JP2019192289A - Communication system - Google Patents

Abstract

To provide a communication system capable of efficiently and exactly managing a communication terminal device.SOLUTION: A communication system is provided with: a first system having an electric device 6, and a management device 4 which manages the electric device 6 by performing communication in a first communication system with the electric device 6; a second system having a plurality of second communication terminal devices which perform communication with one another in a second communication system different from the first communication system; at least the management device 4 in the first system; and a communication device 3 which allows communication among the plurality of second communication terminal devices in the second system, in which the management device 4 is provided with acquisition means for acquiring state information showing a state of the electric device 6, the management device 4 outputs an alarm from the second communication terminal devices based on an acquisition result of the acquisition means, and the second communication terminal devices are alarm units 5.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a communication system.

  Conventionally, an interlocking system that interlocks a plurality of alarm devices as communication terminal devices that are installed in a house and warns of the occurrence of a fire is known (for example, Patent Document 1). In general, there is known a home appliance system that includes a home appliance provided in a house and a management device that communicates with the home appliance using a predetermined communication method in order to manage the home appliance.

JP 2013-61995 A

  However, since each alarm device in the interlocking system of Patent Document 1 performs communication using a communication method different from the communication method of the home appliance system, each alarm device is provided in a house together with home appliances. Nevertheless, it is difficult to communicate with the management apparatus and to manage using the management apparatus. Therefore, there is room for improvement in order to manage an alarm device as a communication terminal device.

  The present invention has been made in view of the above problems, and an object thereof is to provide a communication system that can efficiently and accurately manage communication terminal devices.

  In order to solve the above-described problems and achieve the object, the communication system according to claim 1 performs communication in a first communication method between a first communication terminal device and the first communication terminal device. A second system comprising: a first system having a management device that manages the first communication terminal device; and a plurality of second communication terminal devices that communicate with each other using a second communication method different from the first communication method. And a communication relay device that enables communication between at least the management device in the first system and the plurality of second communication terminal devices in the second system, wherein the management The apparatus includes an acquisition unit that acquires state information indicating a state of the first communication terminal device, and the management device outputs an alarm from the second communication terminal device based on an acquisition result of the acquisition unit. The above 2 communication terminal device is a alarm.

  The communication system according to claim 2 is the communication system according to claim 1, wherein the alarm device is a fire alarm device, a smoke alarm device, or a gas alarm device.

  According to the communication system of claim 1, since the communication relay device can communicate at least between the management device in the first system and the plurality of second communication terminal devices in the second system, the management device A plurality of second communication terminal devices can be managed efficiently and accurately. Therefore, for example, when the plurality of second communication terminal devices are alarm devices, the alarm devices can be efficiently and accurately managed using the management device. Further, since communication with the management apparatus is possible without changing the communication method of the plurality of second communication terminal devices, for example, the operation of the plurality of second communication terminal devices is caused by changing the communication method. The reliability can be prevented from decreasing, and the second communication terminal device can be efficiently and accurately managed in a state where the reliability of the plurality of second communication terminal devices is highly maintained. Moreover, since an alarm can be output from the alarm device based on the state of the first communication terminal device of the first system, it is possible to grasp the state of the first communication terminal device at a position away from the first communication terminal device. And the first communication terminal device can be managed efficiently and accurately.

It is a block diagram which shows the management system etc. which concern on Embodiment 1 of this invention. 5 is a diagram showing management target device identification information according to Embodiment 1. FIG. It is a figure which shows the interlocking alarm device specific information which concerns on Embodiment 1. FIG. 3 is a flowchart of a registration process according to the first embodiment. It is an example of a display of a plurality of areas. It is a display example of a plurality of areas when an area is specified. It is a display example of a plurality of areas when an alarm device is registered. It is a display example of a plurality of areas when all alarm devices are registered. 4 is a flowchart of a test process according to the first embodiment. It is an example of a display of communication status information. It is a figure which shows the communication state of the alarm device in Embodiment 1, (a) is a figure of the communication state in the case of communicating directly between alarm devices, (b) is communicated indirectly between alarm devices. It is a figure which shows the communication state in the case of doing. 3 is a flowchart of a control process according to the first embodiment. It is an example of a display of a plurality of areas when a fire is detected. It is a block diagram which shows the management system etc. which concern on Embodiment 2 of this invention. 10 is a flowchart of monitoring processing according to the second embodiment.

  Embodiments of a communication 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.

[Basic concept of the embodiment]
First, the basic concept of the embodiment will be described. In the embodiment, when the installation area designation information is inputted to the input means and the receiving means receives the request signal, the embodiment is generally described as a management target device provided in the area specified by the specifying means. The present invention relates to a management system for registering alarm devices.
In the following embodiments, an example in which the present invention is applied to a plurality of alarm devices that perform alarms in conjunction with each other is shown, but the present invention can also be applied to alarm devices that perform alarms independently.

(Embodiment 1)
First, the first embodiment will be described.

(Constitution)
First, after describing the configuration of the management system 100 according to the present embodiment, alarm devices 5A to 5E that are candidate devices registered as managed devices managed by the management system 100 (these alarm devices 5A to 5E are When there is no need to distinguish between them, the configuration of “alarm 5” will be described. In the present embodiment, a case will be described in which all alarm devices 5 are registered as managed devices. FIG. 1 is a block diagram showing a management system and the like according to the present embodiment.

(Configuration-management system)
First, the management system 100 illustrated in FIG. 1 is a system that manages devices, and specifically includes an operation device 1, a display device 2, a communication device 3, and a management device 4.

(Configuration-Management system-Operation device)
First, the operation device 1 is an operation unit that performs various operations on a management device 4 to be described later. Specifically, the operation device 1 is a first communication terminal device that communicates with the management device 4 and has a predetermined operation. It is a remote controller equipped with buttons.

(Configuration-Management system-Display device)
The display device 2 is display means for displaying various information related to the management device 4 to be described later. Specifically, the display device 2 is a first communication terminal device that communicates with the management device 4 and is provided in a house. TV.

(Configuration-Management system-Communication device)
The communication device 3 is a communication unit that performs wireless communication related to the management device 4 described later. Specifically, the communication device 3 includes an antenna for performing wireless communication, and is provided in the management device 4. It is a device connected to a predetermined connection terminal (not shown), and is a communication relay device that enables communication between the management device 4 to which the communication device 3 is connected and each alarm device 5. . When the communication device 3 is connected to the management device 4, communication is possible between the management device 4 and each alarm device 5, and when the communication device 3 is not connected to the management device 4, the management device 4. And communication between each alarm device 5 becomes impossible. In the following description, it is assumed that the communication device 3 is connected to the management device 4.

(Configuration-Management system-Management device)
The management device 4 is a processing unit that performs processing for device management by performing overall control of the management system 100. Specifically, the management device 4 registers a device as a management target device and manages the registered device. It is a device that performs the processing. The management device 4 is a device that is connected to the device in a wireless or wired manner so that the device registered as the management target device can be managed. The alarm device 5 described later communicates with the display device 2, the communication device 3, and the electrical device 6 described later by a first communication method described later, and further communicates with each other by a second communication method described later. Are connected to each device so as to communicate with each other via the communication device 3. Furthermore, the management device 4 is a device connected to the communication network N1 outside the house, and includes a storage unit 41 and a control unit 42. In addition, although this management apparatus 4 may be comprised as an exclusive machine, you may divert the apparatus already installed in order to control various household appliances other than the alarm device 5, and a computer. Here, the “first communication method” is a communication method based on a predetermined standard, specifically, a communication method based on a communication standard related to home appliances, for example, a communication method dedicated to home appliances. Alternatively, it may be a general-purpose communication method used in devices other than home appliances. The “second communication method” is a communication method based on a predetermined standard different from the standard of the first communication method (that is, a communication method different from the first communication method). (Especially alarm systems linked to each other), for example, it may be a dedicated communication system for alarm devices, or a general-purpose communication method used in devices other than alarm devices Also good. In addition, a system including the operation device 1, the display device 2, the management device 4, and an electric device 6 described later corresponds to a “first system”, and a system including a plurality of alarm devices 5 corresponds to a “second system”. The first system, the second system, and the communication device 3 correspond to a “communication system”.

  First, the storage unit 41 provided in the management device 4 is a storage unit that stores programs and various data necessary for the operation of the management system 100. Specifically, the storage unit 41 includes area information and management target device identification information. , And guidance information are stored.

  Here, “area information” is information relating to a plurality of areas in a house, and specifically, information specifying the plurality of areas themselves and the arrangement of the areas. Further, the “area” is an area divided by building members in a house, and specifically includes a room, a staircase, a hallway, and the like.

  Here, in this area information, “bedroom”, “children's room”, “living room”, “kitchen”, and “Japanese-style room” are specified as the areas, and the arrangement of these areas in the house (for example, the kitchen) The following description will be made on the assumption that the position of the center of the first floor portion of the house is specified.

  Moreover, FIG. 2 is a figure which shows the management object apparatus specific information which concerns on embodiment. This “managed device identification information” is information that identifies the reporting device registered as the managed device. Specifically, the item “registered device”, the item “installation area”, and the item “drawing position” ”And information corresponding to each item are stored in association with each other. The information corresponding to the item “registered device” is information indicating an alarm device registered as a management target device, and specifically, alarm device identification information (described in the case of FIG. Alarm device IDa "). The information corresponding to the item “installation area” is information indicating an area where the alarm device 5 registered as the management target device is installed among a plurality of areas in the area information (in the case of FIG. 2, “bedroom” "etc). The information corresponding to the item “drawing position” is information indicating an area corresponding to the information of the above-mentioned item “installation area” among the areas A1 to A5 in FIG. 5 to be described later (in the case of FIG. 2, for example) "A1" etc.). The “alarm device identification information” is information for uniquely identifying each alarm device 5, and is specifically a predetermined number of character strings or the like. Note that the alarm devices IDa to IDe in FIG. 2 correspond to the alarm device identification information of the alarm devices 5A to 5E, respectively.

  The “guidance information” is information for guiding the user to register the alarm device 5 as a management target device, and specifically includes information including a guidance message described later. is there.

  The control unit 42 provided in the management device 4 is a control unit that performs various types of control related to the management system 100. Specifically, the control unit 42 includes a CPU and various programs that are interpreted and executed on the CPU (such as basic OSs) A computer configured to include an internal memory such as a control program and an application program that is activated on the OS and realizes a specific function), and a RAM for storing the program and various data. is there. In particular, the management program according to the embodiment is installed in the control unit 42 via an arbitrary recording medium or network, thereby substantially configuring each unit of the control unit 42 (an alarm device described later). The same applies to the control unit 56 of No. 5 and the control unit 72 of the management device 7 of the second embodiment).

  The control unit 42 includes a registration processing unit 421, a test processing unit 422, and a control processing unit 423 in terms of functional concept. The registration processing unit 421 is a registration processing unit that performs processing related to device registration. The test processing unit 422 is a test processing unit that performs processing related to device testing. The control processing unit 423 is a control processing unit that performs processing related to device control. The processing performed by each unit in the control unit 42 will be described later.

(Configuration-Alarm)
Next, the alarm device 5 shown in FIG. 1 is a disaster prevention alarm means for alarming that an abnormality has occurred in the area as the monitoring area where the alarm device 5 is provided. Devices, gas alarms, etc. In the following description, it is assumed that the alarm device 5 is a fire alarm device. This alarm device 5 is a second communication terminal device that communicates with each other using the second communication method, and specifically includes a detection unit 51, a communication unit 52, a notification unit 53, an operation unit 54, a storage unit 55, and a control unit. A unit 56 is provided.

  First, the detection unit 51 is a detection unit that detects that a fire has occurred in an area as a monitoring area in which the alarm device 5 is provided. Specifically, a smoke detection unit that detects smoke concentration, and the like. The fire is detected using a known method.

  The communication unit 52 is a communication unit that performs wireless communication with another alarm device 5 or the management device 4, and specifically includes an antenna or the like for performing wireless communication.

  The notification unit 53 is a notification unit that notifies the occurrence of a fire and the like, and specifically includes a predetermined indicator lamp, a speaker that outputs an alarm sound, and the like.

  The operation unit 54 is an operation unit that performs various operations in the alarm device 5, and specifically includes a registration button 541 and the like described later.

  The storage unit 55 provided in the alarm device 5 is a storage means for storing programs and various data necessary for the operation of the alarm device 5, and specifically stores linked alarm device identification information. ing.

  Here, FIG. 3 is a figure which shows the interlocking alarm device specific information which concerns on embodiment. This “linked alarm device identification information” is information for identifying alarm devices associated with each other so as to be linked to each other. Specifically, the alarm device identification information (hereinafter referred to as “alarm devices”) of the linked alarm devices. (Also referred to as “ID”) (in the case of FIG. 3, “alarm device IDa” or the like).

  Returning to FIG. 1, the control unit 56 provided in the alarm device 5 includes a test processing unit 561, an interlocking source alarm processing unit 562, an interlocking destination alarm processing unit 563, and a recovery processing unit 564 in terms of functional concept. The test processing unit 561 is a test processing unit that performs a test regarding a communication state between the alarm devices 5. The interlocking source alarm processing unit 562 is interlocking source alarm processing means for performing alarm processing as an interlocking source alarm device that is an alarm device that detects a fire. The interlocking destination alarm processing unit 563 is interlocking destination alarm processing means for performing alarm processing as an interlocking destination alarm device that is an alarm device interlocking with the interlocking source alarm device. The recovery processing unit 564 is a recovery processing unit that performs processing related to recovery. In addition, each part in these control parts 56 is mentioned later.

(processing)
Next, management processing performed using the management system 100 configured as described above will be described. Here, the “management process” is a process relating to device management, and specifically includes a registration process, a test process, and a control process. Each of these processes is activated when a predetermined operation is performed using the controller device 1 after the power switch of each device in the management system 100 is turned on.

(Processing-Registration process)
First, the registration process will be described. FIG. 4 is a flowchart of a registration process according to the embodiment (in the following description of each process, step is abbreviated as “S”). 5 to 8 are display examples of information related to registration. Here, the “registration process” is a process of registering a device as a management target device managed by the management system 100, specifically, a process of registering the alarm device 5 as the management target device. This process is mainly executed by the registration processing unit 421 of the management apparatus 4. Here, a description will be given from the case where the registration process is started in a state where the alarm device 5 to be registered as the management target device is prepared around the management device 4.

  First, in SA1 of FIG. 4, the registration processing unit 421 acquires area information stored in the storage unit 41, generates multiple area drawing information described later based on the acquired area information, For example, as shown in FIG. Here, “multiple area drawing information” is drawing information related to a plurality of areas in a house, specifically, drawing information corresponding to the above-mentioned area information, as shown in FIG. Areas A1 to A5 corresponding to each area (“Bedroom”, “Children's room”, “Living room”, “Kitchen” and “Japanese room”) and text information (“Bedroom” in FIG. 5 etc.) indicating each area, etc. It contains information.

  Next, in SA2 of FIG. 4, the registration processing unit 421 guides the input of installation area designation information described below from the guidance information stored in the storage unit 41 (for example, “ Please specify "and the like, and display the acquired message on the display device 2.

  Here, the “installation area designation information” is information for designating an installation area in which the alarm device 5 as a management target device is installed among a plurality of areas specified by the area information. For example, as shown in FIG. This is information that is input to the registration device 4 by designating the zones A1 to A5 of the multiple zone drawing information using the operation device 1.

  Next, in SA3 of FIG. 4, the registration processing unit 421 monitors whether installation area designation information has been input. Specifically, it is monitored whether or not the areas A1 to A5 shown in FIG. 5 are designated. If any one of the areas A1 to A5 is designated (YES in SA3), the process proceeds to SA4 assuming that the installation area designation information has been input. On the other hand, if none of the areas A1 to A5 is designated (NO in SA3), the process of SA3 is performed again assuming that the installation area designation information has not been input.

  Next, in SA4 of FIG. 4, the registration processing unit 421, based on the installation area designation information input in SA3 and the area information stored in the storage unit 41, the area specified by the area information (for example, The area corresponding to the area designated by the installation area designation information input in SA3 is specified. For example, when the area A1 is designated in SA3, the “bedroom” corresponding to the area A1 is specified in SA4.

  Next, in SA5 of FIG. 4, the registration processing unit 421 displays the area specified in SA4 on the display device 2. Specifically, in the multiple area drawing information displayed on the display device 2, text information indicating the area specified by SA4 is displayed, or as shown in FIG. 6, the area corresponding to the area specified by SA4 is displayed. Make the display state different from the display state of other areas. FIG. 6 shows a display example when “Bedroom” is specified in SA4. Specifically, an area A1 corresponding to “Bedroom” is highlighted. With this configuration, the user can check the designated area.

  Next, in SA6 of FIG. 4, the registration processing unit 421 guides an operation of a registration button 541 (described later) in the alarm device 5 from the guide information stored in the storage unit 41 (for example, “alarm device to be registered” Please press the “Register button” ”and the acquired message is displayed on the display device 2.

  Here, the registration button 541 in FIG. 1 is a registration operation means for performing an operation for registering the alarm device 5, and specifically outputs a registration request signal described later from the alarm device 5 when pressed. It is a button to do. Here, the “registration request signal” is a request signal for requesting that the alarm device 5 be registered as a management target device. Specifically, the alarm device identification information of each alarm device 5 that outputs the signal is It is an included signal.

  Next, in SA7 of FIG. 4, the registration processing unit 421 monitors whether a registration request signal has been received. Specifically, it is monitored whether or not a registration request signal has been received via the communication device 3. When the registration request signal is received (YES in SA7), the process proceeds to SA8. If the registration request signal is not received (NO in SA7), the SA7 process is performed again.

  Next, in SA8 of FIG. 4, the registration processing unit 421 stores information related to the alarm device 5 for the management target device specifying information of FIG. 2 based on the registration request signal received in SA7 and the specifying result in SA4. By doing so, the stored alarm device 5 is registered as a device to be managed. Specifically, the alarm device identification information is acquired from the registration request signal received in SA7, and the alarm device specified by the acquired alarm device identification information is registered as a management target device installed in the area specified in SA4. . For example, when “bedroom” is specified in SA4 and the registration request signal is received from the alarm device 5A in SA7, in SA8, in the management target device specifying information in FIG. By storing “alarm IDa”, “bedroom”, and “A1” as information corresponding to the item “installation area” and the item “drawing position”, the alarm device 5A is managed as a device to be installed in the bedroom. sign up.

  Next, in SA9 of FIG. 4, the registration processing unit 421 displays registration result information indicating the registration result in SA8 on the display device 2. Specifically, text information indicating the registration result at SA8 is displayed, or an alarm device icon indicating an alarm device registered at SA8 is displayed as shown in FIG. FIG. 7 shows a display example when the alarm device 5A is registered as a management target device installed in the bedroom in SA8, and an alarm device icon ICa corresponding to the alarm device 5A is displayed in the area A1. ing. With this configuration, the user can check the alarm device registered as the management target device and the installation position of the alarm device.

  Next, in SA10 of FIG. 4, the registration processing unit 421 uses the guidance information stored in the storage unit 41 to guide the user whether to continue the registration of the management target device (for example, “ The registration of the alarm device is continued ”or the like is acquired, and the acquired message is displayed on the display device 2.

  Next, in SA11 of FIG. 4, the registration processing unit 421 determines whether or not to continue the registration process. Specifically, based on information input by the user via the controller device 1, it is determined whether or not to continue the registration process. And when it determines with continuing a registration process (YES of SA11), after transfering to SA2, the process of SA3-SA11 is performed again. If it is determined not to continue the registration process (NO in SA11), the process proceeds to SA12. In this embodiment, by repeating the processes SA2 to SA11 until all alarm devices 5 are registered, as shown in FIG. 2, when the alarm devices 5A to 5E are registered, the display device In the multiple area drawing information displayed by 2, alarm device icons ICa to ICe corresponding to the alarm devices 5 </ b> A to 5 </ b> E are displayed, for example, as shown in FIG. 8.

  Next, in SA12 of FIG. 4, the registration processing unit 421 performs post-processing such as transmitting a later-described interlocked registration signal to the alarm device 5 and then ends the registration processing.

  Here, the “interlocking registration signal” is a signal for associating the alarm devices 5 with each other so that each alarm device 5 registered as a management target device is interlocked. This signal includes all alarm device identification information stored corresponding to the item “registered device” of the management target device identification information. And the alarm device 5 which received this interlocking registration signal respond | corresponds to the alarm device identification information contained in the said interlocking registration signal, when the own interlocking device identification information is contained in the received interlocking registration signal. All alarm device identification information included in the interlock registration signal is stored in the storage unit 55 of FIG. 1 as the interlock alarm device specifying information of FIG.

  Returning to FIG. 4, in SA12, for example, all the alarm devices 5 are registered as described above. Therefore, by outputting the interlocking registration signal including all the alarm devices IDa to IDe, all the alarm devices 5 are connected. They will be associated with each other. Furthermore, in this case, the alarm device icons ICa to ICe in FIG. 8 are displayed in the same color, or text information indicating that the alarm devices 5 are associated with each other is displayed on the display device 2. The correspondence relationship of each alarm device 5 is displayed. For example, the processing in SA12 may be omitted, and the association of each alarm device 5 may be performed using a known method.

  And after registering all the alarm devices 5 in this way, the user installs each alarm device 5 in a predetermined area in the house, for example, according to the display of FIG. .

(Processing-Test processing)
Next, the test process will be described. FIG. 9 is a flowchart of the test process according to the embodiment. Here, the “test process” is a process of performing a test of a device registered as a management target device, and specifically, a process of performing a communication test between each alarm device 5 registered as a management target device. In other words, the processing is mainly executed by the test processing unit 422 of the management device 4. Here, the “communication test” is a communication test performed using a test signal output from a predetermined alarm device of the alarm devices 5. Specifically, communication between alarm devices 5 is normally performed. This is a test for confirming whether or not the communication is performed and the communication path. In the present embodiment, a test process when a test signal is output from the alarm device 5A will be described.

  First, in SB1 of FIG. 9, the test processing unit 422 of the management device 4 outputs a start signal for starting the communication test to the alarm device 5A. Specifically, a start signal is output via the communication device 3.

  On the other hand, in SC1 of FIG. 9, the test processing unit 561 of the alarm device 5A monitors whether or not a start signal has been received. Specifically, it is monitored whether a start signal is received via the communication unit 52. When the start signal is received (YES in SC1), the process proceeds to SC2. If the start signal is not received (NO in SC1), the process in SC1 is performed again.

  Next, in SC2 of FIG. 9, the test processing unit 561 of the alarm device 5A controls to output a predetermined test signal and perform a communication test. The communication test method is arbitrary, and the communication test may be performed using a known method, or the communication test may be performed using a method described later. Here, as a result of the communication test, communication is normally performed between the alarm devices 5 of FIG. 1, alarm devices 5B to 5D are directly communicating with alarm device 5A, and alarm device 5E is alarmed. The following description will be given on the assumption that communication with the alarm device 5A is indirectly performed via the device 5D (hereinafter, also referred to as “example of communication test result in the present embodiment”).

  Next, in SC3 of FIG. 9, the test processing unit 561 of the alarm device 5A generates a result signal indicating the result of the communication test in SC2, outputs the generated result signal via the communication unit 52, and then performs processing. finish.

  On the other hand, in SB2 of FIG. 9, the test processing unit 422 of the management device 4 monitors whether a result signal has been received. Specifically, it is monitored whether a result signal has been received via the communication device 3. And when a result signal is received (YES of SB2), it transfers to SB3. When the result signal is not received (NO in SB2), the process in SB2 is performed again.

  Next, in SB3 of FIG. 9, the test processing unit 422 of the management device 4 displays the result of the communication test on the display device 2 based on the result signal received in SB2, and then ends the test processing. Here, FIG. 10 is a display example of communication state information. Returning to FIG. 9, in SB3, specifically, the communication state information indicating the above-mentioned “example of communication test result in the present embodiment” is generated, and the generated communication state information is displayed as shown in FIG. .

(Processing-Test processing-Communication test method example)
Next, a test method example of the communication test at SC2 in FIG. 9 will be described. FIG. 11 is a diagram illustrating a communication state of the alarm device in the embodiment, (a) is a diagram of a communication state when directly communicating between the alarm devices, and (b) is an indirect communication between the alarm devices. It is a figure which shows the communication state in the case of communicating regularly. Here, description will be made assuming that alarm 5A has received a start signal in SC1 of FIG. 9 when communication corresponding to “example of communication test result in this embodiment” is performed.

(Processing-Test processing-Test method example of communication test-Overview)
Schematically, in this communication test, the test processing unit 561 of the alarm device 5A uses the first test signal described later to identify an alarm device that communicates directly with the alarm device 5A, and then based on this identification result. A communication path between the respective alarm devices 5 is specified by specifying an alarm device that indirectly communicates with the alarm device 5A and a communication path of the alarm device using a second test signal described later.

  Here, the “first test signal” is a signal for specifying an alarm device that performs direct communication with the alarm device 5A. Specifically, for the alarm device that has received the signal, It is a signal for requesting transmission of a first response signal indicating that it has been received. The first test signal includes “transmission source information” indicating an alarm device that transmits the signal, and “transmission destination information” indicating an alarm device that is the transmission destination of the signal.

  Further, the “second test signal” is a signal for specifying an alarm device that communicates indirectly with the alarm device 5A, and specifically, for the alarm device that has received the signal. It is a signal that requests the relay of the signal and requests the alarm device that has received the relayed signal to transmit a second response signal indicating the reception. The second test signal includes the aforementioned “transmission source information” and “transmission destination information”, and “relay destination information” indicating the relay destination alarm device.

(Processing-Test processing-Test method example of communication test-Details-Processing related to the first test signal)
Specifically, in this communication test, the test processing unit 561 of the alarm device 5A acquires its own alarm device identification information (“alarm device IDa”) as “transmission source information” in the linked alarm device identification information of FIG. In addition, alarm device identification information other than self (“alarm device IDb to alarm device IDe”) is acquired as “destination information”, and the first test signal is generated and generated by reflecting these acquisition results. The first test signal is output via the communication unit 52.

  Next, as shown in FIG. 11 (a), the alarm devices 5B to 5D capable of direct communication receive the first test signal (St1 in FIG. 11 (a)) and receive the received first test signal. Since the transmission destination information of one test signal includes its own alarm device identification information, the first response signal (FIG. 11 (FIG. 11 (1) in the case of the alarm device 5D) includes its own alarm device identification information (in the case of the alarm device 5D). a) Sr1) is output.

  Next, the alarm device 5A receives the output first response signal, and the test processing unit 561 of the alarm device 5A generates an alarm based on the alarm device identification information included in each received first response signal. An alarm device (“alarm devices 5B to 5D”) that directly communicates with the device 5A is specified.

(Processing-Test processing-Test method example of communication test-Details-Processing related to second test signal)
Next, the test processing unit 561 of the alarm device 5A directly connects with the alarm device 5A among the alarm devices of the alarm device identification information other than the self of the interlocking alarm device identification information of FIG. 3 (“alarm devices 5B to 5E”). In order to confirm communication with an alarm device (“alarm device 5E”) that has not been specified as an alarm device that performs communication, a second test signal is generated, and the generated second test signal is output. Specifically, as in the case of the first test signal, its own alarm device identification information (“alarm device IDa”) is acquired as “transmission source information” and is included in the received first response signal. The alarm device identification information (“alarm device IDb” to “alarm device IDd”) is acquired as “relay destination information”, and alarm device identification information (“alarm device IDe”) that was not included in the received first response signal is obtained. Acquired as “destination information”, a second test signal is generated reflecting these acquisition results, and the generated second test signal is output via the communication unit 52.

  Next, as shown in FIG. 11 (b), the alarm devices 5B to 5D capable of direct communication receive the second test signal (St21 in FIG. 11 (b)) and receive the received second test signal. Since the relay device information of the 2 test signal includes its own alarm device identification information, it relays and outputs the received second test signal. In this case, the own alarm device identification information (in the case of the alarm device 5D, “alarm device IDd”) is added to the second test signal as “relay source information”, and then relay output is performed.

  Next, as shown in FIG. 11 (b), the alarm device 5E capable of communicating indirectly via the alarm device 5D receives the second test signal relayed and output (FIG. 11 (b)). St22) of the second test signal is received, and the transmission destination information of the received second test signal includes its own alarm device identification information. Therefore, the relay source information of the second test signal is specified, and the specified relay source information indicates The second response signal (FIG. 11 (b)) includes alarm device identification information (“alarm device IDd”) as “relay destination information” and further includes its own alarm device identification information (“alarm device IDe”). Sr21) is output.

  Next, the alarm device 5D capable of communicating with the alarm device 5E receives the output second response signal, and its alarm device identification information is included in the relay destination information of the received second response signal. Since it is included, the received second response signal is relayed out. In this case, the self alarm device identification information (in the case of the alarm device 5D, “alarm device IDd”) is added to the second response signal as “relay source information”, and then relay output is performed.

  Next, the alarm device 5A receives the output second response signal (Sr22 in FIG. 11), and the test processing unit 561 of the alarm device 5A receives the alarm device identification information included in the received second response signal. The alarm device ("alarm device 5E") that indirectly communicates with the alarm device 5A is specified based on the relay destination information and the relay source information included in the received second response signal. The communication path is specified by specifying the alarm device (“alarm device 5D”) that relays this communication.

  Through the above processing, the test processing unit 561 of the alarm device 5A specifies that the communication indicated by the “example of communication test result in the present embodiment” is being performed.

(Processing-Control processing)
Next, the control process will be described. FIG. 12 is a flowchart of the control process according to the embodiment. Regarding this control processing, all alarm devices 5 are registered as managed devices, and all alarm devices 5 are associated with each other so as to be linked to each other. When the electrical device 6 is registered as a device to be managed, the alarm device 5A issues a linkage source alarm device, and the alarm devices 5B to 5E operate in conjunction with a linkage destination alarm device. A control process when the alarm device 5A is restored will be described. Here, the electric device 6 is an electric device provided in a house, specifically, a first communication terminal device that communicates with the management device 4, and the alarm device 5. It is different electric equipment, Comprising: For example, an interphone, a refrigerator, an air conditioner, an illuminating device, a ventilation fan, a television, and a curtain opening and closing device are provided. The electrical device 6 is registered as a management target device using a known method.

  First, in SD1 of FIG. 12, the detector 51 of the alarm device 5A detects a fire.

  Next, in SD2 of FIG. 12, the interlocking source alarm processing unit 562 of the alarm device 5A generates a below-described interlocking source alarm signal based on the interlocking alarm device identification information of FIG. 3 stored in the storage unit 55, Control is performed so that the generated signal is output via the communication unit 52 and the occurrence of a fire is notified via the notification unit 53.

  Here, the “link source alarm signal” is a signal indicating that a fire has been detected, and specifically, “link source information” indicating an alarm device that outputs the signal and an alarm device that is linked. It is a signal including “link destination information”. As described above, since the link source information is included, it is possible to identify the alarm device that outputs the link source alarm signal (that is, the link source alarm device), and the link destination information is included. The alarm device that has received the interlocking source alarm signal can determine whether or not to issue an alarm as the interlocking destination alarm device.

  Next, referring back to FIG. 12, in SD2, specifically, in the interlocking alarm device identification information of FIG. 3, the own alarm device identification information is acquired as “linkage source information” and the alarm device identification information other than itself is acquired. Is acquired as “link destination information”, a link source alarm signal is generated reflecting these acquisition results, and the generated signal is output. In this embodiment, since the alarm device 5A detects a fire in SD1, in this SD2, the “link source information” is the alarm device IDa, and the “link destination information” is the alarm device IDb to the alarm device IDe. A certain interlocking source alarm signal is output.

  Next, in SE1 of FIG. 12, the alarm devices 5B to 5E receive the interlocking source alarm signal output in SD2.

  Next, in SE2 of FIG. 12, the interlocking destination alarm processing unit 563 of the alarm devices 5B to 5E includes its own alarm device identification information in the interlocking destination information of the interlocking source alarm signal received in SE1. The occurrence of a fire is notified via the notification unit 53 as an alarm.

  On the other hand, in SF1 of FIG. 12, the management device 4 also receives the interlocking source alarm signal output in SD2. Specifically, the signal is received via the communication device 3.

  Next, in SF2 of FIG. 12, the control processing unit 423 of the management target device 4 performs a predetermined process regarding fire. Specifically, referring to the interlock source information of the interlock source alarm signal received in SF1, the alarm device (in this case, “alarm device 5A”) that detects the fire is identified, and information indicating the identified alarm device is displayed. The electric device 6 displayed on the display device 2 and registered as the management target device is controlled. Here, FIG. 13 is a display example when a fire is detected. Returning to FIG. 12, in SF2, specifically, as shown in FIG. 13, the fire image Fl is displayed in the area A1 corresponding to the area where the alarm 5A that detects the fire is set, or the area A1 is displayed. So that the ventilation fan and the illuminating device constituting the electrical device 6 are turned on, the curtain is opened, and an alarm sound is output from the refrigerator speaker and the intercom. The electric device 6 is controlled. By turning on the ventilation fan, it becomes possible to ventilate the room, and by turning on the lighting device, it is possible to reliably grasp the evacuation route even at night, etc. By outputting an alarm sound from the intercom, it is possible to reliably notify the occurrence of a fire. Along with these processes, an alarm regarding the occurrence of a fire may be output to the outside via the communication network N1.

  Next, when fire extinguishing activity is performed in SD3 of FIG. 12, for example, the detection unit 51 of the alarm device 5A does not detect a fire.

  Next, in SD4 of FIG. 12, the recovery processing unit 564 of the alarm device 5A generates a recovery signal described later based on the interlocking alarm device specifying information stored in the storage unit 55, and the generated signal is transmitted to the communication unit. After outputting via 52 and stopping the fire alarm being performed via the notification unit 53, the process is terminated. Here, the “recovery signal” is a signal indicating that the fire has not been detected and has been recovered. Specifically, the “link source information” and the “link destination information” are the same as the link source alarm signal described above. Is a signal including

  Next, in SE3 of FIG. 12, the alarm devices 5B to 5E receive the restoration signal output in SD4.

  Next, in SE4 of FIG. 12, the recovery processing unit 564 of the alarm devices 5B to 5E includes its own alarm device identification information in the link destination information of the recovery signal received in SE3. After stopping the fire alarm being performed, the process is terminated.

  On the other hand, in SF3 of FIG. 12, the management apparatus 4 also receives the recovery signal output in SD4. Specifically, the signal is received via the communication device 3.

  Next, in SF4 of FIG. 12, the control processing unit 423 of the management target device 4 performs a predetermined process related to recovery. For example, in FIG. 13, the fire image Fl is not displayed, and the display state of the highlighted area A1 is returned to the same display state as the other areas A2 to A5, and then the control process is terminated.

(Effect of Embodiment 1)
As described above, according to the present embodiment, since the communication device 3 can communicate with the management device 4 and the plurality of alarm devices 5, the plurality of alarm devices 5 can be efficiently used by using the management device 4. Can be managed appropriately and accurately. In addition, since communication with the management device 4 is possible without changing the communication method of the plurality of alarm devices 5, for example, the reliability of the operation of the plurality of alarm devices 5 is caused by changing the communication method. Since the deterioration can be prevented, the alarm device 5 can be managed efficiently and accurately while maintaining the reliability of the plurality of alarm devices 5 at a high level.

  In addition, the registration processing unit 421 in the management device 4 in FIG. 1 registers the alarm device 5 as a management target device, and the control processing unit 423 in the management device 4 controls (that is, manages) the device registered as the management target device. Therefore, the alarm device 5 can be registered as a management target device, the registered alarm device 5 can be managed, and the alarm device 5 can be managed efficiently and accurately. Therefore, for example, regarding preparation work for using the alarm device 5, guidance suitable for the user's work needs (for example, guidance in SA2 and SA6 in FIG. 4 and the like) is adapted to the needs (for example, FIG. 1 on the display device 2), the work efficiency of the preparatory work can be improved, and the alarm device 5 can be managed efficiently and accurately. In addition, for example, even when installing a plurality of alarm devices 5 in a house, the installation area of each of the plurality of alarm devices 5 is specified, so it is necessary to grasp which area the alarm device 5 installed is alarming. Thus, the alarm device 5 can be managed efficiently and accurately.

  Further, in SA5 of FIG. 4, since the multiple area drawing information indicating the area corresponding to the area designated as the installation area is displayed as shown in FIG. 6, for example, the installation area can be confirmed based on the information. The alarm device 5 can be managed efficiently and accurately.

  In addition, in SA2 of FIG. 4, since it guides the user to input the installation area designation information, it is possible to grasp the matters to be performed for registering the alarm device 5, and to manage the alarm device 5 efficiently and accurately. be able to.

  Further, in SA6 of FIG. 4, since the operation of the alarm device 5 for outputting the registration request signal is guided, the matters to be performed for registering the alarm device 5 can be grasped, and the alarm device 5 is efficiently operated. It can be managed accurately.

  Further, in SA9 of FIG. 4, since the registration result information indicating the registration result of the alarm device 5 is displayed, the registration result of the alarm device 5 can be grasped, and the alarm device 5 can be managed efficiently and accurately. it can.

  Further, when the alarm device 5 registered as the management target device outputs an alarm, as shown in FIG. 13, information (for example, the fire image Fl in FIG. 13) for identifying the alarm device 5 that output the alarm is displayed. Since the alarm is output, the alarm device itself (the alarm device 5A corresponding to the alarm device icon ICa in the case of FIG. 13) and the installation area of the alarm device (the bedroom corresponding to the area A1 in the case of FIG. 13) are displayed. Because it is possible to grasp, it is possible to quickly grasp the area where there is a possibility of a fire in the house.

  Moreover, in SA12 of FIG. 4, since the correspondence of the some alarm device 5 which communicates so that it may mutually interlock | cooperate is registered, the information which shows the correspondence of the some alarm device 5 can be output, for example. The alarm device 5 can be managed efficiently and accurately.

  Moreover, in SB3 of FIG. 9, as shown in FIG. 10, since the communication status information which shows the communication status between the some alarm devices 5 is displayed, for example, is communication between the some alarm devices 5 normal? It is possible to grasp whether or not the plurality of alarm devices 5 can be managed accurately. For example, in order to confirm the communication state between the plurality of alarm devices 5, the communication state between the plurality of alarm devices 5 is grasped without visiting the area where each of the plurality of alarm devices 5 is installed. Therefore, a plurality of alarm devices 5 can be managed efficiently.

  In addition, when the alarm device 5 registered as the management target device outputs an alarm, the electric device 6 in FIG. 1 is controlled. Therefore, the electric device 6 in the house is controlled for disaster prevention, and appropriate disaster prevention is performed. be able to. Therefore, for example, when the alarm device 5 registered as the management target device outputs an alarm, the fact that a fire has occurred is displayed on the television as the electrical device 6 or the lighting device as the electrical device 6 is turned on. Can inform residents of the fire.

(Embodiment 2)
Next, a second embodiment will be described. The configuration of the second embodiment is substantially the same as the configuration of the first embodiment unless otherwise specified, and the same configuration as that of the first embodiment is used in the first embodiment. The same reference numerals are attached as necessary, and the description thereof is omitted.

(Constitution)
FIG. 14 is a block diagram showing a management system and the like according to the present embodiment. The management system 700 includes a management device 7. The management device 7 includes a control unit 72, and the control unit 72 has a monitoring processing unit 724 in terms of functional concept. The monitoring processing unit 724 is a monitoring processing unit that performs processing related to device monitoring. The processing performed by the monitoring processing unit 724 will be described later.

(processing)
Next, the monitoring process will be described. FIG. 15 is a flowchart of the monitoring process according to the embodiment. Here, as in the case of “control processing” in the first embodiment, all alarm devices 5 are registered as management target devices, and all the alarm devices 5 are associated with each other so as to be linked to each other. Furthermore, the monitoring process in the case where the state of the refrigerator as the electric device 6 is monitored when the electric device 6 is also registered as a management target device will be described. The “monitoring process” is a process for monitoring a device registered as a management target device. Here, the state of the refrigerator as the electric device 6 is monitored, and the alarm device 5 is used as necessary. In this process, the monitoring result is notified, and is executed every predetermined time.

  First, in SG1 of FIG. 15, the monitoring processing unit 724 of the management device 7 outputs a status information request signal for requesting status information indicating the status of the electrical device 6 to the electrical device 6.

  On the other hand, in SH1 of FIG. 15, the electric device 6 monitors whether or not a state information request signal has been received. When the status information request signal is received (YES in SH1), the process proceeds to SH2. If the status information request signal has not been received (NO in SH1), the SH1 process is performed again.

  Next, in SH2 of FIG. 15, the electric device 6 acquires state information indicating its own state. Here, for example, the refrigerator as the electric device 6 is state information indicating that its own state is normal (hereinafter, “normal information”) or, for example, the door remains open for a predetermined time or more, Status information (hereinafter, “abnormal information”) indicating that its own status is not normal is acquired.

  Next, in SH3 of FIG. 15, the electrical device 6 generates a status signal indicating the status information acquired in SH2, outputs the generated status signal to the management device 7, and then ends the process.

  On the other hand, in SG2 of FIG. 15, the monitoring processing unit 724 of the management device 7 monitors whether a status signal is received. And when a status signal is received (YES of SG2), it transfers to SG3. If the status signal is not received (NO in SG2), the SG2 process is performed again.

  Next, in SG3 of FIG. 15, the monitoring processing unit 724 of the management device 7 determines whether or not to output an alarm based on the status signal received by SG2. Specifically, it is determined whether or not the status signal indicates abnormality information. If the status signal indicates abnormality information (YES in SG3), the process proceeds to SG4. When the status signal does not indicate abnormality information (that is, when the status signal indicates normal information) (NO in SG3), the monitoring process is terminated.

  In SG4 of FIG. 15, the monitoring processing unit 724 of the management device 7 outputs an alarm output request signal for requesting output of an alarm to the alarm device 5. Specifically, after outputting an alarm output request signal via the communication device 3 of FIG. 14, the monitoring process is terminated. Then, the alarm output request signal is transmitted to the alarm device 5, and the alarm device 5 outputs an alarm. In this case, the alarm device 5 outputs an alarm via the indicator lamp and speaker of the notification unit 53 provided in the alarm device 5. Here, the alarm is output so that it can be distinguished from the case of notifying the occurrence of a fire. For example, when an alarm is output for a refrigerator as the electric device 6, the indicator lamp of the notification unit 53 blinks every predetermined time (for example, 2 seconds), and the predetermined time (for example, 2 When the alarm sound is output every second), and when the alarm is output for the lighting as the electric device 6, the indicator lamp of the notification unit 53 is set at a predetermined time (for example, 5 seconds) different from the case of the refrigerator. It is good also as blinking and outputting an alarm sound every predetermined time (for example, 5 seconds) different from the case of a refrigerator from the speaker of the said alerting | reporting part 53. FIG. Moreover, when the alarm device 5 has a function of outputting a synthesized voice, it is assumed that a warning is output by outputting a synthesized voice that specifies the electrical device 6 (for example, a refrigerator, a lighting device, etc.). Also good.

(Effect of Embodiment 2)
As described above, according to the present embodiment, an alarm can be output from the alarm device 5 based on the state of the electric device 6 in FIG. 14, so that the state of the electric device 6 is grasped at a position away from the electric device 6. It is possible to manage the electric device 6 efficiently and accurately.
[Modifications to Embodiment]
Although the embodiments of the present invention have been described above, the specific configuration and means of the present invention are arbitrarily modified and improved within the scope of the technical idea of each invention described in the claims. be able to. Hereinafter, such a modification will be described.

(About problems to be solved and effects of the invention)
First, the problems to be solved by the invention and the effects of the invention are not limited to the above contents, and may vary depending on the implementation environment and details of the configuration of the invention. May be solved, or only some of the effects described above may be achieved.

(About distribution and integration)
The above-described configuration is functionally conceptual and does not necessarily need to be physically configured as illustrated. In other words, the specific forms of distribution and integration of the respective units are not limited to those shown in the drawings, and all or a part thereof can be configured to be functionally or physically distributed or integrated in arbitrary units. For example, the management device 4 itself in FIG. 1 may include all or part of the functions of the operation device 1, the display device 2, and the communication device 3. Further, for example, the control unit 72 of the management apparatus 7 in FIG. 14 may include only a part of the functions of the registration processing unit 421, the test processing unit 422, the control processing unit 423, and the monitoring processing unit 724. .

(About linked registration signals)
Further, in each of the above-described embodiments, in SA12 of FIG. 4, when the interlock registration signal including all the alarm device identification information corresponding to the item “registered device” of the management target device specifying information of FIG. 2 is output, that is, registered. The case where all the alarm devices are associated with each other has been described, but the present invention is not limited to this. For example, the registered alarm devices may be divided into groups based on information input via the controller device 1, and each alarm device may be associated with each group. For a specific method for associating alarm devices for each group, a predetermined signal including the group ID is alerted so that the group ID indicating the group to which each belongs is stored in the storage unit 55 of the alarm device 5. It may be performed by transmitting to the device 5. In this case, the alarm device 5 is linked within the group by using a known method using the group ID.

(About information display)
Moreover, in SA1 to SA12 in FIG. 4 in each of the above embodiments, sound corresponding to information displayed on the display device 2 may be output from a predetermined speaker. This audio output may be performed together with the display of information, or may be performed instead of the display of information.

(About display devices)
Moreover, although the said embodiment demonstrated the case where the display apparatus 2 of FIG. 1 was a television, it is not limited to this. For example, the display device 2 may be a predetermined display device such as a liquid crystal display other than a television or an organic EL display.

(Remote operation)
In addition, the management system 100 may be remotely operated from outside the house via the communication network N1 of FIG. 1 in the above embodiment. In this case, specifically, inspection including the above-described communication test can be performed from a remote location.

(About communication)
Moreover, the management system 100 of FIG. 1 in the above embodiment may relay the interlocking source alarm signal and transmit it to the interlocking destination alarm device.

(About monitoring processing)
Moreover, although the said embodiment demonstrated the case where the warning output request signal was output in SG4 of FIG. 15, it is not limited to this. For example, in SG4, the monitoring processing unit 724 of the management device 7 may display the state of the electrical device 6 on the display device 2 based on the state signal received in SG2. This display may be performed regardless of the determination result of SG3.

(About communication devices)
Moreover, in the said embodiment, when the communication apparatus 3 of FIG. 1 is connected to the management apparatus 4, about the case where communication is possible via the communication apparatus 3 between the management apparatus 4 and each alarm device 5. FIG. Although explained, it is not limited to this. For example, when the alarm device 5 is provided with a predetermined connection portion and the communication device 3 is connected to the connection portion of the alarm device 5, the communication device 3 is connected between the management device 4 and each alarm device 5. Communication may be possible. Further, for example, the communication device 3 is a device that performs wireless communication with both the management device 4 and each alarm device 5, and the communication device is located away from both the management device 4 and each alarm device 5. When the power source 3 is turned on, communication between the management device 4 and each alarm device 5 via the communication device 3 may be possible.

(Appendix)
The communication system according to supplementary note 1 includes: a first communication terminal device; and a management device that manages the first communication terminal device by performing communication with the first communication terminal device using the first communication method. A second system having a system and a plurality of second communication terminal devices that communicate with each other by a second communication method different from the first communication method, at least the management device in the first system, and the second system And a communication relay device that enables communication with the plurality of second communication terminal devices.

  Further, the communication system according to supplementary note 2 is the communication system according to supplementary note 1, in which the management device manages a management target device, storage means that stores area information indicating a plurality of areas in a house, An input means for inputting installation area designation information for designating an installation area in which the second communication terminal device is installed among a plurality of areas, and requesting that the second communication terminal device be registered as the device to be managed Based on the receiving means for receiving a request signal to be transmitted from the second communication terminal device, the installation area designation information input to the input means, and the area information stored in the storage means. A specifying means for specifying an area corresponding to the setting area specified by the setting area specifying information, and the setting area specifying information is input to the input means; If the receiving unit receives the request signal, and a registration unit configured to register the second communication terminal device as the management target device the specifying unit is provided to the identified areas.

  Further, the communication system according to supplementary note 3 is the communication system according to supplementary note 2, in which the storage means stores the area information stored in the storage means and the area specified by the specification means. Drawing information display means for displaying drawing information indicating the area specified by the specifying means;

  Further, the communication system according to supplementary note 4 includes input guidance means for guiding the input of the installation area designation information in the communication system according to supplementary note 2 or 3.

  Further, the communication system according to supplementary note 5 includes operation guide means for guiding the operation of the second communication terminal device for outputting the request signal in the communication system according to any one of supplementary notes 2 to 4. .

  Further, the communication system according to supplementary note 6 is provided with registration result information display means for displaying registration result information indicating the registration result of the registration means in the communication system according to any one of supplementary notes 2 to 5.

  The communication system according to supplementary note 7 is the communication system according to any one of supplementary notes 2 to 6, wherein the second communication terminal device is an alarm device.

  Further, in the communication system according to appendix 8, in the communication system according to appendix 7, when the alarm device registered by the registration means outputs an alarm, information for identifying the alarm device that has output the alarm; Alarm device specific information display means for displaying area information is provided.

  The communication system according to supplementary note 9 is the communication system according to supplementary note 7 or 8, wherein the alarm device is a plurality of alarm devices that communicate with each other so that the request signal is the plurality of alarm devices. Are registered in association with each other, and the registration unit registers a correspondence relationship in which the plurality of alarm devices are associated with each other.

  The communication system according to appendix 10 is the communication system according to appendix 9, wherein the plurality of alarm devices output a status signal indicating a communication state between the plurality of alarm devices, and the receiving means A communication state information display unit configured to receive a signal and display communication state information indicating a communication state between the plurality of alarm devices based on the state signal received by the reception unit;

  The communication system according to appendix 11, in the communication system according to any one of appendices 7 to 10, wherein the first communication terminal device is an electrical device provided in a house, and the management means When the alarm device registered by the registration means outputs an alarm, the electric device is controlled.

  The communication system according to appendix 12 is the communication system according to any one of appendices 7 to 11, wherein the management device includes an acquisition unit that acquires status information indicating a status of the first communication terminal device. The management means outputs an alarm from the alarm device based on the acquisition result of the acquisition means.

(Additional effects)
According to the communication system described in Supplementary Note 1, since the communication relay device can communicate at least between the management device in the first system and the plurality of second communication terminal devices in the second system, It is possible to efficiently and accurately manage the plurality of second communication terminal devices. Therefore, for example, when the plurality of second communication terminal devices are alarm devices, the alarm devices can be efficiently and accurately managed using the management device. Further, since communication with the management apparatus is possible without changing the communication method of the plurality of second communication terminal devices, for example, the operation of the plurality of second communication terminal devices is caused by changing the communication method. The reliability can be prevented from decreasing, and the second communication terminal device can be efficiently and accurately managed in a state where the reliability of the plurality of second communication terminal devices is highly maintained.

  According to the communication system described in appendix 2, since the registration unit for registering the second communication terminal device as the management target device and the management unit for managing the management target device are provided, the second communication terminal device is managed. The registered second communication terminal device can be managed as a target device, and the second communication terminal device can be managed efficiently and accurately. Therefore, for example, regarding preparation work for using the second communication terminal device, guidance suitable for the user's work needs can be performed by a method suitable for the needs, so that the work efficiency of the preparation work is improved. And the second communication terminal device can be managed efficiently and accurately. Further, for example, even when a plurality of second communication terminal devices are installed in a house, since the installation areas of each of the plurality of second communication terminal devices are specified, the second communication terminal device installed in which area issues an alarm. And the second communication terminal device can be managed efficiently and accurately.

  According to the communication system described in appendix 3, since the drawing information indicating the area corresponding to the area designated as the installation area where the second communication terminal device is installed is displayed, the installation area is confirmed based on the drawing information. And the second communication terminal device can be managed efficiently and accurately.

  According to the communication system described in appendix 4, since the installation area designation information is guided to be input, it is possible to grasp the items to be registered in order to register the second communication terminal device. It can be managed efficiently and accurately.

  According to the communication system described in Appendix 5, since the operation of the second communication terminal device for outputting the request signal is guided, it is possible to grasp the items to be performed in order to register the second communication terminal device, The second communication terminal device can be managed efficiently and accurately.

  According to the communication system described in appendix 6, since the registration result information indicating the registration result of the registration unit is displayed, the registration result of the second communication terminal device can be grasped, and the second communication terminal device can be efficiently and It can be managed accurately.

  According to the communication system described in appendix 7, since the second communication terminal device is an alarm device, the alarm device can be efficiently and accurately managed using the management device.

  According to the communication system described in appendix 8, when an alarm device registered as a management target device outputs an alarm, information indicating the alarm device that output the alarm and area information are displayed, so an alarm is output. It is possible to grasp the alarm device itself and the installation area of the alarm device, and it is possible to quickly grasp the area where a fire may have occurred in the house.

  According to the communication system described in appendix 9, since the correspondence relationship between a plurality of alarm devices that communicate with each other is registered, for example, information indicating the correspondence relationship between the plurality of alarm devices can be output. Can be managed efficiently and accurately.

  According to the communication system described in Supplementary Note 10, since communication state information indicating a communication state between a plurality of alarm devices is displayed, for example, whether communication between the plurality of alarm devices is normal is determined. It is possible to manage a plurality of alarm devices accurately. In addition, in order to check the communication status between a plurality of alarm devices, for example, it is possible to grasp the communication status between the plurality of alarm devices without visiting an area where each of the plurality of alarm devices is installed. A plurality of alarm devices can be managed efficiently.

  According to the communication system described in Supplementary Note 11, when an alarm device registered as a management target device outputs an alarm, the electric device provided in the house is controlled. The equipment can be controlled and appropriate disaster prevention can be performed. Therefore, for example, when an alarm device registered as a device to be managed outputs an alarm, a resident is displayed by displaying the fact that a fire has occurred on a display device such as a television as an electrical device, or by turning on a lighting device. Can inform the occurrence of fire.

  According to the communication system according to attachment 12, since an alarm can be output from the alarm device based on the state of the first communication terminal device of the first system, the first communication is performed at a position away from the first communication terminal device. The state of the terminal device can be grasped, and the first communication terminal device can be managed efficiently and accurately.

DESCRIPTION OF SYMBOLS 1 Operation apparatus 2 Display apparatus 3 Communication apparatus 4, 7 Management apparatus 5, 5A, 5B, 5C, 5D, 5E Alarm 6 Electric equipment 41, 55 Storage part 42, 56, 72 Control part 51 Detection part 52 Communication part 53 Information Unit 54 Operation unit 100, 700 Management system 421 Registration processing unit 422, 561 Test processing unit 423 Control processing unit 541 Registration button 562 Linkage source alarm processing unit 563 Linkage destination alarm processing unit 564 Recovery processing unit 724 Monitoring processing units a, b, c, d, e, f Alarm ID
A1, A2, A3, A4, A5 Zone Fl Fire image ICa, ICb, ICc, ICd, ICe Alarm icon N1 Communication network St1 First test signal Sr1 First response signal St21, St22 Second test signal Sr21, Sr22 Second Response signal

Claims (2)

A first system comprising: a first communication terminal device; and a management device that manages the first communication terminal device by communicating with the first communication terminal device using a first communication method;
A second system having a plurality of second communication terminal devices that communicate with each other in a second communication method different from the first communication method;
A communication system comprising at least the management device in the first system and a communication relay device that enables communication between the plurality of second communication terminal devices in the second system,
The management device includes an acquisition unit that acquires state information indicating a state of the first communication terminal device,
The management device outputs an alarm from the second communication terminal device based on the acquisition result of the acquisition means,
The second communication terminal device is an alarm device.
Communications system. The alarm is a fire alarm, a smoke alarm, or a gas alarm,
The communication system according to claim 1.

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