JP2015082782A - Apparatus control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an apparatus control system capable of registering apparatus information on a home apparatus connected with a router with an operation terminal in a secure state.SOLUTION: An operation terminal 7 operates in an indoor mode to communicate with an external connection unit 2 without going through a server 5 when it is in an indoor LAN environment, and operates an outdoor mode to communicate with the external connection unit 2 via the server 5 when it is not in the indoor LAN environment. The operation terminal 7 set in the indoor mode performs a response request for information including an IP address of a device to the device connected with a local network in the same house where the operation terminal 7 is.

Description

  The present invention relates to a device control system.

  A conventional device control system that operates controlled devices installed in a home via a network is unique to each device with respect to a plurality of devices (controlled devices) that are connected to the router below the router connected to the network. There is a function (DHCP function) for automatically assigning an IP address. For example, in the conventional communication system described in Patent Document 1, a wireless router having a DHCP function is connected between a LAN and the Internet, a controlled device and a control remote controller are connected to the wireless router, and the control remote controller is a wireless router. The state of the controlled device can be monitored and the operation setting of the controlled device can be made via the interface.

  When a new controlled device is connected to this system, the controlled device transmits its own information (device information) necessary for network connection to all devices connected to the LAN. Is also transmitted to the control remote controller via the wireless router and registered in the control remote controller. Therefore, for example, if the IP address of the controlled device is included in the device information, the control remote controller can know the IP address of the newly connected controlled device, so that the controlled device can be operated.

JP 2006-318329 A

  However, in the prior art disclosed in Patent Document 1, when the wireless router assigns an IP address, the DHCP function is used. Therefore, the assigned IP address may change irregularly, and the control remote controller may change the IP address. In some cases, the control device could not be accessed via the network. In addition, since the device information of the controlled device newly connected to the LAN is transmitted to all the devices connected to the LAN, there is a problem that there is anxiety in terms of security.

  The present invention has been made in view of the above, and an object of the present invention is to provide a device control system capable of registering device information of a home device connected to a router in an operation terminal in a secure state.

  In order to solve the above-described problems and achieve the object, the present invention is a device control system that includes a server connected to a network and controls home devices from the operation terminal via the network, and the operation terminal includes: , Operates in a first communication mode for communicating with the device without going through the server when in the home LAN environment, and communicates with the device through the server when not in the home LAN environment. The operation terminal that operates in the second communication mode to be performed and is set to the first communication mode, the information including the IP address of the device for the device connected to the same home network as the operation terminal It is characterized by making a response request.

  According to the present invention, there is an effect that the device information of the home device connected to the router can be registered in the operation terminal in a secure state.

FIG. 1 is a diagram schematically showing a device control system according to Embodiment 1 of the present invention. FIG. 2 is an internal configuration diagram of the controlled device and the external connection unit. FIG. 3 is a diagram illustrating an example of an operation screen displayed on the operation terminal. FIG. 4 is a first diagram for explaining a communication mode applied to the device control system. FIG. 5 is a second diagram for explaining a communication mode applied to the device control system. FIG. 6 is a diagram for explaining the operation when the operation terminal is in an environment where wireless LAN communication is possible. FIG. 7 is a diagram for explaining an operation when the operation terminal is in an environment where wireless LAN communication is not possible. FIG. 8 is a sequence diagram showing the operation of the device control system. FIG. 9 is a flowchart of the operation right management operation in the operation right management unit. FIG. 10 is a sequence diagram when registering information of devices connected to the wireless LAN router in the operation terminal in the device control system according to Embodiment 1 of the present invention. FIG. 11 is a first diagram for explaining a problem in the conventional system. FIG. 12 is a second diagram for explaining a problem in the conventional system. FIG. 13 is a diagram illustrating the OSI reference model. FIG. 14 is a diagram for explaining a flow of MAC address acquisition using ARP. FIG. 15 is a sequence diagram when registering information of devices connected to the wireless LAN router in the operation terminal in the device control system according to Embodiment 2 of the present invention.

  Embodiments of a device control system according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
FIG. 1 is a diagram schematically showing a device control system according to Embodiment 1 of the present invention. The device control system includes a controlled device 1, an external connection unit 2, a wireless LAN router 3, a local operation terminal 4, a server 5, and an operation terminal 7. The server 5 is connected to the wireless LAN router 3 and the operation terminal 7 via the network 6, and the external connection unit 2 is connected to the wireless LAN router 3. The controlled device 1 is connected to the external connection unit 2. In the following description, unless otherwise specified, the controlled device 1 is abbreviated as “device 1”, the external connection unit 2 as “connection unit 2”, the wireless LAN router 3 as “router 3”, and the operation terminal 7 as “terminal 7”. To explain.

  The device 1 is a home appliance such as an air conditioner, a refrigerator, or a television. Information output from the device 1 includes model information for specifying the model of the device 1, operating state information indicating the operating state and operating mode of the device 1, a model name and a serial number for specifying the device 1, and the like. Identification information. Hereinafter, unless otherwise specified, these pieces of information are referred to as controlled device information 1a. In the device control system according to the present embodiment, the connection unit 2 is connected to the device 1, but the remote communication unit 24 described later may be configured to have the function of the connection unit 2. Moreover, the model of the apparatus 1 is not limited to an air conditioner, a refrigerator, and a television, and any apparatus may be used as long as it is a home electric appliance that can perform remote operation. Moreover, the apparatus 1 connected to the connection part 2 may be plural.

  The terminal 7 is a terminal capable of controlling the device 1, and may be a dedicated control terminal for controlling the device 1, or application software for executing a function for controlling the device 1 may be applied to a mobile phone, a tablet terminal, a smartphone, or the like. You may make it use as a control terminal by mounting.

  The terminal 7 is configured to be able to select two types of communication modes. One communication mode is a home mode when the radio wave of the router 3 to which the connection unit 2 is connected is in a wireless LAN environment. The communication mode is an out-of-home mode when the radio wave of the router 3 to which the connection unit 2 is connected is not received.

  When the mode of the terminal 7 is switched, the in-home mode is automatically selected when the radio wave of the router 3 (the router 3 to which the connection unit 2 is connected) registered in advance in the terminal 7 is within the range (for example, in the home). When the radio wave of the router 3 to which 2 is connected is not within the reachable range, the out-of-home mode is automatically selected. The terminal 7 for which the home mode is selected can access the router 3 by the wireless LAN communication function (Wi-Fi (registered trademark) communication) and can control the device 1 via the router 3 and the connection unit 2. . Control of the device 1 by the wireless LAN communication function by the terminal 7 (monitoring and operation) is called home operation. The terminal 7 for which the out-of-home mode is selected accesses a communication network conforming to a communication standard such as 3G, 4G, LTE, etc. or a public wireless communication network such as the Internet (hereinafter simply referred to as “network 6”) by the Internet communication function. The device 1 can be controlled via the server 5, the router 3, and the connection unit 2. Control of the device 1 by the terminal 7 using the Internet communication function is called an out-of-home operation.

  In general, the router 3 has a function of determining an IP address of a device connected to the router 3 by DHCP, and a unique IP address is assigned to the connection unit 2 and the terminal 7 which are devices connected to the router 3. Although not shown, an optical line or an ADSL (Asymmetric Digital Subscriber Line) modem for connecting the router 3 to the network 6 is installed between the router 3 and the network 6.

  The hand control terminal 4 is an infrared remote controller or the like attached as a standard to the device 1 and uses, for example, 38 kHz near infrared rays as a carrier wave, and is suitable for use in the same room as the device 1 due to the propagation characteristics of near infrared rays. In the device control system, the operation from the local operation terminal 4 is given priority over the operation from the terminal 7 outside the home. In addition, since the operation terminal 4 can reflect the operation with priority even when the operation right is given to the terminal 7, the device 1 can be set from the operation terminal 4 even if the terminal 7 or the network 6 breaks down. is there. On the other hand, since the terminal 7 can communicate over a long distance using the network 6 even when wireless LAN communication with the router 3 is not possible, the terminal 7 can communicate with the device 1 regardless of the presence or absence of an obstacle. There are benefits.

  The server 5 includes a Web server 5-1 to which the terminal 7 is connected and a database server 5-2 that stores data processed by the Web server 5-1. The unique area in the database server 5-2 is assigned to each device 1, and the terminal 7 can access only the unique area of the device 1 registered in advance. Further, the operation right management unit 5-3 of the server 5 gives the operation right to the terminal 7 when the terminal 7 starts up an application related to the operation, for example, so that the remote operation by the terminal 7 to which the operation right is given is performed. Only allow. If the terminal 7 to which the operation right is given changes the setting of the device 1 in addition to acquiring the controlled device information 1a in the specific area in the database server 5-2 by accessing the server 5, the operation right The terminal 7 to which is given accesses the server 5 and changes the setting of the specific area in the database server 5-2 from the terminal 7. Details of the operation right management operation in the operation right management unit 5-3 will be described later.

  Communication between the connection unit 2 and the router 3 may be wireless communication or wired communication. As wireless communication, for example, an IEEE802.11 series wireless LAN communication system such as Wi-Fi (registered trademark). Compliant signals, Bluetooth (registered trademark), or specific low power communication in the 900 MHz band can be used. However, it is not always necessary to comply with these standards, and wireless communication conforming to other communication methods may be used. As for wired communication, IEEE 802.3 Ethernet (registered trademark) or RS485 communication is often used, but other communication methods may be used.

  The connection unit 2 has a function of mutually converting the communication method of the device 1 and the communication method of the router 3. For example, the controlled device information 1 a transmitted from the device 1 using the unique communication method of the device 1 is converted into communication data compliant with a wireless communication method such as Wi-Fi (registered trademark) and transmitted to the router 3. . In addition, the setting information transmitted from the router 3 by the wireless communication method is converted into communication data conforming to the communication method of the device 1 and transmitted to the device 1. The setting information is information for monitoring and operating the device 1 and is transmitted to the device 1 via the connection unit 2 when the terminal 7 is operated.

  The connection unit 2 is configured to be able to select an out-of-home mode or an in-home mode. The mode switching of the connection unit 2 is switched by operating the terminal 7 or by selecting a mode switching switch provided in the connection unit 2.

  The connection unit 2 in which the in-home mode is selected accesses the device 1 at a constant cycle, requests transmission of the controlled device information 1a, and stores the controlled device information 1a from the device 1. At this time, the controlled device information 1a stored in the connection unit 2 may be only the latest information. For example, data for the past 5 minutes is stored in the connection unit 2 in a cycle of 1 minute, and the data is stored in the terminal 7. You may comprise so that it may transmit. For example, when the connection unit 2 receives a transmission request from the terminal 7, the connection unit 2 transmits the stored controlled device information 1 a to the terminal 7 via the router 3. The setting information from the terminal 7 is transmitted to the connection unit 2 via the router 3, and the connection unit 2 transfers the received setting information to the device 1.

  In this way, since the connection unit 2 and the terminal 7 switched to the home mode perform communication without going through the server 5, the communication depends on the communication cycle T <b> 1 (see FIG. 8) between the connection unit 2 and the server 5. The device 1 can be monitored and operated immediately without any trouble. Further, since the amount of information uploaded to the server 5 is reduced, an increase in the load on the server 5 can be suppressed.

  The device 1 can also be operated by the local operation terminal 4, but by using the connection unit 2, the communication method of the device 1 is a general communication method such as Wi-Fi (registered trademark) or Ethernet (registered trademark). ) And other communication methods. Therefore, when the terminal 7 corresponding to Wi-Fi (registered trademark) is in the house, the device 1 can be monitored and operated by wireless LAN communication with the router 3.

  On the other hand, the connection unit 2 includes in-home communication or out-of-home communication (see FIG. 5) as a communication mode when the out-of-home mode is selected. In-home communication is communication performed without going through the server 5 between the terminal 7 and the connection unit 2 when an operation right is given to the terminal 7 operating in the home mode. The out-of-home communication is communication performed via the server 5 between the terminal 7 and the connection unit 2 when an out-of-home operation is performed on the terminal 7 that is given an operation right and is operating in the out-of-home mode. is there.

  When the terminal 7 is performing wireless LAN communication with the router 3, the connection unit 2 receives communication from the terminal 7 via the router 3 through home communication. In the connection unit 2 during in-home communication, the device 1 is accessed at a constant cycle (for example, at intervals of 1 second), the transmission of the controlled device information 1a is requested, and the controlled device information 1a from the device 1 is stored. The connection unit 2 storing the controlled device information 1 a transmits the stored controlled device information 1 a to the terminal 7 via the router 3 when receiving a transmission request from the terminal 7, for example. The setting information from the terminal 7 is transmitted to the connection unit 2 via the router 3, and the connection unit 2 transfers the received setting information to the device 1. As described above, the connection unit 2 is configured to perform communication (in-home communication) that does not pass through the server 5 when the terminal 7 is in a wireless LAN environment even when the out-of-home mode is selected.

  When the terminal 7 is not communicating with the router 3 by wireless LAN communication, the connection unit 2 accesses the device 1 at a constant cycle, requests transmission of the controlled device information 1a, and controls the controlled device information 1a from the device 1. Remember. Then, the connection unit 2 during the out-of-home communication accesses a specific area in the database server 5-2 at a communication cycle T1 (for example, every 5 minutes), uploads the stored controlled device information 1a, and 2 downloads the setting information stored in the specific area in 2 and transmits it to the device 1. By downloading the setting information, the terminal 7 outside the home can indirectly operate the device 1 via the server 5. In order to access the device 1 via the Internet, it is necessary to have a dedicated communication path (IP address). In general, the contract with the provider is one contract, and a communication system that monitors and operates the device 1 without changing the Internet contract in use is desirable in order to reduce the cost for the dedicated route. Therefore, the device control system of the present embodiment is configured such that the terminal 7 operated outside the home and the connection unit 2 transmit information via the server 5.

  In general, the connection unit 2 is used by being connected to the device 1. However, the connection unit 2 is configured to be driven by power supply from the device 1 by being connected using a power supply line, a ground line, a communication line, or the like. May be. For communication data, the terminal 7 needs to recognize the communication protocol of the device 1, and the connection unit 2 converts the communication data into a communication protocol unique to the device 1 even if it is converted into a general-purpose communication protocol. Even if the function of the device 1 is expanded, the function of the terminal 7 may be expanded together. Further, when the user of the terminal 7 controls the device 1, an operation and a response when the terminal 7 is operated are requested. Therefore, the connection part 2 is comprised so that communication from the terminal 7 can always be received.

  FIG. 2 is an internal configuration diagram of the device 1 and the connection unit 2. The device 1 has a control unit 10 that performs overall control of the device 1, a communication unit 20 that performs communication with the hand control terminal 4 and the connection unit 2, and operates the upper and lower flaps and the left and right vanes toward the indoor space. The operation of the refrigeration cycle of the device 1 and the wind direction changing unit 30 that changes the wind direction of the airflow to be blown (directions such as up and down, left and right in the indoor space), the wind speed changing unit 40 that changes the wind speed of the airflow by controlling the line flow fan And an output temperature changing unit 50 that changes the temperature of the airflow that blows out.

  The control unit 10 operates the wind direction changing unit 30 to control the wind direction of the air flow blown out from the device 1, the wind speed control unit 12 operating the wind speed changing unit 40 to control the wind speed of the blown air flow, A temperature control unit 13 that operates the output temperature changing unit 50 to control the temperature of the blown airflow, and a communication control unit 14 that operates the communication unit 20 to communicate with devices other than the device 1 are provided.

  The temperature control unit 13 is set in the temperature detection unit 13-1 that detects the room temperature using the thermistor installed in the indoor unit of the device 1 or in the hand operation terminal 4, and the hand operation terminal 4 or the terminal 7. The set temperature input unit 13-2 that inputs the set temperature via the communication unit, the indoor temperature detected by the temperature detection unit 13-1, and the set temperature input to the set temperature input unit 13-2 are compared with the temperature. A temperature difference detection unit 13-3 that detects the difference, and an output temperature control unit 13- that controls the blowing airflow temperature by operating the output temperature changing unit 50 based on the temperature difference detected by the temperature difference detection unit 13-3. 4 and.

  The communication unit 20 includes an indoor-outdoor unit communication unit 21 that performs communication between the indoor unit and the outdoor unit of the device 1, an inter-remote control communication unit 22 that performs communication between the local operation terminal 4, and external communication. Unit 23 or remote communication unit 24.

  The external communication unit 23 is an interface for imparting versatility to the communication of the device 1, and is used, for example, when a general-purpose communication adapter (connection unit 2) is connected to perform communication with the outside. The external communication unit 23 includes a power supply unit 23-1 that supplies power to the connection unit 2 and an external communication processing unit 23-2 that communicates controlled device information 1 a and setting information with the connection unit 2. Composed. The remote communication unit 24 has both the function of the external communication unit 23 and the function of the connection unit 2, and is an interface for performing communication without using the connection unit 2. Therefore, in order to monitor and operate the device 1 with the terminal 7, either the external communication unit 23 or the remote communication unit 24 may be used. However, when the remote communication unit 24 is not used, it is necessary to connect the connection unit 2 to the external communication unit 23.

  The connection unit 2 communicates with the power supply conversion unit 2-1 that converts the power supplied from the power supply unit 23-1 into a voltage level voltage used inside the connection unit 2, and the external communication processing unit 23-2. The external communication processing unit 2-2 and the router 3 received by the wireless communication unit 2-4 while converting the data from the device 1 received by the external communication processing unit 2-2 into communication data compliant with the wireless communication method The communication conversion unit 2-3 that converts communication data from the communication data into communication data that conforms to the communication method of the device 1 and the communication data converted by the communication conversion unit 2-3 are transmitted to the router 3 by the wireless communication method, It is comprised with the radio | wireless communication part 2-4 which transmits the communication data transmitted from the router 3 to the communication conversion part 2-3. The power supply unit 23-1 and the power conversion unit 2-1 are connected by a power supply wiring, and the external communication processing unit 23-2 and the external communication processing unit 2-2 are connected by a communication wiring. Since the power supply wiring is a wiring for supplying the power consumed by the connection unit 2, generally, a wiring having the same specifications as the communication wiring may be used.

  Note that the power supply unit 23-1 is not necessarily installed in the device 1, and an AC adapter may be prepared and power may be supplied from the AC adapter to the connection unit 2. In general, however, the device 1 is often installed on the wall in the upper part of the room, particularly in the upper part of the room. When there is a power outlet near the floor of the room, the power supply wiring between the AC adapter and the connection part 2 is not routed. It becomes troublesome. Therefore, it is more advantageous in terms of convenience to mount the function of the connection unit 2 on the device 1.

  FIG. 3 is a diagram illustrating an example of the operation screen 7-1 displayed on the terminal 7. FIG. 3 shows an example of an operation screen 7-1 displayed on the touch panel liquid crystal by a display control function (not shown) of the terminal 7, and the operation screen 7-1 in the illustrated example shows that the device 1 to be operated is air-conditioned. This is an example of a machine. The operation screen 7-1 includes an information display unit 7-1a that displays setting contents (for example, an operation mode) set by the user and an operation state (room temperature, etc.) of the device 1, and an operation button information display unit 7-1b. Consists of. An application for displaying the operation screen 7-1 is created in advance for each type of device 1 and recorded in the server 5. The terminal 7 accesses the server 5 to download the application, and is recorded in the terminal 7. The operation screen 7-1 is created by the application of the terminal 7.

  A plurality of operation buttons are displayed on the operation button information display section 7-1b. As the operation buttons, for example, an operation / stop operation button including an operation button for starting the operation of the device 1 and a stop button for stopping the device 1 is used. There is a setting operation button section composed of an operation mode button for setting an operation mode such as cooling, heating, dehumidification, and air blowing, and an operation button for setting a temperature setting, raising / lowering the wind speed, and setting the direction of the wind direction. In the information display unit 7-1a in FIG. 3, as an example of the indoor unit wind direction, the wind direction viewed from the side of the indoor unit is shown as an illustration. The wind direction may be displayed using characters such as “middle” and “below”. Also, regarding the wind speed, only “letter”, “weak”, “medium”, and “strong” may be displayed. Further, if the operation content is reflected immediately after the operation button is pressed, it is not possible to cope with a mistake or a change in the operation button. For this reason, if a transmission button is provided to send the setting contents including the purpose of confirming the operation, and the setting contents are transmitted when the transmission button is pressed, the operation button may be pressed incorrectly. It is possible to suppress the erroneous operation caused.

  FIG. 4 is a first diagram for explaining a communication mode applied to the device control system. FIG. 5 is a second diagram for explaining a communication mode applied to the device control system. As described above, two types of communication modes are set for each of the connection unit 2 and the terminal 7. The communication contents (1) to (5) shown in FIG. 5 correspond to the symbols (1) to (5) in FIG.

  In the home communications (1), (2), (4), the device 1 is not connected between the terminal 7 and the connection unit 2 within the reach of the radio waves of the router 3 to which the connection unit 2 is connected, without passing through the server 5. Are operated and monitored. In the out-of-home communications (3) and (5), the operation and monitoring of the device 1 is performed via the server 5 between the terminal 7 and the connection unit 2 in a range where the radio waves of the router 3 to which the connection unit 2 is connected cannot reach. Is done.

  In the home communication (1), (2), (4), communication between the connection unit 2 and the terminal 7 occurs only when the operation setting is performed on the terminal 7, and the communication does not pass through the server 5. Is transmitted. On the other hand, in the out-of-home communications (3) and (5), the data of the device 1 is uploaded to the server 5 and the setting information of the server 5 is downloaded to the connection unit 2 in the communication cycle T1. Accordingly, in the in-home communication (1), (2), (4), communication between the connection unit 2 and the terminal 7 occurs only when the operation setting is performed on the terminal 7, whereas the out-of-home communication ( In 3) and (5), communication occurs regardless of the presence or absence of operation settings in the terminal 7.

  As described above, when both the connection unit 2 and the terminal 7 are in the home communication, the device 1 can be operated and monitored without using the server 5 by the home communication (1) and (4). When both the connection unit 2 and the terminal 7 are communicating outside the home, regardless of whether the terminal 7 is outside the home (regardless of the communication mode of the terminal 7), the operation and monitoring of the device 1 are performed. Is possible.

  In addition, in order to reduce the connection load of the server 5 due to the communication cycle T1 between the connection unit 2 and the server 5, when the home mode is set as the default setting in the connection unit 2 and it is necessary to switch to the out-of-home mode Alternatively, it may be configured to switch to the out-of-home mode with the switch of the connection unit 2 or the terminal 7. Further, when the communication mode of the connection unit 2 is switched at the terminal 7, it may be configured so that the switching can be performed only when the terminal 7 is in the home mode.

  FIG. 6 is a diagram for explaining the operation when the terminal 7 is in an environment where wireless LAN communication is possible. For example, the terminal 7 within the range where the radio waves of the router 3 to which the connection unit 2 is connected can be switched to the home mode, and the home communication (1) or (2) is performed in the connection unit 2. When a setting operation is performed on the terminal 7 switched to the home mode, the setting information is transmitted to the connection unit 2 in the order of the router 3 and the connection unit 2 (path a). The controlled device information 1a from the device 1 is transmitted to the terminal 7 in the order of the connection unit 2 and the router 3 (path b). Note that the terminal 7 and the router 3 are connected by a general-purpose encryption method (WPA-AES, TKIP, etc.) used in a wireless LAN, and are within the reach of the radio waves of the router 3 to which the connection unit 2 is connected. The device 1 can be operated in the mode.

  The setting information of the terminal 7 is also transmitted to the server 5 in the order of the router 3 and the network 6 (path c), and the operation right management unit 5-3 that has received the setting information is given an operation right to the terminal 7, and its operation Rights are registered. The operation right of the terminal 7 is generated from the timing when the operation right is registered, and the setting can be transmitted from the terminal 7 to the connection unit 2, and the setting of the terminal 7 becomes effective. Thus, even when the operation setting is performed in the home mode, the operation right of the terminal 7 is managed. Therefore, it is possible to reliably reflect the operation from the terminal 7 to the device 1 and to prevent the operation setting from being reflected by the operation by the other terminal 7 even though the device 1 is operated. it can.

  FIG. 7 is a diagram for explaining an operation when the terminal 7 is in an environment where wireless LAN communication is not possible. The difference from FIG. 6 is that the terminal 7 is connected to the network 6 by Internet communication. Even when the terminal 7 is in the house, if the wireless LAN communication is not valid, the communication is performed as shown in FIG.

  Terminals 7 that are not within the reach of the radio waves of the router 3 to which the connection unit 2 is connected are switched to the out-of-home mode. The connection unit 2 uploads device information (controlled device information 1a) together with its own MAC (Media Access Control) address and serial number to the server 5 (path N1), and at the same time, the connection unit 2 in the database server 5-2 Data (setting data managed by MAC address and serial number) is downloaded (path N2). When the setting data is changed, the device 1 changes the setting based on the setting data.

  Note that the data area to be operated in the server 5 is managed by, for example, the MAC address, and the data area that can be operated and monitored by the plurality of terminals 7 is information only for the device 1 registered in advance including the MAC address information. Thus, an operation from an unspecified terminal 7 can be prevented. Further, unlike an operation from a position where the device 1 can be seen like the hand operation terminal 4, there is a possibility that an unintended setting is made due to an erroneous operation in an out-of-home operation. In order to prevent such a situation, the operation right is managed, but the status confirmation of the device 1 can be confirmed by a terminal other than the terminal 7 to which the operation right is given. Note that the timing for giving the operation right is not limited to when the setting operation is performed on the terminal 7, for example, when the terminal 7 is activated.

  The setting information of the terminal 7 is transmitted to the server 5 via the network 6 (path d). The operation right management unit 5-3 that has received the setting information is given an operation right for the terminal 7 and the operation right is registered. The operation right of the terminal 7 is generated from the timing when the operation right is registered.

  FIG. 8 is a sequence diagram showing the operation of the device control system. Although two terminals 7a and 7b are shown in FIG. 8, these terminals 7a and 7b have the same functions as the terminal 7 described above. Here, the operation when the operation of the terminal 7a is performed before the operation of the terminal 7b in a state where neither of the terminals 7a and 7b is given the operation right will be described.

  Un (n is an integer equal to or greater than 1) is a timing at which the connection unit 2 uploads the controlled device information 1a to the server 5 in the communication cycle T1 and downloads the setting information stored in the server 5. Mn (n is an integer of 1 or more) is a timing at which the terminal 7a updates the state display to the latest state at the screen update cycle T2 (the cycle at which the terminal 7 automatically updates the screen, for example, 3 minutes).

  (1) The controlled device information 1a is uploaded (U1) from the connection unit 2 to the server 5 at AM09: 00, and (2) an instruction to change the setting of the device 1 (S1) from the terminal 7a to the server 5 at AM09: 02 In the case of (3), the connection unit 2 transmits the setting instruction downloaded to the device 1 at the timing of U2 of AM09: 05. As a result, the setting (SH1) is reflected in the device 1.

  (4) The connection unit 2 uploads the setting (SH1) information reflected in the device 1 to the server 5 at the timing of U09 of AM09: 10 after the setting (SH1) is reflected in the device 1. Thereby, the setting contents of the device 1 are fed back to the server 5 (SF1). (5) Therefore, it can be confirmed by the terminal 7a that the setting is reflected on the device 1 at the timing of M09 of AM09: 11.

  When the external communication unit 23 or the remote communication unit 24 of the device 1 receives the setting information from the terminal 7, the setting information is transmitted to the control unit 10, and the control unit 10 stores the setting information in the device 1 based on the setting information. Control the behavior. For example, when receiving the setting information regarding the increase / decrease of the set temperature, the output temperature control unit 13-4 controls the output temperature changing unit 50 so as to obtain the output temperature corresponding to the set temperature. For example, if the current room temperature is 28 degrees in summer, and the set temperature set in the terminal 7 is also 28 degrees, the room temperature is the set temperature. When a person who returns home from outside in this state operates the set temperature button to reduce the set temperature by 2 degrees because the room is hot, the temperature detected by the temperature detector 13-1 is 28 degrees, The input temperature at the temperature input unit is 26 degrees. The temperature difference detector 13-3 detects that the room temperature is twice higher than the set temperature, and the output temperature controller 13-4 lowers the room temperature by 2 degrees. The amount of refrigerant circulating between the unit and the outdoor unit is controlled. As a result, the refrigerant temperature can be lowered and the room temperature can be lowered.

  When the device 1 receives the input information of the operation button for setting the wind speed, the wind speed control unit 12 controls the wind speed changing unit 40 so that the wind speed corresponding to the set wind speed value is obtained. For example, when the current wind speed is weak and the terminal 7 increases the wind speed and sets it to strong, the wind speed control unit 12 of the device 1 corresponds to the “strong value” in which the wind speed of the wind speed changing unit 40 is registered in advance. Change the fan speed to change the wind speed.

  Further, when the device 1 receives the input information of the operation button for setting the wind direction, the wind direction control unit 11 controls the wind direction changing unit 30 so that the wind direction corresponding to the set wind direction value is obtained. For example, when the terminal 7 transmits a signal for changing the wind direction that is currently blowing downward at the terminal 7, the communication unit 20 of the device 1 receives the setting change signal of the terminal 7 and transmits it to the control unit 10. The wind direction is changed by the 10 wind direction control units 11 changing the direction of the flap of the wind direction changing unit 30 upward.

  The operation of the device 1 can also be performed at the local operation terminal 4. In this case, a remote control signal from the local operation terminal 4 is received by the inter-remote control communication unit 22 and transmitted to the control unit 10. The subsequent processing is the same as when an operation signal is received from the terminal 7.

  The device 1 transmits the above-described operation state information to the terminal 7 via the external communication unit 23 or the remote communication unit 24, and the terminal 7 that has received the operation state information indicates the operation mode and wind direction of the controlled device information 1a. Is displayed. Even when the setting change of the device 1 is performed at the local operation terminal 4, since the operation state information is transmitted to the terminal 7, the latest operation state of the device 1 can be confirmed.

  Next, the operation right management operation will be described. FIG. 9 is a flowchart of the operation right management operation in the operation right management unit 5-3. Here, description will be made assuming that the operation right is given to the terminal 7a.

  When the operation right of the terminal 7a is registered, the operation right management unit 5-3 starts counting the operation right timer at the operation right registration timing (step S31). The operation right timer may be an up-counter or a down-counter, but will be described here assuming that it is an up-counter.

  When the operation right timer is less than the predetermined time T (step S32, Yes), the operation right management unit 5-3 determines whether or not the terminal 7a has been operated based on the presence / absence of setting information (setting operation request) from the terminal 7a. To do. When there is no operation of the terminal 7a (step S33, No), it is determined whether or not the operation right timer has exceeded a predetermined time T (step S32).

  In step S33, when there is an operation of the terminal 7a (step S33, Yes), the operation right management unit 5-3 resets the operation right timer count (step S34) and starts the operation right timer count again. (Step S31).

  In step S32, when the operation right timer exceeds the predetermined time T because there is no operation of the terminal 7a (No in step S32), the operation right management unit 5-3 releases the operation right of the terminal 7a (step S35). .

  When the communication cycle T1 between the connection unit 2 and the server 5 is 5 minutes, the setting operation request is transmitted to the device 1 in the first 5 minutes, and the state of the device 1 is transmitted to the server 5 in the next 5 minutes. In order to maintain the operation right only for the time from the setting operation request to the status display, for example, a time three times the communication cycle T1 (about 15 minutes) may be set as the operation right maintenance time (time T). By setting the time T in this way, it is possible to maintain the operation of the device 1 according to the instruction of the user of the terminal 7a until the time T elapses from the operation time of the terminal 7a, and the operation is frequently changed to cause an erroneous operation. Connection can be suppressed.

  When the operation right of the terminal 7a is released after the time T has elapsed, the operation right management unit 5-3 has released the operation right of the terminal 7a for terminals other than the terminal 7a (terminal 7b, etc.). May be configured to transmit. Further, it may be configured such that the necessity of the transmission can be selected at each terminal 7.

  In addition, the setting operation may be reflected earlier than the communication cycle T1 depending on the timing at which the terminal 7a performs the setting operation on the device 1, the communication method, the communication path, and the like. In that case, the maintenance of the operation right may be shorter than time T (15 minutes in the above example).

  Further, the operation right does not necessarily need to be maintained for the time T. For example, the terminal 7b waiting for the operation right is registered in the operation right management unit 5-3, and the terminal 7a to which the operation right is given is registered. You may comprise so that the operation right may be provided to the terminal 7b at the time of logout or shutdown.

  Next, the operation right management operation will be specifically described with reference to the sequence of FIG. (1) The controlled device information 1a is uploaded (U1) from the connection unit 2 to the server 5 at AM09: 00: 00. (2) At the timing when the terminal 7a instructs the server 5 to change the setting (S1) of the device 1 at AM09: 02, if neither of the terminals 7a and 7b has an operation right, the server 5 At the same time as accepting the setting S1 from 7a, it is registered (S & K1) that the operation right is the terminal 7a. The operation right A of the terminal 7a is generated from the timing of S & K1.

  (2-1) After the operation right A is given to the terminal 7a, for example, when the setting operation of the same device 1 is performed at the terminal 7b at AM09: 05, the server 5 receives a setting change instruction (S2). Although it is transmitted, since the server 5 recognizes the operation right A, it responds to the terminal 7b that there is no operation right. (3) The connection unit 2 transmits the setting instruction downloaded at the timing of U2 of AM09: 05 to the device 1. As a result, the setting (SH1) is reflected in the device 1. (4) The connection unit 2 uploads the setting (SH1) information reflected in the device 1 to the server 5 at the timing of U09 of AM09: 10 after the setting (SH1) is reflected in the device 1. Thereby, the setting contents of the device 1 are fed back to the server 5 (SF1). (5) Therefore, the terminal 7 can confirm that the setting is reflected in the device 1 at the timing of M09 of AM09: 11.

  Since the user of the terminal 7a can confirm that the contents set in the terminal 7a are reflected in the device 1 at the timing of M3, the server 5 may cancel the operation right A, but the user of the terminal 7a There is a possibility that the setting content is reflected on the device 1 at the timing. Even if it is noticed, for example, the user of the terminal 7b may change the setting to another setting. In order to prevent such a situation, the operation right A may be maintained until a predetermined time elapses from the timing of M3 when the setting content can be fed back. Is maintained.

  (6) When the setting change from the terminal 7b is instructed (S3) at the timing of AM09: 16 when the operation right A is lost, the operation right management unit 5-3 receives the instruction (S3) from the terminal 7b. Simultaneously with the reception, the operation right B of the terminal 7b is registered (S & K2). As a result, the operation right B for the terminal 7b is generated.

  In this embodiment, the communication cycle T1 is set to 5 minutes, but the communication cycle T1 is not limited to 5 minutes. The earlier the communication cycle, the faster the operation is reflected. However, when many devices 1 are connected to the server 5, the communication load increases, so the communication cycle T1 considers the device 1 connected to the server 5, etc. Therefore, it is desirable to set the optimum value. Moreover, between the apparatus 1 and the connection part 2, the communication which the apparatus 1 responds with respect to the request | requirement of the connection part 2 is performed by a 1 second period, for example.

  Next, functions and operations for solving the above-described problems in the device control system according to Embodiment 1 of the present invention will be described.

  FIG. 10 is a sequence diagram when registering information of devices connected to the router 3 in the terminal 7 in the device control system according to Embodiment 1 of the present invention. The device 1, connection unit 2, terminal 7, and server 5 shown in FIG. 10 constitute a device control system according to the present embodiment.

  (1) The connection unit 2 stores URL (Uniform Resource Locator) information for accessing a dedicated server (such as the database server 5-2) having data for accumulating device information and the like for operation setting. The connection unit 2 transmits its device information (for example, a MAC address or ID number) to the URL, and the server 5 has a data area corresponding to each MAC address, and the received device information, Record the setting information.

  (2) After the connection unit 2 transmits the device information to the server 5, the terminal 7 in the home mode generally has a device (device 1 or device 1) connected to the local network in the same home after the start-up process is completed. A response request specific to UDP communication is broadcast to the connection unit 2). This response request is, for example, an inquiry “Is device A?”. The content of this inquiry does not necessarily require that all devices connected to the local network in the same house respond, but may be that only a specific device such as the device 1 or the connection unit 2 responds. Further, the content of this inquiry may not be an inquiry as to whether or not it is the device A, and may be, for example, a device model name, manufacturer name, or a list of numbers. If only a specific device is configured to make a UDP response in this way, the load for processing a response from an unnecessary device is eliminated.

  (3) Since the device IP address is also given to the UDP response to the UDP inquiry, the terminal 7 can acquire only the IP address of the specific device.

  (4) Since there may be a plurality of devices that make a UDP response, the terminal 7 inquires device information other than the IP address by HTTP communication with respect to the IP address that has responded. The device information includes, for example, a MAC address, an ID number, a model name of the device 1, a software version, and the like. However, a device information response function is mounted in the connection unit 2 in advance so that device information is responded to an HTTP inquiry from the terminal 7. Thereby, the terminal 7 in the home mode can acquire the IP address of only the device to be connected and the device information (such as the MAC address) other than the IP address.

  (5) The terminal 7 receives the device information of the device transmitted from the connection unit 2 and registers the device information with itself (device registration). The acquired MAC address may be registered in the terminal 7 by automatic input. By registering the MAC address by automatic input, there is an advantage that the user does not need to check or input the MAC address of the device.

  (6) The terminal 7 transfers the acquired MAC address and IP address to the server 5. (7) The server 5 that has received the MAC address or ID from the terminal 7 checks each MAC address registered in the terminal 7 by checking the MAC address or the like with the MAC address or the like of each device registered in the server 5 in advance. It is determined whether or not the device and each device registered in the server 5 match, and the comparison result is transmitted to the terminal 7. (8) The terminal 7 performs communication for operating the device (device 1, connection unit 2) based on the collation result from the server 5 and the IP address transmitted from the connection unit 2. As a result, the device registered in the terminal 7 can be monitored and operated from the terminal 7.

  In the device verification in the server 5, a mechanism for verifying whether or not the device to be connected to the terminal 7 is in the same home as the terminal 7 may be included. If the MAC address information can be operated from the terminal 7 outside the home, the MAC address is a manufacturer-specific number and the lower number is a unique number. Therefore, the lower number is used as a serial number. If the user inputs the MAC address of the device operated by the terminal 7 by mistake, the device 1 installed in another house will be operated. In order to prevent such a situation, for example, a value (manufacturing number, serial number, ID, etc.) written on the main body of the device 1 or the connection unit 2 is used as an authentication key to check whether the MAC address value is valid. You may comprise.

  As a specific example of this mechanism, for example, when the connection unit 2 operates at the timing of (1) in FIG. 10, the connection unit 2 transmits its own MAC address and ID to the server 5. The ID associated with the address is recognized. Then, the user of the terminal 7 registers, for example, the MAC address or ID displayed on the main body of the device 1 or the connection unit 2 in the terminal 7 (device registration screen or the like) in the home mode. The information registered in the terminal 7 is transmitted to the server 5, and the server 5 that receives this information receives the information from the terminal 7 (the MAC address and ID registered in the terminal 7) as the MAC address and ID of the device registered in advance. To determine whether or not the device registered in the terminal 7 matches the device registered in the server 5. If they match, a specific device registered in the terminal 7 can be monitored and operated from the terminal 7.

  Further, since the IP address assigned by the connection unit 2 from the router 3 may be changed, the terminal 7 may perform an IP address confirmation process or a device verification process when the application is launched. . In addition, when the terminal 7 has not been used for a long time, when the terminal 7 is used again, an IP address confirmation process or a device verification process may be performed again.

  FIG. 11 is a first diagram for explaining a problem in the conventional system. FIG. 12 is a second diagram for explaining a problem in the conventional system.

  The system shown in FIG. 11 is a system using a wireless LAN that operates a plurality of devices 1-1, 1-2, 1-3 installed in a home via a network 6. The router 3 connected to the network 6 has a function (DHCP) for automatically assigning unique IP addresses to a plurality of devices (connection units 2a, 2b, equipment 1-3, terminal 7, etc.) connected to the router 3 and below. Function). Here, since the router 3 has assigned an IP address to each device, the router 3 knows the IP address of each device, but the terminal 7 has the IP address of the connection unit 1 even if it wants to operate the devices 1-1 and 1-2. Since it is not known, the connection units 2a and 2b cannot be accessed via the router 3.

  In order to solve such a problem, the system shown in FIG. 12 (the prior art described in Patent Document 1) is configured as follows. A router 3 having a DHCP function is connected between the LAN 8 and the Internet (network 6), and a plurality of devices 1-1 and 1-2 and a control remote controller 70 are connected to the router 3. The control remote controller 70 can monitor the state of the devices 1-1 and 1-2 and make operation settings via the router 3. When a new device 1-3 is connected to this system, the device 1-3 sends its own device information necessary for connection to the network 6 to all devices (devices 1-1, 1- 1) connected to the LAN 8. 2. Send to router 3). The device information is also transmitted to the control remote controller 70 via the router 3 and registered in the control remote controller 70. Therefore, for example, if the IP address of the device 1-3 is included in the device information, the control remote controller 70 can know the IP address of the device 1-3, so that the device 1-3 can be operated.

  However, since the DHCP function is used in the conventional communication system shown in FIG. 12, the IP address assigned irregularly may change, and the device 1-3 can be accessed from the control remote controller 70 via the network 6. Sometimes it disappeared. Moreover, since the device information of the device 1-3 newly connected to the LAN 8 is transmitted to all devices connected to the LAN 8, there is a problem that there is anxiety in terms of security.

  On the other hand, there is a method of knowing IP by a method different from the communication system of FIG. FIG. 13 is a diagram showing an OSI reference model, and FIG. 14 is a diagram for explaining a flow of MAC address acquisition using ARP.

  In the OSI (Open Systems Interconnection) reference model of FIG. 13, there is a MAC address which is a fixed address assigned to each device in the second data link layer, and there is an IP address in the third network layer. UDP (User Datagram Protocol) that bridges the network layer IP and the protocol higher than the session layer (for example, the application layer protocol of the seventh layer) exists in the transport layer of the eye. For example, if the application of the terminal 7 instructs the device connected to the local network in the same home to return an IP address using this UDP, the IP address can be acquired as a response. I don't know which device's IP address. It is only necessary to acquire the MAC address of the second layer in order to identify the device 1, but the MAC address cannot be confirmed from the application layer via UDP.

  Therefore, there is ARP (Address Resolution Protocol) in FIG. 14 as a technique for inquiring a MAC address from an IP address. ARP is a protocol for obtaining the MAC address from the IP address of the destination. When the destination MAC address is not known, the sender queries the MAC address of the IP address by broadcast, and is specified for this inquiry. A device that does not have an IP address does not respond, and a device having the corresponding IP address returns a MAC address. By using ARP, device-specific MAC address information can be acquired for an unspecified IP address. Therefore, by comparing the acquired MAC address with the MAC address written on the device body, the IP address of the device can be obtained. You can know the address.

  However, since the ARP method requires an IP address response to all devices connected to the local network, it is necessary to inquire which device is the MAC address for many IP addresses that have responded. There is also a problem that it is not secure because it takes time for collation and requests and responses can be made from any operation terminal.

  The device control system according to the present embodiment is a device control system that includes a server 5 connected to a network 6 and controls home devices (at least one of the connection unit 2 and the device 1) from the terminal 7 via the network 6. The terminal 7 operates in a first communication mode (home mode) in which communication with a device (for example, the connection unit 2) is performed without going through the server 5 when in the home LAN environment. When the terminal 7 operates in the second communication mode (out-of-home mode) in which communication with the device is performed via the server 5, the terminal 7 set in the first communication mode is connected to a network ( It is configured to make a response request for information including the IP address of the device (at least one of the connection unit 2 and the device 1) connected to the local network. With this configuration, even when the IP address assigned by the DHCP function of the router 3 changes, the terminal 7 can acquire only the IP address of a specific device. Further, even when a new device 1-3 is connected to the LAN 8 as in the conventional communication system shown in FIG. 12, the IP address is not transmitted to all devices, and the problem in terms of security is also solved. can do. Further, unlike the method using the ARP shown in FIG. 14, there is no need to inquire about which device is the MAC address for many IP addresses that have responded.

  Note that a device registered in the terminal 7 may be displayed on the screen of the terminal 7 so that it can be seen that it has been registered. For example, the terminal 7 that has received the device information such as the MAC address as a response to the HTTP inquiry collates the device information newly input to the terminal 7 with the device information registered in the terminal 7. If there is a registered device as a result of the collation, the terminal 7 displays information on the registered device on the screen of the terminal 7 such as “device 1-1 has been registered”. If there is an unregistered device, the terminal 7 displays device information such as the location and name of the unregistered device 1 on the screen, and further inputs a MAC address or ID input field so as to be associated with the name of the device 1. Is displayed.

Embodiment 2. FIG.
FIG. 15 is a sequence diagram when registering information of devices connected to the router 3 in the terminal 7 in the device control system according to Embodiment 2 of the present invention. The second embodiment is configured to acquire an IP address by a method different from that of the first embodiment.

  Device 1, connection unit 2, terminal 7, and server 5 shown in FIG. 15 constitute a device control system according to the second embodiment.

  (1) The connection unit 2 transmits not only device information (for example, a MAC address and ID number) to the server 5, but also an IP address. The server 5 records the information in a data area corresponding to the received MAC address.

  (2) After the connection unit 2 transmits an IP address or the like to the server 5 and the connection unit 2 starts up, the user of the terminal 7 in the home mode displays the MAC address, ID, etc. displayed on the connection unit 2 or the main body of the device 1 Is registered in the terminal 7, and device registration is performed, and information such as the registered MAC address is transmitted to the server 5.

  (3) The server 5 that has received the MAC address or ID from the terminal 7 checks each MAC address registered in the terminal 7 by checking the MAC address or the like with the MAC address or the like of each device registered in the server 5 in advance. It is determined whether the device and each device registered in the server 5 match, and the collation result and the IP address corresponding to the MAC address are transmitted to the terminal 7.

  (4) The terminal 7 performs communication for operating the devices (device 1 and connection unit 2) based on the collation result from the server 5 and the IP address. As a result, the device registered in the terminal 7 can be monitored and operated from the terminal 7.

  As described above, the device control system according to the present embodiment includes the server 5 connected to the network 6, and connects home devices (at least one of the connection unit 2 and the device 1) from the terminal 7 via the network 6. In the device control system to be controlled, the terminal 7 operates in a first communication mode (home mode) in which communication with a device (for example, the connection unit 2) is performed without going through the server 5 when in the home LAN environment. Then, when not in the home LAN environment, it operates in a second communication mode (out-of-home mode) in which communication with the device (for example, the connection unit 2) is performed via the server 5, and at least one of the device (the connection unit 2 and the device 1) ) Transmits information including the IP address to the server 5, and the server 5 stores the device information other than the IP address registered in the terminal 7 set in the first communication mode in the server 5 in advance. Collating the information with the collation result and the IP address, and is configured to transmit to the terminal 7. With this configuration, even when the MAC address and ID displayed on the device 1 and the connection unit 2 are registered in the terminal 7 by the user, the same effect as in the first embodiment can be obtained.

  The device control system shown in the present embodiment shows an example of the contents of the present invention, and can be combined with other known techniques, and does not depart from the gist of the present invention. Of course, it is possible to change the configuration such as omitting a part.

  As described above, the present invention is applicable to a device control system, and is particularly useful as an invention capable of registering device information of a home device connected to a router in an operation terminal in a secure state.

  1, 1-1, 1-2, 1-3 Controlled device, 1a Controlled device information, 2, 2a, 2b External connection unit, 2-1 Power conversion unit, 2-2 External communication processing unit, 2-3 Communication conversion unit, 2-4 wireless communication unit, 3 wireless LAN router, 4 local operation terminal, 5 server, 5-1 Web server, 5-2 database server, 5-2 operation right management unit, 6 network, 7 operation terminal 7-1 Operation screen, 7-1a Information display section, 7-1b Operation button information display section, 8 LAN, 10 control section, 11 wind direction control section, 12 wind speed control section, 13 temperature control section, 13-1 temperature detection Unit, 13-2 set temperature input unit, 13-3 temperature difference detection unit, 13-4 output temperature control unit, 14 communication control unit, 20 communication unit, 21 indoor-outdoor unit communication unit, 22 inter-remote control communication unit, 23 External communication unit, 2 -1 power supply unit, 23-2 external communication processing unit, 24 remote communication unit, 30 the wind direction changing section, 40 wind speed changing unit, 50 output temperature changing unit, 70 control the remote control.

Claims (8)

A device control system comprising a server connected to a network and controlling home devices from an operation terminal via the network,
The operation terminal operates in a first communication mode in which communication with the device is performed without going through the server when in the home LAN environment, and the device through the server when not in the home LAN environment. Operate in the second communication mode to communicate with
The operation terminal set in the first communication mode makes a response request for information including the IP address of the device to a device connected to the same home network as the operation terminal. Equipment control system.   The device control system according to claim 1, wherein the operation terminal set in the first communication mode requests the device to transmit device information other than the IP address.   The device control system according to claim 2, wherein the operation terminal registers the device information transmitted from the device in the operation terminal.   4. The server according to claim 2, wherein the server collates the device information transmitted from the operation terminal with the device information recorded in the server in advance, and transmits a collation result to the operation terminal. Equipment control system.   The device control system according to claim 4, wherein the operation terminal performs communication for operating and monitoring the device based on a collation result from the server and an IP address transmitted from the device. A device control system comprising a server connected to a network and controlling home devices from an operation terminal via the network,
The operation terminal operates in a first communication mode in which communication with the device is performed without going through the server when in the home LAN environment, and the device through the server when not in the home LAN environment. Operate in the second communication mode to communicate with
The device transmits information including the IP address of the device to the server,
The server collates device information other than the IP address registered in the operation terminal set in the first communication mode with the device information recorded in the server in advance, and compares the collation result with the IP address. A device control system transmitting to the terminal.   The device control system according to claim 6, wherein the operation terminal performs communication for operating and monitoring the device based on a collation result and an IP address from the server.   The operation terminal collates the device information registered in the operation terminal with the device information newly input to the operation terminal, and displays information on the registered device on the screen of the operation terminal. The device control system according to claim 2, wherein the device control system is a device control system.

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