RU2659996C2 - Sprinkler air fire extinguishing unit control method and device - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to the field of sprinkler air fire extinguishing installations, which characteristic features are filled with water in standby mode supply pipes, absence of water in the extinguishing agent supply and distribution pipelines and maintenance of the pneumatic pressure therein. Sprinkler air fire extinguishing system control method includes the fire detection, the logical processing of information on the sprinklers status included into the sprinkler fire extinguishing unit equipped with actuation control device and the signal valve activation. In the fire extinguishing installation supply and distribution pipelines in standby mode, there is no air overpressure. Signal for the installation activation is generated by the activated sprinkler equipped with actuation control device. Sprinkler air fire extinguishing system contains signal valve, filled with water at operating pressure supply line, and sprinkler spraying nozzles. In the fire extinguishing installation supply and distribution pipelines there is no air overpressure. Unit is equipped with sprinklers equipped with actuation control device and deluge alarm valve. Deluge signal valve trigger element is connected to the each sprinkler spraying nozzle actuation monitoring devices contact groups.

EFFECT: technical result of the group of the invention is increase in the sprinkler air installation response due to use of the deluge signal valve, simplification of the design, reducing the installation operating time and enabling its use in rooms with a negative ambient temperature.

4 cl, 2 dwg

Description

The present invention relates to the field of air sprinkler fire extinguishing installations, a characteristic feature of which is the supply pipelines filled with water in standby mode, the absence of water in the supply and distribution pipelines and the maintenance of pneumatic pressure in them. This circumstance allows the use of such installations in rooms with a negative ambient temperature.

The principle of operation of an air sprinkler installation is as follows. When activating the sprinkler sprinkler through its outlet, air begins to flow. When the pressure decreases to a certain level, a sprinkler signal valve is triggered, and air is displaced from the pipeline network under the influence of water flow pressure [A. Veselov, L. Meshman Automatic fire and explosion protection of chemical and petrochemical enterprises. M .: Chemistry, 1975. S.121-124].

It should be noted that the need to maintain pneumatic pressure in the pipeline network is caused by the need, after the sprinkler is triggered, to provide an informative signal about the fire and generate control commands to start the fire pumps and, if necessary, to control exhaust, supply or smoke ventilation, shut off the process equipment, etc. The issuing of an informative signal about a fire and the formation of control commands in existing sprinkler air installations is carried out only after the alarm valve is triggered. The alarm valve can only work if the pressure in the pipeline network drops to a certain value.

A significant drawback of air installations is their extremely long response time, i.e. response time from the moment the sprinkler sprinkler is activated until the appearance of extinguishing agent from it. Inertia primarily depends on the capacity of the piping network of the supply and distribution pipelines and the value of the initial pneumatic overpressure.

The low speed is due to the need to displace air enclosed in the supply and distribution pipelines. The capacity of these pipelines can be several cubic meters, the pressure in the air network is 0.2 MPa, and the diameter of the outlet is only 0 (10-15) mm, sometimes 0 20 mm. With these parameters, the own response time of the sprinkler AUP (excluding the activation of the sprinkler sprinkler itself) is calculated in minutes, which negatively affects the effectiveness of the AUL.

To reduce the response time of all types of sprinkler air systems, accelerators and exhausters are used [SP 5.13130.2009 “Fire protection systems. Automatic fire alarm and fire extinguishing installations. Design Norms and Rules ”(paragraphs 3.9, 3.119, 5.2.5 and 5.2.9)] (an accelerator is a device that, when the sprinkler sprinkler is triggered, opens a sprinkler air signal valve with a slight change in air pressure in the supply pipe; an exhauster is a device that provides when the sprinkler sprinkler is activated, the acceleration of the operation of the sprinkler air signal valve by actively relieving air pressure from the supply pipe).

For example, in a sprinkler aerial fire extinguishing installation (Stationare Feuerloschanlage) [German Application 19601777, IPC А62С 35/62, 07.24.97] in order to minimize the response inertia, it is proposed to use a differential pressure sensor, which, when a certain change in the pneumatic pressure produces simultaneously a control signal to the drive in action of the sprinkler signal valve and exhauster. When the water reaches the irrigator, the exhauster closes.

A similar device is implemented in a sprinkler air installation - the Method and device for actuating a sprinkler air installation of fire protection (Verfaren und Vorrichtung zum Betreiben einer Feuerlosch-Trockensprinkleranlage) [Application Germany 19716585, IPC А62С 35/68, 10.22.98]. The installation is equipped with a valve mounted on the supply pipe and opening upon a signal, for example, automatic fire detectors.

Currently, sprinkler sprinklers with actuation control - Sprinkler sprinklers [for example, RF patent No. 2170125, IPC АСС 37/08, 07/10/2001] have become widespread. These sprinklers are equipped with a normally closed contact device (trip control device). In case of a fire under the influence of heat fluxes, the sprinkler is activated, and under the action of a dispersible stream of extinguishing agent, the contact device breaks up and opens, due to which a signal can be generated to identify the place of burning and to control the technical means of the fire sprinkler installation and technical means of the technological process.

When determining the conformity of the distinguishing features of the present invention with the criterion of "inventive step", the prior art in the field of sprinkler air installations and, in particular, the known methods and devices for ensuring their speed, as well as methods and devices of automatic sprinkler fire extinguishing installations with forced (controlled) start, were analyzed .

Known sprinkler fire extinguishing installation - Installation for extinguishing a fire [patent for utility model of the Russian Federation No. 955528, IPC АСС 37/08, 07/10/2010], which contains a pressurized water distribution pipeline network on which sprinkler sprinklers equipped with a forced start device are installed and operation control device connected to the extinguishing agent feeder (fire pump), as well as a set of control and start-up modules included in the signal line connected to the fire address Bor reception and control and management. According to its functional purpose, this installation is in accordance with paragraph 5.5 of SP 5.13130.2009 “Fire protection systems. Automatic fire alarm and fire extinguishing installations. Design Norms and Rules ”is a water-filled sprinkler with forced (controlled) start-up. When activating a sprinkler sprinkler equipped with a forced start device and a trip control device, the incoming address control and control device analyzes the received information on the activated sprinkler and a software control action is generated on the actuator of the sprinklers arranged in a certain order.

The disadvantage of this fire extinguishing installation is the inability to use it as a sprinkler air installation, because it does not provide a sprinkler signal valve device that separates in standby mode a supply pipe filled with water and under pressure from a supply pipe under pneumatic pressure.

Known sprinkler fire extinguishing installation with starting block [patent for utility model of the Russian Federation No. 80121, IPC A62C, 08/15/2008]. This installation (in the air version) consists of a serially connected inlet pipe and a universal signal valve, an automatic compressed air supply system, distribution pipelines with sprinkler sprinklers connected at the extreme point of the pipe network of the exhauster and liquid level signaling device, a fire alarm installation complete with automatic firefighters detectors associated with a universal signal valve, an exhauster and an automatic feed system for compressed air.

In the initial state (standby mode), the supply pipe is under water pressure, the supply and distribution pipes are under pneumatic pressure. The signal air valve and the exhauster are closed.

When automatic fire detectors are triggered, the fire alarm installation gives a control signal to open the universal signal valve and the exhauster, at the same time the pressure alarm is triggered, the fire pump starts, the supply and distribution pipelines are filled with fire extinguishing agent, air is displaced from the pipeline network through the exhauster, and the compressed air supply system is shut off air. Thus, the supply and distribution pipelines from the air-filled ones turn into the water-filled state. When the pipeline network is completely filled with water, the level indicator gives a signal to close the exhauster. From this moment, the sprinkler-drencher unit enters the state of preliminary standby. The supply of extinguishing agent to the object of protection is possible only with the activation of any sprinkler sprinkler.

If the sprinkler is activated before the automatic fire detector is activated, the air is discharged through the opened sprinkler, but the extinguishing agent does not disperse, because the universal signal valve in the absence of a control signal from the fire alarm installation remains closed and does not pass water into the supply and distribution pipelines.

The main purpose of this sprinkler-drencher installation is to reduce the likelihood of a false operation of the installation when it protects expensive products that lose their presentation when exposed to fire extinguishing agents. At low temperatures, such installations are used relatively rarely, because there is a possibility of false activation of an automatic fire detector, as a result of which there are problems in restoring the installation to its original state (the problem is associated with the removal of water from the supply and distribution pipelines and their subsequent drying).

A similar device and principle of operation is a water-filled sprinkler installation with forced start-up - a water fire extinguishing system [RF patent No. 2414966, IPC V05V 12/00, A62C 37/08, 03/27/2011]. This installation contains a pressurized water-filled pipeline divided into zones, a distribution network on which sprinkler sprinklers are installed, equipped with a forced-start device connected to the extinguishing agent feeder, as well as a set of control and start-up modules included in the signal line connected to the fire-fighting address receiver monitoring and control device. According to its functional purpose, this installation is in accordance with paragraph 5.5 of SP 5.13130.2009 “Fire protection systems. Automatic fire alarm and fire extinguishing installations. Design Norms and Rules ”is a water-filled sprinkler with forced (controlled) start-up. When activating a sprinkler sprinkler equipped with a forced start device and a trip control device, the incoming address control and control device analyzes the received information on the activated sprinkler and a software control action is generated on the actuator of the sprinklers arranged in a certain order.

The disadvantage of this analogue is the inability to use this installation as a sprinkler air installation, because it also does not provide a sprinkler signal valve device that separates in standby mode a supply pipe filled with water and under pressure from a supply pipe under pneumatic pressure.

The prototype of the invention is a traditional sprinkler aerial fire extinguishing installation, shown in the training manual [Baburov V.P. and other "Automatic fire extinguishing installations", - M .: Pozhnauka, 2009. P.6-7]. The installation includes a water supply, supply, supply and distribution pipelines, a control unit complete with a sprinkler air signal valve and a pressure alarm, sprinkler sprinklers and an automatic system that maintains pneumatic pressure within specified limits. The supply pipe is filled with water and is under pressure, the supply and distribution pipes are not filled with water and are under pneumatic pressure.

When a fire occurs under the influence of the heat flow of the combustion products, the thermal lock of the sprinkler sprinkler is destroyed, and air expiration begins through its opening. When the pressure in the pipeline distribution network drops to a certain level, a sprinkler air signal valve is triggered, as a result of which air is displaced from the pipeline network more intensively under the influence of the water flow. Upon reaching the water flow of the activated sprinkler, dispersed extinguishing agent disperses from it onto the fire source.

The disadvantage of the prototype is due to the structural complexity and problems that arise during operation, since in order to maintain the air sprinkler installation, it is necessary to equip it with additional (compared to water-filled sprinkler installations) pneumatic equipment, a compressor and an automation system to maintain a given pneumatic pressure (which requires expensive maintenance ), as well as the fact that the flow of extinguishing fluid from the sprinkler sprinkler after its ivatsii is delayed due to the expiration of the duration of the process air, which are filled with a supply and distribution pipelines. The duration of the process of air outflow, that is, inertia, can be several minutes and depends primarily on the initial air pressure, the difference in the initial air pressure and the response pressure of the sprinkler air valve, on the total capacity of the supply and distribution pipelines.

The aim of the invention is to increase the speed of the sprinkler air installation through the use of a deluge signal valve and sprinklers equipped with a control device operation, in the complete absence of excess pneumatic pressure in the supply and distribution pipelines, thereby significantly reducing the response time of the installation, as well as structural simplification of the installation due to elimination of excess pneumatic pressure in the supply and distribution pipelines, mouth injuries of the automatic system for maintaining pneumatic pressure in the supply and distribution pipelines and dividing the distribution network of significant capacity into separate zones.

The essence of the proposed method of controlling sprinkler aerial fire extinguishing installations, including fire detection, logical processing of information about the state of the sprinkler sprinkler sprinkler sprinkler fire extinguishing systems with triggering control, and automatic start-up of the installation, consists in combining the principle of operation of a sprinkler aerial fire extinguishing installation, sprinkler-drencher fire extinguishing installation and sprinkler fire extinguishing system equipped with sprinkler sprinklers with control with abatyvaniya. In the proposed method, in order to reduce the response time of the sprinkler installation, supply and distribution pipelines that are not filled with water in standby mode are used, in which there is no excess air pressure, and the response of any sprinkler irrigation device equipped with a response control device and subsequent actuation of the deluge signal valve is recorded. In the event that the distribution pipeline network has a large capacity, then the accessory of the triggered sprinkler sprinkler of the corresponding section of the pipeline network is additionally identified, and the control command for targeted water start is carried out only in that zone of the pipeline network in which the activated sprinkler sprinkler is equipped with a control device .

The essence of the claimed device, including a signal valve, a network of supply and distribution pipelines and a control unit that monitors the condition of the sprinkler sprinkler sprinkler fire extinguishing system and generates a command signal to open the signal valve, consists in the use of a deluge signal valve and sprinkler sprinkler in a sprinkler installation equipped with a trip control device mounted on distribution pipelines, not filled with water, and in which there is no pneumatic pressure, moreover, with a large capacity of the branched system of supply and distribution pipelines, additionally used controlled normally open (or normally closed) locking devices installed at the beginning of each zone of the distribution network and connected to the output of the identification unit of the accessory of the activated sprinkler corresponding zone, and the input of the identification unit belonging to the activated sprinkler of the corresponding zone of the pipeline the network is connected to the output of the control unit that monitors the condition of the sprinkler sprinkler sprinkler fire extinguishing equipment equipped with a trip control device, and generates a command signal to open the deluge signal valve.

The technical effect realized by the claimed method and device makes it possible to simplify the fire extinguishing sprinkler installation and significantly increase its speed in comparison with traditional fire extinguishing sprinkler installations.

Thus, the distinguishing features of the invention are new and meet the criterion of "novelty."

Analysis of other technical solutions showed that the known methods and devices do not solve the above tasks performed by the claimed method and device.

Based on the foregoing, we can conclude that the claimed technical solution meets the criterion of "inventive step", and the invention itself is new.

The figure 1 presents in accordance with paragraph 3 of the formula structural diagram of the device. The device shown in figure 1 consists of a deluge (and not a sprinkler) signal valve 1, sprinkler sprinklers 2, equipped with a device for controlling the operation, distribution 3 and supplying 4 pipelines, a control unit 5 for monitoring the status of sprinkler sprinklers, equipped with a device for controlling the operation, and generating a control signal for the operation of the deluge signal valve 1.

Sprinkler sprinklers 2, equipped with a trip control device, are mounted on the distribution pipes 3. In standby mode, the deluge signal valve 1 is closed. The supply 4 and distribution 3 pipelines are not filled with water, and there is no excess air pressure in them. The control unit 5 is designed to monitor the status of sprinkler sprinklers 2, equipped with a device for controlling the operation, and the formation of a control command for the operation of the deluge signal valve 1.

In the event of a fire, when any sprinkler 2 equipped with a control device is activated, its normally closed contacts open, and this information is sent to control unit 5, which generates and issues a control command to open the deluge signal valve 1. When the deluge signal valve 1 is opened, extinguishing agent it fills the supply 4 and distribution 3 pipelines and, through activated sprinklers 2, equipped with a trip control device, is supplied to extinguish the fire.

The figure 2 presents in accordance with paragraph 4 of the formula structural diagram of the device. The device shown in figure 2 is used to reduce the response time of an automatic fire extinguishing installation, if the pipeline network has a branched structure of large capacity. Compared with the device shown in FIG. 1, the device shown in FIG. 2 additionally incorporates controlled normally open (or normally closed) locking devices 6, zones of the pipe network 8-9 and an identification unit 10 for the activated sprinkler belonging to the corresponding zone of the pipe network. Locking devices 6 are installed at the beginning of each zone of the pipeline network 7-9.

In standby mode, the deluge signal valve 1 is closed; sprinkler sprinklers 2, equipped with an actuation control device, are mounted on distribution pipelines 3. Supply 4 and distribution 3 pipelines are not filled with water, there is no excess air pressure, and shut-off devices 6 at the beginning of each zone of the pipeline network 7-9 are open (or closed) .

When triggering sprinkler sprinkler 2, equipped with a trigger control device and located in one of the zones of the pipeline network 7-9, the corresponding information is sent to the control unit 5, which controls the state of the sprinkler sprinklers with trigger control 2, which issues control commands to open the deluge signal valve 1 and identification block 10. In the identification block 10, the addressing of the received information is analyzed, and a signal is issued to close those locking devices 6 that do not belong to the second zone of the pipeline network 7-9, in which the sprinkler sprinkler 2, equipped with a triggering control device, (or to open the shut-off device 6, which belongs to exactly that zone of the pipeline network 7-9, in which the sprinkler sprinkler with actuation control 2 worked) is activated. Therefore, the extinguishing agent flows only into the area of the pipeline network to which the triggered sprinkler sprinkler 2 belongs, equipped with a trip control device.

For reasons of ensuring the operability of the automatic fire extinguishing installation, in the event of a failure of the automatic control option for the shut-off devices 6, in the general case, in standby mode their open state is preferable (since with the shut-off devices 6 open, the fire extinguishing agent will in any case be used to extinguish the fire).

Shut-off devices 11-13 perform the functions inherent in any deluge control unit: shut-off device 11 is designed to shut off the control unit during repair or maintenance work, shut-off device 12 is used to exclude the possibility of water entering the supply pipelines when checking the operation of the deluge signal valve, and locking device 13 - to ensure the evacuation of water from the pipeline network in the process of repair or maintenance work.

In standby and working condition, the locking device 11-12 is open, and the locking device 13 is closed.

Claims (4)

 1. A control method for a sprinkler aerial fire extinguishing installation, including fire detection, logical processing of information about the state of a sprinkler sprinkler sprinkler irrigation system equipped with a trigger control device, and actuating a signal valve, characterized in that in order to increase the speed of a sprinkler aerial installation fire suppression, in its supply and distribution pipelines in standby mode, there is no excess air pressure, and the signal on plant operation is formed by an activated sprinkler equipped with a trip control device. 2. The control method of the sprinkler aerial fire extinguishing installation according to claim 1, characterized in that in order to reduce the capacity of the pipeline network made of supply and distribution pipelines, it is divided into separate zones, and when the installation is triggered, the extinguishing agent is supplied only to that zone, which owns an activated sprinkler equipped with a trip control device. 3. Sprinkler air fire extinguishing installation, containing a signal valve, a supply pipe filled with water under operating pressure, and sprinkler sprinklers, characterized in that in order to improve performance, there is no excess air pressure in standby mode in its supply and distribution pipelines, it is equipped with sprinklers equipped with trip control devices and a deluge signal valve, the starting element of which is connected to the output of the control unit, the input of which is connected to the contact GOVERNMENTAL groups tripping control devices for each sprinkler. 4. Sprinkler aerial fire extinguishing installation according to claim 3, characterized in that in order to reduce the capacity of the pipeline network made of supply and distribution pipelines, the distribution network is made up of separate zones, and at the beginning of each zone a controlled normally open (or normally closed) is installed locking device, the starting element of which is connected to the output of the identification unit of the activated sprinkler of the corresponding zone, the input of which is connected to the output of the state analyzer sprinkler rositeley equipped with trigger control device.

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