JP2862552B2 - Fire alarm system - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a fire alarm system provided with a plurality of terminal devices (fire detectors, detectors, etc.) connected to a fire receiver via a transmission line. More particularly, the present invention relates to a fire alarm system that can easily reduce costs by simply configuring a terminal device that transmits data in response to polling from a fire receiver.

[Prior Art] Generally, in a fire alarm system having a fire receiver and a plurality of terminal devices connected to the fire receiver via a transmission line and having an alarm function, a communication between the receiver and each terminal device is performed. There are two types, R-type and P-type, depending on the form of signal transmission between them. In the R-type alarm system, a receiver sequentially calls terminal devices such as a repeater and a sensor connected to the receiver by polling based on an FSK transmission method, a pulse transmission method, and the like. In response, a status signal of the terminal device is returned.

In the P-type alarm system, polling is not performed from the receiver side, and when a terminal device such as a sensor or a repeater detects an abnormality, for example, an analog amount of smoke amount or a notification address is sent to the receiver side. Are discriminated by being transmitted and received and displayed on the receiver side.

However, in the conventional R-type fire alarm system and P-type fire alarm system, when a fire receiver tries to collect information (for example, smoke density or address, etc.) from a terminal device (fire detector, repeater, etc.). In addition, not only a fire receiver but also a large number of terminal devices provided in a building or the like must have a sophisticated configuration, and as a result, the entire fire alarm system becomes expensive.

[Problems to be Solved by the Invention] As described above, in the conventional fire alarm system, when transmitting a signal from the terminal device side to the receiver side, the R type uses the FSK method, the pulse transmission method, etc. Has been
Both have problems in terms of price. In the case of the P type,
An individual address method is known, in which a transmitter of an individual frequency is provided for each terminal side address, and the receiver side discriminates the individual frequency from each terminal and displays only the address. Since the oscillator must be provided and the oscillation frequency must be individually provided, there are many problems in terms of price and inventory management.

[Means for Solving the Problems] Accordingly, an object of the present invention is to provide a signal transmission from a second device, such as a terminal device, to a fire receiver from a receiver terminal device in a cost-effective manner. Is to do.

Therefore, according to the present invention, a fire receiver (RE) and a plurality of terminal devices (DE, RP) such as fire detectors connected to the fire receiver via a transmission line (L) are provided. While the fire receiver polls the plurality of terminal devices,
In a fire alarm system of a polling system in which a transmission signal is transmitted from the terminal device called by polling to the fire receiver, the fire receiver includes a power supply means (E) for supplying power to the transmission line (L). An oscillator (OSC) that superimposes and outputs an oscillation signal on the transmission line; and a calling unit (1, MPU1, 2 ', Le1, Le2) that outputs a calling signal to the terminal device via the transmission line. Control means (MPU) for inhibiting output of said oscillation signal to said transmission line during transmission of said call signal, and outputting said oscillation signal to said transmission line after transmission of said call signal.
1) receiving means for receiving the transmission signal from the terminal device by monitoring an oscillation signal from the oscillator onto the transmission line and detecting an AC short circuit or non-short circuit of the transmission line. , MPU1), wherein the terminal device comprises: a call discriminating means (3 ′, 4, MPU2) for discriminating a call signal sent from the fire receiver; and a transmission signal to be sent to the fire receiver. And a transmission means (MPU2, 3 ″) for short-circuiting or non-short-circuiting the transmission line in an AC manner in response to the fire alarm.

Further, according to the present invention, a fire receiver (RE) and a plurality of terminal devices (DE, RP) such as fire detectors connected to the fire receiver via a transmission line (L) are provided. In the fire alarm system, the fire receiver includes: a power supply unit (E) that supplies power to the transmission line; an oscillator (OSC) that superimposes an oscillation signal on the transmission line and outputs the signal; An alarm signal receiving means (RL) for receiving an alarm signal of a DC component to be transmitted; and monitoring an oscillation signal from the oscillator onto the transmission line to detect an AC short circuit or non-short circuit of the transmission line. Transmission signal receiving means (11, MPU1, 12) for receiving a transmission signal from the terminal device, wherein the terminal device connects the transmission line to a voltage element (Z
N, a resistor) for short-circuiting in a voltage state and transmitting the warning signal of the DC component (Ln, 13 ″)
A transmission signal transmission means provided on the primary side of the alarm signal transmission means and short-circuiting or non-short-circuiting the transmission line AC in response to a transmission signal to be transmitted to the fire receiver ( C3, SW1) are provided.

[Operation] An oscillation signal is sent to a transmission line by an oscillator. A terminal device that transmits to the fire receiver responds to a transmission signal to be transmitted, and causes the transmission circuit to short-circuit or non-short-circuit the transmission line in an alternating current manner. By monitoring the oscillation signal on the transmission line from the oscillator, it is possible to detect the AC short circuit or non-short circuit of the transmission line. It is possible to receive a transmission signal from a terminal device.

[Embodiment] Hereinafter, an embodiment of the present invention for transmitting a signal from a terminal device to a fire receiver on a signal transmission line will be described with reference to FIGS. 1, 2 (a) and (b) in the case of an R type. The case of the P-type will be described with reference to FIGS. 3 and 4 (a) and (b).

FIG. 1 shows an example of an R-type fire alarm system to which the present invention can be applied. FIG. 2 (a) shows an example of a reception mode of an R-type fire receiver, and FIG. b) shows an example of a transmission mode in a terminal device such as an R-type fire detector or a repeater.

In the R-type fire alarm system shown in FIG. 1, the main point of the present invention lies in the signal transmission from the terminal device to the fire receiver, and the signal transmission format such as polling from the fire receiver to the terminal device is described in the present application. It is not the main point of the invention, but any type may be adopted, but for example, it may be described in a patent application entitled "power transmission and transmission device" filed on the same day as the present invention it can. The patent application includes:
When supplying power and signal transmission from the fire receiver to each terminal device, instead of separately providing a power line and a signal line,
In response to a signal to be transmitted, the power supply is connected to a pair of transmission lines by changing the polarity of the power supply, and each terminal device rectifies the power on the transmission line to be used as a power supply for the terminal device and the transmitted power supply. In FIG. 1, a signal is also received by detecting the polarity of the signal. In the following description with reference to FIG. 1 and FIG. 2, the signal transmission system such as polling from the fire receiver to the terminal device will be described as that of the patent application.

In the fire alarm system of FIG. 1, a transmission line is provided between a fire receiver RE and a fire detector DE or a repeater RP to which a plurality of fire receivers RE are connected for the purpose of power supply and signal transmission. L is provided. As a signal transmitted from the fire receiver RE, in the case of transmitting a signal to the repeater RP, a digital drive command signal to a district bell connected to the repeater RP and a signal to various controllers are provided. When all digital control signals are transmitted to a fire detector DE such as a smoke detector, a data return command or a digital test signal to the smoke detector of the smoke detector is transmitted. It is sent out in serial or serial transmission form.

A digital signal such as a data return command, a drive command, a control command, or a test command to be processed and transmitted by the microprocessor MPU1 of the fire receiver RE is converted into a serial form by the parallel / serial converter 1 and transmitted and received by the transmission / reception circuit. It is given to the second input terminal T _1. Said transmission reception circuit 2, the polarity + and the power source E for terminal equipment in accordance with the polarity of the applied to the input terminal T ₁ signal - either connected to the output of each terminal s ₁ and s _2, or by reversing s ₂ And s ₁ , and the signal provided from the parallel-to-serial converter 1 in this manner is transmitted through the transmission line L with the polarity of the power supply E used also as a power supply for terminal equipment.
Transmitted on.

The transmission signal is received by the transmission / reception circuit / power supply circuit 3 on the terminal device (fire detector DE or relay device RP) side, rectified there, and supplied to the terminal power supply terminal PW as a power supply to be used in the terminal device DE or RP. Taken out of
From the signal output terminal T ₄ of the transmitting / receiving circuit / power supply circuit 3, the transmitted direct-form signal is extracted and supplied to the serial / parallel converter 4. The transmission signal in the serial form given to the serial / parallel converter 4 is converted back to the parallel form there and converted into the microprocessor of the fire detector DE or the repeater RP.
After the signal processing by the MPU 2, the drive circuit 5 for the control command, the drive circuit 6 for the district bell, the drive circuit 7 for the test command, etc. shown as an example are driven, or the data return command by polling is used. In some cases, a sensor level representing the amount of smoke is collected from the smoke sensor to return the data.

Conversely, when transmitting a signal from the terminal device DE or RP to the fire receiver RE, for example, a sensor representing the amount of smoke detected by the smoke detector in response to a data return command from the fire receiver RE. When returning the level signal, the parallel-type sensor level signal detected by the smoke detector is converted to the serial form via the serial-parallel converter 4 by the instruction of the microprocessor MPU2 in the terminal device, and the transmission signal is transmitted. Is supplied to the terminal T ₃ of the transmission / reception circuit / power supply circuit 3, and is transmitted from the transmission / reception circuit / power supply circuit 3 to the transmission line L. Fire receiver
In the RE, the transmission signal transmitted via the transmission line L is supplied from a terminal T2 received by the transmission / reception circuit ₂ to a parallel / serial converter, where it is converted back to a parallel form and converted into a parallel form. The signal is processed by MPU1. After the signal processing, if necessary, an appropriate operation such as displaying on the display / operation unit DP is performed.

Circuit example of the transmitting and receiving circuit 2 shown in Figure 1 is shown in FIG. 2 (a), a transmitting circuit section 2 ', the capacitor C _1, C _2, reactance Le AC component blocking DC blocking ₁ , L
e ₂ , oscillator OSC with internal impedance R ₀ , amplifier A
2 and a receiving circuit unit 2 ″ including a frequency discriminating circuit DEM. A circuit example of the transmitting / receiving circuit and power supply circuit 3 is shown in FIG. And, in addition to the rectifier circuit part RF and the reactance Ln for blocking AC components,
A capacitor C _3, is shown with a switching element SW to be turned on and off through the driver DR by the signal to be transmitted to the fire receiver RE, a transmission circuit portion 3 "containing.

For example, when a call signal is given from the fire receiver RE to the terminal device as in the polling operation, another command signal such as a data return command is added to the address signal of the terminal device to be called to “1”. , 'given to the transmission circuit section 2'"0" in FIG. 2 in a serial form (a) transmitting circuit section 2 from the terminal T ₁ of the normal rotation of the polarity of the power supply E terminal equipment in response to the signal at Or reverse them to make terminals s ₁ and s ₂
, Whereby power supply and signal transmission via the transmission line L are performed.

When the terminal equipment receives a signal transmitted through the transmission line L, the transmission signal is converted into a rectification circuit part RF shown in FIG.
And is taken out from the terminal PW to be used as a power source for the terminal equipment.
Can be extracted transmission signal including an address signal from the terminal T ₄ is detected by using a photocoupler having a polarity, for example, light emitting diodes have been sent to. If the address signal extracted from the terminal T ₄ coincides with the address of the terminal device, and signals transmitted in association with the address signal if the data return command, the microprocessor MPU2 responds thereto terminal from T ₃ it becomes possible to perform the return of such sensor level.

Signal from the terminal F ₁ of the call signal to the terminal equipment from the fire receiver RE from being delivered second diagram (a) is eliminated, the transmission line L to the power transmission circuit section 2 'with a constant polarity Connect to Next, an oscillator OSC is attached, whereby the apparatus enters a state of waiting for a return signal from a terminal device in response to a call signal from the fire receiver RE to be transmitted.

That is, the microprocessor MPU1 on the fire receiver RE side is
After the transmission of the calling signal is completed, an oscillation signal from the oscillator OSC in the receiving circuit unit 2 ″ is output to the transmission line L.

The reactances Le ₁ and Le ₂ for blocking AC components inserted in series with the transmission circuit 2 ′ shown in FIG. 2A and the rectifier circuit RF shown in FIG. 2B in series. Due to the presence of the inserted reactance Ln for blocking AC components, the terminals s ₁ and s ₂ of the transmission line L are open or very high impedance in terms of AC, and the oscillation output of the oscillator OSC is controlled by the amplifier AMP. amplified are extracted from the terminal T _2, for example, as a "0" signal through the frequency discriminator circuit DEM.

Order to perform the responsive example data back to the calling signal at the terminal equipment side, the a terminal T ₃ of FIG. 2 (b) providing a sensor-level signal of the series form, of the signal "0", "1"
, The switch element SW is opened and closed via the driver DR. Terminal of the transmission line L through a capacitor C ₃ when the switch element SW is closed in response to an input signal to the terminal T ₃ "1"
Between s ₁ and s ₂ , the AC component of the oscillator OSC is equivalently short-circuited due to an AC short circuit or an extremely low impedance value, which is detected by the frequency discriminating circuit DEM via the amplifier AMP, and the terminal T ₂ Is extracted as a "1" signal from.

That is, the microprocessor MPU1 on the fire receiver RE side is
During transmission of the calling signal, the oscillator in the receiving circuit 2 "
The output of the oscillation signal from the OSC to the transmission line L is prohibited.

In this way, the amplifier AMP on the fire receiver RE side and the frequency discriminating circuit DEM constantly monitor the AC component between the terminals s ₁ and s ₂ to detect the opening and closing of the switch element SW. The signal transmitted to the RE is effectively reproduced on the fire receiver RE side.

In the above description, the impedances of the capacitors C ₁ , C ₂ , and C ₃ at the oscillation frequency of the oscillator OSC are Zc ₁ , Zc
c ₂ , Zc ₃ and reactances Le ₁ , L at the same frequency
Assuming that the impedances of e ₂ and Ln are Xe ₁ , Xen and Xn, it is necessary to satisfy the following expressions: Xe ₁ , Xe ₂ , Xn≫R ₀ + Zc ₁ + Zc ₂ > Zc ₃ R ₀ > Zc ₁ + Zc ₂ is there.

FIG. 3 is a block circuit diagram showing an embodiment in which the present invention for transmitting a signal from a terminal device DE or RP to a first device such as a receiver is applied to a P-type fire alarm facility. Fig. 4 (a) illustrates an example of a reception mode in a P-type fire receiver, and Fig. 4 (b) illustrates an example of a transmission mode in a terminal device such as a P-type fire detector or a repeater. FIG.

The power supply E for the terminal device in the fire receiver RE is always supplied via the energizing coil of the relay RL, the code receiving circuit 12, and the transmission line L.
Power is supplied to terminal equipment such as fire detector DE and repeater RP. In a normal state, the amount of current flowing to the terminal device is not enough to energize the relay RL, and therefore, the normally open contact r of the relay RL is normally open.

On the terminal device side in FIG. 3, when the threshold circuit 19 determines that the sensor level signal detected by the smoke detector 17 has exceeded a predetermined threshold value on the abnormal side,
Line alarm signal is inputted to the terminal T ₇ of the transmission circuit and the power supply circuit 13, thereby the transmission circuit and the power supply circuit 13 so that the line alarm signal is sent on the transmission line L. Specifically, the transmission circuit / power supply circuit 13 is connected to the same fire receiver RE that short-circuits the terminals s ₁ and s _{2 of} the transmission line L in response to the line alarm signal given to the terminal T ₇ . Ensure that sufficient current flows to activate the relay RL.

On the fire receiver RE side, when the transmission signal transmitted via the transmission line L is based on the line alert signal, a sufficient current flows through the coil of the relay RL via the code reception circuit 12. As a result, the relay RL is energized, whereby the normally open contact r of the relay RL is closed, and the lamp LP is turned on or blinks, and thus a fire circuit display is performed.

When it is determined that the sensor level signal has exceeded the predetermined threshold value on the abnormal side and a line alert signal is generated, the control circuit 15 in the terminal device DE or RP sends data and status information to the fire receiver RE. The sending operation is also performed.
The control circuit 15 receives a sensor level signal indicating, for example, the amount of smoke detected by the smoke detection unit 17 and converted to a digital form by the analog / digital converter 18, and receives a signal from the analog / digital converter 18, outputs in parallel-serial converter 14 coupled to the address signal of the terminal equipment that is set in the address setting unit 16, where it is converted to a serial form, supplied to the terminal T ₆ of the transmitter circuit and the power supply circuit 13 Then, the signal is transmitted from the transmission circuit / power supply circuit 13 to the transmission line L.

In the fire receiver RE, transmission signals that have been transmitted through the transmission line L is received by the code receiving circuit 12, supplied from a terminal T ₅ of said code receiver circuit 12 in series-parallel converter 11,
Then, it was converted back to the parallel form and the microprocessor MP
The signal is processed by U1. After signal processing, performs address displayed on the display unit DP _1, thereby it is possible to know what occurred circuit alarm signal on any terminal equipment, The display unit
Appropriate actions such as displaying smoke density on DP ₂ are taken.

Circuit example of a code receiving circuit 12 shown in Figure 3 is shown in 4 (a), similar to that shown in FIG. 2 (a), a capacitor C ₁ for DC blocking, the internal Impedance
Oscillator OSC with R ₀ , amplifier AMP, and frequency discrimination circuit
A DEM and a reactance Lr for preventing an AC component transmitted through the transmission line L from escaping via the relay RL and the power supply E are also illustrated.

FIG. 4B shows a circuit example of the transmission circuit / power supply circuit 13.
Is shown in a capacitor C _3, the signal to be transmitted to the fire receiver RE and a switching element SW ₁ is turned on and off through the driver DR _1, in FIG. 2 (b) together contain a similar transmission circuit 13 'and the transmission circuit part 3' shown further a Zener diode ZN, the switch element SW ₂ is turned on through the driver DR ₂ by line alarm signal, The alert transmission circuit section 13 "having the following is also shown.

Here, the transmitting circuit unit 13 'is a Zener diode ZN
And is provided on the primary side of the alarm signal sending means comprising alarm transmission circuit 13 ". Zener diode ZN voltage to guarantee the remaining voltage of the internal power supply used when the switch element SW ₂ is turned on An element may be used, and a resistor may be used instead of the Zener diode as the voltage element.The transmission signal to be transmitted from the transmission circuit section 13 'to the transmission line L is transmitted to the alert transmission circuit section 13 ". A reactance Ln for blocking AC components similar to that shown in FIG. 2B is connected between the transmission circuit section 13 'and the alarm transmission circuit section 13 "so as not to escape through the circuit. Are shown.

If the line alarm signal is inputted to the terminal T _7, by closing the switch element SW ₂ through the driver DR _2,
The terminals s ₁ and s _{2 of the} transmission line L via the Zener diode ZN
Are short-circuited in a DC manner, thereby energizing the relay RL shown in FIGS. 3 and 4 (a) to close the contact r,
Fire line display is performed.

Delivery of such data information from the terminal device after the occurrence of the line alarm signal to the fire receiver RE is, FIG. 2 (a), in the same manner as described in (b), the transmission signal input from the terminal T ₆ is performed by opening and closing the switch elements SW ₁ by response. In this way the fire receiver RE side, since the AC component output from the oscillator OSC is or may not be short-circuited, the signal series configuration from the terminal T ₅ is taken out to detect this.

[Effects of the Invention] As described above, according to the present invention, an oscillating signal is supplied to a transmission line by an oscillator in both the R-type and the P-type,
The terminal device transmits a signal in response to a transmission signal, that is, in correspondence with a code to be transmitted, by short-circuiting or non-shorting the transmission line in an AC manner. Since the transmission signal from the terminal device is received by monitoring the short circuit, only one oscillator and one frequency are used, and the configuration of the terminal device can be simplified to reduce the cost. Has the effect of being very advantageous in terms of price and inventory management.

[Brief description of the drawings]

FIG. 1 is a block circuit diagram showing an embodiment in which the present invention is applied to an R-type fire alarm system, and FIGS. 2 (a) and 2 (b) respectively show the fire receiver side of FIG. And FIG. 3 is a block diagram showing an embodiment in which the present invention is applied to a P-type fire alarm system, and FIG. 4 (a). 4) and 4 (b) are circuit diagrams showing a code receiving circuit on the fire receiver side and a transmitting circuit and power supply circuit on the terminal device side in FIG. 3, respectively. In the figure, RE is a fire receiver, DE is a fire detector, RP is a repeater, L is a transmission line, E is a power supply for terminal equipment, 2 is a transmission / reception circuit, 2 'is a transmission circuit, and 2 "is a reception circuit. , OSC is an oscillator, C ₁ and C ₂ are DC blocking capacitors, AMP is an amplifier, D
EM is a frequency discrimination circuit, 3 is a transmission / reception circuit and power supply circuit, SW,
SW ₁ and SW ₂ are switch elements, C ₃ is a capacitor, Le ₁ , Le ₂ ,
Ln and Lr are capacitors for preventing AC components, 12 is a sign receiving circuit, RL is a relay, LP is a lamp for displaying a fire circuit, 13 is a transmitting circuit and power supply circuit, ZN is a Zener diode, 15 is a control circuit, 16 Is an address setting unit, 17 is a smoke detection unit, and 19 is a threshold circuit.

Claims (2)

(57) [Claims] 1. A fire receiver (RE) and a plurality of terminal devices (DE, RP) such as fire detectors connected to the fire receiver via a transmission line (L). In a polling-type fire alarm system in which a device polls the plurality of terminal devices and a transmission signal is transmitted from the terminal device called by the polling to the fire receiver, the fire receiver includes the transmission line (L Power supply means (E) for supplying power to the
An oscillator (OSC) that superimposes and outputs an oscillation signal on the transmission line; and a calling unit (1, MPU1, 2 ', Le1, Le2) that outputs a calling signal to the terminal device via the transmission line. Control means (MPU1) for prohibiting output of said oscillation signal to said transmission line during transmission of said call signal and outputting said oscillation signal to said transmission line after transmission of said call signal is completed.
Receiving means for receiving the transmission signal from the terminal device by monitoring an oscillation signal from the oscillator onto the transmission line to detect an AC short circuit or non-short circuit of the transmission line; MPU1), the terminal device comprising: a call discriminating means (3 ′, 4, MPU2) for discriminating a call signal transmitted from the fire receiver; and a response to a transmission signal to be transmitted to the fire receiver. And a transmission means (MPU2, 3 ″) for alternately short-circuiting or non-short-circuiting the transmission line. 2. A fire alarm system comprising a fire receiver (RE) and a plurality of terminal devices (DE, RP) such as fire detectors connected to the fire receiver via a transmission line (L). In the above, the fire receiver may include a power supply unit (E) for supplying power to the transmission line, an oscillator (OSC) for superimposing an oscillation signal on the transmission line and outputting the signal, and a signal transmitted from the terminal device. An alarm signal receiving means (RL) for receiving an alarm signal of a DC component, and monitoring an oscillation signal from the oscillator onto the transmission line to detect an AC short circuit or non-short circuit of the transmission line, Transmission signal receiving means (11, MPU1, 12) for receiving a transmission signal from the terminal device, wherein the terminal device connects the transmission line to a voltage element (ZN,
An alarm signal transmitting means (Ln, 13 ″) for transmitting the alarm signal of the DC component by short-circuiting in a voltage state via a resistor), and provided on a primary side of the alarm signal transmitting means; And a transmission signal transmitting means (C3, SW1) for alternately short-circuiting or non-short-circuiting the transmission line in response to a transmission signal to be transmitted to the fire receiver.