SU1013995A1 - Fire alarm device - Google Patents

Abstract

A FIRE ALARM SYSTEM containing power sources, a voltage converter and in each signaling channel the first and second threshold units, two keys, the first of which is connected to the first siren, the second siren, and the two-wire terminal, to which in connection with parallel switches, active detectors connected in parallel and passive detectors connected in series and an end node, characterized in that, "in order to expand the functionality of the device, by entering a signal simulator, the third and fourth threshold blocks and four diodes are entered into each signaling channel, and the keys are implemented as reversible counters, the first output of the power supply is connected to the input of the voltage converter, the first output of which is connected to the counting inputs of the reversible counters, to the output of the second which is connected WTO-. the siren, the second and third outputs of the voltage converter are connected to the first and second inputs of the signal simulator, the third input of which is connected to the second output of the power source, the first output of the signal simulator is connected to the cathode of the first diode and the first input of the first threshold unit, the second input of which is connected to anodes of the first and second diodes and the third output of the communication line, the second output of the signal simulator is connected to the cathode of the third diode and the first i input of the second threshold unit, the output of which is connected to the control input of the first reversible counter, the first output of the third threshold unit and the set-: input of the second reversible counter, the control input of which is connected to the output of the first threshold unit and the first output of the fourth threshold unit, the second output of which is connected to the second input of the Btoporo threshold unit, the input of the fourth threshold unit is connected 00 D to the fourth output of the communication line and the anodes of the third and fourth diodes, the cathodes of the second and fourth diodes sootvetel governmental rows connected to a fourth and a fifth input signal simulator.

Description

The invention relates to fire alarm devices and can be used in automatic fire protection systems at public facilities.

A device for fire alarm, consisting of a central station, a group of active detectors that are connected to it via a two-wire communication line, and a terminal transmitting element, the central station contains a DC source for powering the detectors, a threshold control unit wives in line 1.

The disadvantage of the device is limited functionality.

The closest to the invention to the technical nature is a fire alarm device containing a source: power, an object unit consisting of parallel-connected active fire detectors with normally open contacts, successively connected passive fire detectors with normally closed contacts and a terminal control resistor, two-wire the communication link and the processing unit, consisting of the controlled voltage switch, of the former. a key implemented on an AND element, an OR element, two threshold blocks, a delay element, a second key, one of the outputs of the voltage switch is connected directly to the communication line, the other is connected to the output of the threshold blocks through the driver, the inputs of the OR element are connected to the outputs of the threshold blocks, and its output to the input of the first switching unit and the first input of the element I, the second input of which is connected to one of the outputs of the controlled voltage switch and through the serially connected element erzhki and the second key to one siren, and the output element is connected to the input of the second switching unit, whose output is connected to the other siren and a control input of the second switch 2.

The disadvantage of the device is its limited functionality.

The purpose of the invention is the extension of the functionality of a fire alarm device.

The goal is achieved by the fact that in a fire alarm device containing a power source, a voltage converter and in each signaling channel, the first and second threshold units, two keys, the first sounder, the second sounder and

two-wire line to the first and WTO

the rum to which terminals are connected connected in parallel active detectors and

connected in series passive detectors and an end node, a sigDalov simulator is introduced, the third and fourth power supply units and four diodes are entered into each signaling channel, and the keys are made in the form of reversible counters, the first power supply output is connected to. the input of the voltage converter, the first output of which is connected to the counting inputs of reversible meters, to the output of the second of which a second siren is connected, the second and third outputs of the voltage converter are connected to the first and second inputs of the signal simulator, the third input of which is connected to the second output of the power source, the first

the output of the signal simulator is connected to the cathode of the first diode and the first input of the first threshold unit, the second input of which is connected to the anodes of the first and second diodes and the third output of the communication line, the second output

The signal simulator is connected to the cathode of the third diode and the first input of the second threshold unit, the output of which is connected to the control input of the first reversible counter, the first output of the third threshold unit and the installation

the input of the second reversible counter, the control input of which is connected to the output of the first threshold unit and the first output of the fourth threshold unit, the second output of which is connected to the input of the third threshold unit, the second

the output of which is connected to the second input of the second threshold unit, the input of the fourth threshold unit is connected to the fourth output of the communication line and the anodes of the third and fourth diodes, the cathodes of the second and fourth diodes are connected respectively to the fourth and fifth inputs of the signal simulator.

FIG. 1 is a block diagram of a fire alarm device; in fig. 2 shows an example of a signal simulator; Fig. Diagrams of currents and voltages explaining the operation of the device.

The device for fire alarm contains a power source 1, a voltage converter 2, a simulator of 3 signals, by the number of alarm channels, signal processing nodes 4, each of which includes diodes 5-8, threshold blocks 9-12, reversible counters 13 and 14 and sounders 15 and 16, a resistor 17, equivalent to an electronic circuit, a closing contact 18, equivalent to an output stage, and a diode 19, forming an active detector, a passive detector 20, a resistor 21, an end node, made on a diode 22 and a resistor 23, and wires 24 and 25, forming a two-way hydrochloric link. The simulator 3 signals contains switches 26-29, a resistor 30 (limiting), a zener diode 31 and, a diode 32 (decoupling).

The device works as follows.

The supply voltage from source 1 is fed through converter 2, which converts the supply voltage to a variable pulse voltage with a high duty cycle (Fig. 3A) and a signal generator 3 signals to all signal processing nodes 4, the number of which corresponds to the required number of signaling channels. In the Norm mode, a variable pulse voltage of nominal value is supplied to the signal processing nodes 4 from the converter 2 through the signal simulator 3 (Fig. 3a). The processing of information in the signaling channel is carried out by the method of polar-current selection.

In the Norm mode, positive half-pulses of a pulsed alternating voltage cause in the wires 24 and 25 a positive current flowing through the threshold unit 9, which is the selector limiter, chokes 20 with break contacts, DIODES 19 and the resistor 7 of active detectors, wire 25 and shunt diode 5 The amount of current flowing in this case determines the number of active detectors (diodes 19 and resistors 17) connected to the wires 24 and 25 of the communication line and consumes electrical energy. The total current consumed by the active detectors may vary from 0 to the maximum permissible value of 1 (Fig. Sv), in which block 9, which simultaneously plays the role of signal selector. Fire from detectors with closing contacts 18 does not work yet.

Negative pulses of pulsed alternating voltage cause in wires 24 and 25 the current of the negative direction flowing through the shunt diode 6, wires 24 and 25, detectors 2Q with break contacts, end node 22, 23 and threshold blocks 11 and 10. Current magnitude. Flowing through the wires 24, 25 in the Yorm mode into negative voltage half-cycles is determined by the value of the resistor 23 and has a well-defined value of 12 (Fig. Sv). In this case, blocks 10-12 do not work.

When triggering the detector 20 and opening its contact to the wires 24 and 25, in series with the resistor 23, a resistor 21 is connected, increasing the total resistance value. Due to this, at a negative half-cycle of a pulsed alternating voltage, the current decreases to 12 (fig, Sv), which triggers the block 12. The electrical signal from the Apple 12 output goes to the control input of the reversing counter 14 Fire, which turns on only the presence of a signal at the control input and the signal

at the output only when a number of consecutive pulses from converter 2 arrive at its counting input. This thereby eliminates the possibility of falsely switching on the detector 16 from short-term and impulse noise in the communication lines 24 and 25. From the output of the reversible counter 14, the electronic signal goes to the activation of the annunciator 16 (for example, a light). Which signal the occurrence of a fire on a protected object.

When active contact 18 is activated, the electric current in wires 24 and 25 positively increases the pulses of alternating voltage (Fig. 36) to the level C corresponding to the current of triggering threshold unit 9 (Fig. 3c), which triggers the triggering of threshold unit 9 The signal from the output of which is fed to the input of the reversible counter 14. The inclusion of the reversible counter 14 and the annunciator 16 occurs in the same way as when the detector 20 trips the normally open contact.

When the link is broken, the current in the wires

24 and 25 to negative negatives, T1 almost to zero (Fig. 3 Sv), thanks to it, the threshold block 11, which selects the signal Open, triggers. Electrical signal Fault from the output of unit 11 enters the input of the reversible counter 13. Switching on the reversible counter 13 and the annunciator 15) signaling the occurrence of a malfunction, proceeds in the same way as turning on the counter 14 and the annunciator 16 when a Fire alarm occurs. At breakage of wires 24 or

25 the absence of electric current in them (the value of the current becomes less than the value (fig. Sv) also triggers the block 12 from the detectors 20 with the opening contacts. To prevent the reverse counter 14 from being falsely activated, the fire and the alarm 16, if the wire 24 or 25 is opened, the electrical signal the output of the block 11 (selector) is also fed to the installation input of the counter 11 (the input of the ban).

In the event of short circuit of wires 24 and 25, the current increases in positive half-cycles to the value of C corresponding to the response threshold of block 9, and in negative half-cycles to the value of 1 corresponding to the trigger threshold of block 10 (Fig. 3 Sv). In this case, block 10 is triggered to negative half-pulses of alternating voltage, and the signal from its output is fed to the input of the reversible counter 13 (Fault). Inclusion account. The switch 13 and the annunciator 15 signaling the occurrence of a fault in the wires 24 and 25, the communication line, occurs in the same way as they were switched on when the communication line was broken. During a short circuit in the wires 24 and 25 in the positive half-voltages of the voltage, the current in it corresponds to the current 1 (Fig. Sv) when the detector is triggered with closing contacts 18 To prevent false activation of the count-. In case of a short circuit of wires 24 and 25, the signal from the output of block 10 is also fed to the set input of counter 14 (prohibition input).

The simulator 3 signals is designed to quickly and conveniently check the functioning of the device.

The simulator 3 works as follows.

To check the reception of the signal. Fire from the detectors 20 turns on the switch

26 (Fig. 2) of the simulator 3 signals, the voltage in the wires 24 is limited to negative half-cycle, which causes a decrease in the current flowing through the terminal resistor 23; node to the value of U (Fig. Sv). As a result, the block 12, the reversive counter 14 and the sounder 16 in all signal processing nodes 4 are triggered, which confirms the reception of the Fire signal by the device.

To test the reception of a signal Fault when a wire 24 or 25 is broken, the simulator 3 signals by the switch 28 turns off the blocks 9. When this happens, the current in the communication lines to negative semi-cycles becomes zero

(Fig. Sv), the block And (Open), the reversible counter 13 and the siren 15 in all nodes 4 signal processing, which confirms the reception of the signal Fault.

To check the signal reception Fire from active 1X switches with closing contacts 18, simulator 3 signals with switch 27 connects all wires 24 through isolating diodes 7 to power supply I, and the current in wires 24 and 25 increases to positive voltage half. Level Z operation of blocks 9 (Fig. Sv). Blocks 9 are triggered, reversible counters 14 and annunciators 16 are turned off at all signal processing nodes 4, which confirms reception of the Fire signal.

To check the signal reception Fault When wires 24 and 25 short-circuit, simulator 3 connects all wires 24 and 25 through decoupling diodes 7 and 8 to power supply 1 and the current in them increases to 1d, s (Fig. Sv) operation of blocks 9 and 10, blocks 10 are triggered, reversible counters 13 and sirens 15 are activated at all signal processing nodes 4, which confirms the reception of the signal Fault /

The economic effect of using the invention is due to its technical features.

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FIG. 2

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Claims (1)

DEVICE FOR FIRE SIGNALING, containing power supplies, voltage converter, and in each alarm channel the first and second threshold blocks, two keys, the first siren, the second siren, and a two-wire communication line connected to the first and second outputs of which are connected parallel active detectors and passive detectors connected in series and the terminal node, characterized in that, in order to expand the functionality of the device, it imitates Signal signals, the third and fourth threshold blocks and four diodes are introduced into each signaling channel, and the keys are made in the form of reversible counters, the first output of the power source is connected to the input of the voltage converter, the first output of which is connected to the counting inputs of the reverse counters, to the output of the second of of which a second siren is connected, the second and third outputs of the voltage converter are connected to the first and second inputs of the signal simulator, the third input of which is connected to the second output of the power source, the first One signal simulator is connected to the cathode of the first diode and the first input of the first threshold block, the second input of which is connected to the anodes of the first and second diodes and the third output of the communication line, the second output of the signal simulator is connected to the cathode of the third diode and the first> input of the second threshold block, output which is connected to the control input of the first reversible counter, the first output of the third threshold block and installation -: the input of the second reversible counter, the control input of which is connected to the output of the first threshold about the block And the first output of the fourth threshold block, the second output of which is connected to the input of the third threshold block, the second output of which is connected to the second input of the second threshold block, the input of the fourth threshold block is connected to the fourth output of the communication line and the anodes of the third and fourth diodes, the cathodes of the second the fourth diodes are connected respectively to the fourth and fifth inputs of the signal simulator. SU „1013995