RU2058170C1 - Automatic aerosol fire-extinguishing system - Google Patents

Abstract

FIELD: fire warning and extinguishing system. SUBSTANCE: automatic aerosol fire-extinguishing system has similar fire-extinguishing modules with units for controlling fire- extinguishing devices and actuating units, and is further provided with warning and remote control panel having similar cells, each for individual fire- extinguishing device. Control unit of each module has five amplifiers, three comparators, two counters, advance pulse generator, four AND circuits and NOT circuit. Actuating unit has two rectifiers, two relays switched to first and second automatic inputs, respectively. Fire-extinguishing devices are formed as generators of inert gas and ultradispersed particle aerosol mixture producing burning inhibiting effect. Aerosol generators are provided with one or two electric start initiators. Aerosol generators are divided in module into two groups which are started with delay one with respect to the other. It allows power source mode of operation to be provided by discharging it. EFFECT: enhanced reliability in operation, provision for automatic detection and elimination of fire without disturbing attending personnel and increased interval between checks. 4 cl, 2 dwg

Description

 The invention relates to fire alarm and fire extinguishing systems and can be used to create automatic fire warning and fire extinguishing systems in closed rooms without the participation of people.

 A known chemical process control system that can be used as an automatic aerosol fire extinguishing system containing the same type of fire extinguishing equipment modules with control units and fire extinguishing means and control units, an alarm and remote control unit consisting of the same type of cells according to the number of fire extinguishing equipment modules , each of which contains signaling devices and remote control bodies (Sklyarsky E.I. Barsky L.A. Pneumoelectronic comp eksy in chemical and process control systems. Stroyizdat M., 1979, pp. 35-37).

 The known system is not reliable enough, because the failure of any of the modules does not lead to the failure of all other modules in the system.

 The aim of the invention is to increase the reliability of the system, providing automatic detection and elimination of fire without the intervention of staff, as well as increasing the inter-period of the system.

 The specified technical result is achieved by the fact that in an automatic aerosol fire extinguishing system containing the same type of fire extinguishing equipment modules with control and management units for fire extinguishing agents and executive units, an alarm and remote control panel consisting of the same type of cells according to the number of fire extinguishing equipment modules, each of which contains signaling devices and remote controls, the control unit of each of the modules of fire extinguishing means contains a first amplifier, the input of which o is the information input of the control unit, the first, second and third comparators, the first inputs of which are connected to the output of the first amplifier, and the second inputs are inputs of the supply of reference voltages, the clock generator, the first and second counters, the clock inputs of which are connected to the output of the clock generator , the first, second, third and fourth circuits AND, the circuit NOT, the second, third, fourth and fifth amplifiers, while the output of the first comparator is connected to the first input of the first circuit And, the second input of which is connected to the course of the circuit is NOT, and the output with the input of the second amplifier, the output of which is the first signal output of the control unit, the output of the second comparator is connected to the first input of the second circuit And, the second input of which is connected to the output of the first counter, and the output with the input of the circuit is NOT, the output of the third comparator connected to the input of the third amplifier, the output of which is the second alarm output of the control unit, and to the first inputs of the third and fourth circuits AND, the second inputs of which are connected respectively to the first and second outputs of the second counter ka, and the outputs with the inputs of the fourth and fifth amplifiers, respectively, while the outputs of the fourth and fifth amplifiers are the first and second outputs of the time-spaced control signals for launching the control unit, and the executive unit contains the first and second rectifiers, the inputs of which are connected to separate voltage supply inputs alternating current, and the outputs are connected by a common bus, the first and second relays, the power circuits of the windings of which are connected respectively to the first and second inputs of the automatic start of the executive block, and closing contacts of the first and second relays are connected in parallel between the common bus of the first and second rectifiers and respective execution unit outputs, the remote start input through the operation unit separating diodes connected to the power supply circuits of the first and second relay coils.

 The system also has fire extinguishing agents in the form of generators of an aerosol mixture of inert gases and ultrafine particles with an inhibitory effect in the combustion process, equipped with one or two electric initiators of launch.

Aerosol mixture generators are placed at an angle in the range of 30.40 ^{about the} surface of their installation. The number of aerosol mixture generators in each extinguishing agent module is selected from the condition that the concentration of the aerosol mixture in the protected limited volume be at least 70 g / m ³ .

 Figure 1 shows a generalized functional diagram of an automatic aerosol fire extinguishing system, made according to the invention; figure 2 is a more detailed functional diagram of a fragment of the system shown in figure 1, illustrating a possible embodiment of a module of fire extinguishing means.

 The automatic fire extinguishing system contains many fire extinguishing modules 1, each of which includes a fire detector 2, a control unit 3, an executive unit 4, fire extinguishing composition generators 5. The ignition detector 2 comprises a plurality of smoke and / or heat detectors 6 connected in parallel to a two-wire loop connected to the information input of the control unit 3. Remote 7 alarm and remote control system consists of 8 cells in the number of modules 1 fire extinguishing means. Each cell 8 contains a NORMA signaling device 9 and a FIRE signaling device 10 connected respectively to the first and second signaling outputs (output p. 1 and output p. 2) of the control unit 3 of the corresponding module 1, as well as a remote control button 11 module fire extinguishing means connected to the remote start input of the executive unit 4 of the module. In each of modules 1, fire extinguishing generators 5 are divided into two groups and connected in each of them in parallel to a two-wire loop connected to the corresponding outputs of the executive unit 4. The first and second inputs of automatic start (input A.z. 1 and input a. .z.2) of the executive unit 4 are connected respectively to the first and second outputs of the time-controlled start control signals (output s. 1, output s. 2) of the control unit 3. The power supply circuit of the FIRE signaling devices 10 of each of the cells 8 is connected to the remote sound and light signaling unit 12.

 In the control unit 3 of the module (FIG. 2), the first amplifier 13, the input of which is the information input of the control unit 3, is connected by its output to the first inputs of the first 17, second 15 and third 16 comparators, respectively. Their second inputs are inputs of the supply of reference voltages (the source of reference voltages in figure 2 is not shown). The clock inputs of the counters 17, 18 are connected to the output of the clock generator 19. The output of the first comparator 14 is connected to the first input of the first AND circuit 20, the second input of which is connected to the output of the circuit NOT 21, and the output to the input of the second amplifier 22, the output of which is the first alarm output (output p. 1) of the control unit 3. The output of the second comparator 15 is connected to the first input of the second circuit And 23, the second input of which is connected to the output of the first counter 17, and the output to the input of the circuit is NOT 21. The output of the third comparator 16 is connected to the input of the third amplifier 24, the output of which is the second alarm output (output S. p. 2), control unit 3, and with the first inputs of the third 25 and fourth 26 circuits And, the second inputs of which are connected respectively to the first and second outputs (from different digits) of the counter 18. The outputs of circuits And 25, 26 are connected respectively to the inputs fourth 27 and fifth 28 efforts firs, the outputs of which are first and second outputs separated in time drive control signals (O. s.u.1 and vyh.s.u.2) control unit 3.

 The Executive unit 4 of each of the modules 1 contains the first 29 and second 30 rectifiers, the inputs of which are connected to separate AC power inputs, and the outputs are connected by a common bus. The power circuits of the windings of the first 31 and second 32 relays are connected respectively to the first and second inputs of the automatic start (input 1 and input 2) of the actuator unit 4, and their make contacts 33, 34 are connected in parallel between the common bus of the first 29 and second 30 rectifiers and the corresponding outputs of the actuator unit 4. The remote start input (input 3) of the actuator unit 4 is connected to the power circuits of the windings of the first 32 and second 33 relays via diodes 35, 36.

 The automatic aerosol fire extinguishing system operates as follows.

 In standby mode, in the absence of an open circuit and the operation of smoke (thermal) detectors 6, the system provides self-control and the issuance of the signal "NORMAL" to the remote control 7 of the alarm and remote control system. This signal is generated at the first alarm output of the circuit control unit 3, consisting of the first amplifier 13, the first comparator 14, the first circuit And 20 and the second amplifier 22. In the event of the operation of any one detector 6, a signal is generated at the output of the first amplifier 13, the level of which is sufficient to the operation of the second comparator 15. As a result, at the first and second inputs of the second circuit And 23 there are, respectively, a constant signal from the comparator 15 and a pulse signal from the first counter 17, leading to the formation and the output of the AND circuit 23 as a pulse train signal passing through the NOT circuit 21, a first AND circuit 20 and second amplifier 22 to a first input signal the control unit 3. This signal causes intermittent burning of the NORMA 9 signaling device and, as a result, attracting the attention of service personnel.

 When two (or more) detectors 6 are triggered, the third comparator 16. The signal from its output is fed to the first inputs of the third 25 and fourth 26 I circuits, the second inputs of which receive a pulse signal from the first and second outputs (from different discharges) of the second counter 18 As a result, at the outputs of circuits I 25, 26, signals shifted in time relative to one another are generated and transmitted through amplifiers 27, 28 to the first and second inputs of the automatic start-up of the executive unit 4 of the corresponding module. These signals cause, with an appropriate time delay between them, the closing of contacts 33, 34 of the relay 31, 32 and the supply of voltage to the electric initiators of the launch of two groups of aerosol generators 5. The supply of power from two separate inputs to the common bus makes it possible to increase the reliability of the system due to such redundancy . For the same purpose, aerosol generators 5 can be equipped with two electric initiators of launch, included, for example, in parallel. The separation of aerosol generators 5 in module 1 into two groups, launched with a delay of one relative to the other, makes it easier to operate the power source by unloading it.

 Simultaneously with the automatic start of aerosol generators, the signal from the output of the third comparator 16 is fed through the third amplifier 24 to the second alarm output of the control unit 3 and causes the “FIRE” alarm to be activated in the corresponding cell 8 of the alarm and remote control 7. This signal can also be supplied to the remote light and sound signaling unit 12, which generates the corresponding alarms. The operator, in response to the “FIRE” alarm (or at any other moment dictated by the specific situation), can manually start the aerosol generators 5 of the corresponding module by pressing the “START” button in cell 8 of this module, providing manual power supply to the windings relay 31, 32 (via isolation diodes 35, 36).

Fire extinguishing is carried out by generating with the help of aerosol generators 5 in a protected room an aerosol mixture of inert gases and ultrafine particles having an inhibitory effect on the combustion of organic substances in atmospheric oxygen. Aerosol generators operate on the principle of volume quenching. The aerosol mixture of a non-toxic formulation used as a fire extinguishing agent does not have an irritating effect and does not lead to a decrease in the oxygen content below an acceptable level. Fire extinguishing aerosol generators 5 in a protected enclosed space are installed at angles at the surface of their installation, selected within 30.40 ^about . This ensures optimal flow of the aerosol mixture indoors. The value of 70 g / m ^{3 was} established as the optimal concentration of the aerosol mixture in a given limited volume, which ensures the creation of conditions for effective fire fighting. Based on this value, the number of aerosol generators required for each specific fire extinguishing equipment module is determined.

 An example of a specific implementation of the system has the following technical characteristics.

 The system protects the enclosed space without volume limitation.

Fire fighting time no more than 60 s. Power supply from an alternating current network of voltage 380/22 V, 50 Hz, or from a direct current network of voltage 27 V. Power consumption in standby mode is not more than 20-80 W (depending on the volume of the room). The system operates in a temperature range from -30 ^to 50 ° C, at a relative humidity of 98% at a temperature of 35 ^C. The probability uptime is not lower than 0.9999.

Claims (4)

 1. SYSTEM OF AUTOMATIC AEROSOL FIRE EXTINGUISHING, containing the same type of fire extinguishing equipment modules with control and management units of fire extinguishing means and executive units, an alarm and remote control panel consisting of the same type of cells according to the number of fire extinguishing equipment modules, each of which contains signaling devices and remote controls the fact that the control unit of each of the modules of fire extinguishing means contains a first amplifier, the input of which is an information input m of the control unit, the second, third, fourth and fifth amplifiers, the first, second and third comparators, the first inputs of which are connected to the output of the first amplifier, and the second inputs are inputs of the supply of reference voltages, the clock generator, the first and second counters, the clock inputs of which connected to the outputs of the clock, the first, second, third and fourth circuits AND circuit NOT, while the output of the first comparator is connected to the first input of the first circuit And, the second input of which is connected to the output of the circuit NOT, and the output to the input the second amplifier, the output of which is the first alarm output of the control unit, the output of the second comparator is connected to the first input of the second circuit AND, the second input of which is connected to the output of the first counter, and the output to the input of the circuit is NOT, the output of the third comparator is connected to the input of the third amplifier, the output of which is the second alarm output of the control unit, and with the first inputs of the third and fourth circuits AND, the second inputs of which are connected respectively to the first and second outputs of the second counter, and the outputs with inputs of the fourth o and the fifth amplifiers, respectively, while the outputs of the fourth and fifth amplifiers are the first and second outputs of the time-spaced control signals for launching the control unit, and the executive unit of each of the modules contains the first and second rectifiers, the inputs of which are connected to separate AC power inputs, and the outputs are connected by a common bus, the first and second relays, the power circuits of the windings of which are connected respectively to the first and second inputs of the automatic start of the executive unit, and ykayuschie contacts of the first and second relays are connected in parallel between the common bus of the first and second rectifiers and respective execution unit outputs, the remote start input through the operation unit separating diodes connected to the power supply circuits of the windings of the first and second relay.  2. The system according to claim 1, characterized in that the fire extinguishing means is made in the form of generators of an aerosol mixture of inert gases and ultrafine particles with an inhibitory effect in the combustion process, equipped with one or two electric initiators of launch. 3. The system of claims. 1 and 2, characterized in that the aerosol mixture generators are placed at an angle of 30 40 ^o relative to the surface of their installation. 4. The system according to claims 1 to 3, characterized in that the number of aerosol mixture generators in each module of the fire extinguishing means is selected from the condition that the concentration of the aerosol mixture in the protected limited volume be at least 70 g / m ³ .

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