SU910170A1 - Device for control of fire-fighting system - Google Patents

Description

  I. The invention relates to fire fighting equipment, namely, devices for controlling the process of detecting and extinguishing fires.

. A device for controlling a fire control system is known, comprising a fire detection sensor, the output of which is connected to a program-time unit and a sanoportical valve installed on the supply line of the extinguishing agent from the container to the spray nozzles.

Its disadvantage is the lack of automatic control of the end of the burning process, which makes it possible to stop the supply of extinguishing agent before the complete elimination of the fire, thus reducing the efficiency of the device.

The purpose of the invention is to increase the efficiency of the device.

The goal is achieved in that the device contains a linearly varying voltage generator, a simulator of combustion, a comparison unit, a NOT logical unit, a matching unit, a memory unit, and an electric actuator valve installed in the supply line of the extinguishing agent, while the output of the detection sensor the ignition is connected to the first inputs of the first and second blocks of coincidence and through a logical element NOT to the first input of the third block of matches,

Claims (1)

10 whose second input is connected to the output of the program-time block and to the input of the fire detection sensor, and the output of the third coincidence unit is connected to the first input of the linearly varying voltage generator, the second input of which is connected to the output of the second coincidence unit and the first input of the fourth the match value of the generator, the output of the alternating voltage generator is connected to the combustion simulator and to the input of the comparator unit, the outputs of which are connected With; the second inputs of the first 39 and second matching blocks, the output of the first matching block is connected to the first input of the gate actuator and the input of the memory block, the output of which is connected to the second input of the fourth match block, the output of which is connected to the second input of the gate actuator. The drawing shows a functional diagram of a device for controlling a fire extinguishing system. The device for controlling the fire extinguishing system consists of a fire detection sensor I, the output of which is connected to the shut-off valve to the valve 2, which is located together with the electrically controlled valve 3 on the fire-extinguishing fluid supply line 4 from the tank 5 to the nozzles 6. besides, it is connected to the program-time unit 7, the logical element NOT 8, to the first inputs of the first 9 and second 10 blocks of coincidence. The output of the software-time unit 7 is connected to the input of the third coincidence unit 11, the output of which is connected to the input of the generator 12 of a linearly varying voltage. The output of the generator is connected to the combustion simulator 13 and the comparison unit 14. The output of block 10 of coincidence is connected to the input of block 15 of memory, the output of which is connected to the input of fourth block 16 of coincidence. In the standby mode, sensor 1 monitors the state of the protected object, there is no signal at its output, the porn-starting valve 2 is closed and the fire extinguishing agent does not occur. Valve 3 is in the open state in standby mode. In the event of a fire, the sensor 1 operates and sends a signal to the valve 2, when triggered, it starts feeding the extinguishing agent to the combustion zone. The signal from sensor 1 triggers a software time block 7, which, after the extinguishing time of quenching expires, causes a signal to reset the sensor. If the ignition is not extinguished within the estimated time, the intensity of the flame emission is high enough and even taking into account its attenuation in the layer of the extinguishing agent is sufficient to trigger the sensor, then its reset does not occur AND after a certain time the program-time block causes the next signal (and so on until the sensor is reset). The resetting of the sensor cannot indicate a complete cessation of burning, since the fire extinguishing agent can attenuate the radiation of the flame to a level that the sensor cannot fix, therefore the signal to stop the supply of the extinguishing agent should not be given. When resetting from the output of block 1I, a coincidence signal is issued to start the generator 12 of a linearly varying voltage. The voltage from the generator I2 is supplied to the combustion simulator 13 and to the comparison unit 14. With an increase in voltage, the intensity of the radiation of the combustion simulator increases, at a certain value of which the sensor triggers. The voltage on the simulator, at which the sensor is triggered, is compared in comparison with the voltage on the simulator 13, at which the sensor triggers in the absence of a fire. By the magnitude of the voltage difference, a signal is generated to terminate or to continue burning. If the pickup voltage of the sensor is less than the pickup voltage in the absence of a fire, this indicates a continued burning, as the radiation of the flame is added to the simulator radiation. In this case, the signal from the comparison unit 14 is output through the coincidence unit 9, at the second input of which there is a sensor triggering signal, to disconnect the generator of the linearly varying voltage. The time program block / continues to transmit signals that are used to check for the presence of a fire. In the case when the supply voltage at the simulator at which the sensor is triggered, is equal to the tripping voltage when there is no fire, the comparison unit 14, sends a signal to the coincidence unit 10, from which, in the presence of a sensor trigger signal, the signal for closing the valve 3, c and memory block 15. Gate 3 begins to close, the flow rate of the extinguishing agent decreases. 5 In the process of closing the time-period valve, you continue to give a signal to check for the presence of a mountain and, if the fire is still not suppressed, this is detected because it reduces intensively the supply of fire extinguishing agent and the degree of attenuation of the radiation of the flame. In this case, the comparison unit 14 generates a signal for the coincidence unit 9, from the output of which, through the unit 16, coincidence if there is a valve previously issued from the closing valve. (they are fixed by memory block 15), they give a signal to open the valve. After that, the fire extinguishing system operates in the closing-opening mode of the valve until the end of the fire extinguishing procedure. When you completely close the rear view, a signal is issued to disable the software-temporary block (not shown). Control of the moment of stopping the burning and automatic shutdown of the supply of the extinguishing agent increases the effectiveness of the fire extinguishing systems by reducing the overspending of the extinguishing agent and reducing the simple process equipment. Claims An apparatus for controlling a fire extinguishing system, comprising fire detection sensors, the output of which is connected to a software / time unit, and a shut-off valve installed on the supply line of the extinguishing agent from the container to the spray nozzles, which is its efficiency, it has a linearly varying kenin generator, a combustion simulator, a comparison unit, a NOT logical unit, a matching unit, a memory unit, and an electrically operated valve installed In this case, the detection sensor output of the ignition sensor is connected to the first inputs of the first and second coincidence units and through the logic element NOT to the first input of the third coincidence unit, the second input of which is connected to the output of the software time block and the input of the fire detection sensor, and the output of the third coincidence unit is connected to the first generator input of a linearly varying voltage, the second input of which is connected to the output of the second coincidence unit and to the first input a matching unit, the generator output of a linearly varying voltage is connected to the combustion simulator and to the input of the comparison unit, the outputs of which are connected to the second inputs of the first and second matching blocks, the output of the first matching unit is connected to the first input of the electropHBO ta valve and the memory unit, the output of which is connected to the second input of the fourth coincidence unit, the output of which is connected to the second input of the electric drive of the valve. Sources of information taken into account in the examination 1. UK patent No. 1A82731, cl. A 5 A, .1977.