RU2610816C2 - Method for controlling air fire-extinguishing plant and device for its implementation - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to scope of sprinkler air fire-extinguishing plants. Method for controlling sprinkler air fire-extinguishing plant consists in combination of action principles of sprinkler air fire-extinguishing system, sprinkler-and-drencher fire-extinguishing plant, and sprinkler fire-extinguishing plant equipped with sprinklers, with actuation control device. At actuation of sprinkler equipped with actuation control device, mounted on distribution network, control unit without delay, which is characteristic for air sprinkler plants, can open signal valve and ensure flow of water into fire focus.

EFFECT: at high capacity of branched system of feed pipelines, controlled shut-off devices are additionally used, installed at origin of each zone of distribution network, and connected to output of control unit, appropriate for given zone, which additionally to opening signal valve performs issuing command signal to open shut-off device in zone, wherein actuated sprinkler stands.

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 lack of water in the supply and distribution pipelines, which allows the use of such installations in rooms with a negative ambient temperature.

Conventional sprinkler systems contain sprinkler sprinklers included in pipelines filled with pressurized water, alarm valves and pumps. In case of fire, the thermal lock of the sprinkler sprinkler is destroyed, and water dispersion to the fire begins. In this case, the alarm valve is activated, an information signal about the fire is generated and the booster pump is started [Veselov A.I., Meshman L.M. Automatic fire and explosion protection of chemical and petrochemical enterprises. M .: Chemistry, 1975]. The disadvantage of such installations is the inability to use them at low temperatures.

The prototype of the invention is a sprinkler aerial fire extinguishing installation [Baburov V.P. and other "Automatic fire extinguishing installations." - M .: Pozhnauka, 2009. S. 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.

In the event of a fire under the influence of the heat flow of the combustion products, the thermal lock of the sprinkler sprinkler located above the focus 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, pressurized water begins to flow into the supply and distribution pipelines, as a result of which further air is forced out of the pipeline network more intensively. When the activated sprinkler reaches the water stream, dispersed extinguishing agent is dispersed from it onto the fire source.

The disadvantage of the prototype is its low speed, since the output of the extinguishing agent and, accordingly, the beginning of the fire extinguishing occur with a delay due to the length of the process of air expiration, which filled the supply and distribution pipelines. This process can take several minutes and depends on the initial air pressure in the pipelines, their total capacity, the response pressure of the sprinkler air valve and the diameter of the outlet of the activated sprinkler.

The aim of the invention is to increase the performance of the sprinkler air installation.

This goal is achieved by the fact that in the method of controlling a sprinkler aerial fire extinguishing installation, including fire detection, processing information about the state of the sprinkler sprinkler sprinkler fire extinguishing system and actuating the signal valve, sprinkler sprinklers equipped with a trip control device are used, and a signal to open the signal valve is formed by the activation control device of the activated sprinkler.

In this case, an additional increase in speed can be achieved due to the fact that the pipeline network of supply and distribution pipelines is divided into separate zones, and when the installation is triggered, the extinguishing agent is supplied only to that zone from which the signal from the activated irrigation actuation control device came from.

To implement the claimed method, a sprinkler aerial fire extinguishing installation is proposed, comprising a signal valve, a supply pipe filled with water under operating pressure, and sprinkler sprinklers. The installation uses sprinklers equipped with a trip control device, a deluge signal valve and a control unit, while the trigger element of the deluge signal valve is connected to the output of the control unit, the input of which is connected to the control devices for operating the sprinkler sprinklers.

In the proposed sprinkler aerial fire extinguishing installation, the pipeline network of the supply and distribution pipelines can be divided into separate zones, and at the beginning of each zone a controlled shut-off device is installed, connected to the output of the control unit corresponding to this zone, and the control devices for irrigation actuation of each zone are connected to the corresponding inputs of the block management.

The essence of the proposed method for controlling an air sprinkler fire extinguishing installation is that in the proposed method, the opening of the deluge signal valve and, accordingly, the flow of water into the supply and distribution pipelines occurs immediately after the operation of any sprinkler sprinkler equipped with a control device for operation. In the event that the distribution pipeline network has a large capacity, 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 response monitoring device.

The technical effect realized by the claimed method and device can significantly improve performance in comparison with traditional sprinkler fire extinguishing installations.

It is not known from the technical field to use sprinkler sprinkler control devices for starting sprinkler fire extinguishing installations. Thus, the distinguishing features of the present invention 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 the structural diagram of the device corresponding to paragraph 3 of the formula. The device shown in figure 1 consists of a deluge signal valve 1, sprinkler sprinklers 2, equipped with control devices and mounted on the distribution pipe 3, the supply pipe 4 and the control unit 5.

Installation works as follows. In standby mode, the deluge signal valve 1 is closed. Supply 4 and distribution 3 pipelines are not filled with water. In the event of a fire, one of the sprinklers 2 is activated and its actuation control device transmits a signal to the control unit 5, which generates a control command to open the deluge signal valve 1. When the deluge signal valve 1 is opened, the extinguishing agent enters the supply 4 and distribution 3 pipelines and through the activated sprinkler 2 is fed to the fire.

The figure 2 presents the structural diagram of the installation corresponding to paragraph 4 of the formula. Such a device is used to reduce the response time if the pipeline network has a branched structure of large capacity. Compared with the device shown in figure 1, the controlled device 6, zones of the pipeline network 8-9 are additionally introduced into the device shown in figure 2. Locking devices 6 are installed at the beginning of each zone of the pipeline network 7-9. The control unit 5 has several inputs and additional outputs according to the number of zones of the pipeline network.

In standby mode, the deluge signal valve 1 is closed. Supply 4 and distribution pipelines 7-9 are not filled with water.

When the sprinkler sprinkler 2 is triggered, equipped with a trip 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 issues control commands to open the deluge signal valve 1 and the shut-off device 6 of the zone in which it worked sprinkler sprinkler 2. In this case, the extinguishing agent flows only into the area of the pipeline network to which the activated sprinkler sprinkler belongs.

Claims (4)

1. A method for controlling a sprinkler aerial fire extinguishing installation, including detecting a fire, processing information about the state of a sprinkler sprinkler sprinkler fire extinguishing system, and activating a signal valve, characterized in that sprinkler sprinklers are used to increase the speed of a sprinkler aerial fire extinguishing system, equipped with a trip control device, and a signal to open a signal valve is generated by a trip control device Ia activated sprinkler. 2. The control method of a sprinkler aerial fire extinguishing installation according to claim 1, characterized in that the pipeline network of supply and distribution pipelines is divided into separate zones, and when the installation is triggered, the extinguishing agent is supplied only to that zone from which the signal from the activated activation monitoring device came from sprinkler. 3. Sprinkler aerial fire extinguishing installation that implements the method according to claim 1, comprising a signal valve, a supply pipe filled with water under operating pressure, and sprinkler sprinklers, characterized in that it is equipped with sprinklers equipped with actuation control devices, a deluge signal valve and a control unit while the trigger element of the deluge signal valve is connected to the output of the control unit, the input of which is connected to the control devices of the operation of each sprinkler sprinkler. 4. Sprinkler aerial fire extinguishing installation according to claim 3, characterized in that the pipeline network of supply and distribution pipelines is divided into separate zones, and at the beginning of each zone a controlled shut-off device is installed, connected to the output of the control unit corresponding to this zone, and irrigation actuation control devices each zone is connected to the corresponding inputs of the control unit.

Images