KR100976333B1 - System and method for controlling power demand using power line communication switch - Google Patents

Abstract

The present invention provides a power demand control system using a power line communication switchgear that can easily install and operate a power demand control system by managing and controlling demand power using a power line communication (PLC) and a PLC switchgear; To this end, the present invention, based on the power consumption delivered from the electricity meter, predicts whether the power consumption exceeding the contracted power demand will occur in the specified demand period, and as a result of the pre-stored load control priority Generates power control data for the corresponding load according to the rank, and the power control data is connected to the power demand controller, PLC switchgear including power identification or information on power cut off or input, and the power switch connected to the power line Power control data transmitted from the controller is controlled on / off of each load through the power line By using the PLC modem and the unique identification information transmitted to the PLC switch side capable of determining whether the power control data transmitted from the PLC modem is its own data, if the data is its own, open and close the power supplied to the connected load. It provides a power demand control system using a power line communication switch comprising a PLC switch.

Power demand, power consumption, power line communication (PLC), PLC switchgear, load

Description

Power demand control system using power line communication switch and its method {SYSTEM AND METHOD FOR CONTROLLING POWER DEMAND USING POWER LINE COMMUNICATION SWITCH}

The present invention relates to a power demand control system, and more particularly, to a power demand control system using a power line communication switchgear for controlling power demand of a load using a power line communication (PLC) and a PLC switch.

In general, the power demand control system is installed in a power receiving room of a factory, a building, and the like to monitor the power usage of various loads attached to the building at all times. In comparison, when the corresponding power consumption is expected to exceed the target power, the power consumer can automatically turn on / off specific loads that can be temporarily interrupted, such as chillers, pumps, air conditioners, and lights, thereby providing a 'power demand' for power consumers. It refers to a system that provides effects such as suppression, efficient use of power, reduction of electricity bills, and overload suppression.

In the related art, when a meter is used to deliver power currently used to a demand controller, the power demand controller calculates the predicted power that is expected to be consumed and the predicted power is determined to exceed the maximum demand power. In this case, the power supply is cut off according to the priority of each stored load, so as not to exceed the maximum demand power.

As shown in FIG. 1, the power demand control system according to the related art includes a power meter 1, a power demand controller 3, a load control relay 5, and the like.

The power demand controller 3 receives the amount of power that is the standard of power demand from the power meter 1. The information transmitted at this time is in the form of an electric pulse signal or an optical pulse signal.

The power demand controller 3 calculates the power demand of the current location based on the information (power amount) transmitted from the electricity meter, and when the power consumption is expected to exceed the contracted power demand in the prescribed demand period (mostly set to 15 minutes), the control priority By directly shutting off the power supplied to the load 9 through the predetermined load control relay 5 according to the ranking, the power consumption is maintained below the contract power demand.

Usually, the number of loads 9 to be controlled of the power demand controller 3 depends on the magnitude of the load. When the current of the control target load exceeds the current capacity of the load control relay 5, the current capacity is increased by using a separate magnetic switch 6 externally.

In the conventional power demand control system configured as described above, as shown in FIG. 1, the load control relay 5, the electric wiring 7, and the load 9 must coincide with each other. Otherwise, other loads other than the control target will be cut off first.

Therefore, the load to be controlled must be correctly classified according to the division of the electric wiring, but not mixed and used, and the electric wiring 7 of the control load 9 should be wired from the power demand controller 3.

However, if a new facility is operated after the actual building (factory) is constructed, there is no choice but to mix compartments by load, and there are not many buildings that continuously manage by drawing it. Many buildings do not have drawings between the electrical wiring and the load.

In this case, when the power demand controller is installed and operated, a considerable amount of inspection is required for collecting wiring and load information, and time and manpower loss is generated, and post-management is also required.

An object of the present invention is to control power demand using power line communication (PLC) and PLC switchgear, power demand control using a power line communication switchgear that can greatly facilitate the installation and operation of the power demand control system A system and method are provided.

The technical means of the present invention for achieving the above object, based on the power consumption delivered from the electricity meter, predicts whether the power consumption exceeding the contracted power demand will occur in the specified demand period, and the prediction result shows that the load stored in advance A power demand controller for generating power control data for the corresponding load according to the control priority; A PLC modem connected to lower loads by a power line and transmitting power control data transmitted from the power demand controller to each load through a power line; And a PLC switch that determines whether the power control data transmitted from the PLC modem is its data, and then opens and closes the power supplied to the connected load when the data is its data.

Specifically, the power control data generated by the power demand controller is characterized in that it includes the identification information of the control target PLC switchgear and the information on the power cut off or input, the PLC switchgear is an outlet type switch, the unique identification information Characterized in that is given.

The technical method of the present invention for achieving the above object, the power demand controller, based on the power consumption transferred from the electricity meter, predicting whether the power consumption exceeding the contracted power demand will occur in the specified demand period; Generating power control data including identification information and power switching information on the corresponding load according to the previously stored load control priority; The PLC modem transmits the power control data generated by the power demand controller to each PLC switch over a power line; And determining whether the power control data transmitted from the PLC modem is own data, and then opening and closing the power supplied to the corresponding load connected to the PLC switch.

Specifically, the power control data is characterized in that it includes the identification information of the PLC switch to be controlled and the information about the power cut off or input.

As described above, the present invention can be used immediately after installing the power demand control system and setting the address of the power line communication-related device, so that the installation and operation are quite easy, and the cost for initial facility and inspection is greatly reduced. In addition, it is very convenient in terms of management because only PLC switch can be moved without additional wiring work when resetting the control load.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a diagram illustrating a power demand control system according to the present invention, and includes a power meter 10, a power demand controller 20, a PLC modem 30, and a PLC switchgear 40 as shown.

The electricity meter 10 is configured to measure various power consumptions such as an effective power amount (kWh), a reactive power amount (varh), a power factor (PF), and a demand power (Demand) within an allowable error range and display the value.

The power demand controller 20 receives power consumption, which is a standard of power demand, from the electricity meter 10 and calculates power demand of the current location based on information (power consumption) transmitted from the electricity meter 10. When power consumption is expected to exceed the contracted power demand (which is usually set to 15 minutes), it is configured to transmit power switching (blocking or closing) control data to the corresponding load side according to the pre-stored load control priority.

The PLC modem 30 is connected to the lower loads 50 by a power line, and is configured to transmit power control data transmitted from the power demand controller 20 to each load side through a power line.

The PLC switchgear 40 supplies power to each load 50 but opens and closes the power supplied to the load 50 according to the power cut-off or input command of the power demand controller 20 transmitted from the PLC modem 30. Consists of. PLC switchgear 40 applied to the present invention is a socket-type switchgear, each load 50 is supplied with the power used through the plug plugged into the switchgear 40, each PLC switchgear 40 unique identification such as address Information is given.

That is, when the predicted power demand exceeds the contracted power demand, the power demand controller 20 selects a load to be controlled according to a predetermined load control priority, and selects identification information such as an address of the selected load and power cutoff information. It generates power control data to include and transfer to the PLC modem (30).

Accordingly, the PLC modem 30 transmits the power control data transmitted from the power demand controller 20 to each PLC switchgear 40 through power line communication, and each PLC switchgear 40 is identified in the power control data. It is determined whether the data is its own data through the information to determine and control the opening or closing of the power supplied to the load (50).

3 is a flowchart illustrating a power demand control process according to an embodiment of the present invention. Referring to FIG.

First, the power demand controller 20 receives power consumption, which is a standard of power demand, from the electricity meter 10. In this case, the amount of power transmitted is in the form of an electric pulse signal or an optical pulse signal (S1).

Subsequently, the power demand controller 20 calculates power demand based on the transferred power consumption, and predicts whether to exceed the contracted power demand in the prescribed demand period (usually 15 minutes) based on the calculated power demand ( S2).

As a result of the prediction, if the power usage amount is expected to exceed the contract power demand, the power demand controller 20 selects the control target load 50 according to the power excess amount according to a predetermined control target priority (S3). , S4) and generates identification information and power cut data of the selected load 50 and outputs it to the PLC modem 30 (S5).

Accordingly, the PLC modem 30 transmits the data transmitted from the power demand controller 20 to each PLC switchgear 40 as a lower device through the power line (S6).

Each PLC switchgear 40 compares the identification information transmitted from the PLC modem 30 with its own stored identification information, and determines whether the PLC switch 30 compares with each other, and analyzes the data transmitted together to match the power supplied to the load 50. It is blocked (S7). The PLC switch 40 is an outlet type switch 40, by switching the power line connected to the plug of the corresponding load 50 plugged into the outlet to cut off or re-input the power supplied to the load 50.

That is, the conventional power demand control method as shown in FIG. 1 cuts the power supplied to the load by directly transmitting a control signal to a corresponding relay or magnetic switch electrically connected to the power demand controller in one-to-one, but in the present invention, the power demand controller No new electrical wiring is required between the 20 and the load 50, and a power cut / insert command is issued with each PLC switch 40 together with identification information of the PLC switch 40 to which the control target load 50 is connected through PLC communication. ), And the corresponding PLC switchgear 40, the identification information is matched to cut off or input the power supplied to the load (50).

Therefore, in the present invention, the control relay, which is a problem of the existing power demand control method, and the electric wiring and the load must match each other, and the wiring of the control load must be wired from where the power demand controller is located, and the electric wiring. When there is no drawing between the load and the load, the information on the wiring and the load can be overcome at the same time, which requires a great deal of inspection and after-care.

Preferred embodiments of the present invention are disclosed for purposes of illustration, and those skilled in the art will be able to make various modifications, changes, and additions within the spirit of the present invention. Therefore, such modifications, changes and additions should be determined not only by the claims below, but also by equivalents to those claims.

1 is a view showing a power demand control system according to the prior art.

2 is a view showing a power demand control system according to the present invention.

3 is a flowchart illustrating a power demand control process according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: power meter 20: Demand Controller

30: PLC modem 40: PLC switch

50: load

Claims (5)

Based on the power consumption delivered from the electricity meter, it predicts whether power consumption exceeding the contracted power demand will occur during the specified demand period, and the result shows the power control data for the load according to the pre-stored load control priority. A power demand controller including identification information of the PLC switchgear and information on power interruption or input; A PLC modem connected to PLC switches and a power line to transmit power control data transmitted from the power demand controller to a PLC switch side capable of controlling on / off of each load through a power line; And A power line communication switch comprising: a PLC switch that determines whether the power control data transmitted from the PLC modem is its own data using unique identification information, and then opens and closes the power supplied to the corresponding load connected in the case of the own data; Electric power demand control system. delete delete delete delete

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