RU14839U1 - FIRE EXTINGUISHING SYSTEM - Google Patents

Abstract

1. Fire extinguishing system, comprising a fire alarm sensor unit installed in a protected volume, at least two manifolds with spray guns connected through a first pipeline to shut-off and start-up valves of the main, first and second additional fire extinguishers, the controller, the first and third outputs of which are connected with inputs of shut-off and start valves of the main, first and second additional fire extinguishers, and the first, second and third inputs of the controller are respectively connected to the output of the fire alarm sensor block identification and outputs of the first and second pressure sensors, characterized in that between the first and second pipelines a distributor with a damper is introduced, the output of which is connected to the input of the second manifold, while the fourth output of the controller is connected to the input of the first shut-off and start valve of the second additional fire extinguisher, and the second and the third shut-off and start valves are equipped with individual dispensers, combined through a shut-off valve, and the fifth controller output is the control input for the second stage of the system fire extinguishing. 2. The fire extinguishing system according to claim 1, characterized in that it is additionally equipped with a drive installed between the second output of the controller and the input of the distributor.

Description

Fire extinguishing system

The utility model relates to the field of polar engineering and is designed to automatically extinguish a fire at all kinds of complex technological facilities.

A fire extinguishing system is known, comprising a polar alarm sensor unit installed in a protected volume, at least two collectors with spray guns connected through a first pipeline to shut-off and start-up valves of the main and first and second additional fire extinguishers, a controller, the first and third outputs of which are connected to the inputs of the shut-off valves of the main, first and second additional fire extinguishers, and the first, second and third inputs of the controller are respectively connected to the output of the sensor unit alarms and outputs of the first and second pressure sensors (see, for example, V.K. Luzhetsky, “Fire Protection of Civil Aviation Aircraft, M., Transport, 1967, pp. 91-92).

However, the known system has insufficient efficiency due to the possibility of re-ignition due to the presence of an elevated temperature of the object.

The technical result of the invention is to increase the efficiency of fire fighting.

The specified technical result was achieved by supplying a fire extinguishing system with a distributor, controller, dispensers, main and additional fire extinguishers, which allows the cooling of the fire to continue after extinguishing

2000104425

MKI: A62C 37/00

flame to a temperature below the critical reignition temperature.

At the same time, at least two manifolds with sprayers connected through the first pipeline to the shut-off and start-up valves of the main, first and second additional fire extinguishers, a controller, the first and third exits of which are introduced into the fire extinguishing system, which contains a block of fire alarm sensors installed in a protected volume connected to the inputs of the shut-off and start valves of the main and first and second additional fire extinguishers, and the first, second and third inputs of the controller are respectively connected to the output of the unit of fire alarms and the outputs of the first and second pressure sensors, between the first and second pipelines a distributor with a shutter is introduced, the output of which is connected to the input of the second manifold, while the fourth controller output is connected to the input of the first shut-off and start valve of the second additional fire extinguisher, and the second and third shut-off valves are equipped with individual dispensers, combined through a shut-off valve, and the fifth output of the controller is the control input for the second stage of the fire system otuscheniya furthermore polsarotusheniya system is further provided with a drive mounted between the second controller output and the input of the distributor.

Figure 1 shows the functional diagram of the fire extinguishing system, where the protected volume is 1, the fire alarm sensor unit is 2.1-2.2, the controller is 3, the first shut-off and start valve is 4, the second shut-off and start-up valve is 5, the main fire extinguisher is 6, the first additional fire extinguisher - 7, the first pipeline - 8, the first manifold with sprayers-9.

the second manifold with sprayers-10, shut-off and start-up valves 11.1 - 11.3, the second additional fire extinguisher - 12, individual dispensers - 13.1 - 13.2, the second pipeline - 14, the shutter - 15, the distributor - 16, the shut-off valve - 17, the first pressure sensor - 18, the second pressure sensor is 19.

In FIG. 2 is a functional diagram of a fire extinguishing system, where it is sewn; the required volume is 1, the fire alarm sensor unit is 2.1-2.2, the controller is 3, the first shut-off and start valve is 4, the second shut-off and start-up valve is 5, the main fire extinguisher is 6, and the first additional fire extinguisher - 7, the first pipeline - 8, the first manifold with a spray-9, the second manifold with a spray -10, shut-off and start-up valves 11.1 - 11.3, the second additional fire extinguisher - 12, individual dispensers - 13.1 - 13.2, the second pipeline - 14, the shutter - 15, the distributor - 16, the shutoff valve - 17, the first pressure sensor is 18, the second pressure sensor is 19, the drive is 20. The fire extinguishing system works as follows: In case of detecting a fire source in the shield; the volume of 1 (Fig. 1) is the signals from the fire alarm sensor block 2.1-2.2, including, for example, gas sensors, flame sensors for infrared radiation, flame sensors for ultraviolet radiation, temperature sensors, smoke sensor, flame sensor for “ionization”, are fed to the first input of controller 3, where, in accordance with the previously set logical word of the decision on the inclusion of fire protection system. In the event that a decision is made to turn on the system, a signal is generated at the first output of controller 3, which simultaneously enters the control inputs of the start-up valves 4 and 5. Fire extinguishing substance (OTV) from

extinguishers 6 and 7 through the shut-off and start-up valves 4 and 5 enters the collectors through the first pipe 8, which can be at least two - 9 and 10. Moreover, the OTV enters the collector 10 through the distributor 16, in which when the shutter 15 is turned on is in position "A. The number of collectors with sprays, which are installed in a protected volume, is determined at the design stage for each specific case and depends on the configuration of the room, the type of processing equipment, the presence of combustible and explosive substances, etc.

At the first stage of extinguishing a fire, it is necessary to extinguish an open flame, which is achieved by ensuring the necessary concentration of OT in the zone of the fire. At the second stage, it is necessary to ensure the impossibility of re-ignition. The conditions for re-ignition are that an oxidizing agent, a combustible substance and a temperature exceeding the ignition temperature (cr of the combustible substances used) are simultaneously present in the same place of the protected volume. Therefore, after extinguishing an open flame, it is necessary to reduce the temperature in the vicinity of the fire to values less than txp.

The structure of the fire alarm sensor block 2 includes a set of temperature sensors in the range tmin - cr with a predetermined discreteness.

According to the signals of the fire alarm sensor block 2.1-2.2, detecting the absence of an open flame, for example infrared radiation sensors, when the first temperature value ti 1cr is reached in the controller 3, a control signal is generated at its second output, which is fed to

control input of the shut-off and starting valve 11.1. This signal allows the entry of OTV from the second additional fire extinguisher 12 through the shut-off-start valve 11.1, the first dispenser 13.1 (with a hole diameter D1), into the second pipe 14, thereby changing the position of the shutter 15, located in position "A, of the distributor 16, t .e. due to the pressure difference in pipelines 8 and 14, the flow of exhaust air to the manifold 10 from pipeline 8 is blocked (position “B).

To increase the efficiency of the fire extinguishing system with slight differences in the pressure values in the pipelines 8 and 14, the position of the damper is controlled by the actuator 20, which is turned on by the same control signal from the second output of the controller 3 (see Fig. 2).

When the temperature in the zone of the controlled fire area decreases to the next allowed value ti, the output of the fire alarm sensor block 2.1-2.2 is formed

a control signal that is fed to the first input of the controller 3, at the third output of which a signal is generated, which is fed to the control input of the shut-off and trigger valve 11.2 and thereby opens the supply of OTV from the fire extinguisher 12 through the shut-off and trigger valve 11.2. High-pressure OTP enters through the dispenser 13.2 to the shut-off valve 17, which shuts off the OTV supply to the pipeline 14 through the dispenser 13.1 and simultaneously opens the OTV to the pipeline 14 from the fire extinguisher 12 through the dispenser 13.2 with a smaller diameter D g, D i.

In the case of decreasing the pressure of the OTV in the pipeline 14 to the value of Rpor, indicating that the volume of the OTV of this fire extinguisher is worked out and with the corresponding values

temperatures, for example, in the range ts t according to the signal from the pressure sensor 18 supplied to the third input of the controller 3. A signal is generated at its fifth output, by which the required shut-off and start valve of the second stage of the ADDITIONAL fire extinguishers is connected.

In emergency mode, if at the initial stage of the system’s operation after the signal from the fire alarm sensor block 2.1-2.2 is supplied, the second pressure sensor 19 in the first pipe 8 does not record the activation of fire extinguishers 6 and 7, both of the first and second phases, then in the fourth the output of the controller 3 generates a control signal, through which the OTV from the second additional fire extinguisher 12 through the shut-off and start-up valve 11.3 directly enters the first pipe 8.

Thus, the use of the inventive system for extinguishing fires of complex technological objects will increase the extinguishing efficiency and eliminate the possibility of secondary fire.

Claims (2)

1. Fire extinguishing system, comprising a fire alarm sensor unit installed in a protected volume, at least two manifolds with spray guns connected through a first pipeline to shut-off and start-up valves of the main, first and second additional fire extinguishers, the controller, the first and third outputs of which are connected with inputs of shut-off and start valves of the main, first and second additional fire extinguishers, and the first, second and third inputs of the controller are respectively connected to the output of the fire alarm sensor block identification and outputs of the first and second pressure sensors, characterized in that between the first and second pipelines a distributor with a damper is introduced, the output of which is connected to the input of the second manifold, while the fourth output of the controller is connected to the input of the first shut-off and start valve of the second additional fire extinguisher, and the second and the third shut-off and start valves are equipped with individual dispensers, combined through a shut-off valve, and the fifth controller output is the control input for the second stage of the system fire fighting. 2. The fire extinguishing system according to claim 1, characterized in that it is additionally equipped with a drive installed between the second output of the controller and the input of the distributor.