JP5721762B2 - Equipment management system, monitoring device and monitoring program - Google Patents

Description

  The present invention relates to an equipment management system for managing equipment such as air conditioning equipment and lighting equipment installed in a house such as a building.

  In a house such as a building, an equipment management apparatus that manages equipment such as air conditioners and lighting equipment is generally installed. Some of these equipment management devices monitor the operating status of equipment via the LAN (Local Area Network) in the building, the Internet, etc. if accessed from the Web browser of the building manager's computer (monitoring terminal). There is something you can do.

  However, when there is an equipment that exceeds the upper limit of equipment that can be managed by one equipment management device, in order to monitor the equipment using a web browser, a plurality of web pages are provided for each equipment management device. It is necessary to monitor while opening and switching web pages. For this reason, monitoring has become complicated, and oversight of equipment equipment abnormality has occurred.

  As a technology for solving this problem and displaying the operating status of a plurality of equipment management devices on a single Web page, the equipment status of a building or the like remains distributed to a plurality of monitoring server devices without being collected on a specific server. An equipment monitoring system that can collect equipment status from each monitoring server device via the Internet and display it on browsers of various specifications is disclosed (for example, see Patent Document 1).

Japanese Patent No. 5015052 (FIG. 2)

  For example, in the facility monitoring system of the above-mentioned Patent Document 1, each monitoring server device holds the operating state of the facility device by monitoring each facility device connected to each device. However, only the main monitoring server device holds the HTML document for connecting to each monitoring server, so if a failure or communication error occurs in the main monitoring server, the status of all equipment is acquired. I couldn't do it. Also, if any of the monitoring server devices other than the main monitoring server fails or has a communication error, the display data generated by the monitoring server in which the failure or communication error has occurred cannot be acquired. As a result, the information on whether or not the equipment is connected is not displayed, and it is impossible to specify the range of influence caused by the failure of the monitoring server.

  As described above, the technology related to the facility management system described in Patent Document 1 described above uses a Web browser as a monitoring terminal, which eliminates the need for complicated work such as installation of a monitoring application on a monitoring personal computer. However, if the main monitoring server device fails, all of the facility devices cannot be monitored, or if any other monitoring server device fails, what kind of equipment is in the monitoring server device? There is a problem that data necessary for equipment management such as is connected is not displayed.

  The present invention has been made to solve the above problems, and provides, for example, a facility management system that can display a screen on a monitoring device even when a failure or communication abnormality occurs in the facility management device. With the goal.

In order to achieve the above object, a facility management system according to the present invention includes a plurality of facility management devices that respectively manage one or a plurality of facility devices to be managed, and a plurality of facility management devices that communicate with each other. a facility management system which have a monitoring device that displays the monitoring screen, the monitoring device, a display device, and a communication management unit for communicating with a plurality of facility management apparatus, the monitoring screen data of the display of the monitoring screen And a storage device for storing address information including addresses for communicating with each of the plurality of facility management devices, and data relating to facility equipment, and displaying a monitoring screen on the display device based on the monitoring screen data, and a row cormorant Viewing control unit the process of displaying the information based on the data on the monitor screen relating to equipment, the display control unit, during the processing, cash of the plurality of facilities management device First, the monitoring screen data and address information stored in the storage device are updated based on the data obtained from the representative equipment management device, and the latest management screen data is updated. A facility that displays a monitoring screen, communicates with each of the plurality of facility management devices based on the latest address information, and is stored in the storage device based on data obtained from each of the plurality of facility management devices If data related to the device is updated and communication with the representative facility management device is not possible, a monitoring screen is displayed based on the previously updated monitoring screen data and communication is performed with each of the plurality of facility management devices based on the previously updated address information. Is to do.

  According to this invention, the display control unit of the monitoring device causes the storage device to hold the data related to the configuration of the monitoring screen, the data related to the processing related to the monitoring screen display, and the data related to the address communicating with each facility management device. Even if it is not possible to communicate with the equipment management device that communicates first due to equipment failure, communication abnormality, etc., display the monitoring screen using the stored data and communicate with other equipment management devices Equipment equipment can be managed.

It is a block diagram which shows the structure of the equipment management system which concerns on Embodiment 1 of this invention. It is a block diagram which shows the structure of the equipment management apparatus 3 which concerns on Embodiment 1 of this invention. It is a block diagram which shows the structure of the monitoring terminal 4 which concerns on Embodiment 1 of this invention. It is a figure explaining the process at the time of displaying a monitoring screen with the monitoring terminal. It is a figure explaining the flow of the signal in communication with the monitoring terminal 4 and the equipment management apparatus 3. FIG. It is a figure which shows the example of a floor monitoring screen displayed with the monitoring terminal. It is a figure which shows the example of a unit screen in abnormality occurrence displayed on the monitoring terminal. It is a figure which shows the example of a floor monitoring screen displayed with the monitoring terminal 4 when the equipment management apparatus 3a cannot communicate by failure. It is a figure explaining the process of the equipment management apparatus 3 when the driving | running state of the equipment 2 changes. It is a figure explaining the process of the monitoring terminal 4 at the time of receiving the change report of the equipment apparatus operation state data from the equipment management apparatus 3. FIG. It is a block diagram which shows the structure of the equipment management apparatus 300 which concerns on Embodiment 2 of this invention. It is a block diagram which shows the structure of the monitoring terminal 301 which concerns on Embodiment 2 of this invention.

Embodiment 1 FIG.
First, a first embodiment of the present invention will be described.

  FIG. 1 is a block diagram showing a configuration of an equipment management system 1 according to Embodiment 1 of the present invention. As shown in FIG. 1, the facility management system 1 according to this embodiment is a system that includes a plurality of facility management devices 3 and a monitoring terminal 4 that serves as a monitoring device, and manages a plurality of facility devices 2. In this embodiment, it is assumed that three equipment management devices 3 are provided as the equipment management devices 3a, 3b, and 3c.

  The facility equipment 2 and the facility management device 3 are connected to each other via a dedicated communication line 5. Moreover, the facility management apparatus 3 and the monitoring terminal 4 are connected so that they can communicate with each other via a communication line 6. Here, although not specifically illustrated in FIG. 1, the equipment 2 is assumed to be various equipment installed in a building such as an air conditioner, a lighting device, and a hot water supply device.

  The plurality of facility devices 2 are devices that are respectively installed at designated locations in the building. Each facility device 2 operates under the management of the facility management device 3. The operating state of the equipment 2 is notified to the equipment management device 3 via the dedicated communication line 5. Here, for example, a plurality of facility devices 2 managed by one facility management device 3 may be collectively referred to as a facility device group 7 below.

  FIG. 2 is a block diagram showing the configuration of the facility management apparatus 3 according to Embodiment 1 of the present invention. The facility management device 3 is a device that comprehensively controls and manages a facility device group 7 including a plurality of facility devices 2. As shown in FIG. 2, the facility management device 3 of this embodiment includes a display device 10, an input device 20, a control unit 30, a data management unit 40, a facility device communication management unit 50, and a monitoring terminal communication management unit 60. ing.

  The display device 10 displays various screens for an administrator or the like (hereinafter referred to as an administrator) to monitor and control the equipment group 7 under the control of the control unit 30.

  The input device 20 is an input device such as a mouse, a keyboard, or a touch panel that sends a signal including an operation instruction input by an administrator to the control unit 30 (in the case of a touch panel, the input device 20 is installed on the display device 10). ). When the administrator operates the input device 20 such as a mouse, a signal including instructions related to the operation is transmitted to the control unit 30. For this reason, screen switching, operation of the equipment 2 and the like can be performed based on the operation content.

  The control unit 30 is, for example, a computer including a CPU (Central Processing Unit), a memory (storage device), and the like (all not shown). The function of the control unit 30 is realized by the CPU executing a program stored in the memory.

  The control unit 30 performs, for example, processing for holding the operating state of the equipment 2 and transmitting / receiving data necessary for the monitoring screen displayed on the monitoring terminal 4 in the signal. The control unit 30 of this embodiment includes an equipment device management unit 31, a Web server unit 32, an equipment device data communication unit 33, and a system configuration data communication unit 34. The equipment device management unit 31 performs processing related to monitoring and control of the operating state of the equipment device 2. The equipment device data communication unit 33 performs processing related to the setting and monitoring of the equipment device data 70. The Web server unit 32 performs processing for transmitting the Web content 80 in a signal. The system configuration data communication unit 34 performs processing relating to setting, monitoring, and the like of the equipment management device address list 91 in which data of address information of other equipment management devices 3 connected in the equipment management system 1 is held. .

  The data management unit 40 holds (stores), manages various data necessary for the control unit 30 to manage and monitor the equipment group 7 and various data for displaying a monitoring screen on the monitoring terminal 4. do. The data managed by the data management unit 40 is roughly divided into equipment device data 70, Web content 80, and system configuration data 90. Each data is stored in a storage device constituting the data management unit 40. Further, the web content 80 and the system configuration data 90 do not need to be held by all the facility management apparatuses 3, but are held by, for example, the representative facility management apparatus 3 (in this embodiment, the facility management apparatus 3a). Just do it.

  The facility device data 70 includes connection information data 71, operation state data 72, and display position data 73 for each facility device 2.

  The connection information data 71 is data necessary for controlling the equipment device group 7 such as an address number, an operation group number, and model identification information of each equipment device 2 to be managed by the equipment management device 3.

  The operation state data 72 is data indicating the current operation state of each facility device 2 (for example, in the case of an air conditioner, an operation or stop state, an operation mode such as cooling or heating, a set temperature, a room temperature, or the like). The operation state data 72 is updated at any time by transmission / reception of signals performed with each facility device 2.

  The display position data 73 is data indicating the floor number where each equipment 2 is installed and the X and Y coordinates on the plan view. This is used for data when an equipment icon is arranged and displayed on a floor plan of the floor displayed on the monitoring screen of the equipment 2 displayed on the monitoring terminal 4.

  Here, in consideration of managing a plurality of buildings, the display position data 73 may further add additional information such as a building number in addition to the floor number. In addition, the X coordinate and Y coordinate are indicated by a ratio (0 to 100%) with respect to the vertical and horizontal sizes of the plan view so that the equipment icon can be displayed at the corresponding position even if the plan view is enlarged or reduced. Also good.

  The Web content 80 includes a screen configuration file 81 that is data relating to the layout configuration of the screen displayed on the monitoring terminal 4, a monitoring program 82 that is executed on the Web browser and performs various communication processes and screen display processes, and a monitoring Floor plan data 83 (hereinafter referred to as a floor plan view) for display as a screen background is included.

  The screen configuration file 81 is a screen layout configuration file displayed on the monitoring terminal 4 and various image files. For example, it consists of an HTML (HyperText Markup Language) file describing the frame structure of the screen and various image files described in GIF (Graphics Interchange Format) format, JPEG (Joint Photographic Experts Group) format, BMP (Bitmap) format, etc. .

  In addition, the screen configuration file 81 includes data in a file format necessary for storing the Web content 80 in the nonvolatile memory (cache data unit 130) of the monitoring terminal 4 using the application cache function of the Web browser.

  The application cache function of the Web browser is a function implemented in each browser as an HTML5 function. For example, by describing the file name of a file to be cached (specified file) in a file (manifest file) created with the extension “.appcache”, the specified file is stored in the non-volatile memory (storage means) in the monitoring terminal 4 Can be stored as a cache. It is assumed that the monitoring terminal 4 of this embodiment can use this function. For this reason, even when communication with the facility management apparatus 3 is impossible, the Web content 80 can be read from the nonvolatile memory and displayed.

  The monitoring program 82 is a program that can be executed on a Web browser written in a language such as Java Script (registered trademark). It is executed on the Web browser, and the monitoring terminal 4 communicates with each facility management apparatus 3 to perform processing, and displays a monitoring screen. In addition, even when a communication abnormality with the facility management apparatus 3 occurs, the program can store necessary data in the nonvolatile data unit 140 in the monitoring terminal 4. In this embodiment, it is assumed that it is held in a form embedded in the screen configuration file 81.

  The floor plan 83 is image data showing a floor plan of each floor to be displayed as the background of the monitoring screen so that the installation position of the equipment 2 in the building becomes clear.

  The facility equipment communication management unit 50 serves as an interface between the control unit 30 and the dedicated communication line 5. Signals including various data are transmitted / received between the facility device 2 and the control unit 30 via the facility device communication management unit 50. Here, in this embodiment, the dedicated communication line 5 is connected. However, the dedicated communication line 5 is not necessarily a dedicated communication line. For example, a general-purpose communication line such as a LAN (Local Area Network), A configuration using an RS-485 interface or the like may be used.

  The monitoring terminal communication management unit 60 serves as an interface between the control unit 30 and the communication line 6. Signals including various data are transmitted and received between the monitoring terminal 4 and the control unit 30 via the monitoring terminal communication management unit 60. The communication line 6 is a communication path that can be connected to a computer, such as a LAN or a wireless LAN.

  FIG. 3 is a block diagram illustrating a configuration of the monitoring terminal 4 according to the first embodiment. The monitoring terminal 4 has a Web browser that operates on a general-purpose computer as an application program. For this reason, it is possible to process the Web content 80 acquired from the facility management apparatus 3 and display the monitoring screen of the facility device 2. As shown in FIG. 3, the monitoring terminal 4 includes a display device 100, an input device 110, a web content display control unit 120, a nonvolatile data unit 140, and a communication management unit 160.

  The display device 100 displays a monitoring screen based on the Web content 80 acquired from the facility management device 3 under the control of the Web content display control unit 120.

  The input device 110 is an input device such as a mouse, a keyboard, or a touch panel that sends a signal including an operation instruction input by the administrator to the control unit 30 (in the case of a touch panel, the input device 110 is installed on the display device 100). ). When the administrator operates the input device 110 such as a mouse, the screen can be switched and the equipment 2 can be operated based on the input content.

  Based on an instruction from the input device 110, the web content display control unit 120 communicates with the connection destination facility management device 3 to acquire the web content 80, and displays a monitoring screen of the facility device group 7 on the display device 100. Process to do. The Web content display control unit 120 includes a screen configuration file analysis unit 121 that analyzes the acquired screen configuration file 81.

  Also, the monitoring screen of the monitoring terminal 4 is sent by a signal from the facility management device 3 and manages the facility equipment data by communicating with the facility management device 3 and when a communication abnormality with the facility management device 3 occurs. A monitoring program processing unit 122 that stores data necessary for display in the nonvolatile data unit 140 is included.

  The monitoring program processing unit 122 executes the monitoring program 172 stored in the cache data unit 130 to perform processing. The monitoring program processing unit 122 includes a data communication management unit 123 and an equipment device data management unit 124. The data communication management unit 123 mainly performs processing related to communication with the representative facility management apparatus 3a. The equipment data management unit 124 performs processing related to communication of equipment data 70 included in each equipment management device 3.

  The cache data unit 130 stores and manages various files used by the screen configuration file analysis unit 121, the monitoring program 172, and the like as cache data when communication with the facility management apparatus 3 is not possible. The cache data unit 130 includes, as data, Web content 170 in which a screen configuration file 171, a monitoring program 172, and floor plan data 173 (hereinafter referred to as floor plan 173) acquired from the equipment management apparatus 3 are stored. It is stored in a non-volatile memory (storage means) that the monitoring terminal 4 has.

  The nonvolatile data unit 140 manages various setting data used by the monitoring program processing unit 122. In the non-volatile data section 140, the connection information 181 of the equipment 2 managed by each equipment management device 3, the equipment data 180 storing the display position data 182 and the IP serving as the specific information of the communication destination equipment management device System configuration data 190 in which an equipment management device address list 191 such as addresses and host names is stored is included and held in a non-volatile memory of the monitoring terminal 4.

  The RAM data unit 150 manages various operation state data used by the monitoring program processing unit 122. The RAM data unit 150 includes facility device data 200 in which the operation state data 201 of the facility device 2 managed by each facility management device 3 is stored, and is kept in the latest state by the facility device data management unit 124. ing.

  The communication management unit 160 serves as an interface between the web content display control unit 120 and the communication line 6. Signals including various data are transmitted and received between the equipment management apparatus 3 and the Web content display control unit 120 via the communication management unit 160.

  Next, operations of the facility management apparatus 3 and the monitoring terminal 4 will be described with reference to FIGS. 4, 5, and 6.

  FIG. 4 is a diagram for explaining processing when a URL (Uniform Resource Locator) of the equipment management apparatus 3 is input to the Web browser executed by the monitoring terminal 4 and a monitoring screen (page for equipment monitoring) is displayed. It is.

  When the URL is input to the monitoring terminal 4, the Web content display control unit 120 starts communication using, for example, the HTTP protocol (Hypertext Transfer Protocol) to the facility management apparatus 3 related to the URL via the communication management unit 160. . Here, the equipment management apparatus 3 according to the URL in this embodiment is a representative equipment management apparatus 3a, and is the equipment management apparatus 3 with which the monitoring terminal 4 communicates first.

  The web content display control unit 120 checks whether the web content 170 held in the cache data unit 130 is the latest data (step S1a). If it is determined that the data is the latest data, the Web content 170 in the cache data unit 130 is read (step S1b). If it is determined that the data is not the latest data, it communicates with the representative facility management device 3a via the communication management unit 160, acquires the Web content 80 held by the facility management device 3a, and stores the Web content in the cache data unit 130. It is held (stored) as 170 (step S1c).

  When the application cache function of HTML5 is used as to whether the Web content 170 is the latest data, a manifest file (not shown) held in the cache data unit 130 and a manifest file ( (Not shown). It is possible to determine whether the manifest file is up-to-date by checking whether the manifest file has been updated. Here, it is not always necessary to use the application cache function. The Web content 170 may be held using an equivalent means, and it may be determined whether the Web content 170 is the latest by another method.

  The screen configuration file analysis unit 121 of the monitoring terminal 4 analyzes the Web content 170, displays a screen on the display device 100 based on the screen configuration file 171 (step S1d), and executes the monitoring program 172 (step S1e). . Here, the monitoring program 172 is embedded in the screen configuration file 171 as a script.

  The data communication management unit 123 in the monitoring program processing unit 122 performs a process of connecting to the representative facility management apparatus 3a by the WebSocket method (step S1f). Here, the WebSocket method is a technical standard for bidirectional communication between a Web server and a Web client, and can be always connected unlike the HTTP protocol. Therefore, when communication is required, transmission can be started from either the Web server side or the Web client side. Therefore, it is useful for the purpose of immediately reporting when there is a change in operation or state change.

  It is determined whether or not the connection to the representative facility management apparatus 3a has been made normally (step S1g). If it is determined that the connection was successful, the data communication management unit 123 is further input with address information such as the IP address and host name of the equipment management device 3 connected to the equipment management system 1 from the equipment management device 3. The system configuration data 90 including the installed equipment management device address list 91 is acquired (step S1h). If it is determined that there is a change compared to the system configuration data 190 in the non-volatile data unit 140, the system configuration data 190 is held (stored) in the non-volatile data unit 140 (step S1i).

  On the other hand, if it is determined that the connection to the facility management apparatus 3 was not successful, the system configuration data 190 held in the nonvolatile data unit 140 is read (step S1j).

  It is determined whether or not the acquisition of data for all equipment management apparatuses 3 minutes has been completed (step S1k). If it is determined that it has not been acquired, it is connected to each IP address or host name of the facility management apparatus 3 included in the system configuration data 190 in the nonvolatile data section 140 by the WebSocket method (step S1l). Then, it is determined whether or not the connection can be normally made (step S1m).

  If it is determined that the connection has been made normally, connection information data 71 (step S1n) and display position data 73 (step S1o) of the equipment 2 are acquired from the connected equipment management apparatus 3. If it is determined that there is a change compared to the connection information 181 and the display position data 182 in the equipment data 180 in the nonvolatile data section 140, the equipment data 180 is stored in the nonvolatile data section 140. Further, the operation state data 72 of the facility device 2 is acquired (step S1p), and is stored as the operation state data 201 of the facility device data 200 in the RAM data unit 150.

  On the other hand, if it is determined that the equipment management device 3 could not be connected normally by the WebSocket method, the connection information 181 (step S1q) in the nonvolatile data unit 140, the display position data 182 (step S1r), and the RAM data unit 150 The operation state data 201 is read (step S1s).

  Thereafter, when the state of the facility device 2 changes, the facility management device 3 sends a signal related to the state change content to the monitoring terminal 4. In the monitoring terminal 4, the equipment data management unit 124 of the monitoring program processing unit 122 keeps the operation state data 201 in the latest state by holding the data related to the changed contents in the equipment data 200. To do.

  Next, the equipment device data management unit 124 displays each equipment device 2 held in the connection information 181 on the floor plan displayed on the monitoring screen of the monitoring terminal 4 with display position data 182 and operation state data 201. Accordingly, the process of displaying the equipment icon indicating the operation state is performed (step S1t).

  As described above, the processing when the monitoring terminal 4 opens the floor monitoring screen is completed, and the state of the equipment group 7 managed by the plurality of equipment management devices 3 is displayed and monitored on the same Web page. It becomes possible.

  As described above, when communication with the facility management apparatus 3 cannot be performed normally, the monitoring data is read from the cache data unit 130, the nonvolatile data unit 140, and the RAM data unit 150 held in the monitoring terminal 4, and a monitoring screen is displayed. be able to. For this reason, even if any equipment management device 3 fails and cannot communicate, the floor monitor screen is displayed as usual except that the status display of the equipment 2 related to the equipment management device 3 that cannot communicate is not the latest. It becomes possible to do.

  FIG. 5 is a diagram for explaining a signal flow in communication between the monitoring terminal 4 and the facility management apparatus 3. The Web content 80 and the system configuration data 90 are acquired from the representative facility management device 3a, but the facility device data 70 is directly acquired from each facility management device 3. For this reason, processing can be distributed.

  FIG. 6 is a diagram illustrating an example of a floor monitoring screen displayed on the monitoring terminal 4. In this example, the equipment management devices 3a, 3b, 3c monitor the equipment device group 7 in the same floor, and according to the display position data 182 acquired from each equipment management device 3, on the plan view in one Web page, Icons in accordance with the operation state data 201 of each equipment device 2 acquired from the plurality of equipment management devices 3 are arranged and displayed.

  Here, an example in which a plurality of facility management devices 3 are installed on the same floor is described, but even when the facility management device 3 is installed on each floor unit, the operation state of the facility equipment 2 on the plurality of floors is similarly set. It can be displayed on one web page.

  FIG. 7 is a diagram illustrating an example of an abnormal unit screen displayed on the monitoring terminal 4. In this example, according to the operation state data 201 of each equipment 2 acquired from the equipment management devices 3a, 3b, 3c, the equipment 2 in which an abnormality has occurred is displayed in one Web page in the order of occurrence date.

  FIG. 8 is a diagram illustrating an example of a floor monitoring screen displayed on the monitoring terminal 4 when the representative facility management apparatus 3a that holds the Web content 80 cannot communicate due to a failure or the like. In this example, the Web content 170 is read from the cache data unit 130, and the connection information 181 and the display position data 182 of the facility management apparatus 3a are read from the nonvolatile data unit 140 and displayed. For the facility management device 3b and the facility management device 3c, connection information data 71 and display position data 73 are acquired and displayed by communication. Icons are displayed in accordance with the operation state data 201 of each equipment device 2.

  As shown in FIG. 8, even when the equipment management apparatus 3a that holds the Web content 80 fails, the monitoring terminal 4 uses the data held in the cache data unit 130 and the non-volatile data unit 140 to A monitoring screen can be displayed. Here, in the RAM data unit 150, the operation state data 201 of the equipment 2 connected to the equipment management device 3a is likely not up-to-date. For this reason, in FIG. 8, the warning mark which shows the failure of the equipment management apparatus 3 is displayed on the air-conditioning icon.

  Next, with reference to FIG. 9 and FIG. 10, the process performed when the driving | running state of the equipment 2 changes is demonstrated.

  FIG. 9 is a diagram for explaining processing of the facility management apparatus 3 when the operating state of the facility device 2 changes.

  When the operation state of the equipment device 2 is changed by operation of a remote controller (not shown) connected to the equipment device 2 or the equipment management device 3, the equipment device management unit 31 in the equipment management device 3 is notified by a notification from the equipment device 2. Detects a state change and updates the driving state data 72 (step S2a).

  Next, it is determined whether there is a connection with the monitoring terminal 4 (whether there is a WebSocket connection) (step S2b). If it is determined that there is a connected monitoring terminal 4, a signal indicating that the operating state of the facility device 2 has changed is transmitted (reported) to the connected monitoring terminal 4 (step S2c).

  FIG. 10 is a diagram for explaining the processing of the monitoring terminal 4 when receiving a change report of the equipment operation state data from the equipment management apparatus 3.

  When receiving a signal indicating that the operating state of the equipment device 2 has changed from the equipment management device 3, the equipment data management unit 124 updates the operating state data 201 in the equipment data 180 (step S3a).

  Subsequently, the equipment device data management unit 124 updates the equipment operation state on the monitoring screen currently displayed on the display device 100 to the latest state (step S3b).

  As described above, the processing when the operation state of the equipment device 2 is changed ends, and the latest operation state relating to the equipment device group 7 managed by the plurality of equipment management devices 3 can be monitored.

  As described above in detail, according to the equipment management system having the equipment management apparatus 3 and the monitoring terminal 4 according to the first embodiment, the representative equipment management apparatus 3a holding the Web content 80 or the communication line 6 Even when a network device or the like fails and the Web content 80 cannot be acquired, the Web content 170 held in the cache data unit 130 and the system configuration data 190 held in the nonvolatile data unit 140 are used. Since the monitoring screen can be displayed by performing processing, even if it is not possible to connect to the representative facility management device 3a, signals including the facility equipment data 70 possessed by other facility management devices 3 are collected and processed. It is possible to display the same monitoring screen as usual. For this reason, conventionally, when communication with the facility management apparatus 3 having the Web content 80 becomes impossible, it is possible to solve the problem that all the facility devices 2 cannot be monitored.

  In addition, according to the facility management device 3 and the monitoring terminal 4 according to the first embodiment, even when any of the facility management devices 3 cannot communicate due to a failure or the like, the operation state data 201 held in the RAM data unit 150. Can be used to display the operating state immediately before the failure. In addition, by holding the operation state data 201 immediately before the failure, it can be used for the cause analysis of the failure.

  Further, according to the equipment management system having the equipment management apparatus 3 and the monitoring terminal 4 according to the first embodiment, even if any equipment management apparatus 3 cannot communicate due to a failure or the like, it is retained in the cache data unit 130. Since the floor plan 173 and the connection information 181 and the display position data 182 held in the nonvolatile data unit 140 are used, the icon of the equipment device 2 can be displayed at the correct position on the monitoring screen. Conventionally, when communication with the facility management device 3 becomes impossible, it is possible to solve the problem that information regarding the facility device 2 connected to the facility management device 3 that cannot communicate is not displayed at all.

  Moreover, according to the equipment management system having the equipment management apparatus 3 and the monitoring terminal 4 according to the first embodiment, the monitoring program processing unit 122 executed in the Web page is connected to the plurality of equipment management apparatuses 3. By acquiring the operation state data 72, it is possible to display the state of the equipment 2 managed by the plurality of equipment management apparatuses 3 in the same Web page. For this reason, it is possible to solve management problems caused by the fact that a plurality of Web pages must be switched and monitored for each facility management device 3 such as oversight of abnormal devices and forgetting to turn off the lighting.

  Moreover, according to the equipment management system having the equipment management apparatus 3 and the monitoring terminal 4 according to the first embodiment, the monitoring program processing unit 122 executed in the Web page is connected to the plurality of equipment management apparatuses 3. By acquiring the display position data 73, it is possible to display the state of the equipment 2 managed by the plurality of equipment management apparatuses 3 on the plan view in the same Web page using icons or the like. Become.

  In addition, the monitoring terminal 4 also monitors the equipment group 7 connected to the other equipment management apparatus 3 simply by specifying the URL related to one equipment management apparatus 3, communicating, and acquiring the Web content 80. Therefore, the problem of having to store the URLs of a plurality of facility management apparatuses 3 as in the prior art is solved.

  In addition, the equipment management group 3 is managed by each equipment management apparatus 3 in a distributed manner, and the equipment management apparatus 3 in which the monitoring program processing unit 122 executed on the monitoring screen (Web page) of the monitoring terminal 4 reads the Web content. The equipment management device 3 other than the equipment management device 3 can acquire the state of the equipment device group 7 managed by the equipment management device 3. Therefore, the load on each equipment management device 3 is small, and the equipment management is performed using a low-performance low-cost CPU The device 3 can be manufactured. Conventionally, a high-performance but high-cost centralized management device has been used to display the equipment status of the entire building with a single web page or application. By using the equipment management system 1 according to the first embodiment, It is possible to construct a system that eliminates the need for a high-cost centralized management device.

  In communication using the HTTP protocol that is generally used, a TCP connection is connected from the monitoring terminal 4 on the client side to the equipment management device 3 on the server side, and the state of the equipment 2 is monitored. Since it is a mechanism that disconnects the connection, the client's address is not known to the server except during connection, so even if there is a change in the status of the equipment, an immediate report could not be made. In the system according to this embodiment, since the monitoring device 4 can always be connected to the facility management apparatus 3 using the WebSocket that can be used from the Web browser that the monitoring terminal 4 has as a program, the state of the facility device 2 has changed. Can be notified from the equipment management device 3 to the connected monitoring terminal 4, and the latest equipment device 2 status can be monitored from the monitoring terminal 4.

  In general, when the equipment management device 3 reports a change in the status of the equipment 2, it is necessary to set in advance the address of the monitoring terminal 4 that is the reporting destination in the equipment management device 3, but always connect with WebSocket. Thus, there is no need to set a report destination address in the facility management apparatus 3. For this reason, it becomes possible to monitor the operating state of the equipment group 7 from a large number of unspecified monitoring terminals 4.

  In addition, since the equipment management device 3 often uses a built-in low-cost CPU, the number of equipment device groups 7 that can be managed by the equipment management device 3 is limited by CPU performance and memory performance such as ROM and RAM. However, only the number managed by the facility management apparatus 3 can be monitored within one page from the Web browser. In the facility management system 1 of the first embodiment, for example, a personal computer is used. By using the monitoring terminal 4 that can be configured, abundant CPU performance and memory can be used, and the facility equipment group 7 of the entire building managed by a large number of facility management devices 3 is monitored by one Web page. It becomes possible.

Embodiment 2. FIG.
Next, a second embodiment of the present invention will be described.

  FIG. 11 is a block diagram showing a configuration of a facility management apparatus 300 according to Embodiment 2 of the present invention. The facility management apparatus 300 according to the second embodiment of the present invention adds function setting data 74 and history data 75 to the facility equipment data 70 as compared with the facility management apparatus 3 shown in FIG. 2 of the first embodiment. And hold it.

  FIG. 12 is a block diagram showing the configuration of the monitoring terminal 301 according to Embodiment 2 of the present invention. Compared with the monitoring terminal 4 shown in FIG. 3 of the first embodiment, the monitoring terminal 301 according to the second embodiment of the present invention additionally stores function setting data 183 and history data 184 in the equipment data 180. It is what you do.

  Next, operations of the facility management apparatus 300 and the monitoring terminal 301 will be described.

  Various functions of the facility management apparatus 300, such as an energy saving function, an abnormality notification function, and an interlock control function, can be set based on signals from the input device 110 or the monitoring terminal 301 held by the facility management apparatus 300. . Data relating to the setting is held as function setting data 74 of the equipment device data 70.

  In addition, data relating to various histories possessed by the facility management apparatus 300, for example, history such as abnormality history, operation state history, measurement history such as power, temperature, and humidity, is held in the history data 75 in the facility equipment data 70 of the facility management apparatus 300. To do.

  The procedure for displaying various monitoring screens on the monitoring terminal 301 is basically the same as the procedure described with reference to FIG. 4 in the first embodiment. A portion for holding function setting data 183 and history data 184 is added to the nonvolatile data portion 140. The monitoring terminal 301 uses the function setting data 183 and the history data 184 when displaying various function setting screens and various history screens.

  As described above in detail, according to the equipment management system having the equipment management apparatus 300 and the monitoring terminal 301 according to the second embodiment, the equipment management apparatus 3 is broken, the communication line 6 is broken, or the network equipment is broken. Even when a failure occurs, various setting contents and various histories are confirmed even when communication with the facility management apparatus 3 is impossible by using the function setting data 183 and the history data 184 held in the nonvolatile data section 140. It is possible.

  Moreover, according to the equipment management system having the equipment management apparatus 300 and the monitoring terminal 301 according to the second embodiment, even if the equipment management apparatus 300 fails, an operation history immediately before the equipment management apparatus 300 fails, an abnormality Since the history and the like can be confirmed, it can be used for cause analysis at the time of failure.

  Further, according to the equipment management system having the equipment management apparatus 300 and the monitoring terminal 301 according to the second embodiment, screens related to various setting functions and history functions possessed by the equipment management apparatus 300 are displayed without the equipment management apparatus 300. Therefore, the monitoring terminal 301 can be a portable terminal such as a tablet, and can be used for sales activity tools that show the operation of the screen to the customer, demonstrations for exhibitions, and the like.

Embodiment 3 FIG.
Although not particularly specified in the first embodiment, the Web content 80 and the system configuration data 90 held by the facility management apparatus 3 are set in the facility management apparatus 3 in advance. The setting may be made from the input device 20 of the management device 3 or may be made from the Web browser of the monitoring terminal 4.
Similarly, the display position data 73 of each equipment device 2 may be created by instructing the display position from the input device 20 of the equipment management apparatus 3, or the display position data 73 may be displayed on the Web browser of the monitoring terminal 4. You may enable it to set while confirming.

  In the first embodiment and the like described above, the facility management device 3 includes the display device 10 and the input device 20, but the display device 10 and the input device 20 are not necessarily required. For example, a configuration in which settings, operations, and the like by communication can be performed without connecting the display device 10, the input device 20, and the like may be employed.

  In the first embodiment and the like, the monitoring terminal 4 is used. However, the present invention is not limited to this. For example, the facility management device 3 that performs the processing described in the first embodiment and FIG. 4 may be determined so that the facility device group 7 connected to the other facility management device 3 can be monitored.

  In the first embodiment and the like described above, it is assumed that a personal computer is used as the monitoring terminal 4 and a Web browser (program) is used. However, the present invention is not limited to this. A dedicated terminal, a tablet terminal, or the like that can execute processing by executing the monitoring program 82 may be used.

  In the first embodiment and the like, the communication format between the monitoring terminal 4 and the facility management apparatus 3 is not particularly specified. For example, a text format using XML (Extensible Markup Language) or the like is used. May be used. In addition, other formats such as a binary format may be used in order to reduce the data size of a signal to be communicated. Further, the communication data may be encrypted so that the communication information can be kept secret.

  Further, in the above-described first embodiment and the like, it is described that WebSocket that can be always connected is used as a communication method, but it is not always necessary to use WebSocket, and communication is performed using an HTTP protocol, an original protocol, or the like. May be.

  Here, the present invention is not limited to the above-described embodiments and drawings. Changes can be made to the contents described in the embodiments and the drawings without changing the gist of the present invention.

  DESCRIPTION OF SYMBOLS 1 Equipment management system, 2 Equipment, 3, 3a-3c Equipment management apparatus, 4 Monitoring terminal, 5 Dedicated communication line, 6 Communication line, 7 Equipment equipment group, 10 Display apparatus, 20 Input apparatus, 30 Control part, 31 Equipment Equipment management unit, 32 Web server part, 33 Equipment data communication part, 34 System configuration data communication part, 40 Data management part, 50 Equipment equipment communication management part, 60 Monitoring terminal communication management part, 70 Equipment data, 71 Connection information 72 Operation status data 73 Display position data 74 Function setting data 75 History data 80 Web content 81 Screen configuration file 82 Monitoring program 83 Floor plan view 90 System configuration data 91 Equipment management device address list 100 display device, 110 input device, 120 Web content display control unit 121 Screen configuration file analysis unit 122 Monitoring program 123 Data communication management unit 124 Equipment data management unit 130 Cache data unit 140 Non-volatile data unit 150 RAM data unit 160 Communication management unit 170 Web content 171 Screen configuration file, 172 monitoring program, 173 floor plan, 180 equipment data, 181 connection information, 182 display position data, 183 function setting data, 184 history data, 190 system configuration data, 191 equipment management device address list, 200 equipment Equipment data, 201 operation state data, 300 equipment management device, 301 monitoring terminal.

Claims (9)

A plurality of facility management apparatus for performing management subject to one or more of the equipment management, respectively, to have a monitoring device that displays the monitoring screen of the plurality of facilities management device and the equipment performing communication facility management A system,
The monitoring device
A display device;
A communication management unit for communicating with the plurality of facility management devices;
A storage device for storing monitoring screen data relating to the display of the monitoring screen , address information including an address for communicating with each of the plurality of facility management devices, and data regarding facility equipment ;
The causes of the monitoring screen on the basis of the monitoring screen data displayed on the display device, and a row Cormorant Viewing control unit information based on the data processing to be displayed on the monitor screen related to the equipment,
The display control unit
During the processing, the first communication with the representative equipment management device among the plurality of equipment management devices is performed, and the monitoring stored in the storage device based on the data obtained from the representative equipment management device Update the screen data and address information, display the monitoring screen based on the latest monitoring screen data, communicate with each of the plurality of facility management devices based on the latest address information, and Based on the data obtained from each of the management devices, update the data on the equipment stored in the storage device,
When communication with the representative facility management device is not possible, the monitoring screen is displayed based on the previously updated monitoring screen data, and communication is performed with each of the plurality of facility management devices based on the previously updated address information. A featured equipment management system. The data relating to the equipment includes operating status data relating to the operating status of the equipment,
The display control unit
Based on the data obtained by communication with each of the plurality of facility management devices , update the operation state data corresponding to the facility equipment managed by each facility management device , process the latest operation state data, Display the operating status of the equipment to be managed by each equipment management device on the monitoring screen ,
For equipment management devices that cannot communicate, process the operating status data corresponding to the equipment managed by the equipment management device that was updated last time, and display the equipment management equipment managed by the equipment management device on the monitoring screen. facility management system according to operating conditions to claim 1, characterized in Rukoto shown Table. The data on the equipment includes display position data on the display position of the equipment,
The display control unit
Based on data obtained by communication with each of the plurality of facility management devices , update the display position data corresponding to the facility equipment managed by each facility management device , process the latest display position data, Display an icon indicating the equipment to be managed by each equipment management device at a corresponding position on the monitoring screen,
For equipment management devices that cannot communicate, process the display position data corresponding to the equipment managed by the equipment management device that was updated last time, and display the management target of the equipment management device at the corresponding position on the monitoring screen . The facility management system according to claim 1 , wherein an icon indicating the facility device is displayed . The equipment management device, when it is determined that the operating state of the setting備機instrument managed is changed, a signal indicative of the change in any of claims 1 to 3, characterized in that sending said monitoring device The facility management system described. The storage device stores function setting data related to setting states of various functions in each facility management device,
The display control unit
Based on data obtained by communication with each of the plurality of facility management devices , the function setting data corresponding to each facility management device is updated, the latest function setting data is processed, and each facility management device is supported. a function setting screen is displayed on the display device,
For that can not be communication equipment management apparatus it was last updated, and the processing function setting data corresponding to the equipment management apparatus, the Rukoto function setting screen corresponding to the facility management apparatus is displayed on the display device The equipment management system according to any one of claims 1 to 4, wherein The storage device stores history data regarding various histories in each facility management device,
The display control unit
Based on data obtained by communication with each of the plurality of facility management devices , the history data corresponding to each facility management device is updated, the latest history data is processed, and the history corresponding to each facility management device Display a screen on the display device ;
For that can not be communication equipment management apparatus it was last updated, processes the historical data corresponding to the equipment management apparatus, and displaying the history screen corresponding to the facility management apparatus to the display device The equipment management system according to any one of claims 1 to 5. The facility management system according to any one of claims 1 to 6, wherein the display control unit communicates with each of the plurality of facility management devices based on the address information through a constant connection. A monitoring device that communicates with a plurality of facility management devices that respectively manage one or more facility devices to be managed and displays a monitoring screen of the facility devices,
A communication management unit for communicating with the plurality of facility management devices;
A storage device for storing monitoring screen data relating to the display of the monitoring screen, address information including an address for communicating with each of the plurality of facility management devices, and data regarding facility equipment;
A display control unit for displaying the monitoring screen on a display device based on the monitoring screen data and performing processing for displaying information based on the data on the equipment on the monitoring screen;
The display control unit
During the processing, the first communication with the representative equipment management device among the plurality of equipment management devices is performed, and the monitoring stored in the storage device based on the data obtained from the representative equipment management device Update the screen data and address information, display the monitoring screen based on the latest monitoring screen data, communicate with each of the plurality of facility management devices based on the latest address information, and Based on the data obtained from each of the management devices, update the data on the equipment stored in the storage device,
When communication with the representative facility management device is not possible, the monitoring screen is displayed based on the previously updated monitoring screen data, and communication is performed with each of the plurality of facility management devices based on the previously updated address information. A monitoring device characterized. A display device;
A communication management unit that communicates with a plurality of facility management apparatuses that respectively manage one or a plurality of facility devices to be managed;
A storage device for storing monitoring screen data relating to display of the monitoring screen of the equipment, address information including an address for communicating with each of the plurality of equipment management devices, and data relating to the equipment. Computer
A monitoring program for causing the display device to display the monitoring screen based on the monitoring screen data and to function as a display control unit that performs processing for displaying information based on the data related to the equipment on the monitoring screen. And
The display control unit
During the processing, the first communication with the representative equipment management device among the plurality of equipment management devices is performed, and the monitoring stored in the storage device based on the data obtained from the representative equipment management device Update the screen data and address information, display the monitoring screen based on the latest monitoring screen data, communicate with each of the plurality of facility management devices based on the latest address information, and Based on the data obtained from each of the management devices, update the data on the equipment stored in the storage device,
When communication with the representative facility management device is not possible, the monitoring screen is displayed based on the previously updated monitoring screen data, and communication is performed with each of the plurality of facility management devices based on the previously updated address information. Feature monitoring program.

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