comparing and measuring the loss during load fluctuations. There is. That is, the present invention has the effect of maximizing user convenience in switchgear operation and management.

In addition, according to the present invention, because the operation and management of the switchgear is convenient, various controls (for energy saving, etc.) can be made more easily than the conventional one without necessarily mobilizing specialized personnel, and ultimately, energy saving effect can also be obtained. There is an advantage.

1 is a schematic configuration diagram of a switchgear system of the present invention.

Hereinafter, the loss measurement and the harmonic comparison switchgear according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

1 schematically illustrates a switchgear system configuration of the present invention. The loss measurement and harmonic comparison switchgear 100 of the present invention includes a switchgear 110, a sensor 120, a signal processor 130, and a display 140.

The water distribution unit 110 serves to supply the load by lowering the voltage of the power supplied from the outside, that is, functions as a general switchgear as described above. In other words, the power distribution unit 110 is a transformer, a reactor, a capacitor, an uninterruptible power supply (UPS), an automatic transfer switch (AISS), a power fuse (PF), a current transformer (PT), an automatic circuit breaker (ACB), power distribution Circuit breaker (MCCB) and the like. Since the detailed configuration of the switchgear 110 is the same as the configuration of the general switchgear detailed description thereof will be omitted.

The sensor unit 120 is provided on the power input side of the power distribution unit 110, and the input side current sensor 121 and the input side voltage sensor 122 for measuring the input side current and voltage, respectively, the power of the power distribution unit 110 It includes an output side current sensor 123 and the output side voltage sensor 124 provided on the output side to measure the output current and voltage, respectively. In this case, current and voltage values measured by the sensors 121, 122, 123, and 124 of the sensor unit 120 are analog signals.

The signal processor 130 first digitally converts the analog input / output current and voltage values measured by the sensor unit 120 and calculates the amount of power loss and harmonic comparison between the input and output using the digitally converted input / output current and voltage values. do. As described above, since the current and voltage values measured by the sensor unit 120 are analog signals, it is necessary to digitize them for easy calculation. For this purpose, the signal processing unit 130 has an A / D (Analog-to A device such as a digital converter may be included.

By using the input / output current and voltage values measured by the signal processor 130, input power and output power may be calculated, respectively, and power loss between input and output may be calculated based on a difference between the input power and the output power. The signal processor 120 also calculates the harmonic content by comparing voltage harmonics and current harmonics between input and output as the harmonic comparison amount. In this case, synchronization of channels is required to measure a phase offset between waveforms of voltage and current. The signal processor 120 synchronizes data by executing all channels at the same internal clock. The phase offset can be calculated using the data obtained.

The display unit 140 outputs and displays the amount of power loss and the harmonic comparison amount calculated by the signal processor 130. The display unit 140 is made of a Human Machine Interface (HMI) device so that the user can intuitively easily recognize the data displayed on the display unit 140. Broadly speaking, an HMI device generally refers to an overall input / output device for operating a machine. However, according to the development of current technology, an HMI device may be used as a term for an input / output device such as a touch panel. That is, the display unit 140 may be formed in any form as long as the power loss amount and the harmonic comparison amount calculated by the signal processor 130 can be displayed, but may be formed in a form such as a touch panel. have.

In addition, the display unit 140 is formed to receive a user input, it is preferable to be made to control the operation of the power distribution unit 110 according to the signal received through the display unit 140. As described above, the power loss amount and the harmonic comparison amount are output through the display unit 140, so that the manager of the power distribution unit 110 may monitor the operation state of the power distribution unit 110. At this time, if the power distribution unit 110 is still operating in an inappropriate operating condition, it is necessary to appropriately change the operating conditions by adjusting each part of the power distribution unit 110. Therefore, it is preferable that the display unit 140 is configured to receive a user input and control the power distribution unit 110 according to the user input. When the display unit 140 is formed in the form of a touch panel, it is very easy to output a certain value and to receive a user input.

The conventional switchgear only provides a function level that measures voltage and current in either direction of the primary side (input) and secondary side (output) and displays it with a digital meter or an analog meter. Did not do it. However, the loss measurement and harmonic comparison switchgear 100 of the present invention measures the voltage and the current at both the input side and the output side of the power distribution unit 110, thereby providing accurate power loss and harmonic comparison amount in real time. Therefore, by utilizing the switchgear 100 of the present invention, it is possible to measure the basic data for the performance verification that is a problem in the power energy saving business. In addition, as described above, by easily receiving the user input in the switchgear 100 of the present invention to enable the control of the switchgear 110, it is possible to maintain the optimal switchgear operating conditions intelligent operation of the switchgear for power saving It becomes possible.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

100: switchboard (of the present invention)
110: power distribution unit 120: sensor unit
121: input side current sensor 122: input side voltage sensor
123: output current sensor 124: output voltage sensor
130: signal processing unit 140: display unit

Claims (3)

A water distribution unit 110 supplying the load by lowering the voltage of the power supplied from the outside;
An input side current sensor 121 and an input side voltage sensor 122 provided at the power input side of the power distribution unit 110 to measure an input side current and a voltage, respectively, and an output side current provided at the power output side of the water distribution unit 110; A sensor unit 120 including an output side current sensor 123 and an output side voltage sensor 124 each measuring a voltage;
A signal processor 130 for digitally converting the analog input / output current and voltage values measured by the sensor unit 120 and calculating a power loss amount and a harmonic comparison amount between the input and output using the digitally converted input / output current and voltage values;
A display unit 140 for outputting and displaying the amount of power loss and the harmonic comparison amount calculated by the signal processor 130;
Loss measurement and harmonics comparison switchgear comprising a.
The method of claim 1, wherein the signal processor 130
Loss measurement and harmonic comparison switchgear, characterized in that the harmonic content ratio is calculated by comparing voltage harmonics and current harmonics between input and output, and the harmonic comparison amount is calculated therefrom.
The method of claim 1, wherein the display unit 140
Loss measurement and harmonics comparison switchgear, which is formed to receive a user input, and controls the operation of the switchgear 110 according to the signal received through the display unit 140.

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