SU771695A1 - Fire signalling device - Google Patents

Description

(54) DEVICE FOR SECURITY AND FIRE ALARM SYSTEM The invention relates to devices for fire alarm systems and is intended to receive signals from a protected object in two independent channels via one two-wire communication line, which can be used with specially enhanced cable lines, method of amplitude-polar selection In this case, one of the channels, which provides a selection of the signals of triggered detectors from signals corresponding to the emergency modes of the communication line and loop, can be used signalizavdi be used to fire, while the other channel identifying signal is triggered izvatsateloy with signals corresponds to emergency mode the plume may be used to OX. early alarm. There are known devices for fire alarm systems that contain measurement units by the number of protected objects, made by a double bridge circuit, and an alarm unit, the diagonal of the internal bridge of each measurement unit to emitter-base transitions includes a transistor, in the collector: the alarm relay is installed and the emitter is connected via a diode and a key to the power source p. . The disadvantages of the known devices are the lack of separation of fire and burglar alarm signals. The closest in technical essence to the proposed device is a device for burglar and fire alarms, providing a selection of signals corresponding to the detector triggering from other types of signals and containing a receiving unit vyblnenny on parallel relay stages on transistors, and in the collector circuits of output transistors of each stage are included light signaling devices, and connected via liah communication with the object block, consisting of a loop with the included fire and security detectors and with the resistors 3, the prototype device does not provide separation of the signals of the triggered security detectors from the signals of the triggered fire detectors included in the object block, i.e. The device does not provide selection of fire and security alarm channels. In addition, the fire

guard channels are dependent on each other, i.e. When sensors are operated in one channel, the normal operation of the other channel is restored.

To ensure the simultaneous independent operation of fire and security alarm channels with full selection of received signals, it is necessary to use a double set of this device, and channel selection should be carried out along separate physical circuits extending from the observation point of the monitored object. This leads to an increase in costs associated with the need for laying a double number of signal circuits and the need to use a double number of these devices, as well as to an increase in operating costs.

The aim of the invention is to improve the reliability of the device.

The goal is achieved by the fact that a periodic variable voltage driver, a current driver are entered into the receiver unit, a signal type decoder is inserted into each relay cascade, one input signal decoder of the signal type of each relay stage of the receiver unit is connected to the communication line and to one of the driver outputs periodic voltage voltage, the other output of which is connected to the input of the current driver, the output of which is connected to the communication line and to the other inputs of the amplitude comparators of all relay cascades. The output of the amplitude comparator of each relay cascade is connected to another input of the decoder of the signal type, the output of which is connected to the electronic one. relay. Fire illef is made in the form of series-connected output contacts of fire detectors, shunted by resistors, and a control diode. Security loop is made in the form of serially connected output contacts of security detectors, control resistor and isolation diode.

FIG. 1 shows a block diagram of a device for a fire alarm; in fig. 2 - potential-time diagrams showing the operation of the device.

The device for burglar and fire signaling includes a power source 1, a receiving unit 2 and a control unit 3 connected to the receiving unit by the communication line 4. The receiving unit includes a generator 5 of a periodic different polarity voltage, a current driver 6 and three parallel-connected relay cascades 7, each of which contains a counter-comparator 8, a decoder. 9 and an electronic relay 10, loaded onto an optical signaling device 11. The control unit 3 is made in the form of a fire 12 and a security 13 1peyfov. in which the output contacts of 14 fire detectors with parallel-connected to the Nmresistors 15, the control diode 16, the separation diode 17, the output contacts 18 of the security detectors and the control resistor 19 are installed.

 The device works as follows.

A constant voltage from the power source 1 is supplied to the receiving unit 2 to power the relay stages.

S 7, to one of the inputs of the amplitude comparators 8 and to the shaper 5 of a periodic miscellaneous voltage. Alternately, voltage pulses alternate at the outputs of the former 5

The shape of which can be any, during the action of a voltage pulse at one of the outputs of the generator 5 of a periodic, alternating voltage of the other, its output is connected to the common bus of the power supply 1.

To clarify the operation of the fire alarm device, a particular variant of a periodic voltage detector 5 is used, which generates square-shaped pulses with an amplitude equal to the voltage of the power source 1, and the common bus of the power supply is the minus power supply bus.

 The current driver 6 is designed to form a current that changes according to certain laws into positive and negative half-cycles, depending on the operating modes of the line

0 communication 4 and control unit 3, which provide the best conditions for the selection of received signals. To clarify the operation of the device for the fire alarm system selected

g is the variant in which the current driver 6 to the positive half-clock acts as a current stabilizer, and to the negative half-clock it acts as a resistive element, limiting the short circuit current in the communication line 4.

In this case, it is assumed that the second inputs of the amplitude comparators 8, which are part of the relay stages 7, are connected to a common bus., And the first input of the decoder 9 is connected to one

55 output of the generator 5 of a periodic multi-polar signal, In this case, the voltage acting on the inputs of the relay stages 7 will always be positive polarity, the input of the relay stages 7, connected in parallel, are connected to the positive half-steps parallel to the communication line, and the negative half-steps are parallel to the former current b, b

finoKe control 3 in a positive way the current flows through the fire eleyf 12, and in negative half-steps - through the security loop 13.

In the Norm mode, when the parameters of the communication line 4, the end-12 and the guard 13 loops are within the normal range, and the signals of the fire and disturbance detectors are absent (i.e., the contacts 14, 18 of the fire and security detectors are closed), for a positive The half-voltage of the voltage acting at the inputs of the relay stages 7 is equal to the voltage on the communication line 4 and is equal to the voltage drop of the diode 16 displaced in the forward direction.

In the Norma mode, during negative half-steps, the inputs of the relay stages 7 are connected in parallel to the current driver 6, the voltage at which is less than the voltage of the power source 1 and depends on the resistances of the current driver b and the control resistor 19,

In Fire mode, when at least one fire detector is triggered, its output contacts 14 include a resistor 15 in the fire circuit 12, and the voltage acting on the inputs of the relay stages 7 to positive half-cycles increases by the voltage drop across the resistor 15 .

In negative half-cycles in the Fire mode, the voltage required is equal to the magnitude of the voltage drop across the current driver b.

In Alarm mode, i.e. in the case of the activation of the security detector with output contacts 18 or in the event of an open circuit in the security loop 13 into positive half-cycles, due to the presence of the separation diode 17, the electrical mode of link 4 and the control unit 3 will remain unchanged. However, in negative half-steps, the required voltage drop across the equivalent resistance of the current driver 6 is abruptly reduced to zero.

In case of breakage of one of the wires of the fire plugs 12 or the communication line. 4, as well as in the event of loss of electrical contact at the points where these circuits are connected to one of the most important connections, a positive amplitude equal to the voltage of the power supply 1 acts at the inputs of the relay stages 7 to the positive half rays.

In negative half-cycles, in the event of a link break, the voltage required is zero, and if one of the wires is broken in the fire loop circuit 12, the electrical mode in link 4 is similar to the Norm mode.

In case of a short circuit in the circuit of the fire plume 12 or the communication line 4 into the required semi-tacts

the voltage is zero, and in negative half-voltages the voltage acting at the inputs of the relay stages 7 is equal to the voltage of the power source 1,

In case of a short circuit in the circuit of the security loop 13, the electrical mode in the positive half-cycles in the communication line 4 is similar to the Norma mode, and in the negative half-cycles the input input voltage increases to a value equal to the difference in the voltage of the power source and the voltage drop across the offset in forward voltage direction diode

Taking into account the parameters of the real wire circuits of the communication line 4, fire 12 and security 13 loops will lead to the expansion of the range of possible values of voltages corresponding to the received signal. but

0 all levels of received signals can be divided into three zones using two reference levels: Uon and. Based on the results of the analysis of the electrical modes shown in FIG. 2, you can do the following

5 conclusions:

1. A fire signal needs to be selected only B positive half-cycle to increase the amplitude of the voltage acting on the signal

0 lines to a value greater than the reference level Uom c due to the inclusion

to the fire 12 circuit of the resistor 15 stub, which shunts the output contacts 14 of the fire detector.

five

2. Selection of the Alarm signal caused by a security alarm. detector or breakage of one of the wires of the alarm loop 13, you only need to recognize

0

to negative half-cycles by decreasing the amplitude of the voltage acting on the equivalent resistance of the current driver 6 to a value not exceeding the reference level UOH.

3. Signal, corresponding to the breakage

5 wires in the fire loop 12 or link break 4, differ in positive half-cycles from all other signals by the highest level exceeding the reference level UQ.

0

4. Short circuits in the communication line 4, in the fire loop 12 and the security loop 13 are recognized by a high potential exceeding the reference level UOOT. negative

5 half packs.

5. Since the emergency modes of the Fire Loop Break, Link Break and Short Circuit in the control unit 3 branch have approximately the same high potential at the inputs of relay stages 7 exceeding the reference level (however, at different time intervals-half-cycles), then for signal selection emergency condition5

The Research Institute of Communications 4 and the control unit 3, it is advisable to use one common relay cascade 7 containing an amplitude comparator 8, electronic relays 10 and an optical alarm device 11. If it is necessary to additionally decipher the type of damage that has occurred (Open or Short), this is achieved by introducing a decoder of 9 kinds of signals, as well as an additional set of electronic relays with an optical indicator.

Thus, each type of signal can be unequivocally selected on a large amplitude comparator 8 with a reference level or a decoder of 9 types of signals, which ensures that the signal passes through the relay stage 7 only to the corresponding half-cycles. From the above, it follows that the fire signal does not affect the electrical mode of communication line 4 into negative half-cycles, and the signal of violation on the monitored object does not affect the electrical mode of communication line 4, but positive half-cycles, i.e. Selective reception of signals along the common communication line 4 with complete separation of the fire and security channels, as well as separation of the fire signal from the signals, violation of the power circuit, the fire loop 12 and the communication line 4.

If it is necessary to increase the noise immunity of the fire alarm device, it is sufficient to reduce the speed of the electronic relay 10 so that its delay time exceeds several switching periods of the generator 5 of the periodic polarity voltage. In this case, the noise immunity of the fire alarm device increases due to asynchrony of the useful signal and noise in wired circuits of communication line 4 and control unit 3.

The use of new elements: the formatter of a periodic voltage of different polarities, a current driver and a type of signal decoder, as well as the introduction of new connections, improves the reliability of the device.

Claims (2)

1. Device for fire alarm, containing a control unit with fire and security detectors and resistors, connected via a communication line with a receiving unit, which is made on parallel-connected relay stages, each of which has an amplitude comparator, one which entrance is connected with a power source, and an electronic relay connected to an optical alarm device, characterized in that, in order to increase the reliability of the device, into a receiving unit 5, a periodic voltage splitter shaper was inserted, a current driver, a signal type decoder was inserted into each relay cascade, the control unit was made in the form of fire and security loops, one input of the signal type decoder of each relay stage of the receiving unit was connected to the communication line and to one of the outputs of the periodic voltage generator, the other output of which is connected to the input of the current driver, the output of which is connected to the communication line and to the other inputs of the amplitude comparators of all relays eynyh cascades output amplitude 0 comparator of each relay cascade is connected to other inputs of the decoder of the signal type, the output of which is connected to the electronic relay. 2. The device according to claim 1, which is 5 in order that, in order to improve the accuracy of signal selection, the fire loop is made in the form of serially connected output contacts of fire detectors, shunted by resistors, and the control diode, and the security loop is made in the form of connected output contacts of security detectors, control resistor and isolation diode. Sources of information taken into account in the examination of the application 1. ABTOpcjKoe USSR certificate № 209237, cl. 08 0817/10, 196.6. 50 2. Copyright certificate № 434845, cl. G 08 B 17/10, 1972 (prototype). 4f№, -H-Tg 12 f  4j./g I