JP2018072935A - Fire receiver and report transfer board - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow a fire receiver to output information in response to the Internet Protocol.SOLUTION: A transmission board 51 of a fire receiver 50 receives a fire signal from a terminal apparatus (fire sensor 10). A main board 52 receives a fire signal so as to output fire information. A report transfer board 53 outputs the fire information to an external device in response to the Internet Protocol.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a technique for causing a fire receiver to transfer information according to an Internet protocol.

  Conventionally, fire receivers have a transfer function for transferring fire information to other devices such as a general operation panel using a dedicated communication protocol, and multiple devices are connected using this transfer function. Thus, a dedicated network is formed, and the fire information output from the fire receiver is signal-transmitted to other devices via the network (see, for example, Patent Document 1).

  By configuring it as such a dedicated network, it will be separated from general equipment as equipment used in the event of a fire. For example, it is impossible to share information with other equipment due to a general equipment failure No such thing happens. Therefore, in the event of a fire, necessary fire information can be reliably transmitted to necessary equipment.

JP 2007-323195 A

However, since conventional fire receivers output fire information according to a dedicated communication protocol, only devices compatible with the communication protocol can connect to the dedicated network, and fire information cannot be shared. In recent years, the types of equipment that uses fire information and requests for the location of fire information have diversified, but it is impossible to add a function corresponding to a dedicated network to each of the various equipment. It is difficult to make the connection destination of the dedicated network remote.
The present invention has been made in view of the above problems, and an object of the present invention is to cause a fire receiver to output information according to the Internet protocol.

(1) In order to solve the above-described problem, a fire receiver according to the present invention includes a receiving unit that receives a signal from a terminal device, a control unit that receives the signal and outputs information, and transmits the information to the Internet. A transfer means for outputting to an external device in accordance with the protocol.

(2) In a preferred aspect, in the fire receiver according to the present invention, in the configuration described in (1), the control means outputs the information to the transfer means according to in-panel transmission, and the transfer information The means converts the information output by the control means according to the in-panel transmission into information output according to the Internet protocol.

(3) In another preferred embodiment, in the fire receiver according to the present invention, in the configuration described in (1) or (2), the transfer means sends the information output by the control means to the Internet protocol. Output to another external device according to another communication protocol different from that of the Internet protocol and the communication protocol used when outputting the information according to the output destination of the information. It is characterized by selecting from other communication protocols.

(4) In another preferred embodiment, in the fire receiver according to the present invention, in the configuration according to any one of (1) to (3), the transfer means is configured to change the information according to the content of the information. The output destination is selected.

(5) A transfer board according to the present invention is a transfer board attached to a fire receiver including a receiving means for receiving a signal from a terminal device and a control means for receiving the signal and outputting information. The information is output to an external device according to the Internet protocol.

According to the configuration of (1), (2) or (5), the fire receiver can output information according to the Internet protocol, and fire information and the like can be shared with various devices. In addition, by being able to connect using the Internet protocol, it becomes possible to share fire information and the like with devices in places other than the building where the fire receiver is installed.
According to the configuration of (3), the fire receiver can output information not only according to the Internet protocol but also according to another communication protocol.
According to the configuration of (4), the fire receiver can be made to select an output destination according to the information.

It is a figure which shows an example of a structure of the disaster prevention system. It is a flowchart which shows an example of operation | movement of the fire receiver 50 at the time of fire outbreak.

1. Embodiment FIG. 1 is a diagram illustrating an example of a configuration of a disaster prevention system 1 according to an embodiment of the present invention. The disaster prevention system 1 includes a fire detector 10 (an example of a terminal device), a general operation panel 20, a message display 30, a fire information distribution server 40, and a fire receiver 50. The fire detector 10 is connected to the fire receiver 50 via the transmission line 60. The general operation panel 20 and the message display 30 are connected to the fire receiver 50 via the disaster prevention LAN 70. The fire information distribution server 40 is connected to the fire receiver 50 via the Internet 90. The general operation panel 20 and the message display device 30 are examples of external devices connected to the disaster prevention LAN 70, and are assigned a specific disaster prevention LAN address (hereinafter referred to as “LAN address”). The fire information distribution server 40 is an example of an external device connected to the Internet 90, and has a unique Internet address (hereinafter referred to as “IP address”).

  The fire sensor 10 is, for example, a sensor such as a smoke sensor, a heat sensor, or a flame sensor. The fire detector 10 is installed in various places of a building that is a fire prevention object. The fire detector 10 is connected to the fire receiver 50 via a transmission line 60 serving as a power / signal line and has identification information (hereinafter referred to as “address”). The fire signal including it is output to the fire receiver 50. At that time, the fire detector 10 uses a dedicated communication method used between the fire receiver 50 and the terminal device, for example, a dedicated cyclic polling method using the transmission line 60 or a point polling / selecting method. A fire signal is output according to the communication method for terminal transmission.

  When the general operation panel 20 includes a display unit and receives fire information from the fire receiver 50, the general operation panel 20 displays the information on the display unit. The general operation panel 20 is installed, for example, in a disaster prevention center in a building that is a fire prevention object.

  When the message display 30 receives fire information from the fire receiver 50, the message display 30 displays the information. The message display 30 is installed in various places of the building that is a fire prevention object.

  When the fire information distribution server 40 receives the fire information from the fire receiver 50, the fire information distribution server 40 distributes the information via the Internet 90 to the portable terminal possessed by the occupant of the building that is the fire prevention object.

  The fire receiver 50 receives a fire signal from the fire detector 10 and performs a fire alarm operation to notify a person concerned with the fire prevention object by performing a fire alarm operation although not described in detail. The fire receiver 50 is installed, for example, in a disaster prevention center in a building that is a fire prevention object. As shown in FIG. 1, the fire receiver 50 includes a transmission board 51, a main board 52, and a transfer board 53. Each board is housed in the housing of the fire receiver 50, and is connected between adjacent boards via connectors, wiring, etc. (not shown). Each board includes an MPU, a ROM, and a RAM, and the MPU implements various functions by executing programs stored in the ROM. The main board 52 further includes a memory card that stores a database that associates the address, type, and position of each fire detector 10. In addition, each said board | substrate may be comprised as a unit, and the multiple unit may be mounted in one board | substrate formally.

  The transmission board 51 is a receiving unit that receives a fire signal from the fire detector 10. When the transmission board 51 receives a fire signal via the transmission line 60, the transmission board 51 converts the signal into a fire signal that is output in accordance with in-panel transmission such as CAN (Controller Area Network) that is a network standard, and transmits the fire signal to the main board 52. Output. The fire receiver 50 uses a so-called R-type fire receiver that uses the transmission board 51 and communicates with each fire detector 10 as a terminal device via the transmission line 60. Instead, a so-called P-type fire receiver that uses a signal line and uses a signal detection board that detects a switching operation (on / off signal) between the signal lines may be used.

  The main board 52 is a control means for receiving fire signals from the transmission board 51 by in-panel transmission and outputting fire information. Specifically, when the main board 52 receives the fire signal output from the transmission board 51, the main board 52 generates fire information and outputs the fire information to the transfer board 53 according to in-panel transmission such as CAN. Here, the fire information is, for example, information indicating the address, type and position of the fire detector 10 that has detected a fire, and the date and time when the fire occurred.

  The fire detector 10 transmits an analog signal related to fire, and the transmission board 51 transmits the analog signals collected from each fire detector 10 to the main board 52 in a lump (without determining fire), and the main board 52 A fire may be identified.

  The transfer board 53 is transfer means for outputting the fire information output from the main board 52 to an external device via the Internet 90 according to the Internet protocol (IP). In order to output the fire information according to the Internet protocol, the transfer board 53 converts the fire information output by the main board 52 according to the in-panel transmission such as CAN into fire information output according to the highly versatile Internet protocol. . Further, the transfer board 53 transmits the fire information output from the main board 52 to another external communication according to the communication protocol RS-422 for inter-device transmission, which is another communication protocol different from the Internet protocol, via the disaster prevention LAN 70. It is a transfer means for outputting to the device. In order to output fire information according to RS-422, the transfer board 53 outputs fire information output according to in-panel transmission such as CAN by the main board 52, and fire information output according to transmission between devices such as RS-422. Convert to Here, the transfer board 53 includes a LAN address storage unit for storing LAN addresses of external devices (the general operation panel 20 and the message display device 30) connected to the disaster prevention LAN 70, and an external device (fire) connected to the Internet 90. An IP address storage unit for storing the IP address of the information distribution server 40), and refers to the LAN address storage unit and the IP address storage unit to output the information according to the output destination of the fire information Select the communication protocol to use. That is, the transfer board 53 selects the communication protocol used when outputting the information from the Internet protocol and RS-422 according to the output destination of the fire information. And the fire information which provided the LAN address or IP address is output according to the selected communication protocol via the corresponding output route (disaster prevention LAN 70 or the internet 90).

  The LAN address storage unit and the IP address storage unit are stored in, for example, a memory card provided in the transfer board 53. Note that the LAN address storage unit and the IP address storage unit are provided in the main board 52 instead of the transfer board 53, and are communication protocols used when outputting the information according to the output destination of the fire information. The main board 52 may notify the transfer board 53 of the selection.

  In this embodiment, the transfer board 53 uses TCP / IP as the Internet protocol. In addition, the transfer board 53 may encrypt the information when outputting the fire information according to the Internet protocol. The disaster prevention LAN 70 is a network for sharing fire information among a plurality of devices using a dedicated protocol for transmission between devices such as RS-422.

  FIG. 2 is a flowchart showing an example of the operation of the fire receiver 50 when a fire occurs. When the transmission board 51 of the fire receiver 50 receives a fire signal from the fire detector 10 (S1), the signal transmitted according to the communication method for terminal transmission is converted into a signal output according to CAN which is in-panel transmission. Conversion (S2) and output to the main board 52 (S3).

  When the main board 52 receives the fire signal output from the transmission board 51, the main board 52 generates fire information (S4), and outputs the fire information to the transfer board 53 according to CAN which is in-panel transmission (S5).

  When the transfer board 53 receives the fire information output from the main board 52, the transfer board 53 converts the signal sent in accordance with CAN, which is in-panel transmission, into a signal output in accordance with RS-422 for transmission between apparatuses (S6). ), Referring to the LAN address storage unit, and outputting to the general operation panel 20 and the message display 30 via the disaster prevention LAN 70 (S7). When the general operation panel 20 and the message display 30 receive the fire information output from the transfer board 53, the general operation panel 20 and the message display 30 display the information.

In addition, when receiving the fire information output from the main board 52, the transfer board 53 converts the signal transmitted according to CAN, which is transmission within the board, into a signal output according to TCP / IP of the Internet protocol ( S8) Referring to the IP address storage unit, the information is output to the fire information distribution server 40 via the Internet 90 (S9). When the fire information distribution server 40 receives the fire information output from the transfer board 53, the fire information distribution server 40 distributes the information to the mobile terminal via the Internet 90.
The above is an example of the operation of the fire receiver 50 when a fire occurs.

  According to the fire receiver 50 described above, fire information is output according to a highly versatile Internet protocol. Therefore, even if the device does not support RS-422, it can receive fire information as long as it is compatible with the Internet protocol, and the device to which the fire information is transferred is a remote location. However, since various network communication networks can be used, transmission is possible. Further, conventionally, in order to distribute fire information via the Internet 90, it is necessary to connect a device for converting a communication protocol of fire information output from the fire receiver 50 to the fire receiver 50. However, in the case of the fire receiver 50 according to the present embodiment, connection of such a device is unnecessary. As a result, space saving can be achieved.

2. Modifications The above embodiment may be modified as follows. One or more of the following modifications may be combined with each other.

2-1. Modification 1
The fire signal is an example of a signal output from the fire detector 10 and received by the fire receiver 50. The fire detector 10 may output a failure detection signal to the fire receiver 50 when detecting a failure of the own device, for example. When receiving the failure detection signal from the transmission board 51 instead of the fire signal, the main board 52 of the fire receiver 50 generates the failure detection information instead of the fire information and outputs it to the transfer board 53. Here, the failure detection information is, for example, information indicating the address and position of the fire detector 10 that has detected the failure, the type of failure, and the date and time of failure occurrence.

  The fire detector 1 is an example of a terminal device. The fire receiver 50 may be connected to the gas leak detector via the transmission line 60 in addition to the fire detector 10. Gas leak detectors are installed in various places in buildings that are fire protection objects. Each gas leak detector has identification information (address), and when a gas leak is detected, the gas leak detector outputs a gas leak detection signal including its own address to the fire receiver 50. When the main board 52 of the fire receiver 50 receives a gas leak detection signal from the transmission board 51 instead of the fire signal, the main board 52 generates gas leak detection information instead of the fire information and outputs it to the transfer board 53. Here, the gas leak detection information is, for example, information indicating the address and position of the gas leak detector that has detected the gas leak and the date and time when the gas leak occurred.

  The fire receiver 50 may be connected to the monitoring camera via the transmission line 60. Surveillance cameras are installed at various locations in buildings that are fire prevention objects. Each monitoring camera has identification information (address) and outputs a video signal including its own address to the fire receiver 50. When the main board 52 of the fire receiver 50 receives a video signal instead of the fire signal from the transmission board 51, the main board 52 compresses the video to generate video information, and outputs the video information to the transfer board 53 instead of the fire information.

2-2. Modification 2
The general operation panel 20 and the message display 30 are examples of external devices connected to the disaster prevention LAN 70. In addition, for example, when the fire receiver 50 is a distributed fire receiver, another fire receiver 50 is connected to the disaster prevention LAN 70, and the general operation panel 20 is connected to the other fire receiver 50. Fire information may be shared by connecting in sets.

2-3. Modification 3
The fire information distribution server 40 is an example of an external device connected to the Internet 90. In addition, for example, emergency broadcast equipment, a display device such as digital signage, and a remote monitoring system may be connected to share information on fire.

2-4. Modification 4
CAN is an example of in-panel transmission as a communication protocol used between boards of the fire receiver 50. Instead of CAN, for example, RS-422 may be used for on-board transmission.

2-5. Modification 5
RS-422 is a communication protocol for device-to-device transmission particularly suitable for connection between one-to-one devices. The disaster prevention LAN 70 is formed from the transfer board 53 and fire information is output and shared. It is an example of the communication protocol used in the case. Instead of RS-422, another communication protocol for transmission between devices such as RS-485 may be used.

2-6. Modification 6
The transfer board 53 may select the output destination device according to the content of the information. For example, when outputting the fire information, the transfer board 53 selects the general operation panel 20, the message display device 30 and the fire information distribution server 40 as the output destination, while outputting the failure detection information. Alternatively, only the general operation panel 20 may be selected. As another example, the transfer board 53 may select the general operation panel 20 and the fire information distribution server 40 as output destinations when outputting video information. That is, the transfer board 53 outputs, when outputting highly important information, for example, fire information, all devices connected to the disaster prevention LAN 70 and the Internet 90 (the general operation panel 20, message display machine). 30 and the fire information distribution server 40), while outputting less important information, for example, other information other than fire information, all connected to the disaster prevention LAN 70 and the Internet 90 as output destinations. Among the devices (the general operation panel 20, the message display device 30, and the fire information distribution server 40), a device in a necessary (predetermined) range may be selected.

  The transfer board 53 has an information type-IP address correspondence table indicating a correspondence relationship between the type of information such as fire information and the IP address of an external device that is an output destination via the Internet 90. Refer to the table. Then, an output destination device via the Internet 90 is selected according to the content of the information. The transfer board 53 has an information type-LAN address correspondence table indicating a correspondence relationship between the type of information such as fire information and the LAN address of the external device that is the output destination via the disaster prevention LAN 70. Referring to FIG. 4, an output destination device via the disaster prevention LAN 70 is selected according to the content of the information. The information type-IP address correspondence table and the information type-LAN address correspondence table are stored, for example, in a memory card provided in the transfer board 53. These tables are provided on the main board 52 instead of the transfer board 53, and the output destination is selected by the main board 53 instead of the transfer board 53, and the main board 52 is moved. The information board 53 may be notified.

2-7. Modification 7
When the general operation panel 20 and the message display device corresponding to the Internet protocol are connected to the fire receiver 50 via the Internet 90 instead of the general operation panel 20 and the message display device 30 connected to the disaster prevention LAN 70 That is, when the disaster prevention LAN 70 is unnecessary, the transfer board 53 of the fire receiver 50 has a function of converting fire information output according to CAN by the main board 52 into fire information output according to RS-422. You do not have to.

  The external device (the general operation panel 20 or the message display device 30) that can be connected to the disaster prevention LAN 70 has a function corresponding to the Internet protocol and can be connected to the fire receiver 50 via the Internet 90. It may be. When connected to the fire receiver 50 via the disaster prevention LAN 70 and the Internet 90, the external device (the general operation panel 20 or the message display 30) is fire information output from the fire receiver 50 in accordance with RS-422 and the Internet protocol. Etc. can be received. At this time, the transfer board 53 may select an output route (disaster prevention LAN 70 or the Internet 90) according to the content of the information, and select an output route through which the external device receives the information.

  For example, the transfer board 53 selects only the output route of the disaster prevention LAN 70 and outputs it to the external device (the general operation panel 20 or the message display 30) when outputting highly important information such as fire information. By transmitting the information and not transmitting it via the Internet 90, the external device (fire information distribution server 40) having only the output route of the Internet 90 can reliably receive the fire information. On the other hand, when outputting less important information, for example, other information other than fire information, two output routes of the disaster prevention LAN 70 and the Internet 90 are selected, and external devices (the general operation panel 20 or the message display 30) are selected. ) To ensure that the external device (the general operation panel 20 or the message display 30) can receive other information.

  The setting of the output route can be realized by setting any of the above-described IP address storage unit and LAN address storage unit, or the information type-IP address correspondence table and the information type-LAN address correspondence table.

2-8. Modification 8
The transfer board 53 according to the above-described embodiment or modification may be an optional board that can be attached to and detached from the fire receiver 50.

2-9. Modification 9
The transfer board 53 has been described as being provided inside the fire receiver 50. For example, the transfer board 53 is provided inside other external equipment (the general operation panel 20 or the message display 30) as a fire alarm equipment. May be used.

  Note that an existing disaster prevention system in which a fire receiver outputs various types of information to an external device via the disaster prevention LAN 70 is connected to the fire receiver 50 via the Internet 90 in consideration of system expandability and the like. There is a demand for renewal as a new disaster prevention system 1 configured to output various information to an external device. In that case, the disaster prevention system 1 according to the above-described embodiment and each modification is useful.

The renewal update procedure is, for example, as follows.
First, in an existing fire receiver, an existing transfer board that supports RS-422 but does not support the Internet protocol is updated to a transfer board 53 that supports RS-422 and the Internet protocol. Or, an existing fire receiver is updated to a fire receiver 50 that supports RS-422 and the Internet protocol. In other words, the existing fire receiver is updated to the equivalent of the new fire receiver 50.

  Next, instead of existing external devices connected to the disaster prevention LAN 70, new external devices compatible with the Internet protocol are sequentially connected to the Internet 90. That is, the existing external device is updated to a new external device. In addition, necessary data such as the above-mentioned IP address storage unit, LAN address storage unit, information type-IP address correspondence table, information type-LAN address correspondence table are sequentially updated in response to the update to a new external device. Updated.

  Finally, after the update to the new external device is completed, the disaster prevention LAN 70 and the existing external device are removed from the new fire receiver 50.

DESCRIPTION OF SYMBOLS 1 ... Disaster prevention system, 10 ... Fire detector, 20 ... General operation panel, 30 ... Message display machine, 40 ... Fire information delivery server, 50 ... Fire receiver, 51 ... Transmission board, 52 ... Main board, 53 ... Transfer Substrate, 60 ... Transmission line, 70 ... Disaster prevention LAN, 90 ... Internet

Claims (5)

Receiving means for receiving a signal from the terminal device;
Control means for receiving the signal and outputting information;
A fire receiver comprising: a transfer means for outputting the information to an external device in accordance with an Internet protocol. The control means outputs the information to the transfer means according to in-board transmission,
2. The fire receiver according to claim 1, wherein the transfer means converts information output according to the in-panel transmission by the control means into information output according to the Internet protocol. 3. The transfer means outputs the information output by the control means to another external device according to another communication protocol different from the Internet protocol,
The said transfer means selects the communication protocol used when outputting the said information from the said internet protocol and said other communication protocol according to the output destination of the said information. Or the fire receiver of 2.   4. The fire receiver according to claim 1, wherein the transfer unit selects an output destination of the information according to the content of the information. 5.   A transfer board attached to a fire receiver comprising a receiving means for receiving a signal from a terminal device and a control means for receiving the signal and outputting information, the information being transferred to an external device according to an Internet protocol Output board to output.

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