KR101415334B1 - Simulator for switchgear for new energy sources - Google Patents

Abstract

The present invention relates to a simulator for a power receiving and distributing system for a new energy source. The simulator includes: an input unit inputting information on a plurality of equipment installed at the place where the new energy source is received and distributed and an inner line connecting the plurality of equipment; a recognition unit setting an equipment to be measured from the plurality of equipment and recognizing information on the equipment to be measured; a calculation unit calculating a rated normal current and a fault current at the equipment to be measured using the information on the inner line inputted from the input unit and the information on the equipment to be measured which is recognized from the recognition unit; and a display unit displaying the rated normal current and the fault current at the equipment to be measured, which are calculated from the calculation unit, and the information on the inner line.

Description

{SIMULATOR FOR SWITCHGEAR FOR NEW ENERGY SOURCES}

More particularly, the present invention relates to a power supply simulator for a new power supply, and more particularly, to a power supply simulator for a power supply system And a power supply simulator for new energy supply that can automatically analyze and evaluate the power plant equipment including new energy supply by automatically calculating the capacity of each equipment and automatically providing operation data such as protection coordination setting will be.

As the global greenhouse gas increases, the introduction of new energy sources using natural energy such as solar power and wind power is gradually increasing to overcome global environmental problems. However, according to the introduction of a new energy source, it is required to configure and operate various devices considering the influence thereof in existing water distribution facilities, but in actuality, in the power distribution panel facilities, existing configuration methods and operating instructions are adhered to. In other words, unlike the electrical equipment system where only the existing load exists, the power distribution equipment in the case where the new energy supply is linked to the power supply mixes with the load. Therefore, (Increase of fault current, protection coordination, voltage fluctuation, generation of harmonics, etc.). Therefore, appropriate countermeasures are required.

Therefore, in order to construct and operate a power distribution system that has both a load and a power source, we started research on a power supply simulator for a new energy supply system that can automatically evaluate and analyze the power supply and distribution system considering the problems of complicated grid connection . Specifically, when the new energy supply is operated in conjunction, the device configuration of the switchboard and the capacity of each device are automatically calculated in consideration of the changing fault current and load current, and the operation data such as the protection coordination setting is automatically provided , We have begun to study devices that can facilitate analysis and evaluation of power plant equipment including new energy sources.

As a part of this, the following papers have been published in the application of the present invention in the form of a proof document for the patent in accordance with the provision of Article 30 of the Patent Act, and the present application is filed based on these papers .

(1) Nobodaoko et al., "A Study on the Manufacture of S / W Simulator for New Energy Supply System", Proceedings of Spring Meeting of the Korean Academy of Science Technology, (2) Nova Seok et al., "Manufacture of new energy supply and distribution system simulator using AutoBase", 2012 Summer Conference of KIEE, July 2012

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a system and method for automatically calculating a load current and an accident current for a power distribution apparatus connected to a new energy source, The present invention also provides a simulator for a new-energy power supply and a power supply that can easily evaluate the influence of a new energy source.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise form disclosed. There will be.

The present invention is directed to an apparatus and a method for controlling a plurality of devices installed in a place where a new-energy power source is distributed, and an input unit for inputting information on an extension line connecting the plurality of devices. A recognition unit for setting a measurement device to be measured among the plurality of devices and recognizing information about the measurement device; An arithmetic unit for calculating a rated current and an accident current in the measuring instrument by using the information about the extension input from the input unit and the information about the measuring instrument recognized by the recognizing unit; And a display unit for displaying a rated current and a fault current in the measuring device calculated by the calculating unit together with information on the extension.

At this time, the switching power supply simulator for new-energy power supply calculates the breaking capacity of the measuring device from the rated current and the fault current in the measuring device calculated by the calculating unit, and then compares the breaking capacity with the information about the measuring device recognized by the recognizing unit And a determination unit for determining whether the measurement apparatus is appropriate.

The input unit in the power supply simulator for a new-energy power source extracts data on an extension line connecting the plurality of devices and the plurality of devices from an electrical equipment drawing at a place where the new-energy power source is supplied, And then inputting information on the plurality of devices and the extension.

Also, the recognition unit may be configured to recognize the information about the measuring instrument from a pre-stored database or to search and recognize from a communication network connected to the outside.

In addition, when the determination unit determines that the measurement device is not suitable, the determination unit may repeat the predetermined number of times until the determination unit determines that the measurement device is appropriate, Information about the device can be re-recognized from the pre-stored database, or can be rediscovered and recognized from a communication network connected to the outside.

According to the power plant simulator for a new energy supply according to the present invention, it is possible to estimate an accident current and a device capacity which are changed as power supply of a new energy source is changed, so that it is possible to evaluate an influence according to a new energy supply.

1 is a schematic diagram briefly showing a configuration of a power and room simulator for a new energy supply according to the present invention.
FIG. 2 is a block diagram illustrating an electric facility capacity of a switchboard associated with an example of a new energy supply for explaining a switchboard simulator for a new energy supply according to the present invention.
FIG. 3 is a view of a power and distribution panel in which a new energy supply is connected to illustrate a power and room simulator for a new energy supply according to the present invention.
4 is a diagram showing a plurality of devices recognized by a recognition unit included in a new-energy supply-and-demand simulator for a new-energy power supply according to the present invention and displayed on a display unit and an extension line connecting the devices.
FIG. 5 is a part of a screen displayed on a display unit included in a new-energy supply-and-demand simulator according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in order to avoid unnecessarily obscuring the subject matter of the present invention.

FIG. 1 is a schematic diagram for explaining a configuration of a power and room simulator for a new energy supply according to the present invention. FIG. 2 is a schematic diagram of a new energy supply simulator for a new energy supply according to the present invention. FIG. 3 is a view of an electric facility in a place where a new power source for power supply is provided in order to explain a power plant simulator for a new energy supply according to the present invention . 4 is a view showing a plurality of devices recognized by a recognition unit included in a new-energy supply-and-demand simulator for a new-energy power supply and displayed on a display unit and an extension connected thereto, This is a part of the screen displayed on the display unit included in the power supply / distribution system simulator.

1 to 5, an embodiment of a power and room simulator for a new energy supply according to the present invention includes an input unit 100, a recognition unit 200, an operation unit 300, a determination unit 400, and a display unit 500).

Here, the input unit 100 is a component for inputting information on a plurality of devices installed in a place where new-energy power is supplied and extensions connected thereto.

The input unit 100 may be configured in any form as long as it can input information on a plurality of devices and extensions connected thereto. That is, it may be in the form of a scanner capable of scanning the electrical equipment drawing where the new energy source is distributed, and it is also possible to operate a program capable of designing the electrical equipment in the place where the new energy source is distributed, It may be a general computer type in which information can be inputted.

The input unit 100, which may be configured in various forms, may be input as information on a plurality of devices and extensions connected to the input unit 100 as described in the drawing of the electric equipment at the place where the new energy source is distributed.

However, in order to enhance the convenience of recognizing the user when displayed on the display unit 500, which will be described later, data on a plurality of devices and extensions connected thereto are extracted from the electrical equipment drawing at a place where the new- And after processing to simplify the extracted data, information on a plurality of devices and extensions connecting them can be inputted.

That is, if it is a component for inputting information on a plurality of devices installed in a place where new-energy power is supplied and extensions connected thereto, all of the input units 100 included in the embodiment of the power- ), And the scope of the right is not limited.

The recognition unit 200 is a component that sets a measurement device to be measured among the plurality of devices input from the input unit 100 and recognizes information about the measurement device.

As with the input unit, the recognition unit 200 may be configured in any form as long as it can set the measurement device to be measured among the plurality of devices and can recognize the information about the measurement device. It would be natural.

However, for a more detailed description, a method for the recognition unit 200 to recognize information about a measuring instrument will be described in detail.

First, there may be a method of recognizing information about a measuring device from a pre-stored database. At this time, the pre-stored database contains information on the electric equipment related to the place where the new energy source is distributed, and it can store different information according to what kind of new energy source.

Second, there may be a method of searching and recognizing from a communication network connected to the outside. At this time, the external communication network may be changed according to the user's environment, but it will be a means such as the Internet in general.

These two methods have different advantages and disadvantages. That is, in the case of the first method, since the range of the database is limited, it may be difficult to re-recognize when the determining unit 400 determines that the measuring device is not suitable as described later, Therefore, it can be advantageous in terms of speed. On the other hand, in the case of the second method, since the range is not limited as opposed to the first method, there is no difficulty in re-recognizing when the determining unit 400 determines that the measuring device is not appropriate as described later. However, can do.

In this way, the recognition unit 200 capable of recognizing the information on the measuring instrument can recognize not only one information of the measuring instrument but a plurality of information, and in addition, May be selectively recognized.

If the determining unit 400 determines that the measuring device 400 is not appropriate, the determining unit 400 determines information about the device having the blocking capacity, which is calculated by the determining unit 400 until the determining unit 400 determines that the measuring device is appropriate Can be re-recognized from a pre-stored database or re-discovered from a communication network connected to the outside.

At this time, if the determination unit 400 determines that the measuring device continues to be unreasonable, it may enter an endless loop, so that the recognition unit 200 can repeatedly perform the same a predetermined number of times.

According to the recognition unit 200 as described above, the data related to the information on the measuring instrument can be recognized as optimal data in recognizing the data.

On the other hand, the calculating unit 300 calculates a rated current and a fault current in the measuring device by using the information about the extension input from the input unit 100 and the information about the measuring apparatus recognized from the recognizing unit 200 to be.

At this time, the calculation formula for calculating the rated current and the fault current in the measuring device may be the following <first calculation formula> and <second calculation formula>.

<First calculation formula>

&Lt; Second calculation formula &

In is the rated current, Is is the fault current, P is the preset capacitance of the measuring instrument, Vn is the voltage at the measuring instrument, and% Z is the percentage impedance of the measuring instrument.

Here, rated current means the current value that is calculated when the measuring instrument is used in accordance with the design purpose, and the fault current means the current value that can be calculated by the measuring instrument when a problem may arise several orders of magnitude. Means that the reference voltage and current are determined in the circuit including the measuring instrument and the impedance of the measuring instrument is expressed as a percentage of the reference impedance. That is, when the reference voltage is V and the reference current is I, the percentage impedance of the measuring instrument can be calculated as follows.

In order to more specifically describe the contents of the operation unit 300, the following description will be given, for example, in the following description of the present invention as a proof of patent application in the application of the present invention in accordance with the provision of Article 30 of the Patent Act .

For example, to explain the utility of the power supply system for new energy supply by modeling the power distribution equipment of Korea University of Technology and Education based on the extension regulations, the facility capacity of the Korea Technology Education University An embodiment of a power and room simulator for a new energy supply according to the present invention will be described as follows.

As shown in FIG. 3, the electrical equipment diagram of the Korea Technology Education University may be input through the input unit 100 as shown in FIG. 4, and the recognition unit 200) among the plurality of devices to be measured.

At this time, the power supply switchgear for new energy supply can be configured to supply voltage of 6600 / 380V to the final customer after dropping the voltage to 22900 / 6600V based on the responsibility point of KEPCO. The high voltage side is composed of LBS (load switch), PF It is designed to be able to block various fault currents by using VCB (Vacuum Circuit Breaker) and ACB (Air Circuit Breaker) on the 6600V side and 380V side so that it can be blocked by MOF (Instrument Transformer) and VCB .

In such a design environment, when the measurement device is set as a lamp load, a motor load, and a general load, the contribution of the new energy (solar power) source and the rated current and fault current at the primary and secondary sides of the transformer are calculated as follows .

That is, the calculating unit 300 calculates the rated current and the fault current for the measuring device set as the lamp load, the motor load, and the general load as described above, and transmits the rated current and the fault current to the determining unit 400, (500). &Lt; / RTI &gt;

On the other hand, the determination unit 400 compares the information about the measurement device recognized by the recognition unit 200 after calculating the cutoff capacity of the measurement device from the rated current and the fault current in the measurement device calculated in the calculation unit 300 Thereby determining whether the measuring instrument is appropriate.

Such a determination unit 400 may be unnecessary if the user operates the embodiment of the checking and changing simulator for a new energy supply according to the present invention in a properly designed state.

That is, when the user is only interested in the rated current and the fault current in the measuring device calculated by the calculating unit 300, it may not be necessary to determine whether the measuring device is proper. At this time, It may not be included in the embodiment of the power supply simulator for new energy supply according to the invention.

On the other hand, the display unit 500 displays the rated current and the fault current in the measuring device calculated by the calculating unit 300 together with information of a plurality of devices installed at places where the new energy power is supplied and extensions connected thereto Element.

The display unit 500 may be configured in any form as long as it can display the contents as described above.

That is, the simulator of the power supply and the power supply for the new energy supply according to the present invention may be integrally manufactured in an apparatus in which the apparatus can be operated. In the case of a portable terminal such as a monitor or a smart phone included in a computer It can be produced.

Also, the display unit 500 may display all the information on a single screen, but may display only the information requested by the user in the form of a pop-up window, and the display method does not limit the scope of the present invention something to do.

According to the embodiment of the present invention, it is possible to estimate the fault current and the device capacity which are changed according to the power distribution of the new energy supply, so that the influence of the new energy supply can be evaluated .

In addition, according to an embodiment of the power supply and demanding simulator for a new-energy power supply according to the present invention, it is possible to easily display the power distribution status to the user through the display unit.

In addition, since it is possible to display the distribution status of the user easily, it is advantageous that it can be used as educational data for the students who lack basic knowledge about the switchboard.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

100: Input unit 200:
300: operation unit 400:
500:

Claims (5)

An input unit for inputting information on a plurality of devices installed at a place where new-energy power is distributed and extensions connecting the plurality of devices;
A recognition unit for setting a measurement device to be measured among the plurality of devices and recognizing information about the measurement device;
An arithmetic unit for calculating a rated current and an accident current in the measuring instrument by using the information about the extension input from the input unit and the information about the measuring apparatus recognized from the recognizing unit;
A display unit for displaying a rated current and a fault current in the measuring device calculated by the calculating unit together with information on the extension; And
Calculating a breaking capacity of the measuring device from the rated current and the fault current in the measuring device calculated by the calculating section and then comparing the breaking capacity with the information about the measuring device recognized by the recognizing section to determine whether the measuring device is appropriate Comprising:
Simulator of power supply for new energy supply.
delete The method according to claim 1,
Wherein the input unit comprises:
Extracting data on an extension line connecting the plurality of devices and the plurality of devices from an electrical equipment drawing at a place where the new-energy power is distributed, processing the extracted data to simplify the data, And inputting information on the extension,
Simulator of power supply for new energy supply.
The method according to claim 1,
Wherein,
Characterized in that information on the measuring instrument is recognized from a pre-stored database or is searched and recognized from a communication network connected to the outside,
Simulator of power supply for new energy supply.
5. The method of claim 4,
Wherein,
Wherein when the determination unit determines that the measurement apparatus is not suitable, the determination unit repeatedly performs a predetermined number of times until the measurement apparatus determines that the measurement apparatus is appropriate, And re-recognizing from the pre-stored database or re-searching and recognizing from a communication network connected to the outside,
Simulator of power supply for new energy supply.

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