JP3849754B2 - Fire alarm system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fire alarm system. In particular, the present invention relates to a processing method when a fire receiver transmits a data signal related to a response when a data signal related to a fire is transmitted from a plurality of fire receivers.
[0002]
[Prior art]
Currently, fire alarms are systemized due to the expansion of disaster prevention scope and the necessity of collecting detailed data (information). At that time, a plurality of fire detectors, alarms, and the like are connected to the fire receiver, and the fire receiver performs processing related to the fire alarm. A plurality of fire receivers are connected to each other by a LAN (Local Area Network), and data signals (hereinafter simply referred to as signals) are exchanged to share data. In this way, the fire alarm system is configured.
[0003]
There are two types of signal transmission. One is when one fire receiver sends a signal to another fire receiver. The other case is a so-called global transmission in which a fire receiver transmits a signal to all other fire receivers connected to the LAN. Here, particularly global transmission will be described. When one fire receiver performs a global transmission, another fire receiver transmits a response data signal (hereinafter referred to as a response signal) to indicate that the signal has been received correctly.
[0004]
FIG. 3 is a diagram showing a signal transmitted on a conventional LAN. In FIG. 3, it is assumed that five fire receivers are connected to the LAN. Fig. 3 (1) shows that each fire receiver individually sends a response signal to fire receiver # 1 in response to a global fire signal transmitted by fire receiver # 1 designating all fire receivers as destinations. Indicates that it has been sent. In this case, five signals (fire signal 1 and response signal 4) are transmitted on the LAN. FIG. 3B shows that the fire receiver # 1 transmits a global fire signal, and then the fire receiver # 2 also transmits a global fire signal. Here, the fire signal has priority over the response signal. Therefore, the fire signal by the fire receiver # 2 is transmitted before all the fire receivers have transmitted the response signals to the fire signal transmitted by the fire receiver # 1. Since each response signal has no particular priority, the response signal for the fire signal transmitted by the fire receiver # 2 before the response signal for the fire signal transmitted by the fire receiver # 1 is first. Sometimes sent. In this case, ten signals (fire signal 2, response signal 8) are transmitted on the LAN. FIG. 3 (3) shows that each fire receiver has transmitted a response signal in response to a global fire signal transmitted by five fire receivers. Here, in order to simplify the explanation, the response signals are transmitted to the LAN in order. However, as described above, there is a case where the response signals are not transmitted in order because there is no particular priority order. . In this case, 25 signals (fire signal 5 and response signal 20) are transmitted on the LAN.
[0005]
[Problems to be solved by the invention]
Here, for example, 64 fire receivers are connected via a LAN. When one fire receiver transmits a global fire signal, the remaining 63 fire receivers transmit response signals to the fire signal (the number of all signals is 64). Subsequently, when another fire receiver transmits a global fire signal, the remaining 63 fire receivers also transmit response signals. In this way, when all the fire receivers transmit fire information one after another, a total of 4096 (= 64 × 64) signals are exchanged on the LAN. Actually, when the alarm is sounded for a fire alarm, it is usually performed in a necessary area, but all the alarms may be sounded as needed. At that time, the state of the signal on the LAN is the same as described above.
[0006]
Among such a large number of signals, each fire receiver is set so that a fire information signal is transmitted with priority over other signals. However, if a large amount of signals are transmitted, there is a high possibility that the signals collide with each other on the LAN and the data is corrupted, and the signal must be retransmitted. Further, the processing after receiving these signals becomes complicated. Such a wasteful signal would require a fire receiver that satisfies the processing capability taking into account the worst results.
[0007]
Therefore, the present invention aims to solve such problems and to obtain a fire alarm system capable of reducing the amount of signals exchanged by a LAN as much as possible.
[0008]
[Means for Solving the Problems]
The fire alarm system according to the present application connects at least a fire alarm, a terminal device including a fire detector, and a fire receiver that operates the terminal device and performs fire detection and processing at the time of a fire with a signal line, In addition, a fire alarm system in which a plurality of fire receivers are connected via a LAN and signals are exchanged between the fire receivers. In each fire receiver, a fire is detected from another fire receiver. When a fire signal is transmitted, and when a response signal indicating a response to the fire signal is transmitted, before transmitting the response signal to another fire receiver, another fire receiver also transmits the response signal. When a fire signal is transmitted, a response signal capable of responding in common to the fire receivers is created and transmitted via the LAN.
In a fire alarm system in which a plurality of fire receivers are LAN-connected as in the present invention, each fire receiver transmits a response signal to the fire signal when a fire signal is transmitted from another fire receiver. To do. Before sending the response signal, if a fire signal is sent from another fire receiver, instead of creating and sending a response signal for each one, create one response signal that can be shared in common The number of signals transmitted over the LAN and exchanged over the LAN is reduced.
[0009]
Further, in the fire alarm system according to the present application, the response signal that can be responded in common includes data specifying all the fire receivers as transmission destinations, and includes information data about the source of the fire signal It is.
In the fire alarm system of the present invention, when a fire receiver transmits a response signal based on the received fire signal, all the fire receivers connected to the LAN are designated as destinations of the response signal, and the signal is Includes the data of the fire receiver of the transmission source that has transmitted the fire signal so that a response to the fire signal can be made without specifying the transmission destination.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1. FIG.
FIG. 1 is a diagram showing a fire alarm system according to a first embodiment of the present invention. In the figure, # 1, # 2, # 3, # 4, and # 5 are fire receivers. Each fire receiver is connected to the LAN 10 and exchanges data signals via the LAN 10. Although different numbers are assigned to fire receivers connected to the LAN, each fire receiver has the same configuration. The LAN 10 is based on the RS485 standard, for example. 100- # 1 to 100- # 5 are terminal device groups connected to the respective fire receivers. The terminal device group shown in FIG. 1 represents a fire detector (sensor), a fire alarm (bell), and a smoke prevention device. In the present embodiment, it is not necessary to distinguish between these.
[0011]
Conventionally, response signals are individually created and transmitted for each fire signal. In this embodiment, a response signal combined with a fire signal received before transmission is created and transmitted. Fire receivers # 1 to # 5 create a response signal based on the received fire signal, but if another fire signal is received before transmission, the created response signal is discarded and a new response signal is created. To send.
[0012]
FIG. 2 is a diagram illustrating a signal transmitted on the LAN. Also in FIG. 2, the timing at which the fire receivers # 1 to # 5 transmit the fire signal is the same as in FIG. In the case of FIG. 2 (1), since only one fire signal is transmitted, five signals (fire signal 1, response signal 4) are transmitted on the LAN without any particular change. It will be. However, in the past, the fire receiver that transmitted the fire signal was used as the transmission destination of the response signal, but this is transmitted to all the fire receivers.
[0013]
In the case of FIG. 2 (2), before the fire receiver # 2 transmits the fire signal, the fire receiver # 2 and the fire receiver # 3 respond to the fire signal transmitted by the fire receiver # 1. A response signal was sent. Therefore, these response signals include only response data for fire receiver # 1. Even after fire receiver # 2 sent a fire signal, fire receiver # 3 sent a response signal to the fire signal sent by fire receiver # 1, so fire receiver # 2 sent it A response signal is being sent to the fire signal. On the other hand, fire receiver # 4 and fire receiver # 5 did not transmit a response signal to the fire signal transmitted by fire receiver # 1 even after fire receiver # 2 transmitted a fire signal. Therefore, the fire receiver # 4 and the fire receiver # 5 discard the response signal to the fire signal transmitted by the fire receiver # 1, and the fire signal newly transmitted by the fire receiver # 1 and the fire receiver # 2. A response signal is generated and transmitted. Therefore, in this case, eight signals (fire signal 2 and response signal 6) are transmitted on the LAN. In addition, when a fire signal is transmitted from two fire receivers out of five fire receivers, at least seven signals (fire signal 2, response signal 5) are transmitted on the LAN. The data of information about the transmission source of the signal to be responded is set in the response signal.
[0014]
In the case of FIG. 2 (3), the minimum number of signals transmitted on the LAN is shown with respect to the so-called globally transmitted fire signals in which five fire receivers designate all fire receivers as transmission destinations. ing. In the least case, the response signal is transmitted only for the number of fire receivers. In the case of FIG. 2 (3), ten signals (fire signal 5, response signal 5) are transmitted on the LAN.
[0015]
The fire receiver that has received the fire signal transmits a response signal, operates the fire alarm of the terminal device group, rings the bell, and notifies a fire or the like.
[0016]
As described above, in the first embodiment, the fire receivers # 1 to # 5 transmit response signals to fire signals transmitted from fire receivers other than themselves, and in that case, a plurality of fires are received. When a fire signal is transmitted from the receiver, since the response signals are collectively transmitted globally, the number of signals exchanged on the LAN 10 can be reduced, and each fire receiver has a complicated process. It is not necessary to do.
[0017]
Embodiment 2. FIG.
In the above-described first embodiment, the example applied to the fire alarm system has been described, but the present invention is not limited to the fire alarm system. For example, the present invention can be applied to a system that uses polling.
[0018]
【The invention's effect】
As described above, according to the fire alarm system of the present application, before each fire receiver transmits a response signal to a fire signal transmitted from another fire receiver, another fire receiver also transmits a fire signal. Is sent, the response signal that can be responded in common is created and transmitted via the LAN. Therefore, if it is most efficient, each fire receiver can receive all other responses with one response signal. It is possible to respond to fire signals and reduce the amount of signals exchanged over the LAN. In particular, the greater the number of fire receivers connected, the more effective. Therefore, the fire receiver does not have to perform complicated processing.
[0019]
Further, according to the fire alarm system of the present application, when the fire receiver transmits a response signal based on the received fire signal, all the fire receivers connected to the LAN are designated as destinations of the response signal. Since the signal includes the data of the fire receiver of the sender that sent the fire signal, if the fire receiver of the fire signal receives the response signal, If there is a fire receiver that does not respond, it is possible to take measures such as sending a fire signal again.
[Brief description of the drawings]
FIG. 1 is a diagram showing a fire alarm system according to a first embodiment of the present invention.
FIG. 2 is a diagram illustrating a signal transmitted on a LAN.
FIG. 3 is a diagram illustrating a signal transmitted on a conventional LAN.
[Explanation of symbols]
# 1, # 2, # 3, # 4, # 5 Fire receiver 10 LAN
100- # 1 to 100- # 5 terminal equipment group

Claims (2)

A terminal device including at least a fire alarm and a fire detector is connected to a fire receiver that operates the terminal device and performs fire detection and processing at the time of a fire with a signal line, and a plurality of fire receivers are connected to a LAN. And a fire alarm system for exchanging signals between the fire receivers,
In each fire receiver, when a fire signal that is a signal indicating that a fire has been detected is transmitted from another fire receiver, and when a response signal that is a signal indicating a response to the fire signal is transmitted,
Before transmitting the response signal to the another fire receiver, when the fire signal is transmitted from another fire receiver,
A fire alarm system characterized in that a response signal capable of responding in common to the fire receivers is created and transmitted via the LAN. The response signal capable of responding in common includes data designating all fire receivers as transmission destinations, and includes data of information on the transmission source of the fire signals. The fire alarm system described.

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