JP3974321B2 - Fire receiver - Google Patents

Description

のように表示される。なお、「ＳＤ２」は上記火災情報表示と同じく端末機器の種別について煙感知器２種を表わし、また、「ＢＬ」は地区音響装置を表わしている。したがってこの内容から、Ｚ７についてはＡＤ１５、ＡＤ１６の火災感知器の発報時にＡＤ１７の地区音響装置が鳴動されるように連動が設定されていることが理解できる。
【００２０】
また、同様に別のゾーンについて、例えばＺ１２を指定すると、
Ｚ０１２ ＡＤ００１ ＳＤ２ ＡＤ０４５ ＤＲ
のように表示され、「ＤＲ」は防火戸であって、Ｚ１２についてはＡＤ１の火災感知器の発報時にＡＤ４５の防火戸が連動されるように設定されていることが理解できる。これらのＺ７、Ｚ１２は簡略的に示しているが、実際の連動設定では、多数の端末機器が１つの連動に係わることも多く、その確認を個々にアドレスに基づいて端末機器ごとに連動情報を確認する必要がなく、作動確認作業などで一括で連動元および連動先の端末機器が確認できる。
【００２１】
なお、連動設定が記憶部１４内に格納されずに、例えば、各端末機器内に個別に格納されている場合には、端末インターフェース１０を介して、情報収集することで、同様に一覧表示が可能となる。
【００２２】
上記実施の形態では、火災情報表示に、各端末機器のアドレス、種別等を表示したが、一例であって、その項目は適宜選択すればよい。また、ゾーン指定で表示される端末機器の情報についても同様である。
【００２３】
以上のような、各実施形態に基づいて、この発明は、信号線を介して複数の火災感知器が接続され、火災発生時に、順位、アドレスおよび状態を含む火災情報を発報した順番に表示部に文字表示する火災受信機において、前記火災受信機は、前記信号線を介して各火災感知器から検出した物理量に関するアナログ値を収集して該アナログ値から火災を判別して発報する火災感知器を特定する火災判別部を備えているとともに、前記表示部は、火災の発生によって発報する火災感知器を示す前記火災情報とともに、該火災感知器が検出する物理量を示す数値を更新しながら並べて表示するものであって、前記物理量を示す数値は、収集したアナログ値に基づき、この収集動作は常時行われるので、管理人に火災の規模を想定や現場の状況を予測することができる。
【図面の簡単な説明】
【図１】本発明の一実施の形態に係る火災受信機の構成を示すブロック図。
【図２】図1の記憶部内に設定される連動テーブルを説明するための説明図。
【符号の説明】
１ 火災受信機
１０ 端末インターフェース
１２ 表示部
１４ 記憶部
１５ 制御部[0001]
[Industrial application fields]
The present invention relates to a fire receiver.
[0002]
[Prior art]
Conventionally, as a function of a fire receiver, information of fire alarms that have been reported has been displayed in the order in which they were issued. In the display on the normal fire receiver panel surface, since the area is specified, the display such as the address and the type of the fire detector that has reported is mostly performed. In some cases, the location of the fire may be indicated by setting character data indicating the installation location relative to the address.
[0003]
In addition, the fire receiver is given a separate address as a detection device such as a smoke detector or a heat detector as a terminal device, and a controlled device such as a district acoustic device or smoke control device. In contrast, controlled devices that are subject to interlocking control are set as a so-called interlocking table. In such a case, regarding the setting status related to the interlock, the settings related to the interlock are confirmed for each address.
[0004]
[Problems to be solved by the invention]
The display of alarm information on a normal fire receiver mostly includes information on identifying the terminal equipment and installation location, and it is unclear how much smoke is detected by the smoke detector that detected the fire. It was.
[0005]
In addition, when setting the interlocking setting by individual address, when interlocking smoke prevention equipment in the same way, it is necessary to set the same interlocking destination address individually for all the addresses of the related fire detectors .
[0006]
Therefore, an object of the present invention is to show information about the scale detected by the fire detector when displaying the alert information.
[0007]
[Means for Solving the Problems]
The present invention, through the signal line is connected to a plurality of fire detectors, a fire occurs, rank, in the fire receiver for character display on the display unit in the order in which the alarm of the fire information including address and status, the fire The receiver includes a fire discriminating unit that collects analog values related to physical quantities detected from the respective fire detectors via the signal lines, discriminates fires from the analog values, and identifies fire detectors to be notified. together with the display unit, together with the fire information indicating the fire detector to alarm by the occurrence of a fire, there is said fire detector is displayed side by side while updating the numerical value indicating the physical quantity to be detected, said physical quantity The numerical value shown is based on the collected analog value, and this collecting operation is always performed .
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described.
[0010]
FIG. 1 is a block diagram showing a configuration of a fire receiver according to an embodiment of the present invention. In the figure, 1 is a fire receiver main body, 10 is a terminal interface to which a plurality of terminal devices such as fire detectors and controlled devices are connected via a signal line L also serving as a power source, and 11 is connected to another fire receiver. LAN interface, 12 is a display unit such as an LCD or indicator lamp, 13 is an operation unit that can be input using a numeric keypad or various switches, 14 is a storage unit that stores various setting information, and 15 is an entire fire receiver. It is a control part to control. Here, the storage unit 14 is an example of a section setting unit, and the display unit 12 and the control unit 15 are examples of a list display unit.
[0011]
Further, AD indicates an address set individually for each terminal device. In FIG. 1, AD1, AD2, AD15, and AD16 indicate terminal devices (that is, detection devices) that are linked as fire detectors, AD3, AD17 is a district acoustic device, and AD45 is a smoke prevention device, which represents a terminal device (that is, a controlled device) to be linked. Thus, although seven terminal devices connected to the fire receiver 1 are shown in FIG. 1, for example, a maximum of 510 terminal devices can be connected.
[0012]
Further, these terminal devices are given zone information by setting a zone. In FIG. 1, as Z1 (zone 1), AD1, AD2, and AD3 terminal devices are set as Z7, and AD15, AD16, The AD17 terminal device is set to AD1 and AD45 terminal devices as Z12. Then, the interlock control is performed in each zone, and when the terminal device in Z1 issues a notification, the controlled device in Z1 is controlled to start. The setting of these zones is stored in the storage unit 14 as data of an interlocking table as shown in FIG. 2, for example, and this interlocking table is transferred from the outside using an input from the operation unit 13 or a data setting unit (not shown). It has come to be. In addition, it is possible to set a zone redundantly for one terminal device, and here it is possible to set up to seven zones. In addition, zone setting (IP zone) that enables linkage between the fire receivers connected via the LAN is enabled, and IP1 (IP zone 1) is AD1, AD45, and IP2 is AD15, AD16, AD17. Is set to
[0013]
In such a fire receiver 1, the operation in the event of a fire will be briefly described. The terminal interface 10 performs signal transmission with each terminal device via the signal line L, and performs so-called analog addressable transmission. Is going. That is, a call signal is output to a group of terminal devices grouped by a predetermined number based on addresses individually assigned to each terminal device from the terminal interface 10, and the terminal devices of the corresponding group are By responding by timing within the group, the terminal interface 10 responds with individual timing, and when the terminal interface 10 sends a ringing signal to all the groups, from all the terminal devices, it is analog information if it is a sensor. Any other device can collect status information. Further, the terminal interface 10 can output an activation signal by designating an address when necessary, and can individually output an activation signal to the controlled device.
[0014]
Thus, from the information on each terminal device collected by the terminal interface 10, the control unit 15 determines the presence or absence of a fire or the like. That is, the analog information of each fire detector is a physical quantity based on fire, is the level of heat and smoke, and is judged to be a fire when the analog value is compared with a fire discrimination reference value, etc. . Further, it is possible to determine that a fire has occurred when receiving notification information from a manual transmitter (not shown) or fire state information from an on / off type fire detector.
[0015]
For example, when the fire detector of AD1 is informing, the control unit 15 causes the display unit 12 to display a fire, reads out the zone from the interlocking table in the storage unit 14, and Z1 and Z12 are set. Therefore, an address is specified to AD3 and AD45 via the terminal interface 10 and an activation signal is output. Since IP1 is set, information for starting IP1 is output to the LAN via the LAN interface 11. And the terminal device in which IP1 is set is controlled among the terminal devices connected to other fire receivers.
[0016]
At this time, the display unit 12 displays the fire information in the order in which they are issued on an LCD (not shown). As items at this time, for example, rank, address, state, type analog value is used. Specifically, when AD2 is fired in the second report,
1 AD001 FIRE SD2 13.8%
2 AD002 FIRE SD2 11.3%
Is displayed. Here, “FIRE” indicates an alarm, and “PRE” or the like can be used when other preliminary alarms are used. In addition, “SD2” indicates two types of smoke detectors as types, and it is simple to determine in advance as abbreviations for various terminal devices such as “HD1” for one type of heat detector and “CP” for a transmitter. Can be displayed. “13.8%” is a numerical value indicating the physical quantity detected by the fire detector, here a numerical value indicating smoke density, and is an analog value collected by the terminal interface 10 by signal transmission. This collecting operation is always performed. Based on this, the control unit 15 takes in an analog value from the terminal interface 10 and updates the numerical value of the display unit 12 as needed to obtain a value close to the current value. Here, in the case of a heat sensor, the temperature is naturally displayed and can be displayed as “65C”. The display of numerical values indicating physical quantities is only for terminal devices that return analog values as transmission signals, and terminal devices such as transmitters and fire detectors that return only on-off information display numerical values indicating physical quantities. Is omitted.
[0017]
In this way, by displaying the analog value of the fire detector that was reported along with other fire information, it is possible to assume the scale of the fire, that is, whether the fire was reported at the last minute level, or quite high It is possible to make the manager recognize whether a fire has been triggered at the level. Furthermore, by updating this analog value and displaying the current level as much as possible, the level of the second report is lower than the first report, for example, and it is predicted that the fire has expanded normally. Yes, but the first report level may go down. It can be predicted that fire extinguishing activities such as sprinkler facilities have started and the fire extinguishing direction is heading. In particular, by updating to the latest information, the situation in the field can be assumed based on factors over time.
[0018]
Here, in this embodiment, as the numerical value indicating the physical quantity detected by the fire detector that is written together when displaying the fire information, the analog value that the terminal interface 10 collects from each fire detector is always used. As a case where such analog addressable information is not collected, there is a case where only state information is collected from each fire detector. At that time, as a different embodiment, a signal for requesting analog information separately from the status information is prepared for the fire detector recognized by the fire receiver as an alarm, and the analog information is sent to the fire detector. It is possible to use an analog value by adding a function to output an analog value in response to a request, and to add an analog information collection function to state information collection, and to write an analog value together with a fire information display it can.
[0019]
In addition, the display unit 12 of the fire receiver 1 can display and confirm the state of the interlock setting. That is, when an input for designating a zone is performed using the operation unit 13, the control unit 15 searches the interlocking table in the storage unit 14 for the designated zone and extracts a terminal device in which the zone is set. Then, the result is displayed on the display unit 12. Specifically, for example, when Z7 is designated as the zone,

Is displayed. Note that “SD2” represents two types of smoke detectors for the types of terminal devices as in the case of the fire information display, and “BL” represents the district acoustic device. Therefore, it can be understood from this content that Z7 is set to be linked so that the AD17 area sound device is sounded when the AD15 and AD16 fire detectors are activated.
[0020]
Similarly, for another zone, for example, when Z12 is designated,
Z012 AD001 SD2 AD045 DR
It can be understood that “DR” is a fire door, and that Z12 is set so that the fire door of AD45 is interlocked when the fire detector of AD1 is triggered. Although these Z7 and Z12 are shown in a simplified manner, in the actual linkage setting, many terminal devices are often involved in one linkage, and the confirmation information is obtained for each terminal device based on the address individually. There is no need to check, and it is possible to check the link source and link destination terminal devices in a single operation check operation.
[0021]
For example, when the link setting is not stored in the storage unit 14 but is stored individually in each terminal device, the list display is similarly performed by collecting information via the terminal interface 10. It becomes possible.
[0022]
In the above embodiment, the address, type, and the like of each terminal device are displayed on the fire information display, but this is an example, and the items may be appropriately selected. The same applies to terminal device information displayed by zone designation.
[0023]
Based on each embodiment as described above, the present invention displays a fire information including a rank, an address, and a status in the order in which a plurality of fire detectors are connected via a signal line and the order, address and status are issued. In the fire receiver that displays characters on the part, the fire receiver collects analog values related to physical quantities detected from each fire detector via the signal line, and determines the fire from the analog values and issues a fire. A fire discriminating unit for identifying a detector is provided, and the display unit updates a numerical value indicating a physical quantity detected by the fire detector together with the fire information indicating the fire detector to be notified when a fire occurs. be those displayed side by side with a numerical value indicating the physical quantity, based on the collected analog values, this collection operation is performed at all times, janitor predict the situation assumed and field scale of fire Rukoto can.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a fire receiver according to an embodiment of the present invention.
FIG. 2 is an explanatory diagram for explaining an interlocking table set in the storage unit of FIG. 1;
[Explanation of symbols]
1 Fire Receiver 10 Terminal Interface 12 Display Unit 14 Storage Unit 15 Control Unit

Claims (2)

Via the signal line is connected to a plurality of fire detectors, a fire occurs, rank, in the fire receiver for character display on the display unit in the order in which the alarm of the fire information including address and status,
The fire receiver includes a fire determination unit that collects an analog value related to a physical quantity detected from each fire detector via the signal line, determines a fire from the analog value, and identifies a fire detector to be notified. And
The display unit displays the fire information indicating the fire detector to be notified by the occurrence of a fire, and displays the physical quantity detected by the fire detector side by side while updating the numerical value indicating the physical quantity. Is a fire receiver characterized in that this collecting operation is always performed based on the collected analog values . The fire discriminating unit collects the state information of each fire detector via a signal line, and when the fire detector to be notified is specified, requests analog information from the fire detector as a numerical value indicating a physical quantity,
The fire receiver according to claim 1, wherein the fire detector when collecting state information is provided with a function of outputting an analog value in response to a request for analog information separately from the state information.

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