JP2014056325A - Building monitoring system, building monitoring device and building monitoring method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a monitoring system saving labor related to meter replacement processing.SOLUTION: A building monitoring device includes: a user interface section which forms a GUI environment through a display; an acquisition section which acquires a count value of a meter from a controller; and a transmission section which transmits the acquired count value to an upper level management device. The user interface section displays a first icon on the display before replacement processing of an old meter to be replaced. The acquisition section acquires an integrated count value of the old meter when the first icon is clicked. The user interface section displays a second icon different from the first icon on the display when the integrated count value of the old meter is acquired. The acquisition section acquires an integrated count value of a new meter after replacement when the second icon is clicked. The transmission section transmits the acquired integrated count value of the old meter and the acquired integrated count value of the new meter to the upper level management system.

Description

  Embodiments described herein relate generally to a building monitoring system, a building monitoring apparatus, and a building monitoring method applied to building automation and the like.

  Building Automation and Control Networking Protocol (BACnet (registered trademark)) is a communication protocol defined for standardizing communication between monitoring devices / monitored devices in facilities such as buildings and factories. A building monitoring system using BACnet (registered trademark) includes a BACnet Operator Workstation (B-OWS) and a BACnet Building Controller (B-BC). B-OWS has a monitoring function and is positioned higher than B-BC. B-BC is a controller that controls the monitored device, and is positioned lower than B-OWS.

  In the building, for example, various meters such as a meter for measuring the amount of water (flow rate of clean water), a meter for measuring the amount of heat related to air conditioning, and an watt hour meter are arranged. The meter reading data of each meter is taken into the B-OWS at a frequency of once a day, for example, by BACnet transmission. Further, by using a centralized meter reading function of a tool called Building Energy Management System (BEMS), meter reading value data can be periodically acquired from B-OWS and accumulated separately. In recent years, buildings that combine BEMS with building monitoring and control devices are increasing.

  By the way, an inspection guarantee period is set for the meter, and it is necessary to replace the meter after a certain period of use. Since the meter reading value is different between the meter before replacement (old meter) and the meter after replacement (new meter), a process for making the system recognize it is necessary.

JP 2006-129004 A

  At the time of meter replacement processing, the meter reading value of the old meter is acquired by operation from the BEMS, and then the opening value of the new meter is manually input. Thereafter, the reading value of the new meter is input to the count value of the monitoring point ID of the corresponding meter by the operation from the B-OWS. Finally, the B-OWS corrects the count value of the monitoring point data held by the B-BC.

  As described above, in the existing technology, when the meter is exchanged, both the B-OWS and the BEMS terminals must be operated, and thus the operator needs skills to operate both terminals, which is troublesome. Is not only large, but there is also a risk of operating errors.

  An object of the present invention is to provide a building monitoring system, a building monitoring apparatus, and a building monitoring method that save labor related to meter replacement processing.

  According to the embodiment, the building monitoring system can communicate with the controller that collects the count value of the meter provided in the building, the building monitoring device that is connected to the controller via the communication network, and the building monitoring device and the communication network. High-order management device. The building monitoring apparatus includes a user interface unit that forms a GUI environment via a display, an acquisition unit that acquires a count value from a controller, and a transmission unit that transmits the acquired count value to a higher-level management device. The user interface unit displays the first icon on the display unit before the replacement process of the old meter to be replaced. The acquisition unit acquires the integrated count value of the old meter when the first icon is clicked. Further, when the integrated count value of the old meter is acquired, the user interface unit displays a second icon different from the first icon on the display. Further, when the second icon is clicked, the acquisition unit acquires the integrated count value of the new meter after replacement. The transmission unit transmits the acquired accumulated count value of the old meter and the accumulated count value of the new meter to the upper management system.

FIG. 1 is a system diagram illustrating an example of a building monitoring system according to the embodiment. It is a functional block diagram which shows an example of the monitoring apparatuses 11-1n shown by FIG. FIG. 3 is a flowchart illustrating an example of a processing procedure in the building monitoring system according to the embodiment. FIG. 4 is a diagram illustrating an example of icons displayed on the display 42. FIG. 5 is a diagram illustrating another example of icons displayed on the display 42.

  FIG. 1 is a system diagram illustrating an example of a building monitoring system according to the embodiment. In FIG. 1, a plurality of monitoring devices 11 to 1n and local controllers 21 to 2m are connected to a local area network (LAN) 100 in a building. The building monitoring system shown in FIG. 1 is assumed to comply with BACnet (registered trademark). That is, BACnet (registered trademark) is formed in the upper layer of the LAN 100 in the embodiment.

  Nodes are connected to the local controllers 21 to 2m via communication lines, respectively. Each node is, for example, an air conditioning device, a lighting device, or a power device for each floor. Each of the local controllers 21 to 2m recognizes a connected node as a monitored device, and monitors the state based on instruction values of various meters. The local controllers 21 to 2m function as B-BC in the embodiment.

  The monitoring devices 11 to 1n have a function as a server that receives the monitoring result notified from the local controllers 21 to 2m and monitors and controls the building monitoring system at a higher level and provides various information to the operator. The monitoring devices 11 to 1n function as B-OWS in the embodiment. In the embodiment, the monitoring apparatus 11 is represented by the B-OWS function, and the monitoring apparatus 11 is mainly described. Of course, other monitoring devices have the same function.

  Further, the BEMS 200 is connected to the LAN 100. The BEMS 200 controls air conditioning and lighting of the building based on various data acquired from the local controllers 21 to 2m and the monitoring devices 11 to 1n. In addition, the BEMS 200 has functions such as optimization of energy consumption in the entire building and control of comfort, and is positioned as a higher management system.

  In FIG. 1, the BEMS 200 periodically collects and accumulates meter value data in a building from the monitoring devices (B-OWS) 11 to 1n at a frequency of once a day, for example. The BEMS 200 has a function of associating (linking) meter numbers with monitoring point IDs in the building monitoring control system and displaying a list of meter reading data for each meter number.

  The monitoring devices (B-OWS) 11 to 1n are devices that can be directly operated by the user and provide data input, setting change, and the like to the system via a graphical user interface (GUI). Moreover, the monitoring apparatus (B-OWS) 11-1n acquires the count value of a meter from the local controllers (B-BC) 21-2m, and preserve | saves the acquired data as long-term data.

  The local controllers (B-BC) 21 to 2m convert, for example, signals received from an input / output terminal (not shown) into a transmission format in BACnet (registered trademark) and send them to the monitoring devices (B-OWS) 11 to 1n. Send data. The local controllers (B-BC) 21 to 2m store data based on the acquired signals as short-term data for a certain period. Here, the input / output terminal is an interface for converting an input electric signal from the meter into a transmission signal and transmitting the transmission signal to the local controllers (B-BC) 21 to 2m.

  FIG. 2 is a functional block diagram illustrating an example of the monitoring devices 11 to 1n illustrated in FIG. The monitoring devices 11 to 1n include a network interface unit 41, a display 42, an input / output unit 43, a database unit 44, and a main control unit 45. The network interface unit 41 is responsible for interface processing related to communication with the LAN 100.

  The display device 42 provides a user interface together with the input / output unit 43 to form a GUI (Graphical User Interface) environment. The database unit 44 is a storage device such as a hard disk drive, and stores a management table 44a. The management table 44a stores individual states of monitored devices (nodes) in the system. The display 42 and the input / output unit 43 process the data acquired from the management table 44a and notify the user of information in the form of a Web browser, for example.

Incidentally, the main control unit 45 includes a user interface unit 45a, an acquisition unit 45b, and a transmission unit 45c as processing functions according to this embodiment.
The user interface unit 45 a forms a GUI environment via the display device 42. In addition, the user interface unit 45a displays, on the display 42, a first icon for prompting the replacement of the old meter to be replaced before the replacement of the meter. In response to the replacement of the old meter with the new meter, the user interface unit 45a displays a second icon different from the first icon on the display 42.

  When the first icon is clicked, the acquisition unit 45b acquires the accumulated count value of the old meter. Further, when the second icon is clicked after the acquisition count value of the old meter is acquired, the acquisition unit 45b acquires the integration count value of the new meter after replacement.

  The transmission unit 45c transmits the acquired accumulated count value of the old meter and the accumulated count value of the new meter to the BEMS 200. Next, the operation of the above configuration will be described.

  FIG. 3 is a flowchart illustrating an example of a processing procedure in the building monitoring system according to the embodiment. Below, the monitoring apparatus 11 as B-OWS is demonstrated as a main body. When the meter replacement process is started, the operator selects a replacement target meter on the point detail screen for inputting, for example, the count value of the accumulated points on the GUI screen of the monitoring device (B-OWS) 11. The monitoring device 11 displays an “old meter replacement process” button (icon) as shown in FIG. 4 on this screen, for example. The operator clicks an “old meter replacement process” button with the count value of the old meter being input to the selected meter (step S1).

  Then, the monitoring device (B-OWS) 11 requests the integrated count value of the corresponding meter from the B-BC (local controller) (step S2). In response, the B-BC returns the integrated count value to the monitoring device (B-OWS) 11 (step S3). The monitoring device (B-OWS) 11 that has received the integrated count value transmits this integrated count value to the BEMS 200 (step S4).

Corresponding to the corresponding meter number, the old meter value of the corresponding meter number is input (step S5).

  On the other hand, the monitoring device (B-OWS) 11 changes the button name displayed on the GUI to “new meter replacement processing” after clicking the “old meter replacement processing” button (step S6). That is, the monitoring device (B-OWS) 11 displays a “new meter replacement process” button (icon) as shown in FIG.

  Thereafter, on-site meter replacement work is performed, and meter values are read. Based on the meter value acquired by reading, the count value of the corresponding point is corrected to the new meter value by the GUI operation of the monitoring device (B-OWS) 11 (step S7).

  Next, when the “new meter replacement process” button is clicked (step S8), the monitoring device (B-OWS) 11 requests the integrated count value after replacement of the corresponding meter from the B-BC (step S8). S9). In response, the B-BC returns the integrated count value after replacement of the corresponding meter to the monitoring device (B-OWS) 11 (step S10). The monitoring device (B-OWS) 11 that has received the integrated count value after the replacement of the meter transmits this integrated count value to the BEMS 200 (step S11).

  The BEMS 200 associates the integrated count value received from the monitoring device (B-OWS) 11 with the corresponding meter number based on the monitoring point ID of the building building monitoring control system, and sets the corresponding meter number as the new meter value. Input (step S12). That is, the BEMS 200 can acquire the old meter reading and the new meter reading transmitted from the monitoring device (B-OWS) 11 and input them to itself. As a result, the BEMS 200 can accurately accumulate the usage amount of each meter.

  According to the above procedure, the count value of the old meter is acquired from the B-BC by the monitoring device (B-OWS) 11, and the value is transmitted from the monitoring device (B-OWS) 11 to the BEMS 200. Therefore, the BEMS 200 can input the count value of the old meter into its own database.

  Moreover, when the reading value in the field of the new meter after replacement | exchange is input, the monitoring apparatus (B-OWS) 11 will acquire the count value of a new meter from B-BC, and will transmit to BEMS200. As a result, the BEMS 200 can input a new count value to the meter number corresponding to the new meter in its own database.

  Therefore, processing such as data matching processing between the B-OWS and the BEMS 200 and matching processing of the integrated count values of the old and new meters can be completed only by an operator operation in the monitoring device (B-OWS) 11. This eliminates the need for an operator's manual operation in the BEMS 200, thereby drastically reducing the operator's labor during meter replacement processing.

  That is, it is possible to perform meter-reading meter replacement processing only by operation on the B-OWS. From these facts, according to the embodiment, it is possible to provide a building monitoring system, a building monitoring apparatus, and a building monitoring method that are labor-saving for the meter replacement process.

  Although an embodiment of the present invention has been described, this embodiment is presented as an example and is not intended to limit the scope of the invention. The novel embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  DESCRIPTION OF SYMBOLS 11-1n ... Monitoring apparatus, 21-2m ... Local controller, 100 ... Local Area Network (LAN), 200 ... BEMS, 41 ... Network interface part, 42 ... Display, 43 ... I / O part, 44 ... Database part, 44a ... management table, 45 ... main control unit, 45a ... user interface unit, 45b ... acquisition unit, 45c ... transmission unit

Claims (3)

A controller that collects the count value of the meter in the building,
A building monitoring device connected to the controller via a communication network;
Comprising a host management device capable of communicating via the building monitoring device and the communication network;
The building monitoring device
A user interface unit that forms a GUI (Graphical User Interface) environment via a display;
An acquisition unit for acquiring the count value from the controller;
A transmission unit for transmitting the acquired count value to the upper management device,
The user interface unit includes:
Before replacing the old meter to be replaced, the first icon is displayed on the display,
The acquisition unit
When the first icon is clicked, the accumulated count value of the old meter is acquired,
The user interface unit includes:
When the accumulated count value of the old meter is acquired, a second icon different from the first icon is displayed on the display,
The acquisition unit
When the second icon is clicked, the integrated count value of the new meter after replacement is acquired,
The said transmission part is a building monitoring system which transmits the integration count value of the acquired old meter, and the integration count value of a new meter to the said high-order management system. In a building monitoring device connected via a communication network to a controller that collects the count value of a meter provided in the building,
A user interface unit that forms a GUI (Graphical User Interface) environment via a display;
An acquisition unit for acquiring the count value from the controller;
A transmission unit that transmits the acquired count value to a higher-level management device via the communication network;
The user interface unit includes:
Before replacing the old meter to be replaced, the first icon is displayed on the display,
The acquisition unit
When the first icon is clicked, the accumulated count value of the old meter is acquired,
The user interface unit includes:
When the accumulated count value of the old meter is acquired, a second icon different from the first icon is displayed on the display,
The acquisition unit
When the second icon is clicked, the integrated count value of the new meter after replacement is acquired,
The said transmission part is a building monitoring apparatus which transmits the integration count value of the acquired old meter, and the integration count value of a new meter to the said high-order management system. A user interface unit that is connected to a controller that collects the count value of a meter provided in a building via a communication network and forms a GUI (Graphical User Interface) environment via a display, and obtains the count value from the controller And a building monitoring method applicable to a building monitoring apparatus comprising a transmission unit that transmits the acquired count value to a host management device via the communication network,
The user interface unit includes:
Before replacing the old meter to be replaced, the first icon is displayed on the display,
The acquisition unit
When the first icon is clicked, the accumulated count value of the old meter is acquired,
The user interface unit includes:
When the accumulated count value of the old meter is acquired, a second icon different from the first icon is displayed on the display,
The acquisition unit
When the second icon is clicked, the integrated count value of the new meter after replacement is acquired,
The transmitting unit transmits the acquired accumulated count value of the old meter and the accumulated count value of the new meter to the upper management system.

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