KR20130089798A - Method for managing energy of building, system thereof and apparatus thereof - Google Patents

Abstract

PURPOSE: Energy saving method is set by comparing energy consumption of a building for an energy efficiency level and actual energy consumption, and can apply the method to energy managing of the building. CONSTITUTION: A communication unit transmits/receives data for saving energy of a building, communicating with an energy managing device. A storage unit stores an energy efficiency level and data about energy consumption. A controller sets an energy efficiency level of the building based on a reference energy efficiency level (S11), monitors energy consumption of the building (S13), compares a reference energy consumption of the building's energy efficiency level and a monitored energy consumption (S15), if the energy consumption is more than the reference energy consumption, it sets method for saving energy of the building (S17), and controls to apply the method to managing energy of the building (S19). [Reference numerals] (AA) Start; (BB) End; (S11) Set an energy efficiency level of the building based on a reference energy efficiency level; (S13) Monitor energy consumption of the building; (S15) Reference energy consumption of the building's energy efficiency level < monitored energy consumption?; (S17) Select exceeding management items and analyze exceeding values; (S19) Apply the method to managing energy of the building

Description

Method for managing energy of building, system and apparatus for same

The present invention relates to a method and system for energy management services of a building, and more particularly, to a method and system for energy management of a building that saves energy in a building by comparing the energy efficiency rating and energy consumption of the building, and a device therefor. .

In Korea, which is highly dependent on the supply and demand of energy resources, imports of imported energy have not decreased, but are still increasing, even at the time of ultra high oil prices exceeding $ 100 per barrel. In light of these circumstances, technology development and application of energy saving in the building sector is considered as a very important field. In other words, as the industry develops, the number of buildings is increasing, and each building uses a lot of energy for air conditioning and operation of facilities. Energy consumption in buildings accounts for about 20% of total domestic consumption, and is increasing every year.

In particular, the efficient use of energy in buildings is an important factor that directly affects the landlord's economic aspects and the national infrastructure industry, and technology development and investment are urgently required. Unreasonable energy use is also associated with inefficient operation and management of the facilities in the building.

Such energy saving methods in buildings include architectural planning approaches and facility approaches that improve the operating efficiency of energy-using devices and systems. In the facility field, it is required to create an appropriate environment and to operate an efficient facility system in consideration of energy consumption and environmental conservation.

And, as a building owner, the energy consumption of a building is directly linked to the financial expenditure, so inefficient building energy consumption places a significant financial burden on the building owner. In order to solve these problems, improvement measures are required to efficiently and systematically manage the use of energy consumed in buildings.

In order to solve such a conventional problem, an object of the present invention is to compare the energy consumption for the energy efficiency rating of the building and the actual energy consumption to set a method for energy saving, and apply the set method to the energy management of the building. To provide a method, a system and an apparatus for energy management of a building.

Building management apparatus according to an embodiment of the present invention for achieving the above object is a communication unit for communicating with the energy management device for transmitting and receiving data for energy saving of the building, the energy efficiency rating of the building, and energy usage Set the energy efficiency class of the building based on the storage unit and the standard energy efficiency class that stores the data, monitor the energy consumption for the building, compare the reference energy consumption with the energy efficiency level of the building and the monitored energy consumption. When the energy usage exceeds the reference energy usage, the control unit may be configured to set a method for energy saving of the building and to control the set method to manage energy of the building.

In addition, in the building management apparatus according to the present invention, the control unit monitors the energy usage for the building, and transmits the data on the energy consumption to the energy management device, the data on the method for energy saving of the building from the energy management device It receives a, and applies the data for the room to the energy management of the building.

In addition, in the building management apparatus according to the present invention, the control unit checks the energy consumption for the management items of cooling, heating, hot water supply, ventilation, lighting of the building in real time, and the confirmed energy consumption by time zone, daily, weekly, It stores by day, month by month, and transmits the stored data to the energy management device.

The energy management device according to an embodiment of the present invention is a communication module for transmitting and receiving data for energy saving of a building by communicating with a building management device, a storage module for storing data on energy efficiency level and energy consumption of a building, and a standard. Set the energy efficiency rating of the building based on the energy efficiency rating, receive data on the energy consumption of the building from the building management device, compare the reference energy usage with the received energy usage by the energy efficiency rating of the building, When the amount of use exceeds the reference energy consumption, it is characterized in that it comprises a control module for setting a method for energy saving of the building, and controls to transmit the data for the set method to the building management device.

The energy management device for a building according to an embodiment of the present invention comprises the steps of the building management device to set the energy efficiency rating of the building based on the standard energy efficiency rating, the building management device to monitor the energy usage for the building, When the building management device compares the reference energy usage by the energy efficiency class of the building with the monitored energy usage and when the energy usage exceeds the reference energy usage, the building management equipment sets a plan for energy saving of the building, And applying the established scheme to energy management of the building.

In addition, in the energy management method of the building according to the present invention, the setting step is a building management device accumulates monthly and yearly by combining the information on the energy performance of the building, the quality of the residential environment, in relation to the accumulated information It is characterized by dividing the energy efficiency rating of the building into a plurality of classes.

In addition, in the energy management method of the building according to the present invention, the step of monitoring the building management device to check the energy consumption for the management items of the building cooling, heating, hot water supply, ventilation, lighting in real time and the building management device It characterized in that it comprises the step of storing the identified energy consumption by time zone, daily, weekly, weekly, monthly.

In addition, in the energy management method of the building according to the present invention, the comparing step is characterized in that the building management device includes a step of checking whether the energy consumption of the building exceeds the reference energy consumption for the energy efficiency class.

In addition, in the energy management method of the building according to the present invention, the step of applying the building management device selects the management items exceeding the energy consumption among the management items of cooling, heating, hot water supply, ventilation, lighting of the building according to the comparison result. And a step of confirming the excess value of the selected management item by the building management device and setting a plan for energy saving of the building by analyzing the excess value.

According to an embodiment of the present invention, an energy management method of a building includes: monitoring, by a building management device, an energy usage of a building; transmitting, by the building management device, data on the monitored energy usage to an energy management device; The management device may include receiving data about a method for energy saving of the building from the energy management device, and applying the received method by the building management device to energy management of the building.

In addition, in the building energy management method according to the present invention, the step of monitoring the building management device to check the energy consumption for the management items of the building cooling, heating, hot water supply, ventilation, lighting in real time, building management The device further comprises the step of storing the identified energy consumption by time zone, daily, weekly, weekly, monthly, and transmitting the stored data by the building management device to the energy management device.

In the energy management method of a building according to an embodiment of the present invention, the energy management apparatus sets an energy efficiency rating of a building based on a reference energy efficiency grade, and the energy management apparatus is configured to control the energy consumption of a specific building from the building management apparatus. Receiving the data, comparing the energy consumption with the reference energy consumption according to the energy efficiency level of the building, and if the energy usage exceeds the reference energy consumption, the energy management device is configured to save energy in the building. And setting the room, and transmitting data on the established room to the building management apparatus.

In addition, in the energy management method of the building according to the present invention, the setting step is the energy management device accumulates monthly and yearly by combining information on the energy performance of the building, the quality of the residential environment, in relation to the accumulated information It is characterized by dividing the energy efficiency rating of the building into a plurality of classes.

In addition, in the building energy management method according to the present invention, the comparing step is characterized in that the energy management device includes a step of checking whether the energy consumption of the building exceeds the reference energy consumption for the energy efficiency class.

The energy management method of a building according to an embodiment of the present invention sets the energy efficiency rating of the building based on the reference energy efficiency rating, receives data on the energy consumption of the building from the building management device, and determines the energy efficiency rating of the building. The energy management device that compares the reference energy consumption with the received energy consumption, sets a method for saving energy in the building, and transmits data on the set method to the building management device when the energy usage exceeds the reference energy usage. And monitoring the energy usage of the building, transmitting data on the monitored energy usage to the energy management device, receiving data on the energy saving measures of the building from the energy management device, and Including building management equipment for energy management of buildings It characterized.

According to the present invention, it is possible to set a method for energy saving by comparing the energy consumption and the actual energy consumption for the energy efficiency rating of the building, and apply the set method to energy management of the building.

In addition, through the building energy efficiency rating certification system, objective information such as the energy performance of the building or the quality of the residential environment is provided, and the building is recognized for its value, which leads to the construction, owner, manager and building user. Profit for everyone.

In addition, by providing accurate information on the energy used in the building for rational energy saving in the building sector, it is possible to induce investment in energy saving technology and visualize the economic effect, thereby raising awareness of energy saving and at the same time comfortable and comfortable indoors. Provide an environment.

In addition, it is possible to easily predict the energy performance of new buildings in the basic design stage and to propose an appropriate design plan that can efficiently improve the building energy performance based on the predicted values. You can decide.

1 is a view showing the configuration of the energy management system of a building according to an embodiment of the present invention.
2 is a block diagram for explaining the configuration of a building management apparatus according to an embodiment of the present invention.
3 is a block diagram illustrating a configuration of an energy management apparatus according to an exemplary embodiment of the present invention.
4 is a flowchart illustrating an operation of a building management apparatus for explaining a method of managing energy of a building according to an embodiment of the present invention.
5 is a flowchart illustrating an energy management method of a building according to another exemplary embodiment of the present disclosure.
6 is a flowchart illustrating an operation of a building management apparatus for explaining a method for managing energy of a building according to another embodiment of the present invention.
7 is a flowchart illustrating an operation of an energy management apparatus for explaining a method of managing energy of a building, according to another exemplary embodiment.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description and the accompanying drawings, detailed description of well-known functions or constructions that may obscure the subject matter of the present invention will be omitted. It should be noted that the same constituent elements are denoted by the same reference numerals as possible throughout the drawings.

The terms or words used in the specification and claims described below should not be construed as being limited to ordinary or dictionary meanings, and the inventors are appropriate as concepts of terms for explaining their own invention in the best way. It should be interpreted as meanings and concepts in accordance with the technical spirit of the present invention based on the principle that it can be defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a view showing the configuration of the energy management system of a building according to an embodiment of the present invention.

Referring to FIG. 1, an energy management system 100 according to an exemplary embodiment of the present invention includes a building management apparatus 10, an energy management apparatus 20, and a communication network 30.

The communication network 30 performs a series of data transmission and reception operations for data transmission and information exchange between the building management device 10 and the energy management device 20. In this case, the building management apparatus 10 may be connected to the energy management apparatus 20 through the communication network 30. In addition, the building management apparatus 10 may be connected in various ways according to the protocol supporting the connection to the communication network (30). For example, the building management apparatus 10 may connect to the communication network 30 through a fixed access method such as a digital subscriber line (DSL), a cable modem, or an Ethernet. In addition, the building management apparatus 10 may be connected to the communication network 30 through a mobile access method. In addition, the building management apparatus 10 may access the communication network 30 through a wireless access method such as a wireless local area network (WLAN), a wireless fidelity (WiFi), a worldwide interoperability for microwave access (WiMAX), or the like. .

The building management device 10 transmits and receives data by communicating with the energy management device 20 and the communication network 30 for energy management of the building. In particular, the building management apparatus 10 according to an embodiment of the present invention sets the energy efficiency rating of the building based on the reference energy efficiency rating, and monitors the energy usage of the building. And, the building management device 10 compares the reference energy usage and energy usage by the energy efficiency rating of the building. As a result of comparison, when the energy consumption exceeds the reference energy usage, the building management apparatus 10 sets a method for energy saving of the building. Thereafter, the building management apparatus 10 applies the set method to energy management of the building.

The building management device 10 monitors the energy usage for the building and transmits data on the energy usage to the energy management device 20. Then, the building management device 10 receives data about the energy saving method of the building from the energy management device 20. Thereafter, the building management apparatus 10 applies the data on the received scheme to the energy management of the building.

The building management device 10 checks the energy consumption of management items such as cooling, heating, hot water supply, ventilation, and lighting of the building in real time, and classifies the identified energy consumption by time, day, week, day, and month. Save it. The building management apparatus 10 transmits the stored data to the energy management apparatus 10.

The energy management device 20 communicates with the building management device 10 and the communication network 30 to transmit and receive data for energy management of the building. In particular, the energy management device 10 according to an embodiment of the present invention sets the energy efficiency rating of the building based on the reference energy efficiency rating. In addition, the energy management device 20 receives data on the energy usage of the building from the building management device 10. Then, the energy management device 20 compares the reference energy usage and energy usage by the energy efficiency rating of the building. As a result of the comparison, when the energy consumption exceeds the reference energy usage, the energy management device 20 sets a plan for energy saving of the building, and transmits data on the set plan to the building management device 10.

Through this, it is possible to set a plan for energy saving by comparing the energy consumption and the actual energy consumption for the energy efficiency rating of the building, and apply the set method to the energy management of the building. In addition, through the building energy efficiency rating certification system, objective information such as the energy performance of the building or the quality of the residential environment is provided, and the building is recognized for its value, which leads to the construction, owner, manager and building user. Profit for everyone. In addition, by providing accurate information on the energy used in the building for rational energy saving in the building sector, it is possible to induce investment in energy saving technology and visualize the economic effect, thereby raising awareness of energy saving and at the same time comfortable and comfortable indoors. Provide an environment.

2 is a block diagram for explaining the configuration of a building management apparatus according to an embodiment of the present invention.

2, the building management apparatus 10 according to an embodiment of the present invention is composed of a control unit 11, a storage unit 12 and a communication unit (13). Here, the storage unit 12 includes an energy efficiency rating 12a and an energy consumption amount 12b.

Building management apparatus 10 according to an embodiment of the present invention is a terminal connected to the communication network 30 to transmit and receive data for energy management of the energy management device 20 and the building, it may include a mobile communication terminal. However, the building management device 10 is not limited to a mobile communication terminal, but may be applied to various terminals such as all information communication devices, multimedia terminals, wired terminals, fixed terminals, and IP (Internet Protocol) terminals. In addition, the building management device 10 includes a mobile phone, a portable multimedia player (PMP), a mobile internet device (MID), a smart phone, a desktop, a tablet computer, a notebook, It may be advantageously used when a mobile terminal having various mobile communication specifications such as a net book and an information communication device.

The communication unit 13 performs a function for transmitting and receiving data for energy saving of the building through the energy management device 20 and the communication network 30. Here, the communication unit 13 includes RF transmitting means for up-converting and amplifying the frequency of the transmitted signal, and RF receiving means for low-noise-amplifying and down-converting the received signal. The communication unit 13 may include at least one of a wireless communication module (not shown) and a wired communication module (not shown). The wireless communication module includes a wireless communication module, a wireless local area network (WLAN), a wireless fidelity (WiFi), a wireless communication module, and a wireless personal area network (WPAN) And may include at least one. In addition, the wireless communication module is a configuration for transmitting and receiving data according to a wireless communication method, when the building management apparatus 10 uses wireless communication, any one of a wireless network communication module, wireless LAN communication module and wireless fan communication module Data may be transmitted to or received from the energy management device 20 by using the same. On the other hand, the wired communication module is for transmitting and receiving data by wire. The wired communication module may be connected to the communication network 30 through a wire to transmit or receive data to the energy management device 20.

The storage unit 12 is a device for storing data. The storage unit 12 includes a main memory device and an auxiliary memory device, and stores an application program required for a functional operation of the building management device 10. The storage unit 12 may largely include a program area and a data area. Here, when the building management device 10 activates each function in response to a user's request, the building management device 10 executes the corresponding application programs under the control of the control unit 11 to provide each function. In particular, the program area stores an operating system for booting the building management apparatus 10, a program for collecting energy usage of a building, a program for comparing energy usage, a program for setting a scheme for energy saving, and the like. In addition, the data area is an area in which data generated according to the use of the building management apparatus 10 is stored. In particular, the data area stores data on energy efficiency rating 12a and energy usage 12b. Here, the energy efficiency rating 12a is implemented to expand the construction of buildings with high energy performance and to efficiently manage energy of buildings. Buildings subject to the energy efficiency level certification of buildings are buildings under the Building Act, which are intended for apartment houses or business buildings. The certification level for newly built apartments is from Grade 1 to Grade 5, and if the total energy saving rate is 40% or more, Grade 1, Grade 30 or above 40% Grade 2, Grade 20 or above 30% Grade 3, Grade 10 or above Less than 20% is Grade 4, and more than 0% and less than 10% is Grade 5. New buildings for construction are based on the primary energy requirements per unit area (kWh / ㎡ · year), less than 300 grade 1, less than 300 grades less than 350 grades 2, less than 350 grades less than 400 grades 3 grades, and more than 400 grades less than 450 grades 4 grades. And 450 and above 500 are Grade 5. The evaluation criteria of the apartment complex to certify the energy efficiency rating of the building are as follows. Total energy reduction rate (%) = ∑ (Energy reduction rate of unit apartment × total area of unit building) / Total area of apartment building, building energy requirement for new construction business = Heating, cooling, hot water, The amount of energy consumed by the lighting and ventilation system.

The control unit 11 may be an operating system (OS) and a process unit for driving each configuration. For example, the control unit 11 may be a central processing unit (CPU). In particular, the control unit 11 sets the energy efficiency rating of the building based on the reference energy efficiency rating. At this time, the control unit 11 combines the information on the energy performance of the building, the quality of the residential environment and accumulates monthly and yearly, and selects the energy efficiency rating of the building by dividing it into a plurality of classes in relation to the accumulated information.

The control unit 11 monitors the energy usage for the building. Here, the control unit 11 checks the energy consumption for the management items of cooling, heating, hot water supply, ventilation, and lighting of the building in real time, and stores the identified energy consumption by time zone, daily, weekly, weekly and monthly. do.

The control unit 11 compares the reference energy usage and energy usage by the energy efficiency rating of the building. Here, the control unit 11 checks whether the energy consumption of the building exceeds the reference energy usage for the energy efficiency rating. As a result of the comparison, when the energy consumption exceeds the reference energy consumption, the control unit 11 sets a method for energy saving of the building, and applies the set method to energy management of the building. That is, the control unit 11 selects the management items in which energy consumption is exceeded among the management items such as cooling, heating, hot water supply, ventilation, and lighting of the building, and confirms the excess value for the selected management items. In addition, the controller 11 analyzes the excess value and sets a method for energy saving of the building.

In addition, the control unit 11 according to another embodiment of the present invention monitors the energy usage of the building. At this time, the control unit 11 checks the energy consumption of the management items of cooling, heating, hot water supply, ventilation, lighting of the building in real time, and stores the identified energy consumption by time zone, daily, weekly, weekly, and monthly. do.

The controller 11 transmits data on energy usage to the energy management device 20. In addition, the control unit 11 transmits data on management items to the energy management device. Then, the control unit 11 receives data about the energy saving method of the building from the energy management device 20. The controller 11 applies the received method to energy management of the building.

In addition, the building management apparatus 10 according to an embodiment of the present invention performs a data input function and a display function for energy management of a building. In this case, the building management apparatus 10 preferably further includes an input unit (not shown) and a display unit (not shown). In particular, the input unit receives various information such as numeric and character information, sets various functions, and transmits a signal input in connection with the function control of the building management apparatus 10 to the controller 11. In addition, the input unit may include at least one of a keypad and a touch pad for generating an input signal according to a user's touch or manipulation. At this time, the input unit may be configured in the form of one touch panel (or touch screen) together with the display unit to simultaneously perform input and display functions. Further, the input unit may be any type of input means that can be developed in addition to an input device such as a keyboard, a keypad, a mouse, a joystick, and the like.

In addition, the display unit displays information on a series of operation states and operation results that occur during the performance of the building management apparatus 10. The display unit may display a menu of the building management apparatus 10 and user data input by the user. Here, the display unit may be a liquid crystal display (LCD), a thin film transistor (TFT) LCD, an organic light emitting diode (OLED), a light emitting diode (LED), an active matrix organic LED (AMOLED), a flexible display A three-dimensional display (3-dimension), and the like.

3 is a block diagram illustrating a configuration of an energy management apparatus according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the energy management apparatus 20 according to the embodiment of the present invention includes a control module 21, a storage module 22, and a communication module 23. Here, the storage module 22 includes an energy efficiency rating 22a and an energy consumption 22b.

The communication module 23 performs a function for transmitting and receiving data for energy saving of the building through the building management device 10 and the communication network 30.

The storage module 22 is a device for storing data. The storage module 22 includes a main memory device and an auxiliary memory device, and stores an application program required for a functional operation of the energy management device 20. The storage module 22 may largely include a program area and a data area. Here, when the energy management device 20 activates each function in response to a user's request, the energy management device 20 executes corresponding application programs under the control of the control module 21 to provide each function. In particular, the program area stores an operating system for booting the energy management device 20, a program for comparing energy usage of a building, a program for setting a method for energy saving, and the like. In addition, the data area is an area in which data generated according to the use of the energy management device 20 is stored. In particular, the data area stores data on energy efficiency class 22a and energy usage 22b.

The control module 21 may be a process device for driving an operating system (OS) and each component. For example, the control module 21 may be a central processing unit (CPU). In particular, the control module 21 sets the energy efficiency rating of the building based on the reference energy efficiency rating. At this time, the control module 21 combines the information on the energy performance of the building, the quality of the residential environment and accumulates monthly and yearly, and selects the energy efficiency rating of the building by dividing it into a plurality of classes in relation to the accumulated information. And, the control module 21 receives the data on the energy consumption of the building from the building management apparatus 10.

The control module 21 compares the reference energy usage and energy usage by the energy efficiency class of the building. Here, the control module 21 checks whether the energy usage of the building exceeds the reference energy usage for the energy efficiency class. When the energy usage exceeds the reference energy usage, the control module 21 selects the management items for which the energy consumption is exceeded among the management items such as cooling, heating, hot water supply, ventilation, and lighting of the building, and the selected management items. Check the excess value. In addition, the control module 21 sets a method for energy saving of the building, and transmits data on the set method to the building management apparatus 10.

In addition, the energy management device 20 configured as described above may be implemented as one or more servers operating in a server-based computing-based method or a cloud method. In particular, data used for building energy management using a cloud computing device may be provided through a cloud computing function that may be permanently stored in a cloud computing device on the Internet. Here, cloud computing utilizes Internet technology in digital terminals such as desktops, tablet computers, laptops, netbooks and smart phones to provide virtualized IT (Information Technology) resources such as hardware (server, storage, (Database, security, web server, etc.), service, data, etc. on demand.

4 is a flowchart illustrating an operation of a building management apparatus for explaining a method of managing energy of a building according to an embodiment of the present invention.

4, the building management apparatus 10 according to the present invention sets the energy efficiency rating of the building based on the reference energy efficiency rating in step S11. At this time, the building management apparatus 10 combines the information on the energy performance of the building, the quality of the residential environment and accumulates monthly and yearly, and divides the energy efficiency rating of the building into a plurality of grades in relation to the accumulated information. .

Building management device 10 monitors the energy consumption for the building in step S13. Here, the building management apparatus 10 checks the energy consumption for the management items of cooling, heating, hot water supply, ventilation, and lighting of the building in real time, and classifies the identified energy consumption by time zone, daily, weekly, weekly, and monthly. Save it.

Building management device 10 compares the reference energy consumption and energy consumption by the energy efficiency rating of the building in step S15. Here, the building management device 10 checks whether the energy usage of the building exceeds the reference energy usage for the energy efficiency rating. As a result of the comparison, when the energy consumption exceeds the reference energy usage, the building management apparatus 10 selects the management items in which the energy consumption is exceeded among the management items such as cooling, heating, hot water supply, ventilation, and lighting of the building in step S17. In addition, the excess value for the selected control item should be checked. Then, the building management device 10 analyzes the excess value. On the other hand, if the energy usage does not exceed the reference energy usage, the building management device 10 continues to monitor the energy usage of the building.

The building management apparatus 10 sets a method for energy saving of the building in step S19, and applies the set method to energy management of the building.

Through this, it is possible to set a plan for energy saving by comparing the energy consumption and the actual energy consumption for the energy efficiency rating of the building, and apply the set method to the energy management of the building. In addition, through the building energy efficiency rating certification system, objective information such as the energy performance of the building or the quality of the residential environment is provided, and the building is recognized for its value, which leads to the construction, owner, manager and building user. Profit for everyone. In addition, by providing accurate information on the energy used in the building for rational energy saving in the building sector, it is possible to induce investment in energy saving technology and visualize the economic effect, thereby raising awareness of energy saving and at the same time comfortable and comfortable indoors. Provide an environment.

5 is a flowchart illustrating an energy management method of a building according to another exemplary embodiment of the present disclosure.

5, the energy management device 20 according to the present invention sets the energy efficiency rating of the building based on the reference energy efficiency rating in step S21. At this time, the energy management device 20 accumulates monthly and yearly by combining the information on the energy performance of the building, the quality of the residential environment, and selects the energy efficiency rating of the building by dividing it into a plurality of classes in relation to the accumulated information. do.

Building management device 10 monitors the energy usage for the building in step S23. Here, the building management apparatus 10 checks the energy consumption for the management items of cooling, heating, hot water supply, ventilation, and lighting of the building in real time, and classifies the identified energy consumption by time zone, daily, weekly, weekly, and monthly. Save it.

The building management apparatus 10 transmits data on energy usage to the energy management apparatus 20 in step S25. In addition, the building management apparatus 10 transmits data on management items to the energy management apparatus.

The energy management device 20 compares the reference energy usage by the energy efficiency rating of the building with the energy usage received from the building management device 10 in step S27. Here, the energy management device 20 checks whether the energy usage of the building exceeds the reference energy usage for the energy efficiency rating. As a result of the comparison, when the energy consumption exceeds the reference energy usage, the energy management device 20 selects the management items in which energy consumption is exceeded among the management items such as cooling, heating, hot water supply, ventilation, and lighting of the building in step S29. In addition, the excess value for the selected control item should be checked. Then, the energy management device 20 analyzes the excess value.

The energy management apparatus 20 sets a plan for energy saving of the building in step S31. In addition, the energy management device 20 transmits data on a method for energy saving of the building to the building management device 10 in step S33. Thereafter, the building management apparatus 10 applies the method set for energy management of the building in step S35.

6 is a flowchart illustrating an operation of a building management apparatus for explaining a method for managing energy of a building according to another embodiment of the present invention.

Referring to Figure 6, the building management apparatus 10 according to the present invention monitors the energy consumption for the building in step S41. At this time, the building management device 10 checks the energy consumption for the management items of cooling, heating, hot water supply, ventilation, lighting of the building in real time in step S43, and the confirmed energy consumption by time zone, daily, weekly, weekly, Store monthly.

The building management device 10 transmits data on energy usage to the energy management device 20 in step S45. In addition, the building management apparatus 10 transmits data on management items to the energy management apparatus.

The building management apparatus 10 checks whether data about a method for energy saving is received from the energy management apparatus 20 in step S47. At this time, if data on the method for energy saving is received, the building management apparatus 10 applies the received method to the energy management of the building in step S49. On the other hand, if data on the method for energy saving is not received from the energy management device 20, the building management device 10 continues to monitor the energy usage of the building.

7 is a flowchart illustrating an operation of an energy management apparatus for explaining a method of managing energy of a building, according to another exemplary embodiment.

Referring to FIG. 7, the energy management apparatus 20 according to the present invention sets the energy efficiency rating of the building based on the reference energy efficiency rating in step S51. At this time, the energy management device 20 accumulates monthly and yearly by combining information on the energy performance of the building and the quality of the residential environment, and selects the energy efficiency rating of the building by dividing it into a plurality of classes in relation to the accumulated information. .

The energy management device 20 receives data on energy usage of a specific building from the building management device 10 in step S53.

The energy management device 20 compares the reference energy usage and energy usage by the energy efficiency rating of the building in step S55. Here, the energy management device 20 checks whether the energy usage of the building exceeds the reference energy usage for the energy efficiency rating. As a result of the comparison, when the energy consumption exceeds the reference energy consumption, the energy management device 20 selects the management items in which energy consumption is exceeded among the management items such as cooling, heating, hot water supply, ventilation, and lighting of the building in step S57. In addition, the excess value for the selected control item should be checked. In addition, the energy management device 20 sets a method for energy saving of the building by analyzing the excess value in step S59. On the other hand, if the energy usage does not exceed the reference energy usage, the energy management device 20 continues to monitor the energy usage of the building.

The energy management device 20 transmits data on the method for energy saving of the building to the building management device 10 in step S61.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of specific examples for the purpose of understanding and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

The present invention compares the energy consumption and the actual energy consumption of the energy efficiency rating of the building to set a method for energy saving, and can be applied to the energy management of the building is efficient. In addition, through the building energy efficiency rating certification system, objective information such as the energy performance of the building or the quality of the residential environment is provided, and the building is recognized for its value, which leads to the construction, owner, manager and building user. Profit for everyone. In addition, by providing accurate information on the energy used in the building for rational energy saving in the building sector, it is possible to induce investment in energy saving technology and visualize the economic effect, thereby raising awareness of energy saving and at the same time comfortable and comfortable indoors. Provide an environment. This has industrial applicability because it is not only sufficient marketable or business possibility, but also practically evident.

10: building management device 20: energy management device 30: communication network
11: control unit 12: storage unit 13: communication unit
21: control module 22: storage module 23: communication module
12a, 22a: Energy Efficiency Class 12b, 22b: Energy Consumption
100: energy management system

Claims (15)

Communication unit for communicating with the energy management device for transmitting and receiving data for energy saving of the building;
A storage unit which stores data on an energy efficiency level of the building and energy usage; And
Set the energy efficiency rating of the building based on the reference energy efficiency rating, monitor the energy usage for the building, compare the reference energy usage and the monitored energy usage by the energy efficiency rating of the building, the energy usage A controller configured to set a method for saving energy of the building and to apply the set method to energy management of the building when the reference energy consumption is exceeded;
Building management apparatus comprising a. The apparatus of claim 1, wherein the control unit
Monitoring energy usage for the building, transmitting data on the energy usage to the energy management device, receiving data on the energy saving method of the building from the energy management device, and data on the method. Building management apparatus characterized in that applied to the energy management of the building. The apparatus of claim 1, wherein the control unit
Check the energy consumption for the management items of cooling, heating, hot water supply, ventilation, and lighting of the building in real time, and store the identified energy consumption by time zone, daily, weekly, weekly, and monthly, and storing the stored data. Building management device, characterized in that for transmitting to the energy management device. Communication module for communicating with the building management device for transmitting and receiving data for energy saving of the building;
A storage module for storing data on an energy efficiency level of the building and energy usage; And
Set an energy efficiency rating of the building based on a reference energy efficiency rating, receive data on the energy consumption of the building from the building management device, reference energy usage and received energy usage by the energy efficiency rating of the building And a control module for comparing the energy consumption with a reference energy consumption, setting a method for energy saving of the building and transmitting data on the set method to the building management apparatus;
Energy management device comprising a. The building management apparatus setting the energy efficiency rating of the building based on the reference energy efficiency rating;
Monitoring, by the building management device, the energy usage of the building;
Comparing, by the building management device, the reference energy usage by the energy efficiency rating of the building with the monitored energy usage; And
When the energy usage exceeds a reference energy usage, the building management apparatus setting a method for energy saving of the building and applying the set method to energy management of the building;
Energy management method of a building comprising a. 6. The method of claim 5, wherein the setting comprises:
The building management device combines the information on the energy performance of the building, the quality of the residential environment and accumulates monthly and yearly, and selects the energy efficiency rating of the building divided into a plurality of classes in connection with the accumulated information. The energy management method of the building characterized by the above. The method of claim 5, wherein the monitoring step
Checking, by the building management device, an energy consumption of management items for cooling, heating, hot water supply, ventilation, and lighting of the building in real time; And
Storing, by the building management device, the identified energy consumption by time zone, daily, weekly, day of the week, and monthly;
Energy management method of a building comprising a. The method of claim 5, wherein the comparing step
Checking, by the building management device, that the energy usage of the building exceeds the reference energy usage for the energy efficiency rating;
Energy management method of a building comprising a. The method of claim 5, wherein the applying step
Selecting, by the building management device, management items for which energy consumption is exceeded among management items for cooling, heating, hot water supply, ventilation, and lighting of the building according to the comparison result;
Checking, by the building management device, an excess value for the selected management item; And
Setting, by the building management apparatus, an energy saving method of the building by analyzing the excess value;
Energy management method of a building comprising a. Monitoring the energy usage of the building by the building management device;
The building management device transmitting data on the monitored energy usage to an energy management device;
Receiving, by the building management device, data on an energy saving method of the building from the energy management device; And
The building management device applying the received method to energy management of the building;
Energy management method of a building comprising a. The method of claim 10, wherein the monitoring step
Checking, by the building management device, an energy consumption of management items for cooling, heating, hot water supply, ventilation, and lighting of the building in real time;
Storing, by the building management device, the identified energy consumption by time zone, daily, weekly, day of the week, and monthly; And
The building management device transmitting the stored data to the energy management device;
Energy management method of a building, characterized in that it further comprises. Setting, by the energy management apparatus, the energy efficiency rating of the building based on the reference energy efficiency rating;
Receiving, by the energy management device, data on energy usage of the specific building from a building management device;
Comparing, by the energy management device, the reference energy usage with the received energy usage according to the energy efficiency rating of the building; And
When the energy usage exceeds a reference energy usage, setting, by the energy management apparatus, an energy saving scheme of the building and transmitting data on the set scheme to the building management apparatus;
Energy management method of a building comprising a. The method of claim 12, wherein the setting step
The energy management device combines the information on the energy performance of the building, the quality of the residential environment and accumulates monthly and yearly, and selects the energy efficiency rating of the building divided into a plurality of classes in relation to the accumulated information. The energy management method of the building characterized by the above. The method of claim 12, wherein the comparing step
Checking, by the energy management apparatus, whether the energy usage of the building exceeds the reference energy usage for the energy efficiency rating;
Energy management method of a building comprising a. Set the energy efficiency rating of the building based on the reference energy efficiency rating, receive data on the energy consumption of the building from the building management device, compare the reference energy usage and energy usage by the energy efficiency rating of the building, An energy management device that sets a method for energy saving of the building and transmits data on the set method to the building management device when the energy usage exceeds a reference energy usage; And
Monitor energy usage for the building, transmit data on the monitored energy usage to the energy management device, receive data on energy saving measures for the building from the energy management device, and receive the received data. The building management device applying data on a plan to energy management of the building;
Energy management system of a building comprising a.

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