KR20220088144A - Building power consumption management device and method - Google Patents

Abstract

An apparatus and method for managing power consumption in a building are provided. The device for managing power consumption in a building according to an embodiment of the present invention is a device for managing power consumption in a building that is provided to manage power consumption in a building and to check an abnormal situation, a power data measuring unit configured to measure; a power data processing unit configured to calculate the power consumption by using the power data to generate power consumption information and a power diagram; and a special event processing unit configured to learn the power consumption information to determine whether a specific event has occurred in a circuit and output it and the power data includes a main voltage value of the distribution panel and a current value for each circuit.

Description

Building power consumption management device and method in a building {Building power consumption management device and method}

The present invention relates to an apparatus and method for managing power consumption in a building, and more particularly, to more easily measure power consumption used inside a building, learn a power consumption pattern, and manage power consumption using the learning result It relates to an apparatus and method for managing power consumption in a building.

Building Energy Management System (BEMS) installs sensors and measurement equipment in facilities (lighting, heating and cooling facilities, ventilation facilities, outlets, etc.) It is an integrated management system that monitors and analyzes the collected energy use information through software to reduce energy through operation optimization.

In order to operate such a building energy management system (BEMS), a large amount of sensors are required, and a device and method capable of managing power consumption, such as measuring power consumption, are required, so there is a problem in that the initial installation cost increases.

In addition, there is a problem in that the devices for measuring power among the conventional building energy management systems have no choice but to use only 30 current measuring devices in one main device due to design limitations.

Korean Patent Publication No. 10-2015-0101759

In order to solve the problems of the prior art as described above, an embodiment of the present invention provides an apparatus and method for managing power consumption in a building that can manage power consumption by connecting up to 1020 current measuring devices to one main measuring device. would like to provide

In addition, an embodiment of the present invention is to provide an apparatus and method for managing power consumption in a building capable of efficiently managing power consumption by detecting an abnormal event through learning and outputting the abnormal event to a manager and a user.

In addition, an embodiment of the present invention is to provide an apparatus and method for managing power consumption in a building capable of setting a power consumption limit through grouping of circuits and detecting an abnormal event using the power consumption limit.

According to one aspect of the present invention for solving the above problems, there is provided an apparatus for managing power consumption in a building, which is provided to manage power consumption in a building and to check an abnormal situation. The apparatus for managing power consumption in a building includes: a power data measuring unit configured to measure power data capable of acquiring the power consumption; a power data processing unit configured to calculate the power consumption by using the power data to generate power consumption information and a power diagram; and a special event processing unit configured to learn the power consumption information to determine whether a specific event has occurred in a circuit and output it and the power data includes a main voltage value of the distribution panel and a current value for each circuit.

The power data measuring unit may include: a main voltage measuring module configured to measure a main voltage value input to the distribution panel; and at least one current measurement module configured to respectively measure the current value for each circuit connected to the distribution board.

The current measurement module may have a ring shape coupled to the circuit so as to measure a current value for each circuit using an electric field or a magnetic field of the circuit, and may be easily detachably formed.

The power data processing unit may include: a power consumption calculation module configured to calculate power consumption for each circuit by using the main voltage value and the current value; and a power schematic generation module that classifies devices connected for each circuit and generates the power diagram by grouping circuits using a physical area of the building.

The power consumption calculation module obtains the power consumption for each circuit by multiplying the main voltage value by the current value obtained for each circuit, and obtains the sum of the power consumption for each circuit as the total power consumption of the distribution board, and The power consumption information including the power consumption for each circuit and the total power consumption may be generated.

The power consumption information may further include a power consumption time for each circuit.

The specific data processing unit may include: a power consumption event determination module configured to determine whether the specific event has occurred in the circuit using the power consumption information and the power diagram; and an event information output module configured to output the location in the building where the special event has occurred to the power grid and the manager terminal.

The power consumption event determination module may acquire and learn the power consumption information to generate a learning result, and use the learning result as a criterion for determining whether the special event occurs.

The power consumption event determination module may determine that the specific event has occurred in the corresponding circuit when there is a difference between the learning result and current power consumption information.

According to one aspect of the present invention, there is provided a method for managing power consumption in a building using an apparatus for managing power consumption in a building, which is provided to manage power consumption in a building and to check an abnormal situation. In the method for managing power consumption in a building, the method for managing power consumption in a building using an apparatus for managing power consumption in a building that is formed to manage power consumption in the building and check an abnormal situation, the power from which the power consumption can be obtained measuring data; generating power consumption information and a power diagram by calculating the power consumption using the power data; and learning the power consumption information to determine whether a special event has occurred in a circuit and outputting the information; including, in the measuring the power data, acquiring power consumption for each circuit from a distribution board of the building, the power The data includes a main voltage value of the distribution panel and a current value for each circuit.

Measuring the power data may include: measuring a main voltage value input to the distribution board; and measuring each current value for each circuit connected to the distribution board.

The step of measuring each of the current values is performed by using a current measuring module having a ring shape coupled to the circuit and easily detachable so that the current value for each circuit can be measured using an electric field or a magnetic field of the circuit. current can be measured.

The processing of the power data may include: calculating power consumption for each circuit using the main voltage value and the current value; and classifying devices connected for each circuit and grouping circuits using a physical area of the building to generate the power diagram.

In the calculating of the power consumption, the main voltage value is multiplied by the current value obtained for each circuit to obtain the power consumption for each circuit, and the sum of the power consumption for each circuit is obtained as the total power consumption of the distribution board, , the power consumption information including the power consumption for each circuit and the total power consumption may be generated.

The power consumption information may further include a power consumption time for each circuit.

The processing of the special event may include: determining whether the special event has occurred in the circuit using the power consumption information and the power diagram; and outputting the location in the building where the special event has occurred to the power grid and the manager terminal.

In the determining whether or not the special event occurs, a learning result may be generated by acquiring the power consumption information, and the learning result may be used as a criterion for determining whether the special event has occurred.

The determining of whether the singular event has occurred may include determining that the specific event has occurred in the corresponding circuit when a difference exists between the learning result and current power consumption information.

The apparatus and method for managing power consumption in a building according to an embodiment of the present invention has the effect of managing power consumption by connecting up to 1020 current measuring devices to one main measuring device.

In addition, the apparatus and method for managing power consumption in a building according to an embodiment of the present invention has the effect of detecting an abnormal event through learning and outputting the abnormal event to a manager and a user to efficiently manage power consumption .

In addition, the apparatus and method for managing power consumption in a building according to an embodiment of the present invention has an effect of setting a power consumption limit through grouping of circuits and detecting an abnormal event using the power consumption limit.

1 is a block diagram simply illustrating a system for managing power consumption within a building using the device for managing power consumption within a building according to the present invention.
2 is a block diagram simply showing a power data measurement unit among the power consumption management device in a building according to the present invention.
3 is a schematic block diagram illustrating a power data processing unit among the power consumption management device in a building according to the present invention.
4 is a block diagram simply showing a special event processing unit among the power consumption management device in a building according to the present invention.
5 is a flowchart illustrating a method for managing power consumption in a building using an apparatus for managing power consumption in a building according to an embodiment of the present invention.
6 is a flowchart illustrating step S510 of FIG. 5 in more detail.
7 is a flowchart illustrating step S520 of FIG. 5 in more detail.
8 is a flowchart illustrating step S530 of FIG. 5 in more detail.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily carry out the present invention. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and the same reference numerals are given to the same or similar components throughout the specification.

Hereinafter, an apparatus for managing power consumption in a building according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4 .

1 is a block diagram simply illustrating a system for managing power consumption within a building using the device for managing power consumption within a building according to the present invention. Referring to FIG. 1 , the apparatus 110 for managing power consumption in a building according to an embodiment of the present invention is formed between the distribution board 120 and a plurality of devices 130 to control the power consumption management system 100 in the building. configurable.

In-building power consumption management apparatus 110, for example, is coupled to the distribution board 120, measures the voltage supplied to the distribution board 120, and through each circuit connected to the plurality of devices 130, each device ( By measuring the current of 130a to 130n), the power consumption of each device 130a to 130n is calculated and learned to determine whether an abnormal situation occurs, and when an abnormal situation occurs, the special event determination result is delivered to the manager or user Alternatively, the user can manage the power consumption of the devices 130a to 130n.

To this end, the device for managing power consumption in a building 110 may be formed to include a power data measuring unit 111 , a power data processing unit 113 , and a special event processing unit 115 .

The power data measuring unit 111 may be preferably formed in the distribution board 120 . The power data measuring unit 111 is configured to measure power data capable of acquiring power consumption of the plurality of devices 130 . The power data includes a voltage value and a current value, the voltage value may be a value obtained by measuring the main voltage supplied to the distribution board 120 , and the current value may be a value obtained by measuring the current supplied to the device 130 .

2 is a block diagram simply showing a power data measurement unit among the power consumption management device in a building according to the present invention. The power data measuring unit 111 may include a main voltage measuring module 210 for measuring a voltage and a current measuring module 220 for measuring a current.

The main voltage measurement module 210 is configured to measure the main voltage value input to the distribution board 120 , and the current measurement module 220 measures the current value for each circuit of the devices 130 connected to the distribution board 120 , respectively. At least one is formed. The current measurement module 220 is preferably provided in the same number as the number of circuits ejected from the distribution board 120 so that the number of the current measurement module 220 and the number of circuits is 1:1.

The current measurement module 220 may be configured to measure a current value of a circuit using an electric field or a magnetic field. The current measurement module 220 may obtain an electric field or magnetic field around the circuit generated due to the current flowing in the circuit, and measure the current value flowing in the circuit using the obtained electric field or magnetic field, for example, the same as the clamp meter. In principle, the current value can be measured. Therefore, for this purpose, the current measurement module 220 is formed in a ring shape, and may be formed in a form that is easy to attach and detach so that the circuit can be located in the center of the ring.

In another embodiment of the present invention, the current measuring module 220 may be replaced with a clamp meter, and in this case, there is an effect of reducing the configuration cost of the power consumption management device of the present invention.

3 is a schematic block diagram illustrating a power data processing unit among the power consumption management device in a building according to the present invention. The power data processing unit 113 is formed to calculate power consumption by using power data, and to generate power consumption information and a power diagram. Referring to FIG. 3 , the power data processing unit 113 of the present invention includes a power consumption calculation module 310 and a power diagram generation module 320 .

The power consumption calculation module 310 is formed to calculate power consumption using power data. The power consumption calculation module 310 may receive the power data generated by the power data measurement unit 111 and calculate the power consumption for each circuit by using the main voltage value and the current value for each circuit included in the power data.

The power consumption calculation module 310 may obtain both power consumption and total power consumption for each circuit. As described above, when the power consumption for each circuit is calculated using the main voltage value and the current value for each circuit, the power consumption calculation module 310 sums up the power consumption for each circuit and total power consumption used in the distribution board. can be obtained. The power consumption calculation module 310 generates power consumption information including the power consumption amount and total power consumption for each circuit, and the power consumption time for each circuit, which means the holding time of the current for each circuit measured by the power data measuring unit 111 . may be received and further included in the power consumption information.

The power schematic generation module 320 is formed to classify the devices 130 connected for each circuit and group circuits using a physical area of a building to generate a power schematic. The power system diagram means a diagram showing the act of controlling and managing the flow of electricity in order to maintain the smooth flow of electricity and the quality of electricity.

4 is a block diagram simply showing a special event processing unit among the power consumption management device in a building according to the present invention. The special event processing unit 115 is configured to learn the power consumption information to determine whether a special event has occurred in the circuit, and to output the determination result. To this end, the special event processing unit 115 may be formed to include a power consumption event determination module 410 and an event information output module 420 as shown in FIG. 4 .

The power consumption event determination module 410 is configured to determine whether a special event has occurred in the circuit using the power consumption information and the power diagram. The power consumption event determination module 410 may generate a learning result by learning the power consumption information to determine whether a special event has occurred, and may use the generated learning result as a criterion for determining whether a special event has occurred. Here, the power consumption information includes the amount of power consumed for each circuit, the total power consumption, and the power consumption time for each circuit, as described above.

The power consumption event determination module 410 learns each circuit's power consumption amount, power consumption time, and the like, by using the power consumption information. The devices 130 connected to each circuit consume power when the power is turned on, and do not consume power when the power is turned off. Accordingly, the power consumption event determination module 410 may learn how much power consumption is for each circuit and learn the power consumption time. Here, the power consumption time may be a power consumption start time and an end time.

If the power consumption start time and end time are obtained, the power consumption event determination module 410 can check the power-on time and the power-off time of the device 130 connected to the circuit. By acquiring the time, it is possible to generate a learning result including the total daily power usage time. In addition, the power consumption event determination module 410 may generate a learning result further including the corresponding learning pattern by learning the pattern of the power consumption start time and end time.

The power consumption event determination module 410 determines whether a special event occurs using the learning result. The power consumption event determination module 410 compares the learning result with the power consumption end time, for example, and when the power consumption end time is later than the learning result or does not exist, the power of the device 130 connected to the circuit is not turned off It can be determined that a specific event has occurred.

The special event means a case in which power consumption of the device 130 significantly differs from the general usage pattern of the device 130 occurs. The special event may include a case in which the device 130 is not turned off, the power consumption is changed due to a malfunction of the device 130, or a circuit abnormality occurs due to a short circuit in an electrical system inside a building.

The occurrence of such a special event is determined by comparing the power consumption event determination module 410 as described above to generate a learning result by learning the power consumption information for each circuit, and comparing the generated learning result with the power consumption information acquired in real time. can do.

The event information output module 420 is configured to output the location in the building where the special event has occurred to the power system diagram and the terminal 140 . When the event information output module 420 determines that a special event has occurred in the special power consumption event determination module 410, the event information output module 420 receives the special event information from the power consumption event determination module 410, and converts the received special event information into the power system diagram. and output to the terminal 140 . The specific event information may include a type of the specific event and an occurrence location of the specific event.

In addition, the terminal 140 may include a PC, a smartphone, a tablet, etc. connected to the power consumption management device 110 in a building through wired or wireless communication. The terminal 140 may be used by an administrator or a user, and by outputting special event information to both the administrator and the user, the terminal 140 may notify the abnormal state of the device 130 in the building to take action. In addition, the specific event may be output to the power grid so that the location of the device 130 in the building can be grasped at a glance.

Meanwhile, the apparatus 110 for managing power consumption in a building according to an embodiment of the present invention may further include a power consumption management unit (not shown). The power consumption management unit may manage power consumption in the building and allow the user to keep his/her monthly electricity usage cost constant. To this end, the power consumption management unit may include a circuit grouping module and a group-specific power consumption management module.

The circuit grouping module is configured to group at least one circuit. Various devices 130 may be connected to the circuit connected to the distribution panel. The types of the devices 130 may include basic devices such as lighting, system air conditioners, and heating appliances that are pre-installed in a building, and additional devices such as phones, monitors, computers, printers, and multifunction devices directly connected by the user.

The circuit of the basic type device is formed with a fixed position inside the distribution board 120, but the circuit connected to the distribution panel 120 is changed as the user changes the location of the circuit of the additional type device inside the building as needed. Accordingly, the circuit grouping module is formed to receive the type of device and the connection circuit through the input through the terminal 140 , whereby the circuit grouping module is configured to receive the type of circuit and the device 130 to which the devices 130 are connected, respectively. information can be obtained.

The circuit grouping module may group circuits using the acquired type information of the devices 130 . The circuit grouping module may group circuits according to the grouping criterion received from the outside. As an example, the circuit grouping module can group basic devices and additional devices into different groups, and devices and circuits are grouped using the device type, that is, the standard of electric heaters, lights, office supplies, air conditioners, and other appliances. You can group them into different groups. Furthermore, the circuit grouping module may group circuits for each user in the building.

The group-specific power consumption management module is formed to manage power consumption for each circuit grouped in the circuit grouping module. The group-specific power consumption management module may receive grouping information from the circuit grouping module, and set and manage a total power consumption limit of the grouped circuits using the grouping information.

For example, when the grouping information is the type of device, the power consumption management module for each group may set different power consumption limits for each circuit group, such as a light, electric heater, office supplies, air conditioner, and other appliances. In the case of a light, if a circuit abnormality or light failure does not occur, the power consumption appears constant in proportion to the usage time. Therefore, the power consumption management module for each group sets the power consumption limit of the light by using the learning result, and when it exceeds the set limit, the abnormal occurrence information is transmitted to the special event processing unit 115 and the special event processing unit 115 generates a special event. can be output to the terminal 140 .

Meanwhile, in another embodiment of the present invention, the power data measuring unit 111 may further include a branch sensor (not shown) connecting the main voltage measuring module 210 and the current measuring module 220 . Here, one main voltage measurement module 210 is provided, and four branch sensors are connected to the main voltage measurement module 210 so that a maximum of 255 current measurement modules 220 are connected to each branch sensor. have. In this case, 485 communication is performed between the main body and the branch sensor, and in particular, by checking only the communication CRC using its own protocol, the communication load can be minimized, so that a maximum of 1020 current measurement modules 220 can be installed.

Meanwhile, FIG. 5 is a flowchart of a method for managing power consumption in a building using an apparatus for managing power consumption in a building according to an embodiment of the present invention. Hereinafter, a method for managing power consumption in a building according to an embodiment of the present invention with reference to FIGS. 5 to 8 will be described in detail using the apparatus for managing power consumption in a building of FIGS. 1 to 4 described above.

In the method 500 for managing power consumption in a building according to an embodiment of the present invention, for example, a voltage supplied to a distribution board is measured using an apparatus for managing power consumption in a building provided in the distribution board, and each device connected to a plurality of devices is used. By measuring the current of each device flowing through the circuit, the power consumption of each device is calculated and learned to determine whether an abnormal situation occurs. When an abnormal situation occurs, the special event determination result is delivered to the administrator or user is formed to manage the power consumption of the device.

To this end, in the method 500 for managing power consumption in a building of the present invention, referring to FIG. 5 , obtaining power data using a power data obtaining unit ( S510 ), processing power data using a power data processing unit (S520) and processing the special event using the special event processing unit (S530).

In the step of obtaining power data by using the power data obtaining unit ( S510 ), power data for obtaining power consumption of a plurality of devices is measured. Here, the power data includes a voltage value and a current value, the voltage value may be a measurement value of the main voltage supplied to the distribution panel, and the current value may be a measurement value of the current supplied to the device.

6 is a flowchart illustrating step S510 of FIG. 5 in more detail. Step S510 may include measuring a main voltage ( S511 ) and measuring a current value ( S512 ), respectively, as shown in FIG. 6 .

The step of measuring the main voltage (S511) is formed to measure the main voltage value input to the distribution panel, and the step of measuring the current value (S512) is formed to measure the current value for each circuit of the devices connected to the distribution panel, respectively. .

In step S512, the current measurement module may be used to measure the current value of the circuit using an electric or magnetic field. The current measurement module may acquire an electric field or magnetic field around the circuit generated due to the current flowing in the circuit, and measure the value of the current flowing in the circuit using the obtained electric field or magnetic field. value can be measured. Therefore, for this purpose, the current measurement module is formed in the form of a ring, and can be formed in a form that is easy to attach and detach so that the circuit can be located in the center of the ring.

In another embodiment of the present invention, the current measuring module may be replaced with a clamp meter, and in this case, there is an effect of reducing the cost for performing the power consumption management method of the present invention.

7 is a flowchart illustrating step S520 of FIG. 5 in more detail. Step S520 is formed to calculate power consumption by using power data, and to generate power consumption information and a power diagram. Referring to FIG. 7 , step S520 of the present invention may include calculating power consumption ( S521 ) and generating a power diagram ( S522 ).

The step of calculating power consumption ( S521 ) is formed to calculate power consumption using power data. S521 may receive the power data obtained in step S510, and calculate the power consumption for each circuit by using the main voltage value and the current value for each circuit included in the power data.

In step S521, both power consumption and total power consumption for each circuit may be acquired. As described above, when the power consumption for each circuit is calculated using the main voltage value and the current value for each circuit, step S521 sums the power consumption for each circuit to obtain the total power consumption used in the distribution board. . Step S521 generates power consumption information including the power consumption amount and total power consumption for each circuit, and receives the power consumption time for each circuit, which means the holding time of the current for each circuit measured in step S510, to be further included in the power consumption information may be

The step of generating the power schematic ( S522 ) is formed to classify devices connected by circuits and group circuits using a physical area of a building to generate a power schematic. The power system diagram means a diagram showing the act of controlling and managing the flow of electricity in order to maintain the smooth flow of electricity and the quality of electricity.

8 is a flowchart illustrating step S530 of FIG. 5 in more detail. The step of processing the special event (S530) is formed to learn the power consumption information to determine whether a special event has occurred in the circuit, and to output the determination result. To this end, as shown in FIG. 8 , step S530 may include determining whether the power consumption event is a special event ( S531 ) and outputting information on the special event ( S532 ).

The step of determining whether the power consumption event is a specific event ( S531 ) is configured to determine whether a specific event has occurred in the circuit using the power consumption information and the power diagram. In step S531, a learning result is generated by learning the power consumption information to determine whether a specific event has occurred, and the generated learning result may be used as a criterion for determining whether or not the specific event has occurred. Here, the power consumption information includes the amount of power consumed for each circuit, the total power consumption, and the power consumption time for each circuit, as described above.

In step S531, each circuit learns the amount of power consumption, the power consumption time, and the like, by using the power consumption information. Devices connected to each circuit consume power when the power is turned on and do not consume power when the power is turned off. Accordingly, in step S531, it is possible to learn how much power consumption is for each circuit and learn the power consumption time. Here, the power consumption time may be a power consumption start time and an end time.

If the power consumption start time and end time are obtained, in step S531, the power on and off times of the devices connected to the circuit can be checked. It is possible to generate a learning result including In addition, step S531 may generate a learning result further including the corresponding learning pattern by learning the pattern of the power consumption start time and end time.

In step S531, it is determined whether a special event has occurred using the learning result. Step S531 compares the learning result with the end time of power consumption, for example, and if the end time of power consumption is later than the learning result or does not exist, it is determined that the power of the device connected to the circuit is not turned off, and it is determined that a special event has occurred can do.

A special event refers to a case in which device power consumption significantly differs from the general usage pattern of the device. The special event may include a case in which the device is not turned off, the power consumption changes due to a device failure, or a circuit abnormality occurs due to a short circuit in an electrical system inside a building.

Whether or not such a special event occurs may be determined by generating a learning result by learning the power consumption information for each circuit in step S531 as described above, and comparing the generated learning result with the power consumption information obtained in real time.

The step of outputting the specific event information ( S532 ) is configured to output the location in the building where the specific event has occurred to the power system diagram and the terminal. In step S532, if it is determined that the specific event has occurred in step S531, the specific event information may be received from the step S531, and the received specific event information may be output to the power system diagram and the terminal. The specific event information may include a type of the specific event and an occurrence location of the specific event.

The terminal may include a PC, a smartphone, a tablet, and the like. The terminal can be used by a manager or a user, and by outputting special event information to both the manager and the user, it is possible to notify the abnormal state of the device in the building and take action.

In addition, the specific event may be output to the power grid so that the location of the device in the building can be grasped at a glance.

Meanwhile, the method 500 for managing power consumption in a building according to an embodiment of the present invention may further include the step of managing power consumption (not shown). The step of managing power consumption may be configured to manage power consumption in a building so that the user can keep his or her monthly electricity usage cost constant. Managing power consumption may include grouping circuits for this purpose; and managing power consumption for each group.

The grouping of the circuits is configured to group the at least one circuit. Various devices may be connected to the circuit connected to the distribution board. The types of devices may include basic devices such as lighting, system air conditioners, and heating appliances that are pre-installed in a building, and additional devices such as phones, monitors, computers, printers, and multifunction devices directly connected by a user.

The circuit of the basic type device is formed with a fixed position inside the distribution board, but the circuit connected to the distribution panel is changed as the user changes the location of the circuit of the additional type device inside the building as needed. Therefore, the step of grouping the circuit is formed so that the type and connection circuit of the device can be transmitted through the input through the terminal, and thereby, the step of grouping the circuit can obtain information on the type of the circuit and the device to which the devices are connected, respectively. .

In the grouping of the circuits, the circuits may be grouped using the acquired device type information. In the step of grouping the circuits, the circuits may be grouped according to the grouping criterion received from the outside. For example, in the step of grouping the circuit, the basic device and the additional device can be grouped into different groups, and the device and You can group circuits into different groups. Furthermore, the step of grouping circuits may group circuits by users in the building.

The step of managing the power consumption for each group is formed to manage the power consumption for each grouped circuit in the step of grouping the circuits. In the step of managing power consumption for each group, grouping information is received from the step of grouping the circuits, and the total power consumption limit of the grouped circuits may be set and managed using the grouping information.

For example, when the grouping information is the type of device, managing power consumption for each group may set different power consumption limits for each circuit group, such as electric lights, electric heaters, office supplies, air conditioners, and other appliances. In the case of a light, if a circuit abnormality or light failure does not occur, the power consumption appears constant in proportion to the usage time. Therefore, in the step of managing power consumption by group, the power consumption limit of the lamp is set using the learning result, and when the set limit is exceeded, the abnormal occurrence information is transferred to the step S530 of processing the special event, and the special event is performed in step S530. Events can be output to the terminal.

Meanwhile, in the step of acquiring power data ( S510 ) in another embodiment of the present invention, power data may be acquired by further using a branch sensor that connects between the main voltage measuring module and the current measuring module. Here, one main voltage measuring module may be provided, and four branch sensors may be connected to the main voltage measuring module, and a maximum of 255 current measuring modules may be connected to each branch sensor. In this case, 485 communication is performed between the main body and the branch sensor, and in particular, the communication load can be minimized by checking only the communication CRC using its own protocol, so that up to 1020 current measurement modules can be installed.

In other words, in step S510, communication load can be minimized by using 485 communication to measure the main voltage of the distribution board and the current value for each circuit, and checking only the communication CRC through its own protocol.

Although one embodiment of the present invention has been described above, the spirit of the present invention is not limited to the embodiments presented herein, and those skilled in the art who understand the spirit of the present invention can add components within the scope of the same spirit. , changes, deletions, additions, etc. may easily suggest other embodiments, but this will also fall within the scope of the present invention.

100: power consumption management system in the building
110: power consumption management device in the building
111: power data measurement unit
113: power data processing unit
115: special event handling unit
120: distribution board
130: device
140: terminal
210: main voltage measurement module
220: current measurement module
310: power consumption calculation module
320: power schematic generation module
410: power consumption event determination module
420: event information output module

Claims (18)

In the building power consumption management device provided to manage the power consumption in the building and to check the abnormal situation,
a power data measuring unit configured to measure power data capable of acquiring the power consumption;
a power data processing unit configured to calculate the power consumption by using the power data to generate power consumption information and a power diagram; and
and a special event processing unit configured to learn the power consumption information, determine whether a special event has occurred in the circuit, and output the information;
The power data measuring unit is installed on the distribution board of the building and is formed to obtain the power consumption for each circuit,
The power data is a power consumption management device in a building including a main voltage value of the distribution panel and a current value for each circuit. The method of claim 1,
The power data measurement unit,
a main voltage measurement module configured to measure a main voltage value input to the distribution panel; and
At least one current measurement module configured to measure a current value for each circuit connected to the distribution board; A power consumption management device in a building formed to include. 3. The method of claim 2,
The current measurement module is a power consumption management device in a building in which a ring shape is coupled to the circuit so as to measure the current value for each circuit by using the electric field or the magnetic field of the circuit and is easily attached and detached. The method of claim 1,
The power data processing unit,
a power consumption calculation module configured to calculate power consumption for each circuit by using the main voltage value and the current value; and
and a power schematic generation module for classifying devices connected for each circuit, and grouping circuits using a physical area of the building to generate the power grid. 5. The method of claim 4,
The power consumption calculation module,
The power consumption for each circuit is obtained by multiplying the main voltage value by the current value obtained for each circuit, and the sum of the power consumption for each circuit is obtained as the total power consumption of the distribution board, and the power consumption for each circuit and the total A power consumption management device in a building for generating the power consumption information including the amount of power consumption. 6. The method of claim 5,
The power consumption information, the power consumption management device in a building further comprising a power consumption time for each circuit. The method of claim 1,
The special data processing unit,
a power consumption event determination module configured to determine whether the special event has occurred in the circuit by using the power consumption information and the power diagram; and
In-building power consumption management device formed to include; an event information output module configured to output the location in the building where the special event has occurred to the power system diagram and the manager terminal. 8. The method of claim 7,
The power consumption event determination module,
An apparatus for managing power consumption in a building that acquires and learns the power consumption information to generate a learning result, and uses the learning result as a criterion for determining whether the special event occurs. 9. The method of claim 8,
The power consumption event determination module,
When there is a difference between the learning result and current power consumption information, it is determined that the specific event has occurred in the corresponding circuit. A method for managing power consumption in a building using a power consumption management device in a building that is formed to manage power consumption in a building and check an abnormal situation, the method comprising:
measuring power data capable of acquiring the power consumption;
generating power consumption information and a power diagram by calculating the power consumption using the power data; and
Learning the power consumption information, determining whether a special event has occurred in the circuit, and outputting;
Measuring the power data comprises:
Obtaining the power consumption for each circuit from the distribution board of the building,
The power data is a power consumption management method in a building including a main voltage value of the distribution panel and a current value for each circuit. 11. The method of claim 10,
Measuring the power data comprises:
measuring a main voltage value input to the distribution panel; and
Measuring each current value for each circuit connected to the distribution board; power consumption in a building management method formed to include. 12. The method of claim 11,
The step of measuring each of the current values is performed by using a current measuring module having a ring shape coupled to the circuit and easily detachable so that the current value for each circuit can be measured using the electric field or magnetic field of the circuit. A method of managing power consumption in a building that measures current. 11. The method of claim 10,
The step of processing the power data,
calculating power consumption for each circuit by using the main voltage value and the current value; and
Classifying devices connected for each circuit and grouping circuits using a physical area of the building to generate the power system diagram. 14. The method of claim 13,
Calculating the power consumption includes:
The power consumption for each circuit is obtained by multiplying the main voltage value by the current value obtained for each circuit, and the sum of the power consumption for each circuit is obtained as the total power consumption of the distribution board, and the power consumption for each circuit and the total A method of managing power consumption in a building for generating the power consumption information including power consumption. 15. The method of claim 14,
The power consumption information, the power consumption management method in a building further comprising a power consumption time for each circuit. 11. The method of claim 10,
The step of processing the special event is,
determining whether the special event has occurred in the circuit using the power consumption information and the power diagram; and
Outputting the location in the building where the special event has occurred to the power grid and the manager terminal; power consumption in a building management method formed to include. 17. The method of claim 16,
The step of determining whether the special event has occurred is
A method of managing power consumption in a building by acquiring and learning the power consumption information to generate a learning result, and using the learning result as a criterion for determining whether the special event occurs. 18. The method of claim 17,
The step of determining whether the special event has occurred is
When there is a difference between the learning result and current power consumption information, the method for managing power consumption in a building determines that the specific event has occurred in the corresponding circuit.

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