KR101399813B1 - Multi-metering system for individual load - Google Patents

Abstract

The present invention relates to a multi-metering system for an individual load. Provided is the multi-metering system for an individual load capable of accurately monitoring each load by allowing multi-metering to monitor the power for each port of a distribution board which is flowed to the load and performing effective energy management thereby. According to the present invention, the multi-metering system for an individual load can detect power relative information for each load configured under the distribution board and easily monitor the information in the distance; easily manage the energy usage of each load according to the policy associated with the established power demand which is erected in advance; and easily establish rather the policies energy relative policy by compiling statistics and analyzing easily on energy reduction possibility of each load in a comparison of an energy reduction pattern.

Description

{MULTI-METERING SYSTEM FOR INDIVIDUAL LOAD}

The present invention relates to an individual load multi-meter reading system. More specifically, the multi-meter reading for monitoring the electric power of each port of a distribution board entering the load is performed for each load, and each load can be precisely monitored. And the meter reading value of the meter and the measurement value of the multiple meter reading terminal are crosschecked so that the meter reading error of the individual household within the apartment complex can be detected, .

As is well known, the restructuring of the electric power and energy industry has been under way to build a cost-effective power and energy industry system through the establishment of a competitive market system in Korea. However, in the past, The centralized transaction policy and the passive demand management have not obtained the market-specific utility through the smooth competition mechanism.

As an effective technological solution to this problem, we can consider the improvement of the current demand management plan. In order to make the consumer's load as an active operating resource as an opportunity cost from the viewpoint of treating the load of the consumer as a wasteful fixed burial cost, it is necessary to draw the response of the consumer and to reflect the reaction to the market, It is necessary to make effective energy management by supplying energy supply and demand.

In order to do this, it is necessary to build up an infrastructure that can transfer the reaction information according to the selection of the consumer resource to the energy provider and reflect it to the market. Through this, it is necessary to build an efficient and competitive market system, And realistic demand management.

1 shows various conventional remote meter reading and control systems, which are composed of various slave devices 10, a gateway 20 and an upper server 30.

The sub-device 10 includes an AMR (Automatic Meter Reading) device 11, a meter (watt-hour meter) 12, a demand controller 13, an over-power monitor device 14 and a home automation device 15.

The gateway 20 is a wired or wireless network in which the various slave devices 10 communicate with the slave server 30 and the slave device 30 collects and monitors and manages the information acquired from the slave device 10 System.

First, AMR (Automatic Meter Reading) device 11 acquires various metering values (gas, water, hot water, calorie, power) and transmits the obtained remote meter reading information to a gateway 20 to the corresponding upper server 31 via the network. Therefore, it is possible to provide functions such as real-time monitoring of necessary data, analysis of meter reading data, month report, day report, trend report or Internet meter reading function, meter reading information by household or time zone, and charge inquiry.

The meter (watt hour meter) 12 acquires a metering value for the used power amount and provides it to the corresponding upper server 32 through the gateway 20.

The demand controller 13 provides a load control function for reducing the peak load under the control of the corresponding server 33. The demand controller 13 controls the load characteristics and the control functions according to the output method (circulation control, priority control, Control functions, seasonal or sectoral control functions, seasonal or sectoral tariff adjustment, alarm function, power usage prediction function, demand power reporting function, power usage pattern and peak power transition analysis And the like.

The over-power monitor 14 functions to alert or notify the upper server 34 via the gateway 20 when an over-current or an over-voltage occurs on a circuit such as a circuit breaker, a switch, a bus bar, a distribution board, and a switchboard.

The home automation device 15 is composed of a network system for living convenience in a residential space and various automatic operation devices, and provides a function of a living room, a crime prevention function and a telemedicine function. For example, home automation devices consist of HMI, home appliance control, remote meter reading, cell phone control, video call, parking control, unmanned delivery, security, door lock, health care,

In other words, conventionally, the function is limited to a manager by performing functions such as remote monitoring of power consumption, acquisition of corresponding power information according to the individual purpose of the product, control according to set values, arc monitoring, temperature monitoring, Due to the lack of necessary functions for effective energy management and demand management, active demand management is impossible, and there are many difficulties in responding to the market environment due to structural changes in the electric power industry.

As a basic function to be complemented with existing technology and products, various functions such as demand response function, function for participation inducement and integration of element function for various market environment should be considered.

If we look at the problems of existing technologies and products in more detail, it is impossible to reflect the responses according to the choice of customers, and it is impossible to apply various fee plans to attract customers, and it is necessary to integrate necessary functions to secure electric safety. In the case of existing watt-hour meters, there was no facility status monitoring function, power quality monitoring function, demand management control and maximum power control function.

In addition, in the case of the demand controller 14, it began to be distributed to load management operators and customers for the purpose of improving the load efficiency, which is one of the demand management measures. However, due to the limit of the unilateral and public- I can not get favor.

Considering the great advantages of efficient demand management, it is necessary for the government and related enterprises to make efforts for more active improvement, and more advanced type of demand management that can lead the active participation of the consumer, not the one-sided management type, is needed .

Demand for the development of various services and devices for demand response is expected to increase because ESP and electric power sales business are expected to be activated in accordance with the current government's ambitious renewal and decentralization policy. And there is an urgent need for this area.

In the case of the electric safety monitoring function, there is a product that detects and reports an arc and a short circuit. However, since it is expensive compared to the function and has a large size, it is difficult to secure the installation space and does not issue a cutoff command. Therefore, There may be something.

In addition, there is no overvoltage, overcurrent, and temperature sensing function, which are essential monitoring functions for electric safety and fire prevention, so it is necessary to purchase additional products and it is not easy to apply in terms of cost and space efficiency.

In terms of facility control functions, there are related control systems and building control systems. The facility management system is expensive, large in size and incompatible. In the case of a building management system (IBS, BEMS, etc.), it is installed for monitoring power and facilities in a building, lighting control, and building management. However, It was found that the actual adoption rate was very low due to the considerable high cost of up to 100 million won and the high maintenance cost after installation.

First of all, it is urgently required to acquire information collectively through an integrated and reliable device in a complex energy operating environment in which a variety of necessary information is collectively acquired and a timely and appropriate judgment is required. For this purpose, If sub-devices are purchased and installed, it will cost tens of thousands of won for installation of sub-devices and considerable installation space. Also, an additional integrated operation program is designed with individual installation of product-specific operation programs for each product operation and batch management And it faces the unreasonable reality that it must operate.

In particular, a building's energy management plan should ensure that energy is effectively managed with priority in line with policy needs, and the first step is to prioritize precise monitoring of energy-consuming loads. However, there is still a problem that monitoring of load is managed by buildings, floors, and each company, making it difficult to manage energy efficiently.

In addition, there is no way to know whether the meter is broken or not in the individual apartment building. If there is an error between the meter reading value of the meter and the measurement value of the multiple meter reading terminal, it is necessary to go directly to the corresponding panel to observe the meter. There was no way to resolve the failure or error.

SUMMARY OF THE INVENTION The present invention has been made in view of the circumstances of the prior art described above, and it is an object of the present invention to provide an energy management system capable of precisely monitoring each load by performing multiple meter reading for each port of a distribution board, This system is designed to crosscheck the metering value of the meter and the measurement value of the multi meter reading terminal so that the meter reading of the individual household can be checked in the apartment complex. The present invention has been made in view of the above problems.

In order to accomplish the above object, according to a preferred embodiment of the present invention, there is provided a power supply apparatus comprising: a power supply unit connected to an electric line to supply electric power supplied from an electric line to a distribution panel side; A distribution board for distributing the power supplied from the power supply unit to the load side through a plurality of distribution ports; A power distribution port connected at one end to the distribution board and connected at the other end to a plurality of load sides to supply electric power of the distribution board for each load; A user monitoring server connected to the multiple meter reading module to collect and manage energy usage information for each building load; An upper server for storing the established energy management policy information and receiving and monitoring and managing energy usage information for each building and load from the user monitoring server; A plurality of meter reading modules mounted on the distribution board to meter energy usage information for each load supplied through the distribution port and to transmit the meter reading information to the user monitoring server to efficiently manage energy usage information for each load A plurality of individual load meter reading systems are provided.

Preferably, the multiple meter reading module is connected to a plurality of distribution boards to measure the power consumption amount of each distribution board, and the power consumption per load, which is a slave device of each distribution board, can be simultaneously inspected. / RTI >

Preferably, the user monitoring server includes a communication module for communicating the multi-probe module and the upper server within the user monitoring server; An energy information collection server for collecting energy usage information from the multiple meter reading module; And an energy information management server that stores management information for each load for the energy usage policy from the upper server and manages the user side.

Preferably, the multiple meter reading module includes: a communication module for communicating with the user monitoring server; (Voltage, current, phase, active power, reactive power, apparent power, frequency, power factor, distortion rate, demand, maximum value) by acquiring power quality information for each load and providing the power quality information to each user's monitoring server A PQ module; A meter reading sensing unit for measuring voltage, current, power, power factor, frequency, and cumulative power amount for each load; And a control unit for receiving the meter reading information for each load from the meter reading sensor mounted on the distribution board port and transferring the meter reading information to the user monitoring server through the communication module.

Preferably, the load is constituted by a general load indicating a negative power amount and a renewable power generation unit indicating a positive power amount, and configured to be able to settle the electric power provided from the electric power utility line and the electric power generated in the renewable power generation unit in the user monitoring server A separate load multi-meter reading system is provided.

Preferably, the communication module is connected to a gateway or a relay device.

Preferably, the meter reading sensing part may be connected to the inlet end of the earth leakage breaker.

Preferably, the upper server cross-checks the measurement value from the multiple meter reading module and the meter reading value of the meter, and outputs a signal for grasping the failure of the meter.

The individual load multi-meter reading system according to the present invention detects power-related information for each load by a plurality of loads configured below the distribution board, easily monitors the load related information remotely, It has the advantage of being able to easily manage the energy related policies by easily statistical analysis of the energy saving potential of each load as compared with the energy saving pattern.

In addition, the meter reading value of the meter and the measurement value of the multiple meter reading terminal can be crosschecked so that the meter reading of the individual household in the apartment complex can be checked.

1 is a view showing various conventional remote meter reading and control systems,
FIG. 2 is a block diagram showing a configuration of an individual load multi-meter reading system according to an embodiment of the present invention;
FIG. 3 illustrates a meter reading sensing unit provided in the individual load multi-meter reading system according to an embodiment of the present invention;
FIG. 4 is a diagram illustrating a multiple distribution panel monitoring state through an individual load multi-meter reading system according to an embodiment of the present invention;
FIG. 5 is a block diagram showing the configuration of a multiple meter reading module included in the individual load multi-meter reading system according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 2 is a block diagram illustrating a configuration of an individual load multi-meter reading system according to an embodiment of the present invention. FIG. 3 is a view illustrating a meter reading detection unit included in the multi- , And FIG. 4 is a view illustrating a state of monitoring multiple PDBs through the individual load multi-meter reading system according to an embodiment of the present invention.

The multiple load meter reading system according to an embodiment of the present invention allows multiple loads to be monitored for each port of a distribution panel to be loaded, It is a system that can perform energy management.

In more detail, the individual load multi-meter reading system according to an embodiment of the present invention individually measures the power information of each load installed in a building and needs power, and transmits it to the user monitoring server 60, The individual load multi-meter reading system according to an embodiment of the present invention includes a power supply unit 40 connected to an electric line and supplying electric power supplied from an electric line to a distribution board side.

The power supply unit 40 is a device for supplying stabilized power to the distribution board 42. The power supply unit 40 is a device for supplying stabilized power to the distribution board 42. The power supply unit 40 supplies power through one of the single- do.

The individual load multi-meter reading system according to an embodiment of the present invention includes a distribution board 42 for distributing power supplied from the power supply unit 40 to a load side through a plurality of distribution ports 48; And a distribution port 48 connected at one end to the distribution board 42 and connected at the other end to a plurality of load sides to supply electric power of the distribution board for each load.

At this time, the load connected to the distribution port 48 is connected to a load such as a motor load 44a, an illumination load 44b, and a landscape illumination 44c as a general load representing a minus amount of electric power, Power supply unit 46, which is a power generation unit for supplying electric power to the electric power generating line, is connected to one of the power distribution ports 48 and the electric power supplied from the electric power utility line in the user monitoring server 60 And the power generated by the renewable power generation unit 46 are settled.

The individual load multi-meter reading system according to an embodiment of the present invention includes a user monitoring server 60 connected to the multiple meter reading module 50 to collect and manage energy usage information for each load of each building, The user monitoring server (60) includes a communication module (62) for communicating with the multi meter reading module (50) and the upper server (30) therein; An energy information collection server (66) for collecting energy usage information from the multiple meter reading module (50); And an energy information management server 64 for storing management information for each load on the energy usage policy from the upper server 30 and managing the user side.

The individual load multi-meter reading system according to an embodiment of the present invention stores the established energy management policy information and receives energy usage information for each building and load from the user monitoring server 60 to monitor and manage And an upper server 30.

More specifically, the multiple meter reading module 50 is mounted on the distribution board 42 in the form of a board, reads energy usage information for each load supplied through the distribution port 48, and transmits the meter reading information to the user monitoring server 60) to efficiently manage energy usage information for each load.

The multiple meter reading module 50 is connected to each of the individual loads and is connected to a plurality of distribution boards 42a, 42b, 42c ...., and connected to the distribution boards 42a, 42b, 42c, It is possible to measure the amount of power consumption per unit time, and to simultaneously measure the amount of power used per load, which is a slave unit of each distribution board.

On the other hand, the multi meter reading module 50 has a cross check function to crosscheck the meter reading value of the meter 12 with the measurement value of the multi meter reading module 50 to correct the meter reading error of the customer. The cross-check function can be performed at the parent server or at the monitoring server. For example, the monitoring server compares measured values from the constant meter and the multiple meter reading module 50 with each other. If the cross check result does not match or exceeds the allowable range, a warning sound may be generated. A signal may be generated in a warning device (not shown) so as to output it. This function can also be done on the parent server. Also, the process of reading the measured value from the meter is a general process, so a detailed description will be omitted.

In conjunction with AMR, it is also possible to perform meter detection to detect faults in the meter. In other words, the measurement value detected in the AMR, which is one load, and the measured value measured in the multi meter reading module 50 can be cross-checked to correct the meter reading error of the customer.

Even when the multi meter reading module 50 fails, it is possible to grasp the malfunction of the meter by crosschecking with the meter.

FIG. 5 is a block diagram showing the configuration of a multiple meter reading module included in the individual load multi-meter reading system according to an embodiment of the present invention.

The multi meter reading module 50 included in the individual load multi-meter reading system according to an embodiment of the present invention includes a communication module 74 for communicating with the user monitoring server 60 within the multi meter reading module 50 (RS-485, RS-232, PLC, RF, Zigbee, Ethernet, Bluetooth, CDMA, etc.) to enable various protocols and media applications requested by the user It is preferable to be constructed so as to be detachable in the form of

In addition, the multi meter reading module 50 acquires power quality information for each load inside the multi meter reading module 50 and provides the power quality information to the user monitoring server so that various power quality (voltage, current, phase, active power, reactive power, The PQ module 76 monitors the power factor, the distortion factor, the demand, and the maximum value. The PQ module 76 can be configured in a package form with a PQ extension module (not shown) High-precision PQ meter (24-hour continuous data storage, 1024 sampling / cycle or more) can be added as a module in the form of an interface. This is a configuration for coping with a special requirement of the general PQ function (less than 256 sampling / cycle) of the electronic meter 100 and a future system environment such as a distributed power system and a micro grid system.

In addition, the meter reading module 68 includes a meter reading sensor 68 for measuring voltage, current, power, power factor, frequency, and cumulative power for each load. , A plurality of current sensors (CT) and voltage sensors (PT) connected to the inlet of the earth leakage breaker (70) and internally detecting the current and voltage of the electric lines by each load are provided.

Meanwhile, the multi meter reading module 50 receives the meter reading information for each load from the meter reading sensor 68 mounted on the distribution board port 48, and transmits the meter reading information to the user monitoring server The control unit 80 transmits power related information for each load to the user monitoring server 60 or the upper server 30 at predetermined intervals or transmits the power related information for each load to the user monitoring server 60 or the upper server 30, Related information per load detected at the time of the request of the upper server 30 or the upper server 30.

In addition, the communication module 74 may be connected to the gateway or the relay device 72. [

Accordingly, the individual load multi-meter reading system according to the embodiment of the present invention detects power-related information for each load on a plurality of loads constructed below the distribution board, easily monitors the information related to each load from a remote location, Energy usage status can be easily managed and energy related policies can be set up easily by statistically analyzing and analyzing the energy saving potential of each load compared with the energy saving pattern.

Meanwhile, the individual load multi-meter reading system according to the embodiment of the present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the present invention.

30: upper server, 40: power supply unit,
42: distribution board, 44: load,
46: New & Renewable Power, 48: Power port,
50: multiple meter reading module, 60: user monitoring server.

Claims (8)

A power supply unit connected to the electric line for supplying electric power supplied from the electric line to the distribution panel side;
A distribution board for distributing the power supplied from the power supply unit to the load side through a plurality of distribution ports;
A power distribution port connected at one end to the distribution board and connected at the other end to a plurality of load sides to supply electric power of the distribution board for each load;
A user monitoring server connected to the multiple meter reading module to collect and manage energy usage information for each building load;
An upper server for storing the established energy management policy information and receiving and monitoring and managing energy usage information for each building and load from the user monitoring server;
A plurality of meter reading modules mounted on the distribution board to meter energy usage information for each load supplied through the distribution port and to transmit the meter reading information to the user monitoring server to efficiently manage energy usage information for each load; Lt; / RTI >
Wherein the multiple meter reading module comprises: a communication module for communicating with the user monitoring server;
(Voltage, current, phase, active power, reactive power, apparent power, frequency, power factor, distortion rate, demand, maximum value) by acquiring power quality information for each load and providing the power quality information to each user's monitoring server A PQ module;
A meter reading sensing unit for measuring voltage, current, power, power factor, frequency, and cumulative power amount for each load;
And a controller for receiving the meter reading information for each load from the meter reading sensor mounted on the distribution board port and transferring the meter reading information to the user monitoring server through the communication module. The method according to claim 1,
Wherein the multiple meter reading module is connected to a plurality of distribution boards to meter the power consumption of each distribution board and to simultaneously measure the power consumption per load as a slave unit of each distribution board. The method according to claim 1,
The user monitoring server includes a communication module for communicating the multi meter reading module and the upper server within the user monitoring server;
An energy information collection server for collecting energy usage information from the multiple meter reading module;
And an energy information management server for storing management information for each load on the energy usage policy from the upper server and managing the user side. delete The method according to claim 1,
Wherein the load is constituted by a general load representing a negative power amount and a renewable power generation section representing a positive power amount so as to be able to settle the electric power provided from the electric power utility line and the electric power generated by the renewable power generation section in the user monitoring server Individual load multiple meter reading system. The method according to claim 1,
Wherein the communication module is connected to a gateway or a relay device. The method according to claim 1,
Wherein the meter reading sensing part is connectable to the inlet end of the earth leakage breaker. The method according to claim 1,
Wherein the upper server cross-checks the measurement value from the multiple meter reading module and the meter reading value of the meter, and outputs a signal for grasping the failure of the meter.

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