JP2019208314A - Energy management system and setting method of energy management system - Google Patents

Abstract

To provide an energy management system and a setting method of an energy management system capable of reducing working time of initial setting or setting change.SOLUTION: An energy management system 100 is provided with a comprehensive information storage device 3 as a storage device, a management device 1 for each building, and a central management device 2. The central management device 2 and the management device 1 for each building are connected to each other via an external communication network N. The central management device 2 draws out management data from the comprehensive information storage device 3 to make a state in which the management device 1 for each building can take in, and carry out initial setting or setting change. At the same time, the central management device identifies a building H where the management device 1 for each building is installed, on the basis of a house code, and draws out management data of the building H from the comprehensive information storage device 3 to make a state in which the management device 1 for each building can take in. The management device 1 for each building takes in the management data from the central management device 2, and carries out initial setting or setting change of the management device 1 for each building.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an energy management system including a central management device and a building-specific management device connected to the central management device, and a setting method of the energy management system.

  In recent years, energy conservation awareness has been increasing not only at the corporate level but also at the household level, and energy management systems have been introduced into buildings used as houses to perform energy management.

  When introducing this energy management system, it is necessary to install a building-specific management device in the target building and make initial settings to import the data required for energy management into this building-specific management device. When the data changes, it is necessary to change the setting (see, for example, Patent Documents 1 and 2).

  In the prior art described in Patent Document 1, when performing initial setting or setting change, all of the data necessary for energy management is input using a mouse, a keyboard, or the like in a building where a building-specific management device is installed. Since manual input has to be performed through the apparatus, a long work has been required.

  On the other hand, in the prior art described in Patent Document 2, the building-specific management device is connected to the central management device via an external communication network, and the central storage device stores data of information necessary for energy management. A technique is disclosed in which the management device extracts data, and the extracted management data is fetched from the central management device by the building-based management device to perform initial setting or setting change.

  As a result, it is possible to shorten the work by eliminating the manual input of data in the building management device, but after waiting for the necessary data to be stored in the storage device in advance, the building management device Since it is necessary to capture data, there is room for improvement in terms of shortening the work time.

JP 2009-130985 A Japanese Patent Laid-Open No. 2006-158411

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an energy management system and an energy management system setting method that can further shorten the initial setting or setting change work time. It is said.

  In order to achieve the object, an energy management system of the present invention includes a storage device that stores management data necessary for energy management of a building, and a building that is installed for each building and collects energy data of the building. A management device, and a central management device that performs energy management of the building based on the management data captured from the storage device and the energy data captured from the building-specific management device, and the central management device, The building management apparatus is an energy management system connected via an external communication network. The central management device pulls out the management data from the storage device, makes the building management device ready to take in, performs initial setting or setting change of the central management device, and from the building management device When the access is accepted, the building in which the building management device is installed is identified based on the building identification code data stored in the building management device, and the management data of the building at the time of access is determined. It is configured to be pulled out from the storage device so that it can be taken in by the building management device. The building management apparatus is configured to take in the management data from the central management apparatus and perform initial setting or setting change of the building management apparatus.

  The energy management system setting method of the present invention includes a storage device that stores management data necessary for building energy management, and a building-specific management device that is installed for each building and collects energy data of the building. A central management device that performs energy management of the building based on the management data fetched from the storage device and the energy data fetched from the building-specific management device, the central management device, and the building-specific A method of setting an energy management system connected to a management device via an external communication network, the initial setting or setting change of the central management device, and the initial setting or setting change of the building-specific management device And performing both of these steps individually. The step of initial setting or setting change of the central management device includes the step of storing the management data in the storage device, and the central management device fetches the management data corresponding to the building from the storage device. And a step of performing an initial setting or a setting change of the central management device as a state in which the management device by building can be loaded. The initial setting or setting change of the building management device includes the step of the building management device accessing the central management device, and the central management device accepting access from the building management device, The building in which the building management device is installed is identified based on the building identification code data stored in the building management device, and the management data corresponding to the building at the time of access is stored in the storage device. The management apparatus for each building is in a state where it can be taken in, and the management apparatus for each building fetches the management data from the central management apparatus to perform initial setting or setting change of the management apparatus for each building. And performing the process.

  According to the present invention, it is possible to perform initial setting or setting change in the building management apparatus without waiting for completion of initial setting or setting change in the central management apparatus. Further, the building-specific management apparatus can capture management data simply by accessing the central management apparatus and requesting the capture of management data. On the other hand, the central management unit shall identify the building where the building-specific management unit that has been accessed is installed based on the building identification code data so that the management data of the building can be reliably and quickly pulled out. Can do. Therefore, the initial setting or setting change work time can be further shortened.

It is a figure which shows schematic structure of the energy management system with which the setting method of the energy management system which concerns on one embodiment of this invention is performed. It is a flowchart which shows the flow of the setting method of the energy management system which concerns on this Embodiment. It is a figure which shows a part of data of the information of matching with the branch circuit (number) in the setting method of the energy management system of Example 1 which concerns on this Embodiment, and the electric power load connected to it.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a schematic configuration of an energy management system 100 according to the present embodiment.

  As shown in FIG. 1, an energy management system 100 according to the present embodiment includes a building management device 1 installed in each of a plurality of buildings H (H1 to HX) and an external communication network N such as the Internet. And a central management device 2 connected thereto.

  Furthermore, the energy management system 100 of the present embodiment includes a general information storage device 3 as a storage device owned by the management company and a sales information storage device as a departmental information storage device installed in the sales department of the management company. 4 and a design information storage device 5 as a department-specific information storage device installed in the design department.

  The general information storage device 3 is connected to the central management device 2 via the external communication network N. The sales information storage device 4 and the design information storage device 5 are connected to the general information storage device 3 by an intranet or the like.

  The central management device 2, the general information storage device 3, the sales information storage device 4, and the design information storage device 5 are all configured from server devices that can exchange and store data. The sales information storage device 4 and the design information storage device 5 are connected to an input terminal such as a sales department or a PC of the design department via an intranet or the like. From these input terminals, the sales information storage device 4 or the design information storage device 5 is accessed, and management data necessary for energy management can be registered and updated. The central management device 2 is also connected to an input terminal for an administrator via an intranet or the like, so that data confirmation, various processing instructions, and the like can be input.

  The sales information storage device 4 stores sales information data input by a person in charge of the sales department. As sales information, the family composition of a customer who owns the building H, a construction area, a person in charge, etc. are mentioned, for example. The design information storage device 5 stores design information data input by a designer in the design department. Examples of the design information include information such as the area of the building, the heat insulation, the branch circuit of the distribution board, and the power load of the branch circuit.

  The general information storage device 3 stores basic data necessary for initial setting or setting change of the building-specific management device 1 as a part of management data necessary for energy management. As basic data, for example, the maximum number of fetch circuits and branch circuit numbers, circuit attributes, availability of circuits, etc. are preset. The general information storage device 3 stores sales information data and design information data transferred from the sales information storage device 4 and the design information storage device 5, respectively. From these, data of information necessary for energy management is extracted by the central management apparatus 2 as management data together with the basic data. Further, in the general information storage device 3, information data regarding energy for each building H drawn from the building-specific management device 1 of each building H by the central management device 2, that is, energy data is stored.

  The building-specific management apparatus 1 installed in each building H can be configured by a personal computer (PC) including a storage unit 1a including a CPU, a memory such as a RAM and a ROM, and an HDD.

  Each building H (H1 to HX) is provided with a repeater R, a monitor 6, a measuring instrument 7, and the like. The building-specific management apparatus 1, the relay R, the monitor 6, and the measuring instrument 7 are connected to each other via an intra-building communication network n such as a wireless or wired LAN.

  The repeater R is composed of a router or the like. The building management apparatus 1 can be connected to an external communication network N such as the Internet through the repeater R. The monitor 6 is composed of a liquid crystal panel or the like. The monitor 6 can be newly installed in the building H exclusively for the energy management system 100. However, the monitor of a notebook PC or desktop PC owned by the owner of the building H, a tablet terminal, a smartphone, or other portable terminals. A monitor can be used. In particular, information can be easily confirmed from any location of the building H by using a monitor of a portable terminal such as a tablet terminal or a smartphone.

  The measuring instrument 7 is composed of an energy data collection device or the like. The measuring instrument 7 is connected to a lighting device, an air conditioner, an air conditioner, a solar power generation device, and other devices via a distribution board, etc., collects energy data from each device, and uses electricity, water, gas, etc. Energy consumption can be measured.

  The measurement result of the measuring instrument 7 is sent to the building management apparatus 1. The building management apparatus 1 performs energy management by causing the monitor 6 to display the energy consumption of the building H (H1 to HX) measured by the measuring instrument 7 and the average value of similar buildings.

  The storage unit 1 a of the building management apparatus 1 stores a house code as building identification code data for identifying the building H and a device identification number as device identification code data for identifying the building management apparatus 1. . The mansion code is given by the contractor when the contract for introduction of the energy management system 100 is established. The device identification number is a predetermined number assigned in advance by a supplier. The device identification number may be a product number or an IP address.

  The building-specific management device 1 accesses the central management device 2 using the residence code or the device identification number as a key, fetches management data formatted from the central management device 2, and displays it on the monitor 6 based on the fetched management data. The initial setting or setting change of various data regarding the building H to be performed is performed.

  Moreover, the management apparatus 1 according to building can accumulate | store the energy data from the measuring instrument 7 in the memory | storage part 1a after an initial setting or a setting change. The energy data stored in the storage unit 1a is taken in by the central management device 2 through the repeater R and the external communication network N.

  Moreover, the input terminal 8 provided with input devices, such as a keyboard, a touch panel, a numeric keypad, and a mouse | mouth, can be connected to the management apparatus 1 according to building via the communication network n in a building. The residence code and the device identification number can be input from the input terminal 8 and stored in the storage unit 1a of the building management device 1. In addition, in order for the central management apparatus 2 to manage the building H and the building-specific management apparatus 1 installed in the building H in association with each other, the building-specific management apparatus 1 is connected to the input terminal 8. The code and the device identification number are registered (temporary registration) in the central management device 2.

  The input terminal 8 can be configured from a PC, a tablet terminal, a smartphone, or the like. As such an input terminal 8, for example, a notebook PC or a tablet terminal carried by a person in charge of a sales department or the like can be used. The person in charge or the like connects the input terminal 8 to the in-building communication network n of the building H, thereby accessing the building-specific management device 1 or accessing the central management device 2 through the repeater R and the external communication network N. can do. Therefore, at least the building-specific management device 1 and the repeater R are installed in the building H, and if the person in charge in the sales department brings the input terminal 8, the implementation of this implementation even during construction of the building H or before the owner moves in A configuration setting method can be executed.

  As the input terminal 8, a board such as a PC or a tablet terminal owned by the owner of the building H can be used. In this case, the monitor of the input terminal 8 can be used as the monitor 6 of the energy management system 100, and the energy management system 100 can be constructed more easily without cost.

  The central management device 2 stores the house code temporarily registered from each building management device 1 and the device identification number in association with each other. Thereby, the central management device 2 identifies the building H in which the building-specific management device 1 is installed by the device identification number or the residence code, and extracts management data corresponding to the identified building H from the general information storage device 3, Formatting is performed so that the building-specific management apparatus 1 can capture the data.

  Further, the central management device 2 takes in the energy data collected by the building-specific management device 1, identifies the building H where the building-specific management device 1 is installed based on the device identification number or the residence code, and takes in the energy Data is stored and managed in the storage area of the building H of the general information storage device 3.

  Processing steps of the setting method of the energy management system 100 when the energy management system 100 of the present embodiment having the above-described configuration is introduced into the building H will be described with reference to the flowchart of FIG. In the setting method of the present embodiment, the case where the management company of the energy management system 100 and the contractor of the newly built or existing building H are the same contractor is shown. Hereinafter, it is simply referred to as “trader”.

  The setting method of the present embodiment mainly includes a registration process (initial setting or setting change process, step S1) to the central management apparatus 2 executed on the contractor side, and a building-specific process executed on the building H side. It has a registration process (initial setting or setting change, step S2) to the management apparatus 1 and a linking process (step S3) executed by the central management apparatus 2. Step S1 and step S2 are separately performed at arbitrary timings, and after these steps are completed, step S3 is executed. Hereinafter, each step will be described in detail.

  First, prior to steps S1 and S2, when a contract for introducing the energy management system 100 is established for a newly-built (or already-built) building H, a contractor makes a residence for the building H based on the contract. A code is assigned (step S0).

  Next, step S1 will be described. In step S1, the sales department of the contractor obtains sales information such as the family structure of the owner family of the building H for which the contract has been established, the construction area, the person in charge, and the like. The person in charge of the sales department inputs the sales information data from a PC (input terminal) connected to the private network, and the data is stored in the sales information storage device 4 (steps above). S11).

  In parallel with this, the design department creates design information such as the area of the building, the heat insulation, the branch circuit of the distribution board, and the power load of the branch circuit. The person in charge of the design department inputs the design information data from a PC or the like connected to the private network, and the data is stored in the design information storage device 5 (step S12).

  The sales information data stored in the sales information storage device 4 in step S11 and the design information data stored in the design information storage device 5 in step S12 are automatically input after registration or input by a person in charge. Thus, the data is transferred to the general information storage device 3, stored as management data, and shared. That is, the central management device 2 can extract various data including management data stored in the general information storage device 3 (step S13).

  Subsequently, the administrator or the like inputs the residence code from the administrator's PC or the like and accesses the central management device 2. Upon receiving this access, the central management device 2 extracts the management data of the building H corresponding to the input house code from the general information storage device 3, formats it, and makes it ready for the management device 1 by building. (Step S14). Thereby, the initial setting or setting change of the central management apparatus 2 is completed.

  In this case, formatting means that data necessary for energy management is extracted from the data stored in the general information storage device 3 as management data, and is formatted into, for example, a CSV file so that the building-specific management device 1 can easily import the data. Although it says converting, it is not limited to this.

  Data to be formatted includes, for example, the maximum number of acquisition circuits and their branch circuit numbers, application (IH heater, air conditioner, etc.), measurement method, circuit attributes (for example, voltage 100V or voltage 200V, solar power generation or normal load, Air conditioning, hot water supply or general load), availability of circuit, and the like. Among these items, the maximum number of fetch circuits, branch circuit numbers, circuit attributes, and availability of circuits are determined in advance as basic data and stored in the general information storage device 3. The maximum number of fetch circuits is determined according to the building H from among 8 circuits, 32 circuits, 50 circuits, and the like.

  FIG. 3 shows an example of the data structure of the formatted data. In FIG. 3, among the formatted data, the branch circuit number, the circuit name (power load) connected to the branch circuit, and the application are displayed.

  Even in a general building H, the above data is a data amount that requires a considerable amount of time only by manual input. In the setting method of the present embodiment, these data are input to the sales information storage device 4 and the design information storage device 5 on the trader side, transferred to the general information storage device 3, and shared. Then, the central management device 2 extracts the management data from the general information storage device 3 and formats it so that it can be taken in by the building-specific management device 1. For this reason, it is not necessary to manually input a large amount of data on the building management device 1 side, and it is possible to save labor for initial setting or setting change in the building management device 1.

  In the above description, only electricity is shown as energy, but water and gas can be processed in substantially the same manner.

  Next, step S2 will be described. As described above, step S2 can be executed on the building management device 1 side at an arbitrary timing without waiting for the completion of step S1. First, a sales person in charge of the building H inputs a residence code and a password from the input terminal 8, accesses the central management device 2 through the external communication network N, and requests to fetch management data. In response to this request, the central management device 2 identifies the building H in which the building-specific management device 1 is installed based on the residence code, and sends management data of the building H at the time of access from the general information storage device 3. Pull out and format (CSV file).

  The management data formatted at this time is management data that the central management device 2 can pull out from the general information storage device 3 when the building-specific management device 1 accesses the central management device 2.

  Therefore, the items of management data to be formatted differ depending on the progress state of step S1 in the central management device 2. For example, if there is a fetch request from the building-specific management apparatus 1 before the sharing in step S14, at least basic data such as the maximum fetch circuit number, branch circuit number, and circuit attribute is extracted, and other items are blank. It is formatted in the state. That is, only the management data framework required for energy management is formatted.

  On the other hand, when there is a capture request from the building-specific management apparatus 1 after sharing in step S14, not only basic data but also management data in which items such as measurement method, circuit name, and usage are stored. Formatted.

  The management data formatted in this way is taken from the central management device 2 to the building-specific management device 1. The building management device 1 stores the fetched management data in the storage unit 1a, whereby the initial setting of the building management device 1 is completed (step S21).

  Even when there is a change in data, such as addition of a circuit or change in use, the setting change can be easily performed by executing the process of step S21. For example, it is particularly effective when applied when there is a significant change, such as after renovation of the building H.

  When the initial setting or setting change in step S21 is completed, the sales representative obtains the device identification number of the building-specific management device 1 from the specification or contract, inputs it from the input terminal 8, and It memorize | stores in the memory | storage part 1a (step S22). Next, the central management device 2 is accessed from the input terminal 8 through the external communication network N, the acquired device identification number and the house code of the building H are transmitted in association with each other, and temporary registration is performed (step S23). .

  When the temporary registration is completed, the building management apparatus 1 starts collecting energy data measured by the measuring instrument 7 and accumulates it in the storage unit 1a (step S24).

  On the other hand, when the central management device 2 completes the process of step S1 and receives an application for temporary registration from the building-specific management device 1, the central management device 2 executes the linking process of step S3. In step S3, the central management device 2 first stores the device identification number and the house code received from the building-specific management device 1 in association with each other. Thereby, when energy data is taken in from the building-specific management apparatus 1, the building H that is taken in can be identified by either the house code or the device identification number, and the data processing can be further accelerated.

  Subsequently, when the energy data is already stored in the building management device 1, the central management device 2 extracts the energy data from the building management device 1. The central management device 2 identifies the building H in which the building-specific management device 1 is installed based on the device identification number or the residence code, and stores the energy data associated with the device identification number and the residence code in the general information storage device. 3 is stored and managed.

  At this time, if there is a shortage, such as the management data stored in the building management device 1 is only basic data, the management data stored in the central management device 2 is transferred to the building management device 1. , Can supplement the missing data. In addition, even with this complementation, there are cases where there is a lack of management data due to, for example, undecided items when building H is constructed. In this case, for example, an error message is displayed on the monitor 6 of the building-specific management apparatus 1 so that the sales representative recognizes the shortage. The sales person in charge can input the deficient data from the input terminal 8 to the building management apparatus 1 by manual input to complement the data. Thus, even if there is a shortage, the amount of data is small, so that manual input can be easily performed without taking time and effort.

  When the management data is supplemented manually, the central management device 2 receives the supplemented data from the building-specific management device 1 and stores it in the general information storage device 3. For this reason, after the operation starts, the energy management system 100 can function normally.

  Further, when the building-specific management device 1 is replaced by repair or replacement, the building-specific management device 1 executes the process in step S2 to change the setting, so that the managed building-specific management device 1 manages the replacement. Data can be reflected. After that, energy data can be accumulated in the management apparatus 1 by building after replacement. In addition, by temporarily registering the device identification number of the building-specific management device 1 after replacement in the central management device 2 in association with the house code of the building H, the central management device 2 uses the residence code before the replacement. In addition to the device identification number, the device identification number after replacement is linked and stored. Therefore, the energy data collected by each building management apparatus 1 before and after the replacement is managed as energy data of the building H. Therefore, even if the building-specific management device 1 is replaced, the energy management of the building H can be continued without delay.

  Thus, the setting process in the setting method of the energy management system 100 is completed, and the operation of the energy management system 100 can be started (step S4). The initial setting or setting change in the central management device 2 and the initial setting or setting change in the building-specific management device 1 can be performed at any timing without waiting for completion of each, so that the setting process can be performed more quickly. The operation of the energy management system 100 can be started earlier.

  Next, the effect of this Embodiment is demonstrated. The energy management system 100 according to the present embodiment includes a general information storage device 3 as a storage device that stores management data necessary for energy management of a building H, and energy data of the building H installed for each building H. A management apparatus 1 for each building to be collected, and a central management apparatus 2 that performs energy management for the building H based on the management data acquired from the general information storage device 3 and the energy data acquired from the management apparatus 1 for each building. Yes. The central management device 2 and the building management device 1 are connected via an external communication network N. The central management device 2 draws management data from the general information storage device 3 so that the management device 1 for each building can take it in, and performs the initial setting or setting change of the central management device 2 and the management device 1 for each building. When the access from is received, the building H in which the building-specific management device 1 is installed is identified based on the building identification code data (house code) stored in the building-specific management device 1, and at the time of access The management data of the building H is pulled out from the general information storage device 3 so that it can be taken in by the building-specific management device 1. The building management apparatus 1 is configured to take management data from the central management apparatus 2 and perform initial setting or setting change of the building management apparatus 1.

  In addition, the energy management system setting method of the present embodiment is executed by the energy management system 100 having the above-described configuration. The initial setting or setting change of the management apparatus 1, and both steps are executed individually. The step of initial setting or setting change of the central management device 2 includes the step of storing management data in the general information storage device 3, and the central management device 2 stores the management data corresponding to the building H from the general information storage device 3. And taking the initial setting or setting change of the central management device 2 as a state that can be taken in by the building-specific management device 1. The initial setting or setting change of the building management apparatus 1 includes a process in which the building management apparatus 1 accesses the central management apparatus 2, and the central management apparatus 2 accepts access from the building management apparatus 1. The building H in which the building management device 1 is installed is identified based on the building identification code data (house code) stored in the building management device 1, and the management corresponding to the building H at the time of access The process of pulling out data from the general information storage device 3 so that the building-specific management device 1 can take in the data, and the building-specific management device 1 fetches management data from the central management device 2, and the building-specific management device 1 Initial setting or setting change.

  Therefore, according to the present embodiment, it is possible to perform initial setting or setting change in the building-specific management apparatus 1 without waiting for completion of initial setting or setting change in the central management apparatus 2. On the other hand, the central management device 2 identifies the building H in which the accessed building-specific management device 1 is installed based on the residence code so that the management data of the building can be reliably and quickly pulled out. be able to. Therefore, it is possible to provide the energy management system 100 and the setting method thereof that can further reduce the initial setting or setting change work time.

  Further, the building-specific management device 1 can capture management data simply by accessing the central management device 2 and requesting the capture of management data. Therefore, it is possible to save time and labor for a sales representative or the like to manually input management data on the building H side. In particular, even if the distribution board provided in the building H has a large number of branch circuits, such as an information distribution board that is becoming popular in recent years, the working time can be greatly shortened.

  Here, before the start of operation, when the building-specific management device 1 collects energy data, the central management device 2 takes in the energy data and associates it with the building H identified based on the house code, thereby providing comprehensive information. It is configured to be stored and managed in the storage device 3. In this case, when the building-specific management device 1 collects energy data after the initial setting or the setting change, the central management device 2 takes in the energy data and performs the setting based on the house code. It further has the process linked | related with the identified building H and memorize | stored in the comprehensive information storage device 3. FIG.

  Therefore, the building-specific management apparatus 1 can collect energy data before the operation of the energy management system 100 is started. The collected energy data is captured by the central management device 2 and stored and managed in the general information storage device 3 linked to the building H. Therefore, more detailed energy management becomes possible based on the energy data before the operation start and after the operation start.

  Moreover, in this Embodiment, the management apparatus 1 according to building memorize | stores the residence code and the apparatus identification code data (apparatus identification number) which identifies the said management apparatus 1 according to a building, A device identification number, a residence code, Are associated with each other and registered in the central management device 2 in advance. The central management device 2 is configured to store and manage the energy data taken from the building-specific management device 1 in the general information storage device 3 in association with the building identification number and the house code.

  In this case, in the setting method, the building management device 1 associates the house code stored in the building management device 1 with the device identification number and registers them in the central management device 2 in advance, The apparatus 2 further includes a step of storing the house code and the apparatus identification number in association with each other so that the energy data taken in from the building-specific management apparatus 1 can be managed in association with the house code and the apparatus identification number. ing.

  Therefore, the central management device 2 can identify the building H that has taken in the energy data based on either the residence code or the device identification number, and can increase the data processing speed.

  The central management device 2 determines that the building-specific management device 1 has been replaced when the device identification number corresponding to the residence code registered from the building-specific management device 1 is changed, and the building-specific management device before the replacement. The energy data collected in 1 and the energy data collected in the management apparatus for each building 1 after replacement are linked and managed.

  Therefore, even when the building management device 1 is replaced by repair or replacement, the energy data collected by the building management device 1 before replacement and the energy data collected by the building management device 1 after replacement, Centralized management can be performed by the central management device 2. Moreover, the energy data collected in the management apparatus 1 for buildings after replacement can be reflected in the management apparatus 1 for buildings after replacement. Therefore, the energy management of the building H can be smoothly continued even if the building-specific management device 1 is replaced.

  Further, the general information storage device 3 can be configured to store at least the maximum number of circuits taken in the branch circuit of the distribution board and the availability of the branch circuit as management data. As a result, even if the building-specific management device 1 requests the central management device 2 to fetch management data at any timing, at least the maximum number of fetched circuits of the branch circuit of the distribution board and the use of the branch circuit Management data consisting of whether or not possible can be taken in, and the initial setting or setting change in the building-specific management apparatus 1 can be executed without delay. The deficient management data can be supplemented by linking. Therefore, the working time can be further shortened. Furthermore, even before the start of operation, energy data can be collected, more energy data can be collected, more detailed energy management can be performed, and an energy management system 100 and the like excellent in convenience can be provided. be able to. Moreover, the energy management system 100 etc. which can manage the power consumption for every electric power load at least can be provided.

  As mentioned above, although the energy management system and the setting method of the energy management system of this invention were demonstrated based on embodiment, the concrete structure of this invention is not limited to this embodiment, and is claimed. Modifications and additions of the design are permitted without departing from the spirit of the invention according to each claim in the scope of the above.

  For example, in the above-described embodiment, the case where the contractor who mainly built the building H is the same as the management company of the energy management system has been described. However, the present invention is not limited to this. Can be implemented even when the energy management system management company is different.

  Also in this case, since the general information storage device 3 is shared, the management company can access the general information storage device 3 from the central management device 2 and take in the management data necessary for energy management. Or, when making a contract to introduce the energy management system 100, a person in the sales department of the management company obtains management data necessary for energy management of the building H in advance and stores it in the general information storage device 3. It may be left.

DESCRIPTION OF SYMBOLS 1 Management apparatus according to building 2 Central management apparatus 3 General information storage apparatus 100 Energy management system H Building N External communication network

Claims (8)

A storage device for storing management data necessary for building energy management;
A building-specific management device that is installed for each building and collects energy data of the building;
A central management device that performs energy management of the building based on the management data fetched from the storage device and the energy data fetched from the building-specific management device, the central management device, and the building-specific management An apparatus is an energy management system connected via an external communication network,
The central management device pulls out the management data from the storage device, makes the building management device ready to take in, performs initial setting or setting change of the central management device, and from the building management device When the access is accepted, the building in which the building management device is installed is identified based on the building identification code data stored in the building management device, and the management data of the building at the time of access is determined. It is configured to be pulled out from the storage device so that the building management device can be taken in,
The building management apparatus is configured to take in the management data from the central management apparatus and perform initial setting or setting change of the building management apparatus.   Before the start of operation, when the building-specific management device collects the energy data, the central management device captures the energy data and associates it with the building identified based on the building identification code data. The energy management system according to claim 1, wherein the energy management system is configured to be stored and managed in a storage device.   The building management device stores the building identification code data and device identification code data for identifying the building management device, and associates the building identification code data with the device identification code data in the center. The central management device is configured to register in advance in a management device, and the central management device stores the energy data captured from the building-specific management device in the storage device in association with the building identification code data and the device identification code data. The energy management system according to claim 1, wherein the energy management system is configured to manage the energy.   The central management device determines that the building management device is replaced when the device identification code data corresponding to the building identification code data registered from the building management device is changed, and The said energy data collected with the management apparatus according to building and the said energy data collected with the said management apparatus according to building after replacement | exchange are linked and managed, The management of any one of Claims 1-3 characterized by the above-mentioned. Energy management system.   5. The storage device according to claim 1, wherein the management data stores at least the maximum number of circuits taken in the branch circuit of the distribution board and whether or not the branch circuit can be used. The energy management system according to any one of the above. A storage device for storing management data necessary for building energy management;
A building-specific management device that is installed for each building and collects energy data of the building;
A central management device that performs energy management of the building based on the management data fetched from the storage device and the energy data fetched from the building-specific management device, the central management device, and the building-specific management An apparatus is a method for setting an energy management system connected via an external communication network,
Performing initial setting or setting change of the central management device;
The initial setting or setting change of the building management device,
Both processes are performed separately,
The step of performing initial setting or setting change of the central management device,
Storing the management data in the storage device;
The central management device captures the management data corresponding to the building from the storage device, and performs the initial setting or setting change of the central management device as a state in which the management device for each building can capture. Have
The step of performing initial setting or setting change of the building-specific management device is as follows:
The building management device accessing the central management device;
The central management device receives access from the building management device, and identifies the building in which the building management device is installed based on the building identification code data stored in the building management device. Extracting the management data corresponding to the building at the time of access from the storage device so that the building-specific management device can take in,
The building management device includes a step of taking the management data from the central management device and performing initial setting or setting change of the building management device. Method.   When the building management device collects the energy data after performing the initial setting or the setting change, the central management device captures the energy data and identifies it based on the building identification code data. The energy management system setting method according to claim 6, further comprising a step of storing the information in the storage device in association with the building. The building management device associates the building identification code data stored in the building management device with the device identification code data and registers them in the central management device in advance.
The building identification code data and the device identification code data are managed so that the central management device can manage energy data imported from the building-specific management device in association with the building identification code data and the device identification code data. The energy management system setting method according to claim 6, further comprising a step of linking and storing.