JP2004133770A - Fire alarm facility and fire sensor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fire alarm facility in which an on/off fire sensor for transmitting a fire signal generated by making a line a short circuit state when a fire is detected and a transmission use fire sensor for using a transmission signal to communicate with a fire receiver are connected on the same line. <P>SOLUTION: This fire alarm facility has: the fire receiver; the on/off fire sensor connected to the fire receiver through a prescribed line and for generating the fire signal by making the line a short circuit state when a fire is detected; and the transmission use fire sensor connected to the fire receiver through the prescribed line and for using the transmission signal to communicate with the fire receiver. Communication by using the transmission signal between the fire receiver and the transmission use fire sensor is stopped when the fire signal is generated. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a fire alarm system and a fire detector.
[0002]
[Prior art]
Conventionally, a fire detector connected to a P-type fire receiver is connected to the P-type fire receiver via a predetermined line, and when a fire is detected, the line is short-circuited or short-circuited with low impedance. , An on / off fire sensor (general fire sensor) that generates a fire signal, and a fire sensor that outputs only ON / OFF signals.
[0003]
On the other hand, a fire detector connected to the R-type fire receiver is connected to the R-type fire receiver via a predetermined line, and communicates with the R-type fire receiver using a transmission signal. This is an addressable fire detector.
[0004]
[Problems to be solved by the invention]
When connecting the on / off fire detector to a line, a P-type fire receiver is used which detects that the line is in a short-circuit state and recognizes that this state is a state in which a fire signal is output. That is, a P-type fire receiver, which is a fire receiver dedicated to the ON / OFF fire detector, is connected to the line.
[0005]
On the other hand, when a transmission-use fire detector is connected to a line, an R-type fire receiver that recognizes a fire signal by analyzing a transmission signal generated on the line is used. An R-type fire receiver, which is a fire receiver dedicated to the device, is connected to the line.
[0006]
Therefore, if an on / off fire detector and a transmission use fire detector are mixedly connected to the line to which the R-type fire receiver is connected, the fire signal from the on / off fire detector can be recognized. There is a problem that can not be. On the other hand, if the ON / OFF fire detector and the transmission use fire detector are mixedly connected to the line to which the P-type fire receiver is connected, the fire signal from the transmission use fire detector cannot be recognized. There is a problem.
[0007]
That is, in the above conventional example, a transmission signal is used between an on / off fire detector (general fire detector) for transmitting a fire signal generated by short-circuiting the line upon detection of a fire, and a fire receiver. There is a problem that it is not possible to connect a transmission use fire detector (addressable fire detector) that communicates with the same line.
[0008]
The present invention uses a transmission signal between an on / off fire detector (general fire detector) for transmitting a fire signal generated by short-circuiting the line upon detection of a fire and a fire receiver. It is an object of the present invention to provide a fire alarm system capable of connecting a transmission use fire detector (addressable fire detector) to the same line.
[0009]
[Means for Solving the Problems]
The present invention relates to a fire receiver, an on / off fire sensor connected to the fire receiver via a predetermined line, and generating a fire signal by short-circuiting the line when a fire is detected; A fire detector that is connected to the fire receiver via a line of (b) and communicates with the fire receiver by using a transmission signal, wherein the on / off fire detector generates a fire. A signal and a signal between the transmission use fire detector and the fire receiver are communicated via the predetermined line, and a transmission signal between the fire receiver and the transmission use fire detector is transmitted. This is a fire alarm system that stops communication when used when a fire signal occurs.
[0010]
Embodiments and Examples of the Invention
[First Embodiment]
FIG. 1 is a diagram showing a fire alarm system FA1 according to a first embodiment of the present invention.
[0011]
The fire alarm system FA1 has a fire receiver RE1, a line, an on / off fire detector SE1, a transmission use fire detector SE2, and a terminator R.
[0012]
The on / off fire detector SE1 is connected to the fire receiver RE1 via a line, and generates a fire signal by short-circuiting the line or low-impedance short-circuit (hereinafter, referred to as "short-circuit") upon detection of a fire (hereinafter, referred to as "short-circuit"). This is a fire detector to send out).
[0013]
The transmission-use fire detector SE2 is a fire detector that is connected to the fire receiver RE1 via the above line and communicates with the fire receiver RE1 using a transmission signal.
[0014]
In the fire alarm system FA1, a fire signal generated by the on / off fire detector SE1 and a signal between the transmission use fire detector SE2 and the fire receiver RE1 are communicated via a line. Communication using the transmission signal between the transmission use fire detector SE2 and the fire receiver RE1 is stopped when a fire signal is generated.
[0015]
FIG. 2 is a block diagram illustrating a configuration of the fire receiver RE1.
[0016]
The fire receiver RE1 includes a power supply unit 11, a signal transmission circuit 12 for transmitting a transmission signal, a signal reception circuit 13 for receiving a transmission signal, a fire detection circuit 14 for receiving a short-circuit fire signal, and a line disconnection. It has a disconnection detection circuit 15, a control circuit 16, a main control unit 17, and a display operation unit 18 for monitoring, and has a common terminal C to which a power / signal line is connected and a plurality of line terminals L1 to Ln. In addition, a plurality of fire detectors SE1 and SE2 are connected. Each detector line is connected between these terminals C and L1 to Ln, and a terminator R is arranged at each terminal portion. In the block configuration in the fire receiver RE1, a signal transmission circuit 12, a signal reception circuit 13, a fire detection circuit 14, a disconnection detection circuit 15, and a control circuit 16 are arranged for each sensor line. , Terminals L1,..., Ln. The common terminal C is commonly connected to each sensor line.
[0017]
When the fire detection circuit 14 detects a short-circuited fire signal, the control circuit 16 and the main control unit 17 send the signal transmission circuit 12 and the signal reception circuit 13 via the line connected to the fire detection circuit 14. The subsequent communication of the transmission signal with the fire detector is stopped. Further, even when the signal receiving circuit 13 receives a fire signal due to a transmission signal, the signal transmitting circuit 12 and the signal receiving circuit 13 communicate with the fire detector via the line to which the signal receiving circuit 13 is connected. The communication of the subsequent transmission signal in the above may be stopped.
[0018]
FIG. 3 is a block diagram showing a specific example of the transmission use fire detector SE2.
[0019]
The transmission use fire detector SE2 is a partial transmission use fire detector that transmits a fire signal by short-circuiting a line and communicates other signals other than the fire signal with a transmission signal. The fire detection function is a photoelectric type. This is an example of a certain case.
[0020]
The fire detector SE2 for partial transmission includes a light emitting circuit 31a1, a light receiving circuit 31a2 for detecting scattered light due to smoke, an amplifier circuit 31b, and a transmission circuit 41 for transmitting a fire signal as a short-circuit signal and transmitting a transmission signal as a pulse signal. A transmission receiving circuit 42 for receiving a transmission signal, a constant voltage circuit 51, a power supply circuit 52, a charging circuit 53 for preventing the influence of voltage fluctuations when a transmission signal flows through a line, a timing circuit 61, a microcomputer, , A confirmation light circuit 80 that lights up in the event of a fire, a clock oscillation circuit 81, an EEPROM 91 that stores addresses and the like, and a diode bridge DB. The transmission receiving circuit 42 is provided with a line short-circuit detecting circuit that detects a low voltage state in which a short-circuit fire signal is flowing in the line, and the transmitting circuit 41 detects a line short-circuit by the line short-circuit detecting circuit. A signal stop circuit for stopping transmission of a transmission signal is provided.
[0021]
That is, the fire sensor SE2 for partial transmission uses a fire signal transmitting means for transmitting a fire signal generated by short-circuiting a line when a fire is detected, and a self-address and a command signal using a transmission signal from the fire receiver. A transmission signal recognizing means for receiving and recognizing the received self address and the command signal, a transmission signal transmitting means for transmitting a signal other than the fire signal as a transmission signal to the fire receiver, A line short-circuit detecting means for monitoring and detecting a low voltage state in which a short-circuit fire signal is flowing, and transmitting a transmission signal when the line short-circuit detecting means detects a short circuit in the line or when the self signal is transmitted. A signal stopping means for stopping the transmission of the transmission signal by the means; and a test means for periodically testing for the presence or absence of an abnormality in the sensor.
[0022]
Here, the control circuit 71 and the transmission circuit 41 are examples of fire signal transmitting means for transmitting a fire signal by short-circuiting a line when a fire is detected.
[0023]
The transmission signal receiving circuit 42 and the control circuit 71 receive a self-address and a command signal using the transmission signal from the fire receiver, and operate as transmission signal recognition means for recognizing the received self-address and the command signal. It is an example.
[0024]
The control circuit 71 and the transmission circuit 41 are examples of transmission signal transmitting means for transmitting a signal other than the fire signal as a transmission signal to the fire receiver.
[0025]
The control circuit 71 and the line short-circuit detection circuit of the transmission reception circuit 42 are examples of a line short-circuit detection unit that determines whether a line is in a short-circuit state.
[0026]
The control circuit 71 and the signal stop circuit of the transmission circuit 41 are examples of signal stop means for stopping transmission of a transmission signal by the transmission circuit 41 when the line short detection means detects a short circuit.
[0027]
The control circuit 71 and the timing circuit 61 are examples of test means that periodically test for the presence or absence of a detector abnormality such as abnormality in smoke sensitivity and abnormality in a light emitting element, and store the test results until the next test. It is.
[0028]
In the above description, as an example of a fire detector for use in transmission, an example of a fire sensor for partial transmission that sends out a fire signal by short-circuiting a line has been described. However, a fire signal is sent to a line using a transmission signal instead of a short-circuit signal. All can be used as fire detectors for transmission.
[0029]
The configuration of the fire sensor for all-transmission use is basically the same as that of the fire sensor SE2 for partial-transmission use shown in FIG. 3, except that the transmission circuit 41 transmits all signals including the fire signal. The control circuit 71 controls the transmission circuit 41 so as to transmit a fire signal by a transmission signal when a fire is detected. Same as the detector.
[0030]
Therefore, in the case of a fire detector using all transmissions, the control circuit 71 and the transmission circuit 41 are examples of fire signal transmitting means for transmitting a fire signal as a transmission signal when a fire is detected. It is an example of transmission signal transmitting means for transmitting a transmission signal to the fire receiver.
[0031]
The configurations of the fire receiver RE2 and the fire detector for transmission SE3 in the second embodiment, and the fire receiver RE3 and the fire detector SE2 for transmission in the third embodiment are the same as those described above.
[0032]
Next, the operation of the above embodiment will be described.
[0033]
FIG. 4 is a diagram showing signal waveforms between the lines C and Ln in the fire alarm facility FA1.
[0034]
Normally, the fire detector SE2 and the fire receiver RE1 communicate with each other by a transmission signal composed of a plurality of pulses, as shown in the left half of FIG.
[0035]
When a fire occurs, one of the on / off fire detector SE1 and the partial transmission use fire detector SE2 operates to short-circuit the line, as shown in the right half of FIG. , A fire signal whose level is close to GND is generated, and this fire signal is received by the fire receiver RE1.
[0036]
If all of the transmission-use fire detectors are transmission-use fire detectors, a transmission signal composed of a plurality of pulses is sent out to the line as a fire signal, and the fire receiver RE1 fires the transmission signal. The signal is received by the signal receiving circuit 13 to determine whether a fire signal has been received.
[0037]
Therefore, in the fire alarm system FA1, fire detection can be reliably executed, and an on / off fire detector (general fire detector) SE1 and a transmission fire detector can be used without using a repeater or the like. SE2 (addressable fire detector) can be connected to one line in a mixed manner.
[0038]
[Second embodiment]
By the way, in the conventional fire alarm system having the P-type fire receiver, only the disconnection of the line by the terminator is determined, so that even if the fire detector is separated from its base, it cannot be detected. There is a problem.
[0039]
Therefore, in the above-described conventional example using the on / off fire detector, if the on / off fire detector is removed for some reason, the fire itself cannot be detected. The problem is that it is not possible to detect the departure from the line.
[0040]
The present invention provides a fire alarm system that can detect that a fire detector used for transmission is detached from a line when the fire detector used for transmission is removed for some reason. It is intended to provide.
[0041]
FIG. 5 is a block diagram showing a fire alarm system FA2 according to a second embodiment of the present invention.
[0042]
The fire alarm system FA2 has a fire receiver RE2, a line, fire sensors SE3, SE3,.
[0043]
Upon receiving the fire signal from the partially used fire detector SE3, the fire receiver RE2 recognizes that a fire has occurred, and returns it together with the address individually assigned to the partially used fire detector SE3. This is a fire receiver that transmits a command signal to the fire detector SE3 for partial transmission, and is basically the same as the fire receiver RE1.
[0044]
When receiving the address and the return signal, the fire receiver RE2 recognizes that the partial transmission use fire detector SE3 corresponding to the address is connected to the line, and conversely receives the address and the return signal. Otherwise, the partial transmission use fire detector SE3 corresponding to the above address recognizes that it is not connected to the line.
[0045]
When it is determined whether or not there is a disconnection, if the disconnection detection circuit 15 has not detected a disconnection and has not received an address and a return signal from the partially used fire detector SE3, it is recognized that the disconnection has occurred. However, if the disconnection is detected and the address and the return signal are not received from the partial transmission use fire detector SE3 after the predetermined address, it can be determined that the subsequent portion is the disconnection.
[0046]
FIG. 6 is a diagram showing a voltage signal waveform between the lines C and Ln in the fire alarm facility FA2.
[0047]
FIG. 6A is a diagram illustrating a voltage signal waveform between C and Ln when the fire sensor SE3 for partial transmission is connected to a line.
[0048]
The address of the partial transmission use fire detector SE3 and a predetermined command signal (for example, a test result return command) are transmitted from the fire receiver RE2 to the partial transmission use fire detector SE3 as a transmission signal. According to its own address and the command signal, the unit transmission use fire detector SE3 returns a response signal (for example, a test result) as a transmission signal to the fire receiver RE2 as shown in FIG. 6 (1). . If the received address is the same as the transmitted address, the fire receiver RE2 determines that the partial transmission use fire detector SE3 is normally connected to the line.
[0049]
However, after the address of the partial transmission use fire detector SE3 and a predetermined command signal are transmitted as a transmission signal from the fire receiver RE2 to the partial transmission use fire detector SE3, the partial transmission use fire detector SE3 is transmitted. If the transmission signal does not appear on the line at the timing when the sensor SE3 returns, as shown in FIG. 6 (2), the fire receiver RE2 removes the partial transmission use fire sensor SE3 from the line. Judge that there is.
[0050]
According to the fire alarm system FA2, when a fire sensor using transmission is partially used, a fire signal is generated by short-circuiting continuously for a predetermined time, which is the same as the on / off fire sensor. If the transmission-use fire detector SE3 is removed for any reason, it can be detected that the fire detector has been disconnected from the line.
[0051]
Next, the operation of the fire alarm facility FA2 will be described.
[0052]
FIG. 7 is a flowchart showing the operation of the fire alarm facility FA2.
[0053]
First, the fire receiver RE2 transmits data composed of an address and a command signal door to the fire detector SE3 (S1), and receives a response from the fire detector SE3 (S2), and the response is normal ( S3) At this time, if there is an abnormal display on the display / operation unit of the fire receiver RE2 (S4), the displayed abnormal display is cleared (S5). Then, the display of the address of the fire sensor SE3 used for partial transmission and the line number corresponding to the fire sensor SE3 used for partial transmission is cleared (S6).
[0054]
On the other hand, after the data is transmitted to the partial transmission use fire detector SE3 (S1), if there is no response from the partial transmission use fire detector SE3 (S2), the display operation unit indicates that the detachment, that is, abnormality has occurred. (S11), and displays the address of the removed partial transmission use fire detector SE3 and the line number corresponding to the partial transmission use fire detector SE3 (S12).
[0055]
If there is a response (S2), but the response is not normal (S3), it is displayed that an abnormality has occurred (S11), and the address of the fire detector SE3 used for partial transmission of the abnormal response is displayed. And the line number corresponding to the partial transmission use fire detector SE3 (S12).
[0056]
In addition, even when all the transmission use fire detectors are used as the transmission use fire detectors, the only difference is that the fire signal is transmitted as the transmission signal, and the others are the same as the transmission use fire detectors.
[0057]
[Third embodiment]
Meanwhile, a terminator is connected to the end of the line for checking the disconnection of the line connected to the conventional P-type fire receiver. When the line is disconnected, the terminator is disconnected from the line, so that the impedance of the line as a load viewed from the P-type fire receiver increases, the current flowing through the line decreases, and the value of the current flowing through the line is detected. Then, it is possible to recognize that the line is disconnected halfway.
[0058]
However, in the above-mentioned conventional example, when the above-mentioned line is used as a main line, the main line is branched, and a terminator is provided also at the end of the branch line, one terminal is disconnected because the impedance of the terminator is originally low. Even so, it is difficult to determine the disconnection of the line because the value of the current flowing through the line does not change significantly, and even if the disconnection is recognized, which line caused the disconnection However, there is a problem that the main line cannot be actually branched.
[0059]
An object of the present invention is to provide a fire alarm system capable of reliably detecting a disconnection of a branch line without using a terminator in a branch line for branching a main line when a fire receiver is used. It is assumed that.
[0060]
FIG. 8 is a block diagram showing a fire alarm system FS3 according to a third embodiment of the present invention.
[0061]
The fire alarm system FS3 includes a fire receiver SE3, a main line ML, a terminator R connected to the main line ML, on / off fire detectors SE1, SE1,..., And a transmission use fire detector SE2. , And a transmission use fire detector SE2, SE2,... Connected to the branch line DL.
[0062]
The on / off fire detector SE1 is a fire detector that generates a fire signal by short-circuiting a line when a fire is detected.
[0063]
The main line ML is a line that connects the on / off fire detector SE1 and the terminator R to the P-type fire receiver RE3.
[0064]
The transmission-use fire detector SE2 is a fire detector that is connected to the fire receiver RE3 via the branch line DL and communicates with the fire receiver RE3 using a transmission signal. Either a transmission fire detector or a full transmission fire detector may be used.
[0065]
In the fire alarm system FA3, the fire receiver RE3 detects whether or not the terminal R is connected to the main line ML, and if the terminal R is connected, the main receiver ML is disconnected. It can be recognized that it has not occurred.
[0066]
On the other hand, communication with each of the transmission-use fire detectors SE2 connected to the branch line DL is performed based on the address individually assigned to each of the transmission-use fire detectors SE2. If communication can be performed with the fire detector SE2, it can be determined that no disconnection has occurred in the branch line DL.
[0067]
If it is not possible to communicate with at least one of the transmission use fire detectors SE supposed to be connected to the branch line DL, the respective transmission use fire detectors SE2 are out of order or the transmission use fire detectors SE2 are defective. It is whether or not the wire is broken before the fire detector SE2. At this time, if it is not possible to communicate with all of the transmission use fire detectors SE which should be connected to the subsequent stage of the transmission use fire detector SE2 which could not communicate, the branching is performed. It can be determined that the line DL is disconnected.
[0068]
The fire detector of the main line ML may be an on / off fire detector only, or may be only a part or all of the transmission use fire detectors.
[0069]
【The invention's effect】
According to the first aspect of the present invention, a transmission signal is transmitted between an on / off fire detector (general fire detector) for transmitting a fire signal by short-circuiting the line when a fire is detected, and a fire receiver. It is possible to connect a transmission-use fire detector (addressable fire detector) that communicates by using the same line to the same line.
[0070]
According to the second aspect of the present invention, in a fire alarm system having a fire receiver, when the fire detector is out of its base, it can be detected that the fire detector is out.
[0071]
According to the third aspect of the present invention, when a fire receiver is used, it is possible to reliably detect a break in a branch line without using a terminator in a branch line that branches the main line.
[0072]
According to the invention described in claim 6, communication can be performed between the fire receiver and the fire detector during monitoring, and after a fire signal is generated, a fire alarm system that automatically stops communication is obtained. It has the effect that it can be done.
[0073]
According to the seventh aspect of the invention, the fire detector for partial transmission can be used for a conventional P-type fire receiver that receives only a short-circuited fire signal that does not have a transmission signal communication function. Play.
[Brief description of the drawings]
FIG. 1 is a diagram showing a fire alarm system FA1 according to a first embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration of a fire receiver RE1.
FIG. 3 is a block diagram showing a specific example of a transmission use fire detector SE2.
FIG. 4 is a diagram showing signal waveforms between lines C and Ln in the fire alarm facility FA1.
FIG. 5 is a block diagram showing a fire alarm system FA2 according to a second embodiment of the present invention.
FIG. 6 is a diagram showing a voltage signal waveform between lines C and Ln in the fire alarm facility FA2.
FIG. 7 is a flowchart showing an operation in the fire alarm facility FA2.
FIG. 8 is a block diagram showing a fire alarm system FS3 according to a third embodiment of the present invention.
[Explanation of symbols]
FA1, FA2, FA3… Fire alarm equipment,
RE1, RE2, RE3 ... fire receiver,
SE1: ON / OFF fire detector,
SE2: Transmission fire detector,
SE3: Fire detector that uses some transmission,
R ... terminator,
ML: Main line,
DL: Branch line.

Claims (7)

With a fire receiver;
An on / off fire detector connected to the fire receiver via a predetermined line and generating a fire signal by short-circuiting the line when a fire is detected;
A transmission-use fire detector connected to the fire receiver via the predetermined line and communicating with the fire receiver using a transmission signal;
Communicating a fire signal generated by the on / off fire detector and a signal between the transmission use fire detector and the fire receiver via the predetermined line; A fire alarm system characterized in that communication using a transmission signal between a receiver and the above-mentioned transmission use fire detector is stopped when a fire signal is generated. A fire signal transmitting means for transmitting a fire signal by short-circuiting a line when a fire is detected, a self-address and a command signal using a transmission signal are received from a fire receiver, and the received self-address and the command are received. A partial transmission use fire detector comprising transmission signal recognition means for recognizing a signal, and transmission signal transmission means for transmitting a signal other than the fire signal as a transmission signal to the fire receiver;
When the fire signal is received from the partial transmission use fire detector, it is recognized that a fire has occurred, and on the other hand, a return command signal is sent to the partial transmission use fire detector together with the address individually assigned to the fire transmission. A fire receiver for transmitting to the fire detector used for transmission;
When the fire receiver receives the address and / or the return signal, the partial transmission use fire detector corresponding to the address recognizes that the fire detector is connected to the line, and conversely, A fire alarm system characterized in that, when the address and / or the return signal are not received, the partial transmission use fire detector corresponding to the address recognizes that it is not connected to the line. With a fire receiver;
A main circuit comprising a terminator and connecting an on / off fire detector and / or a transmission use fire detector to the P-type fire receiver;
A branch line branched from the main line;
A transmission-use fire detector connected to the fire receiver via the branch line and communicating with the fire receiver using a transmission signal;
Fire alarm equipment characterized by having. In claim 1 or claim 3,
The transmission-use fire detector generates a fire signal by short-circuiting the line when a fire is detected, and communicates signals other than the fire signal with the fire receiver using a transmission signal. A fire alarm system characterized in that: In any one of claims 1, 3, and 4,
The fire alarm device according to claim 1, wherein when the fire receiver receives a fire signal from any of the lines, communication of subsequent transmission signals by the line is stopped. With a fire receiver;
It is connected to the fire receiver via the predetermined line, generates a fire signal by short-circuiting the line when a fire is detected, and further transmits a signal other than the fire signal to and from the fire receiver. Communication using a fire detector used for transmission;
Wherein when the fire signal is generated, the subsequent communication by using the transmission signal between the fire receiver and the transmission use fire detector by the line in which the fire signal is generated is stopped. Facility. Fire signal sending means for sending a fire signal by short-circuiting the line when a fire is detected;
Transmission signal recognizing means for receiving a self-address using a transmission signal and a command signal from a fire receiver, and recognizing the received self-address and the command signal;
Transmission signal transmitting means for transmitting a signal other than the fire signal as a transmission signal to the fire receiver;
A fire detector for transmission use, comprising:

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