SU942088A1 - Alarm - Google Patents

Description

(54) DEVICE FOR ALARM ALARM

one

The invention relates to automation and can be used in automatic fire protection systems.

An alarm device is known that provides for receiving signals from sensors and monitoring connecting lines l.

However, these devices are unreliable and often give false alarms when a component fails.

The closest in technical essence and the achieved result to the proposed "alarm device is sent, containing a central control panel with installed in it a power source (j NICOM constant voltage, polarity changing unit connected to the output of the control signal, a logical signal processing unit connected by the output 20 with a signaling device and to the input of a pilot signal generator, and sensors connected by a communication line to the central console. to plug

Directly to the communication line, parametric sensors with amplifying and converting elements that consume power from the device’s power source are protected from false alarms when a communication line is broken or short-circuited and provides automatic cross-linking for their f2j damage.

However, in a known device, a four-wire communication line is necessary, which, when the sensors are significantly removed from the central console, reduces the reliability of the device. In addition, the device generates a false alarm in case of failure of the elements of the parametric sensor circuit, for example, in case of malfunctions of the sensitive element, the amplifying element or the relay in the sensors. These drawbacks reduce the reliability of the device and the effectiveness of protection against false positives.

Claims (2)

The purpose of the invention is to increase the reliability of the device by reducing the number of communication lines with sensors and increasing the effectiveness of protection against false alarms in case of failure of the elements of the parametric sensor circuit. The goal is achieved by the fact that a device containing a central console with a constant voltage source, a polarity reversing unit installed in it, which is controlled by the input of the control signal generator, a logical signal processing unit, is connected to the output of the alarm device and with the input of the pilot of the control signal, and the sensors connected by a communication line with the central console, a terminal block of the current and a separator are inserted, and an unformer with a rectifier, and interrupting the current block is included in the end of the link, the sensors through the primary winding of the separating transformer and through block .formatora varying polarity are connected to a source of DC voltage, a secondary winding of the isolating transformer via a rectifier connected to the input of the logic obrtbotki signal. I The drawing is a diagram of the device. The device for alarm signaling and PII contains a central console 1 with a constant voltage source 2 installed in it, a polarity changing unit 3 with switching contacts 4 and 5, which is connected to the control input of the control signal 6, for example the relay coil 7, block 8 logical signal processing, containing the element NOT 9, the storage device Yu and element 11, and the outputs of the block 8 logical signal processing connected to the input of the former 6, the control signal and the signaling device 12, an isolation transformer 13 with a primary winding 14, a secondary winding 15 and a rectifier 16, a parametric sensor 17 connected in parallel with the communication line 17 in which the rectifying element 18 and the diode bridge 19 are connected to an amplifier converter 20, to which the sensing element 21 is also connected, the output transducer amplifier 20 is connected to a relay 22, the spreading contact 23 of which is connected in series to the communication line, the passive sensor 24 connected in series to the line, containing parallel-connected open circuit breakers kt 25 k rectifier84 ny. element 26, the terminal unit 27 direct current ditch, in which the key element 28 is connected through a resistor 29 to the wires of the communication line, when. this key element 28 can be made in the form of a relaxation generator or a key power supply from a constant voltage source 2 via the communication lines of the central console 1 with sensors 17 and 24. The current interrupting unit 27 is connected at the end of the communication line with sensors 24 and 17, which through primary winding 14 transformer 13 and through the polarity changing unit 3 are connected to a constant voltage source 2, and the secondary winding 15 of the isolation transformer 13 is connected via rectifier 16 to the input of the logical signal processing unit 8. In the initial state, with the permissible value of the parameters of the monitored object, the sensors 17 and 24 do not work and their contacts 23 and 25 are closed, while the sensor 17 receives power through the diode bridge 19 from the constant voltage source 2 through the polarity changing unit 3 and the primary winding 14 of the isolation transformer 13, and the current value continuously changes in the communication line due to the switching element of the key element in the current interrupting terminal unit 27, which is obtained by "1 ,, .. the contacts 23 and 25 of the sensors 17 and 24. The alternating current component in the line connection is separated on the secondary winding 15 of the isolation transformer 13 and through the rectifier 16 is fed to the input of the logic processing unit 8, at the output of which only the signal is generated, since there are no output signals of the HE element 9, the storage device 10 and the AND 11 element in block 8 logical processing. When the state of the monitored object changes, for example in case of fire, one of the sensors 17 or 24 is triggered. When a sensor 17 is triggered, for example, the output signal of the sensitive element 21 acts on the amplifier converter 20, which triggers the relay 22 and opens its contacts 23, occurs when the power supply of the terminal block 27 interrupts the current, disappears on the secondary winding 15 of the isolation transformer 13 and at the input of the element HE 9 of the block 8 of the logical signal processing. In block 8 of the logical signal processing, the output signals of the HE element 9 and the storage device 10 appear, with a single input signal which is fed to the input of the pilot signal generator 6, and voltage is applied to the relay 7, which leads to switching of contacts 4 and 5 polarity changing unit 3, which change the polarity of the voltage in the communication line with the sensors 17 and 24. This opens the rectifier element 18 of the sensor 17 connected to the control circuit of the trigger threshold value of the sensor 17, and the threshold changes to a value that greatly exceeds the possible value of the monitored parameter. The output relay 22 of the sensor 17 releases and its contacts 23 zampsayut with. In this case, the power of the terminal block 27 interrupts the current and the alternating component of the current in the communication line with the sensors and the voltage on the secondary winding 15 of the isolation transformer 13 and at the input of the signal processing unit 8, which generates the Alarm signal, appear again Signals are present at both inputs of element 11. When the passive sensor 24 is triggered, its contacts 25 open and disconnect the current interrupting unit 27, which leads to the loss of the variable component of the communication line, the voltage on the secondary winding 15 of the isolation transformer 13 and the signal at the input of the logical signal processing unit 8. In the latter, the output signals of the HE elements 9 and the storage device 10 appear, the output of which is fed to the input of the driver 6 of the control signal, the voltage is applied to the winding of the relay 7, which causes the polarity of contacts 4 and 5 to switch in unit 3 which change the polarity of the voltage in the communication line with the sensors 17 and 24. This opens the rectifying element 26 connected in parallel with the contact 25 of the powered sensor 24, and the power of the current interrupting unit 27 is restored. Next, the circuit works in the same way as when sensor 17 is triggered. Thus, when any of sensors 17 and 24 is triggered, the signal at the input of the logic processing unit 8 disappears, a signal appears at the output of the pilot signal generator 6, polarity changing unit 3 changes the polarity of the voltage in the communication line with the sensors 17 and 24, and when the signal is restored at the input of the logical signal processing unit 8, an alarm signal is generated at the output of the signal. In the event of a break or short-circuit of the communication line, a current interruption terminal unit 27 is provided. the input signal of the logical signal processing unit 8 disappears and signals appear at the output of the HE element 9 and the storage device Yu, the output of which is fed to the input of the pilot signal generator 6, a voltage is applied to the winding of the relay 7, which leads to switching the polarity of the contacts 4 and 5, which change the polarity of the voltage in the communication line with the sensors 17 and 24, however, this does not restore the power of the terminal block 27 to interrupt the current and to restore the input signal of the block 8 logical signal processing, as there is no variable component of the current in the faulty communication line with the sensors. In this case, there is no signal at the input of the element HE 9 and at its output a Fault signal is generated. In case of malfunctions, accompanied by a false triggering of the sensor 17 due to the appearance of the output signal of the converter-converter 20, the spontaneous operation of the output relay 22 in the sensor 17 and others, the contacts 23 open and the signal at the input of the signal processing unit 8 disappears, a signal appears the output of the pilot signal generator 6, the switching contacts 4 and 5 of the polarity changing unit 3 change the polarity of the voltage in the communication line with the sensors, and an rectifier element 18 connected to the center and control the threshold value of the sensor 17, however, the faulty sensor 17 does not respond to the tuning threshold, the output relay 22 in the sensor 17 does not release and its contacts 23 remain open, while the signal at the input of the logical signal processing unit 8 is not restored, In block 8, the logical signal processing at the output of the element NOT 9 generates a signal Fault. As can be seen from the description of the example of the circuit design and operation of the device, the Alarm signal is generated only if the voltage on the secondary winding 15 of the isolation transformer 13 is lost and this voltage is 5 again after changing the current direction in the communication line with the sensors, thereby ensuring protection against false positives of the device in case of malfunctions of the parametric sensor circuit 17 and in case of breakage or short circuit of the communication lines. Thus, in the proposed device, in contrast to the known one, two control lines are connected to the central console 1 with parametric sensors 17 and passive sensors 24; this, with a considerable distance of sensors 17 and 24 from the central console 1, allows Compared with the prototype, halve the number of communication lines with Sensors, which increases reliability and increases the cost of the device. In addition, the device, in contrast to the prototype, does not cause a false signal. Alarm in case of failure of the elements of the parametric sensor 17, for example, if the sensor 21 fails, the converter-converter 20 spontaneously triggers the output relay 22, the sensor 17, which increases the reliability and effectiveness of protection from false positives. Thus, the proposed alarm device provides the possibility of including parametric sensors in a two-wire beam, consuming the energy from the power source of the central console, while providing protection from spurious actions while simultaneously monitoring the integrity of the communication lines, which ensures reliable; fire safety systems and provides an economic effect by eliminating possible damages caused by fires and false alarms of fire suppression systems. Claims of the Invention An alarm device comprising a central console with a constant voltage source, a polarity reversing unit installed in it, which is connected to the control input of the pilot signal, a signal processing unit, an output connected to a signaling device and input of the pilot signal generator, and sensors connected by a communication line with the central console, characterized in that, in order to increase reliability, a current termination unit is inserted into it and an isolating transformer with an inverter, the terminating current interrupting unit being switched on at the end of the line: communication, sensors through the primary winding of the isolating transformer and through a polarity changing unit connected to a constant voltage source, and the transformer using a rectifier connected with the input of the logical signal processing unit. Sources of information taken into account in the examination 1. Zvezdin I. A., Skachkov P. I. Automated signaling in fire ohan. M., stroiizdat, 1970, p. 22-27. 2. USSR author's certificate 720450, cl. G08 B 29 / OO, 1977 (prototype). i