JP4991334B2 - Equipment monitoring and control system - Google Patents

Description

  The present invention relates to a device monitoring control system that controls and monitors a plurality of devices.

  2. Description of the Related Art Conventionally, a device monitoring control system has been provided in which a plurality of devices installed in a home (for example, lighting fixtures, air conditioners, television receivers, etc.) are connected to a network, and these devices are controlled and monitored via the network. (For example, refer to Patent Document 1).

In addition, in the device monitoring control system as described above, a plurality of controllers that respectively control and monitor one or more devices, an integrated management device connected to each controller via a transmission path, and the integrated management device. 1 to a plurality of terminal devices connected via a transmission line, and the plurality of controllers, the integrated management device, and the terminal device constitute a network using a general-purpose communication protocol, and the terminal device passes through the network. The controller performs control and monitoring of the device based on the control request and the monitoring request transmitted by the controller, and a control response and a monitoring response indicating the result of the control or monitoring are transmitted from the controller to the terminal device via the network. Depending on the state of the device that is being controlled and monitored by the controller A control request or monitor requests for control and equipment to be monitored for another controller and transmitted via the network, some of which perform control and monitoring of a plurality of devices with a plurality of controllers cooperate.
JP 2003-18175 A

  By the way, when a plurality of controllers transmit control requests, monitoring requests, etc. via a network as in the latter conventional example, each controller has information on other controllers, for example, what devices are to be controlled and monitored. It is necessary to acquire information such as the type of controller and the address assigned to the controller. Here, as a method of setting the above information in each controller, a method in which a contractor who constructs the system manually sets each controller, and each controller automatically uses the well-known network technology to transmit the above information via the network. There is a method of acquiring and setting information, and the latter method is adopted for simplifying construction work.

  However, when a plurality of controllers respectively acquire information from other controllers, there is a possibility that network traffic increases due to the information acquisition.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide a device monitoring control system capable of suppressing network traffic.

In order to achieve the above object, a first aspect of the present invention provides a plurality of controllers that respectively control and monitor one or more devices, an integrated management device connected to each controller via a transmission line, and the integrated management. 1 to a plurality of terminal devices connected to the device via a transmission path, and the plurality of controllers, the integrated management device, and the terminal device constitute a network using a general-purpose communication protocol, and the terminal device Based on a control request and a monitoring request transmitted via the network, each controller controls and monitors the device, and a control response and a monitoring response indicating a result of the control or monitoring are sent from the controller to the terminal device. The controller is transmitted via a network, and the controller can perform other operations depending on the state of the device being controlled and monitored. A device monitoring and control system for transmitting control requests or monitoring requests for devices to be controlled and monitored via the network, wherein the integrated management device lists information on each controller constituting the network And the list is transmitted to each controller via the network, and information indicating that the contents of the list have been changed is added to the existence confirmation request for confirming the existence of each controller. The controller periodically transmits, the controller stores the transmitted list, transmits the control request or the monitoring request to another controller via the network based on the list, and further, the presence / absence of the presence / absence confirmation request. When transmitting the confirmation response, if the above information is added Characterized in that only transmit the list acquisition request for requesting transmission of said list to the integrated management apparatus.

According to a second aspect of the present invention, in the first aspect of the invention, the integrated management device counts the current time and adds information indicating that the current time has been changed to the existence confirmation request. When the information is added, when transmitting the presence / absence confirmation response, a time information request for requesting transmission of the current time information after the change is transmitted to the integrated management apparatus.

According to a third aspect of the present invention, in the first or second aspect of the present invention, the integrated management device adds information indicating that an address determination method has been changed to the presence / absence confirmation request, and each of the controllers includes the information Is added, the own address is changed by the determination method after the change.

The invention of claim 4 indicates that in the invention of any one of claims 1 to 3 , each controller does not store the list until the list is acquired from the integrated management device. It is characterized by doing.

According to a fifth aspect of the present invention, in the invention according to any one of the first to fourth aspects, the respective controllers are controlled and monitored by other controllers until the list is acquired from the integrated management apparatus. The control request or the monitoring request for the device is suspended, and when the list is acquired, the control request or the monitoring request is transmitted.

According to a sixth aspect of the invention, in the fifth aspect of the invention, each of the controllers holds only a predetermined number of the control requests or monitoring requests.

A seventh aspect of the invention is characterized in that, in the fifth or sixth aspect of the invention, each of the controllers discards the control request or the monitoring request that has been held for a predetermined time.

In order to achieve the above object , the invention of claim 8 provides a plurality of controllers for controlling and monitoring one or more devices, an integrated management device connected to each controller via a transmission line, and the integrated management. 1 to a plurality of terminal devices connected to the device via a transmission path, and the plurality of controllers, the integrated management device, and the terminal device constitute a network using a general-purpose communication protocol, and the terminal device Based on a control request and a monitoring request transmitted via the network, each controller controls and monitors the device, and a control response and a monitoring response indicating a result of the control or monitoring are sent from the controller to the terminal device. The controller is transmitted via a network, and the controller can perform other operations depending on the state of the device being controlled and monitored. A device monitoring and control system for transmitting control requests or monitoring requests for devices to be controlled and monitored via the network, wherein the integrated management device lists information on each controller constituting the network And the list is transmitted to each controller via the network, and a presence / absence confirmation request for confirming the presence / absence of each controller is periodically transmitted, and the controller stores the transmitted list. And transmitting the control request or the monitoring request based on the list to another controller via the network, and further voluntarily transmitting a list acquisition request for requesting transmission of the list to the integrated management device. Features.

According to the invention of claim 1, since the integrated management apparatus manages information about each controller constituting the network in a list and transmits the list to each controller via the network, a plurality of controllers Compared to the case where information about other controllers is independently acquired via a network, network traffic can be suppressed. Further, it is possible to prevent the traffic from each controller to the integrated management apparatus from being concentrated. Further, not only can each controller always acquire the latest list, but also traffic can be reduced compared to the case where the list is acquired periodically.

According to the invention of claim 2 , the integrated management device and each controller can share the current time information.

According to the third aspect of the invention, it is possible to prevent communication from being disabled due to an address change.

According to the invention of claim 4 , it is possible to notify the user that the controllers cannot transmit the control request and the monitoring request.

According to the invention of claim 5 , even if the controller is restarted due to an instantaneous power failure or the like, it is possible to prevent the contents of the control request and the monitoring request from becoming inconsistent before and after the restart.

According to the sixth aspect of the present invention, it is possible to prevent the number of pending control requests and monitoring requests from increasing excessively.

According to the seventh aspect of the present invention, it is possible to prevent a new control request or monitoring request from being discarded while an old control request or monitoring request remains.

According to the invention of claim 8 , network traffic can be suppressed as compared with the case where a plurality of controllers independently acquire information about other controllers via the network, and Each controller can obtain the list earlier than the invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  As shown in FIG. 1, the device monitoring control system according to the present embodiment includes a plurality of (two in the illustrated example) sub-controllers in which controllers C1 and C2 installed in a house control and monitor the devices installed in the house. The system SS1, SS2, the controller Cn (n = 1, 2) of each subsystem SSn, and the integrated management device TM connected via the transmission path (enhanced category 5 or category 6 LAN cable), and the integrated management device TM And a plurality of (two in the illustrated example) terminal devices (personal computer PC and display control device CV) connected via a LAN cable, and the plurality of controllers Cn, the integrated management device TM, and the terminal device are A home network using general-purpose communication protocols (TCP / IP, UDP, HTTP, etc.) is configured. This home network is a local area network (LAN) compliant with the 100BASE-TX (IEEE 802.3u) standard, and the integrated management device TM corresponding to a switching hub is connected to each subsystem SSn corresponding to a network terminal. A controller Cn and a terminal device (personal computer PC and display control device CV) are connected by star wiring. Further, the integrated management device TM includes an Internet connection device MD such as an ADSL modem, a cable modem, or an ONU (Optical Network Unit) according to the type of a line (telephone line, CATV line, optical fiber line, etc.) for connecting to the Internet. The home network is connected to the Internet, which is an external network, through a communication cable (usually a LAN cable) and the Internet connection device MD. In addition, since this kind of internet connection apparatus MD is well-known conventionally, illustration and description about a detailed structure are abbreviate | omitted.

  Further, a center device (center server) SV installed at a remote place away from the house is connected to the home network through the Internet, and a notebook personal computer, a mobile phone MP, which can be connected to the Internet, as will be described later. By performing data communication via the Internet between a portable terminal device such as a PDA (Personal Digital Assistance) and the center device SV, for example, control of equipment in a house from the outside using a mobile phone MP And monitoring. The center device SV is composed of a general-purpose computer device having a network function. The center device SV is a message addressed to the controller Cn transmitted from a terminal device such as the mobile phone MP or the like or a terminal device not belonging to the home network from the controller Cn. It has a function to relay a message to be transmitted. However, since the portable terminal device and the center device SV having the Internet connection function as described above are well known in the art, illustration and description of the detailed configuration are omitted.

As shown in FIG. 2, the integrated management apparatus TM includes a plurality of communication ports 2 _i (i = 1, 2,...) To which the controller Cn of the subsystem SSn is connected via a LAN cable. The transmission path between the communication port 3 to which the Internet connection device MD is connected and the communication ports 2 _i , 3 is switched, the packets transferred between the communication ports 2 _i , 3 are discarded, or the communication port 2 _i or 3 is blocked. Alternatively, a packet processing unit 4 that executes processing such as restriction (hereinafter referred to as packet processing), and a function (route switching function) that switches the transmission path by controlling the packet processing unit 4 with the CPU as a main component. A function to perform virus checking and filtering on the network (network security function), subsystem configuration management function (described later) And a storage unit for storing the control information and monitoring information related to each subsystem SSn, the controller (Cn), the MAC (Media Access Control) address of the Internet connection device MD, the private IP address, etc. And 5. The communication ports 2 _i and 3 include a modular jack to which an RJ-45 modular plug provided at the end of the LAN cable is detachably connected. The packet processing unit 4 includes a large number of switch elements. When the switch element is driven by the path switching function of the control unit 1, any one communication port 2 _i or 3 and one or more other communication ports The transmission path between 2 _{i and} 3 is switched, or the network security function of the control unit 1 has caused an abnormality (for example, an inflow or outflow of illegal packets or a large amount of packets that may interfere with the network). The communication port 2 _i or 3 is blocked or restricted. The storage unit 5 is composed of a non-volatile memory, and the name, MAC address, and IP address of the controller Cn and the terminal device connected to each communication port 2 _i and the Internet connection device MD connected to the communication port 3 are assigned to each communication port. A list corresponding to 2 _i and 3 is stored. However, since a method for acquiring the MAC addresses of the controller Cn and terminal devices connected to the communication ports 2 _i and 3 and the Internet connection device MD is well known in the art, detailed description thereof will be omitted.

The control unit 1 monitors the address (MAC address) of the transmission destination of the packet that enters the packet processing unit 4 from the communication ports 2 _i and 3, for example, the transmission destination of the packet that has entered from the communication port 3. against the MAC address list that stores the address in the storage unit 5, the communication controller Cn and the terminal device MAC address coincident with the destination address (e.g., the controller C1) 2 ₁ and the communication port is connected and it controls the packet processing unit 4 as a transmission path is formed only between the port 3, thereby fed a packet to the communication port 2 ₁ through the formed transmission path (path switching function). Further, the control unit 1 constantly monitors packets passing through the communication ports 2 _i and 3, discards abnormal packets, or controls the packet processing unit 4 as described above to cause a communication port in which an abnormality has occurred. 2 _i or 3 is blocked or restricted (network security function). Further, the control unit 1 is equipped with a UPnP (Universal Plug and Play) control point function, and as described later, the UPnP device is detected using the Simple Service Discovery Protocol (SSDP) for detecting a device in UPnP. Each controller Cn equipped with a function is automatically detected. Further, the IP addresses of the integrated management device TM, each controller Cn, and terminal device are also automatically determined by the UPnP addressing function. Such an addressing function is based on a DHCP (Dynamic Host Configuration Protocol) client function, for example, automatically from a DHCP server mounted on a router (not shown) (a so-called broadband router interposed between the integrated management device TM and the Internet connection device MD). If there is no DHCP server, the IP address is determined using an automatic address determination protocol called AutoIP. In this AutoIP, when it fails to automatically obtain an IP address by DHCP, an arbitrary IP address is obtained from the address space of “169.254.0.0/16”, and ARP (Address Resolution Protocol) is obtained. ) Broadcast and use the IP address if no response is received from anyone. However, since the above-described functions related to UPnP are also well known in the art, detailed description thereof will be omitted.

  By the way, the integrated management device TM is configured by housing the above-described parts in a box-shaped housing (not shown) made of a synthetic resin molded product, and the housing is installed on a wall surface in the house. It can be stored in a distribution board (residential board). However, the structure of the housing is an example, and it is not always necessary to be housed in a housing board.

  Next, each subsystem SSn will be described.

  The subsystem SS1 is a housing equipment (equipment equipment) X1, 2 such as a lighting fixture, an air conditioner (air conditioner), and an electric lock, and a controller that controls and monitors the equipment equipment X1, 2 (hereinafter referred to as equipment equipment controller). ) C1.

  As shown in FIG. 3, the equipment controller C1 includes a equipment controller controller 10 having a microcomputer as a main component, and a LAN interface for connecting a LAN cable of the home network to interface the equipment controller controller 10 with the home network. Unit 11, HA (home automation) interface unit 12 for interfacing facility equipment X1 (air conditioner, water heater, etc.) and facility equipment controller control unit 10 conforming to the Japan Electric Manufacturers' Association (JEMA) standard, JEMA HA terminal portion 13 having an HA terminal (not shown) conforming to the standard, and a relay terminal having a relay (not shown) inserted into the power supply path to the equipment device X2 (lighting fixture) not conforming to the JEMA standard Under the control of the unit 15 and the equipment controller controller 10. A lighting fixture interface unit 14 for driving a relay included in the relay terminal unit 15; a memory unit 16 for storing control information such as a program executed by the microcomputer and operating states of the equipment devices X1 and X2; and monitoring information; And a timekeeping unit 17 for performing the operation. Although not shown in the figure, a power supply circuit is also provided for generating a desired DC power supply from a commercial power supply and supplying operation power to the equipment controller controller 10 and other components.

  The equipment controller controller 10 individually controls each equipment X1 and X2 via the HA interface 12 or the luminaire interface 14 when receiving a control request message from the terminal device via the LAN interface 11. The HA interface unit 12 or the lighting device interface unit is switched when operation (lighting in the case of the lighting device X2) and stop (lighting off in the case of the lighting device X2) are received and a monitoring request message is received from the terminal device through the LAN interface unit 11. 14, the operation state of each equipment device X1 and X2 (operation <lighting> or stop <lighting off>) is individually acquired, and the response to the control request and the monitoring request (operation state of each equipment device X1 and X2) Send a request message from LAN interface unit 11 Function to transmit to the terminal device is based on having the (control monitoring). In addition, the equipment controller controller 10 has a UPnP device function and displays web contents (web pages) for displaying the names and operating states of the equipment X1 and X2 under its control in characters and symbols. It has a function (web server function) that creates and provides (distributes) the web content to the terminal device from the LAN interface unit 11 in response to a request from the terminal device. The memory unit 16 stores the UPnP device information (device name, type, list of services, etc.) of the facility device controller C1, and when newly joining the home network as will be described later, the facility device controller control unit. 10 notifies the UPnP control point (integrated management apparatus TM) of the device information stored in the memory unit 16 (description function).

  Further, as shown in FIG. 1, the subsystem SS2 includes one or more types of security devices Y1 and Y2 that detect the occurrence of an abnormality in the house, and a security receiver SR that collects detection information of each security device Y1 and Y2. The security system includes a controller (hereinafter referred to as a security controller) C2 that receives detection information collected by the security receiver SR and transmits the received detection information through a home network using a response message.

  For example, the security device Y1 is a crime prevention device that detects a human intrusion into a monitoring area by detecting a heat ray radiated from a human body, detects whether a crescent lock installed in a window is unlocked, and detects whether a window is opened or closed. Has a function to transmit the detection information to the security receiver SR as a wireless signal (or wired signal) when an abnormality (intrusion of a person, unlocking of a crescent lock, etc.) is detected by the sensor. ing. The security device Y2 is equipped with a sensor for disaster prevention that detects fire by detecting smoke and heat, and gas leak detection by detecting city gas or LP gas. A function of transmitting the detection information to the security receiver SR by a wireless signal (or a wired signal) when a leak is detected. However, since the security devices Y1 and Y2 having the functions as described above are well known in the art, illustration and description of the detailed configuration are omitted.

  The security receiver SR collects detection information by receiving wireless signals (or wired signals) transmitted from the security devices Y1 and Y2, and further processes corresponding to the detection information, for example, fire, gas leakage or suspicious Processing to sound an alarm sound to inform the family of the occurrence of an abnormality such as an intruder, and to transmit detection information such as the type and location of the detected abnormality to the security controller C2 by wireless signal (or wired signal) I do. Here, a unique identification code (ID) is assigned to the security devices Y1 and Y2, and the security receiver SR can identify the detection information of the individual security devices Y1 and Y2 by the identification code. Further, as described above, the security receiver SR has two operating states, ie, a warning state in which detection information is collected from the security devices Y1 and Y2, and a non-warning state in which detection information is not collected. For example, a wireless transmitter (not shown) 2) are selectively switched between a warning state and a non-warning state. However, a unique identification code is also assigned to the wireless transmitter, and the wireless transmitter to which an identification code other than the previously registered identification code is assigned cannot switch the operating state. Since the security receiver SR having the functions as described above is well known in the art, illustration and description of a detailed configuration are omitted.

  As shown in FIG. 4, the security controller C2 includes a security controller control unit 30 having a microcomputer as a main component, and a LAN interface unit 31 that interfaces with the security controller control unit 30 and the home network via a LAN cable of the home network. A communication unit 32 that performs wireless (or wired) data communication with the security receiver SR, a display unit 33 that displays a power on / off state, a communication state, and the like using light emitting elements such as LEDs, and a push button switch. And a memory unit 35 for storing detection information collected from programs executed by a microcomputer and security devices Y1 and Y2. Further, although not shown, a power supply circuit is also provided for generating a desired DC power supply from a commercial power supply and supplying operation power to the security controller control unit 30 and other units.

  The security controller control unit 30 has a function (alarm function) for transmitting detection information received from the security receiver SR via the communication unit 32 as a response message to the terminal device through the home network (or the home network and the external network), a terminal When a control request message is received from the apparatus, a command is transmitted to the security receiver SR via the communication unit 32 to switch the operation state (warning state or non-warning state) of the security receiver SR, or the security receiver When the alarm sound by SR is stopped, or when a monitoring request message is received from the terminal device, a command is transmitted to the security receiver SR via the communication unit 32, and the operating state of the security receiver SR (warning state or (Not alert) A function (control monitoring function) that transmits a message of a response to a control request or a monitoring request (an operation state of the security receiver SR, an alarm sounding state, etc.) from the LAN interface unit 31 to a terminal device that is a transmission source of the request message ). In addition, the security controller control unit 30 has a function of a UPnP device and creates web content (web page) for displaying the operation state of the security receiver SR under its control with characters and symbols, It has a function (web server function) for providing (distributing) the web content to the terminal device from the LAN interface unit 31 in response to a request from the terminal device. The memory unit 35 stores UPnP device information (device name, type, list of services, etc.) of the security controller C2, and when newly joining the home network, the security controller control unit 30 stores in the memory unit 35. The stored device information is notified to the UPnP control point (integrated management apparatus TM).

  Next, the display control device CV will be described. The display control device CV is embedded in a wall surface in a house. As shown in FIG. 5, a microcomputer unit 50 having a microcomputer as a main component and a LAN cable of a home network are connected to the microcomputer unit 50. LAN interface unit 51 for interfacing with a home network, a liquid crystal display, a display unit 52 having LEDs and their driver circuits, and a touch panel arranged on the screen of a push button switch or a liquid crystal display for operation input It includes an operation unit 53 that accepts, a memory unit 54 that stores a program executed by a microcomputer and various data, and a speaker unit 55 having a speaker and speaker driving circuit. Although not shown, a power supply circuit is also provided for generating a desired DC power supply from a commercial power supply and supplying operating power to the microcomputer unit 50 and other units. The microcomputer unit 50 is equipped with a web browser, and the web content provided from each controller Cn and the like is reproduced by the web browser and displayed on the liquid crystal display of the display unit 52, and the touch panel of the operation unit 53 is operated. An operation input corresponding to the positional relationship between the position and an icon or the like displayed on the liquid crystal display is accepted. In addition, alarm sound and voice message data are compressed and stored in the memory unit 54 in advance, and if the microcomputer unit 50 decompresses the data read from the memory unit 54 and outputs it to the speaker unit 55 as necessary. The alarm sound or voice message is sounded from a speaker. Note that UPnP device information (device name, type, list of services, etc.) is also stored in the memory unit 54, and the device in which the microcomputer unit 50 is stored in the memory unit 54 when newly joining the home network. Information is notified to a UPnP control point (integrated management apparatus TM).

  By the way, in the present embodiment, the control unit 1 of the integrated management apparatus TM is also equipped with a web server function, and an entrance to web content (homepage of each subsystem SSn) provided by each controller Cn by the web server function; Web content (so-called portal site) is created and provided (distributed) to a terminal device (personal computer PC or display control device CV) in a house through a home network. For example, the portal site created by the integrated management device TM is usually displayed on the liquid crystal display of the display control device CV. In this portal site, links to web contents (homepages of each subsystem SSn) provided by each controller Cn are displayed as icons. If a touch panel is operated on any icon, the icon is displayed. A web content transmission request message is transmitted from the display control device CV to the linked URL (IP address of each controller Cn). When the controller Cn that has received the transmission request message transmits its own web content to the display control device CV, the web content of the controller Cn (the home page of each subsystem SSn) is displayed on the liquid crystal display instead of the portal site. Is displayed.

  Next, a case where a new subsystem (for example, SS1) is added to the home network will be described with reference to the sequence diagram of FIG.

  After the wiring of the subsystem SS1 is completed, when the equipment device controller C1 is started (powered on), the equipment device controller control unit 10 of the equipment device controller C1 that is a UPnP device sends a home network to the integrated management device TM that is a UPnP control point. Participation in is notified (NOTIFY) (1). The control unit 1 of the integrated management apparatus TM that has received the notification searches for a UPnP device (2), and as a response from the facility device controller C1 that is the notification source, a device such as the type of the controller (facility device controller C1) and a MAC address Receive information (3). Furthermore, using DHCP or AutoIP, an IP address is assigned to the equipment controller C1 that newly joins the home network. The control unit 1 of the integrated management apparatus TM adds the device information received from the equipment controller C1 to the list stored in the storage unit 5 and additionally registers the IP address as a link destination of the portal site ( 4). In addition, the equipment controller controller 10 of the equipment controller C1 stores the assigned IP address in the memory 16 as its own address (5). Note that, when another subsystem SS2 is added, the same procedure is used, and the description thereof is omitted.

  Next, an operation in the case where control and monitoring of the equipment device Xm are performed using a home terminal device (for example, the display control device CV) will be described with reference to the sequence diagram of FIG.

  First, when the push button switch of the operation unit 53 is pressed, the microcomputer unit 50 transmits a portal site transmission request message from the LAN interface unit 51 to the integrated management device TM (1). The control unit 1 of the integrated management apparatus TM that has received the message displays icons indicating links to the home pages of the subsystems SS1 and SS2 registered in the storage unit 5, characters indicating the names of the individual subsystems SS1 and SS2, and the like. Is created, and the portal site data is transmitted to the display control device CV of the transmission request source (2).

  The display control device CV displays the portal site on the liquid crystal display by opening the data (file) received from the integrated management device TM with a web browser executed by the microcomputer unit 50 (3). If the touch panel is operated on the icon of the subsystem SS1 (4), the web browser (the homepage of the URL) of the link destination (the IP address of the equipment controller C1) displayed by the icon is displayed by the web browser. ) Transmission request message is transmitted (5). When the equipment controller controller 10 of the equipment controller C1 that has received the transmission request message transmits the data of its own home page to the display controller CV (6), the data ( (File) is opened, the home page of the subsystem SS1 is displayed on the liquid crystal display of the display unit 52 (7). In this homepage, the names of the equipment devices X1 and X2 included in the subsystem SS1 and characters indicating the installation location (for example, “living air conditioner”, “living lighting”, etc.), and the operating state of each equipment device X1 and X2 , A button corresponding to an operation for inverting the operation state of each equipment device X1, X2, a button for returning to the portal site of the integrated management device TM, and the like are displayed. Therefore, it is possible to monitor (confirm) the operating state of each equipment device X1, X2 from the information displayed on the homepage (8).

  Here, in the case of performing control for reversing the operating state of any of the equipment devices Xm, for example, control for turning off the currently lit lighting fixture (facility device X2), the operating state of the equipment device X2 is reversed on the homepage. The touch panel is operated on the button corresponding to the operation (9). Then, a message indicating that the button has been operated by the web browser, that is, a message (request message) requesting to turn off the lighting device (facility device X2) is sent to the IP address of the facility device controller C1 through the home network. It is transmitted (10). Then, in the equipment controller controller 10 of the equipment controller C1 that has received this request message, the lighting equipment (facility equipment X2) is turned off by turning off the relay of the relay terminal section 15 via the lighting equipment interface section 14. (11). Then, if the equipment controller controller 10 updates the contents of the homepage in response to the lighting equipment (equipment X2) being turned off, and transmits the updated homepage data to the display control device CV (12), the display control is performed. By opening the data (file) with a web browser executed by the microcomputer unit 50 of the apparatus CV, the updated home page of the subsystem SS1 is displayed on the liquid crystal display of the display unit 52 (13). In the homepage, the operating state of the lighting fixture (equipment device X2) is changed from lighting to extinguishing.

  Next, the operation in the case of controlling and monitoring the equipment device Xm from outside the house using a portable terminal device (for example, the mobile phone MP) will be described with reference to the sequence diagram of FIG. Here, if the web server function of each controller Cn always opens a port to the external network (Internet), for example, there is a high possibility that a malicious intruder will cause an abnormality in the system. In the embodiment, the web server function of each controller Cn normally polls the center device SV while closing the port, and the request message received from the portable terminal device is held in the center device SV. Then, the home network is protected by transferring the request message from the center device SV at the time of polling by the controller Cn that is the destination of the request message.

  As described above, each controller Cn periodically polls the center device SV, and if the center device SV does not hold a request message from the mobile phone MP, the center device SV simply receives an acknowledgment (ACK). ) Is simply returned to the controller Cn. Here, the householder uses the mobile phone MP to send a request message (for example, a monitoring request message for the operating state of the lighting fixture) to the center device SV (1), and after the monitoring request message is held by the center device SV. When polled from the equipment controller C1 (2), the center apparatus SV transmits (transfers) the monitoring request message received and held from the mobile phone MP to the equipment controller C1 (3). In the equipment controller C1 that has received this monitoring request message, the equipment controller controller 10 creates a monitoring response message indicating the current operating state (for example, lighting) of the lighting fixture (facility equipment X2) and sends it to the center apparatus SV. Reply (4). The monitoring response message is transferred from the center device SV to the cellular phone MP (5), and the monitoring response message transferred from the sensor device SV is displayed on the liquid crystal screen of the cellular phone MP, so that the operating state (lighting) of the lighting fixture is displayed. Can be confirmed.

  Further, the householder transmits a request message (for example, a control request message for turning off the lighting fixture) to the center apparatus SV using the mobile phone MP (6), and the equipment is stored after the control request message is held in the center apparatus SV. When polled from the controller C1 (7), the center device SV transmits (transfers) the control request message received and held from the mobile phone MP to the equipment device controller C1 (8). In the equipment device controller C1 that has received this control request message, the equipment device controller control section 10 turns off the lighting equipment (facility equipment X2) by turning off the relay of the relay terminal section 15 via the lighting equipment interface section 14. 9). Thereafter, the equipment device controller control unit 10 creates a control response message indicating that the lighting equipment (facility equipment X2) has been turned off and sends it back to the center apparatus SV (10). The control response message is transferred from the center device SV to the mobile phone MP (11), and it is confirmed that the lighting fixture is turned off by displaying the control response message transferred from the sensor device SV on the liquid crystal screen of the mobile phone MP. it can. However, when it takes a considerable time (for example, several minutes) from sending the control request message to returning the control response message, a message indicating that the control request message has been received is sent from the center device SV to the mobile phone MP. It is desirable to send.

  Next, in the security system (subsystem SS2), the operation when the security controller C2 obtains detection information indicating the occurrence of an abnormality (for example, the occurrence of a fire or gas leak or the entry of a suspicious person) from the security receiver SR. This will be described with reference to the sequence diagram of FIG.

  When an abnormality is detected in any one of the security devices Y1 and Y2, and the security controller control unit 30 of the security controller C2 acquires detection information on the occurrence of the abnormality from the security receiver SR (1), the security controller control unit 30 detects the detection information. A response message (hereinafter referred to as a linkage message) including the message is generated and transmitted to the IP addresses of predetermined counterparts (for example, the equipment device controller C1 and the display control device CV) (2) and the center device A message for reporting the occurrence of an abnormality is also sent to the SV (3).

  In the display control device CV that has received the cooperation message, the microcomputer unit 50 determines the content of the abnormality (for example, the occurrence of a fire or gas leak or the entry of a suspicious person) from the detection information included in the cooperation message received. , The alarm sound corresponding to the content (for example, a voice message such as “A fire has occurred. Please evacuate immediately.” Or “A suspicious person has entered.”) An alarm display corresponding to the content of the abnormality (for example, a message such as “A fire has occurred at XX” or “A suspicious person has entered XX”) is displayed on the liquid crystal display of the display unit 52 ( 4).

  In addition, the center device SV notifies the householder who is out of the house by sending the report message of the occurrence of abnormality received from the security controller C2 to the mail address of the mobile phone MP registered in advance (5). .

  On the other hand, in the equipment controller C1 that has received the cooperation message, it is necessary to determine the content of the abnormality that has occurred from the detection information included in the cooperation message received by the equipment equipment controller control unit 10 and to comply with a predetermined rule. If so, a control operation corresponding to the content of the abnormality is executed (6). For example, when a fire is occurring, it is possible to easily evacuate by lighting a lighting fixture. However, as described above, when a message (cooperation message in the above example) is transmitted from any controller (security controller C2 in the above example) to another controller (equipment device controller C1 in the above example), the home network It is necessary to previously obtain a list of device information (names, IP addresses, MAC addresses, etc. of the controllers Cn) of all other controllers existing in the integrated management device TM.

  Here, in order for the control unit 1 of the integrated management apparatus TM to confirm the presence / absence of each controller Cn, a presence / absence confirmation request message is periodically (for example, every 3 minutes) addressed to the IP address of each controller Cn by unicast. Sending. Therefore, if the control units 30 and 50 of each controller Cn transmit a device information list transmission request together with a presence / absence confirmation response to the presence / absence confirmation request message to the integrated management device TM, the control of the integrated management device TM that has received the transmission request. The device information list can be acquired from the unit 1.

  As described above, in the present embodiment, since the device information list of each controller Cn managed by the integrated management apparatus TM is transmitted to each controller Cn via the home network, a plurality of controllers Cn have devices for other controllers Cn. There is no need to individually acquire the information list via the home network, and the traffic on the home network can be suppressed as compared with such a case. Moreover, since each controller Cn acquires the device information list from the integrated management apparatus TM at the timing when the integrated management apparatus TM confirms the presence / absence of each controller Cn, traffic from each controller Cn to the integrated management apparatus TM is concentrated. Can be prevented.

  Also, several bits of data indicating the version of the device information list managed by the integrated management apparatus TM is transmitted to each controller Cn together with the existence confirmation request message, and the device information list is changed by adding a new controller Cn or the like. In this case, the control unit 1 of the integrated management apparatus TM increments the bit indicating the version of the device information list, and the bit value indicating the version of the device information list held by the control unit 10 or 30 of each controller Cn is present or not. When the bit value indicating the version received together with the confirmation request message is different, a new device information list may be acquired from the integrated management apparatus TM. In this way, not only can each controller Cn always acquire the latest device information list, but also traffic can be suppressed as compared with the case of periodically acquiring the device information list.

  By the way, the control unit 1 of the integrated management device TM counts the current time, and each controller Cn obtains information on the current time from the integrated management device TM and sets and corrects the current time measured by itself. ing. Therefore, information indicating the status of time information in the integrated management apparatus TM, for example, “00” when the current time is abnormal (not set), “01” when the current time is normal, and the current time changed (reset) ), 2-bit information “10” is transmitted to each controller Cn together with the presence / absence confirmation request message, and the control units 10 and 30 of each controller Cn transmit the 2-bit information (with the presence / absence confirmation request message) ( If the bit value is “10”, the current time information is acquired from the integrated management device TM. If it is “01”, only when the control units 10 and 30 of each controller Cn do not have the current time information. If the current time information is acquired from the integrated management device TM and if it is “00”, the current time information is not acquired from the integrated management device TM, the integrated management device TM and each Controller Cn can share the information of the current time.

  Since the controllers Cn cannot communicate with each other until each controller Cn acquires the device information list from the integrated management apparatus TM, there is a possibility that the controller Cn may be mistaken for a failure. Therefore, the list until the device information list is acquired. Is not displayed in each controller Cn, and it is desirable to notify the user that the controllers Cn cannot communicate with each other. For example, the display may cause a light emitting element provided in each controller Cn to emit light, or the device information list is not acquired in the display unit 52 of the display control device CV by the web server function of each controller Cn. A web page may be displayed.

  By the way, as already explained in this system, when there is no DHCP server, the IP address is determined using AutoIP. However, when a router equipped with the DHCP server function is newly added, The IP address managed by the DHCP server may not match the IP address already assigned to the integrated management device TM or the controller Cn. Therefore, in the present embodiment, when the IP address is determined using AutoIP, the control unit 1 of the integrated management apparatus TM that detects the router newly added by UPnP changes the IP address determination method (AutoIP → DHCP). ) Is transmitted to each controller Cn together with the presence / absence confirmation request message. Then, the control units 10 and 30 of each controller Cn receiving the information acquire a new IP address (IP address managed by the DHCP server) from the DHCP server (router), and the control unit 1 of the integrated management apparatus TM receives the device. After transmitting a presence / absence confirmation request message to all the controllers Cn registered in the information list, a new IP address is acquired from the DHCP server (router). By doing so, it is possible to prevent communication from being disabled due to a change in the IP address of the integrated management device TM or the controller Cn.

  Here, since each controller Cn is supplied with power from a commercial power supply, if a message or the like cannot be transmitted to another controller Cn due to an instantaneous power failure or the like before acquiring the device information list, the controller Cn It is conceivable that the state (the state before the power failure) does not match the state of the device when the controller Cn is restarted after power recovery. Therefore, in the control units 10 and 30 of each controller Cn, the control request or monitoring for the devices to be monitored and the devices to be monitored from the time of activation until the device information list is acquired from the integrated management device TM. If the request message, etc. is stored (held) in the non-volatile memory, and the message that was held when the device information list was acquired from the integrated management device TM is sent, the controller Cn is restarted due to an instantaneous power failure, etc. Even in such a case, it is possible to prevent the contents of the control request and the monitoring request from becoming inconsistent before and after the restart. However, in order to prevent an excessive increase in the number of control request and monitoring request messages (holding number) that the control units 10 and 30 of the controller Cn store (holding) in the nonvolatile memory, for messages exceeding a predetermined upper limit number, It is desirable to discard without storing (holding). In addition, the effectiveness of the control request and the monitoring request is reduced even if it is held for a long period of time after the power recovery. Therefore, in the control units 10 and 30 of the controller Cn, the holding period is sequentially increased from a predetermined time. It is desirable to discard the message.

  By the way, when the host address of the IP address to be assigned to the integrated management apparatus TM is fixed and the IP address is assigned to the control units 10 and 30 of each controller Cn by DHCP or AutoIP, for example, the network of the assigned IP address If the address is 192.168.1 and the host address fixedly assigned to the integrated management apparatus TM is 220, the control units 10 and 30 estimate that the IP address of the integrated management apparatus TM is 192.168.1.220. be able to. Therefore, if the controller 10 or 30 of each controller Cn voluntarily requests transmission of the device information list to the IP address of the integrated management device TM estimated, it waits to receive a presence confirmation request message from the integrated management device TM. Soon, the list can be acquired quickly.

It is a system configuration figure showing an embodiment of the present invention. It is a block diagram of the integrated management apparatus same as the above. It is a block diagram of the equipment controller in the same as the above. It is a block diagram of the security controller in the same as the above. It is a block diagram of the display control apparatus same as the above. It is a sequence diagram for operation | movement description in the same as the above. It is a sequence diagram for operation | movement description in the same as the above. It is a sequence diagram for operation | movement description in the same as the above. It is a sequence diagram for operation | movement description in the same as the above.

Explanation of symbols

SS1, SS2 Subsystem TM Integrated Management Device C1 Facility Device Controller C2 Security Controller X1, X2 Facility Device SR Security Receiver Y1, Y2 Security Device CV Display Control Device SV Center Device MP Mobile Phone

Claims (8)

A plurality of controllers for controlling and monitoring one or more devices, an integrated management device connected to each controller via a transmission line, and one or more terminals connected to the integrated management device via a transmission line A plurality of controllers, an integrated management device, and a terminal device constitute a network using a general-purpose communication protocol,
Based on a control request and a monitoring request transmitted from the terminal device via the network, each controller controls and monitors the device, and a control response and a monitoring response indicating a result of the control or monitoring are transmitted from the controller to the terminal. Transmitted to the device via the network,
The controller is a device monitoring and control system that transmits a control request or a monitoring request for a device to be controlled and monitored by another controller according to a state of the device to be controlled and monitored by itself, via the network,
The integrated management device manages information about each controller constituting the network in a list, transmits the list to each controller via the network, and further checks whether each controller exists. Add information indicating that the contents of the list have been changed to the confirmation request and transmit it periodically.
The controller stores the transmitted list, transmits the control request or the monitoring request to another controller based on the list, and further transmits a presence / absence confirmation response to the presence / absence confirmation request. In addition , the apparatus monitoring control system is characterized in that a list acquisition request for requesting transmission of the list is transmitted to the integrated management apparatus only when the information is added . The integrated management device counts the current time and adds information indicating that the current time has been changed to the existence confirmation request,
Each of the controllers, when the information is added, transmits a time information request for requesting transmission of the current time information after the change to the integrated management device when transmitting the presence / absence confirmation response. The apparatus monitoring control system according to claim 1. The integrated management device adds information indicating that an address determination method has been changed to the existence confirmation request ,
Wherein each controller, device monitoring control system according to claim 1 or 2, wherein when the information has been added and changes its own address by the method determined after the change. The apparatus monitoring according to any one of claims 1 to 3, wherein each of the controllers displays that the list is not stored until the list is acquired from the integrated management apparatus. Control system. Before SL Each controller between from the integrated management apparatus to acquire the list pending the control request or monitoring requests for equipment is controlled and monitored another controller, those control request After obtaining the list Alternatively, the device monitoring control system according to any one of claims 1 to 4, wherein the request is transmitted . 6. The apparatus monitoring control system according to claim 5 , wherein each of the controllers holds only a predetermined number of the control requests or monitoring requests . 7. The apparatus monitoring control system according to claim 5 , wherein each of the controllers discards the control request or the monitoring request whose pending period exceeds a predetermined time . A plurality of controllers for controlling and monitoring one or more devices, an integrated management device connected to each controller via a transmission line, and one or more terminals connected to the integrated management device via a transmission line A plurality of controllers, an integrated management device, and a terminal device constitute a network using a general-purpose communication protocol,
Based on a control request and a monitoring request transmitted from the terminal device via the network, each controller controls and monitors the device, and a control response and a monitoring response indicating a result of the control or monitoring are transmitted from the controller to the terminal. Transmitted to the device via the network,
The controller is a device monitoring and control system that transmits a control request or a monitoring request for a device to be controlled and monitored by another controller according to a state of the device to be controlled and monitored by itself, via the network,
The integrated management device manages information about each controller constituting the network in a list, transmits the list to each controller via the network, and further checks whether each controller exists. Regularly send confirmation requests,
The controller stores the transmitted list , transmits the control request or the monitoring request based on the list to another controller via the network, and further issues a list acquisition request for requesting transmission of the list. equipment monitoring and control systems that characterized by transmitting to the integrated management apparatus.

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