RU2676578C2 - Universal fire extinguishing unit - Google Patents

Abstract

FIELD: fire-fighting equipment.

SUBSTANCE: invention relates to a fire extinguishing technique, in particular, to units used in extinguishing fires at industrial and other enterprises, as well as in public and other buildings, transport and other objects. In the proposed technical solution, the fire extinguishing unit includes a pressure generator connected to a tank containing a fire extinguishing agent, a pipeline or located directly in this tank. In this case, the pressure generator is made in the form of a refractory tank, in which at least two charges of a gas or aerosol-forming compound with initiators are placed, which are connected to a control device, and at least one pressure sensor is installed inside the tank with the extinguishing agent or in the pipeline connecting the pressure generator to the tank, which is connected to the control device.

EFFECT: technical result is to increase the efficiency of extinguishing due to the possibility of automatic regulation and maintenance of pressure of the displacing agent, as well as stopping the installation at any desired moment, and besides, the result is a reduction in overall dimensions, mobility, independence from the water supply network and the absence of vessels under pressure, which generally increases the safety of operation.

6 cl, 1 dwg

Description

The invention relates to fire extinguishing techniques, and in particular to fire extinguishing installations used in extinguishing fires in industrial and other enterprises as well as in public and other buildings, transport and other objects.

Stationary fire extinguishing systems are known that protect buildings and structures that are fire hazardous and constitute a complex system of tanks with extinguishing liquid, pipelines and pumping stations. Such systems are bulky and require constant monitoring of their condition and maintenance. In addition, in such systems, the power of the pumping stations is often but sufficient to ensure an intensive supply of extinguishing agent to the protected area. The exit time of these systems to the operating mode is long, which prevents the operational extinguishing of the resulting tanning. Known portable devices operating on the principle of displacing a fire extinguishing substance with gas pressure, a common disadvantage of which is the constant presence of the device under pressure, which creates a danger of use.

A known method of fire extinguishing (patents No. 2022582 and No. 2050866 taken as a prototype) consists in supplying a fire extinguishing liquid or powder under pressure to a fire zone, which are forced out by the products of combustion of a gas-aerosol-forming composition (GAOS) located inside the tank. The disadvantage of this method is the inability to stop the combustion of the composition after starting the installation in cases of rapid elimination of the fire and in case of emergency operation. Another disadvantage is the uneven pressure profile of the displacing agent. Placing the pressure generator only inside the vessel also limits the applicability of the installation.

In the proposed installation, the technical result is to increase the extinguishing efficiency. Another result is the ability to automatically control and maintain the pressure of the displacing agent, as well as stopping the installation at any necessary time. Another technical result is a reduction in overall dimensions, mobility, independence from the water supply network and the absence of pressure vessels, which generally increases the safety of operation. The proposed installation can be used in the form of autonomous fire extinguishers and as part of fire extinguishing systems.

These technical results are achieved by using a controlled pressure generator (several PSP charges placed in a sealed fireproof housing that can withstand high pressure, with an electric start-up controlled by a controller).

In the proposed technical solution, the fire extinguishing installation includes a pressure generator connected to a container containing a fire extinguishing agent by a pipeline or located directly in this container, as in the prototype.

The proposed installation is characterized in that the pressure generator is made in the form of a refractory tank, in which at least two GAOS charges are placed with start initiators that are connected to the control device, and inside the tank with a fire extinguishing agent or in a pressure generator that connects with a fire extinguisher the substance of the pipeline is equipped with at least one pressure sensor, which is connected to the control device, and the displacing aerosol forming composition is supplied to the fire zone.

As a fire extinguishing agent, you can use a liquid based on water and / or a salt solution, and / or a foaming agent.

In another embodiment, an organofluorine liquid can be used as a fire extinguishing agent: freon, fluoroketone and the like.

In another embodiment, powders can be used as a fire extinguishing agent.

The installation can be connected to an autonomous power source.

The installation can be performed in the form of a manual or portable device with a small-sized pressure generator used as a primary fire extinguishing means.

The figure shows an example of the design and operation of the installation.

The device operates as follows: when an electric signal is supplied from an operator or an automatic fire alarm system, the first GAOS charge is initiated, creating the necessary initial pressure for the displacement of the extinguishing agent. For ease of understanding, the proposed installation will be described below using an extinguishing liquid as an example. However, it is worth noting that when using the powder, the effect will be similar.

The installation may include a nozzle for extracting a fire extinguishing substance, and may include a network of pipelines with many nozzles.

After the pressure drop due to the fluid flow, the next charge starts, due to the signal from the pressure sensor located in the container with the extinguishing agent or in the connecting pipe, to the input of the control device (controller).

The process is repeated until all charges are triggered or a stop signal is given.

The larger the number of charges, the smaller the differences in the displacing pressure and the higher the efficiency of the installation. The number of charges is theoretically unlimited and depends on the capacity of the installation, the minimum size of charges and initiators, the capabilities of batteries and electronic controls. In experiments, the number of charges reached 28 pieces, while the mass of the charge was 10 grams.

As a fire extinguishing liquid, various substances having fire extinguishing properties that do not react with a displacing agent can be used. It can be water with foaming agents and (or) salt inhibitors, fluorocarbons, colloidal solutions, etc. Powders can also be of any type with a sufficient degree of dispersion and not reacting with a displacing agent.

The control and start-up device is a small-sized (miniature, if required) electronic circuit based on a controller chip. The minimum size of the device determines the power source. This circumstance allows you to create small-sized fire extinguishing installations, which can be used as the primary means of fire extinguishing, falling into the category - fire extinguisher.

The maximum dimensions of the plants are limited by expediency and can reach several tons in weight.

As an example of the use of the installation, one can describe the installation that is used to extinguish a fire installed in a passenger transport, for example, a bus.

In this example, the installation includes a tank - a tank of water in which a pressure generator is installed. Two water pipes with nozzles installed at a certain distance from each other extend from the water tank. The usual deluge fire extinguishing system is only completely autonomous.

The generator has 25 GAOS with electric initiators, the triggering pulse to which is supplied through the wires connecting them to the control device (controller). A pressure sensor is installed in the water tank. The control device is powered from the bus electric network and / or has autonomous power supply. All information and control is displayed on the control panel in the driver's cab.

You can use the installation to quickly create an automatic and / or autonomous deluge fire extinguishing system, for example, during activities related to crowding in rooms not equipped with the prescribed fire extinguishing systems. In temporary warehouses, field arsenals and many other objects.

Claims (6)

1. Fire extinguishing installation, including a pressure generator connected to a container with a fire extinguishing substance, characterized in that the pressure generator is made in the form of a refractory container, in which at least two charges of an aerosol forming composition with launch initiators are placed, which are connected to the control device, and inside at least one pressure sensor that is connected to the control device is installed in the pipeline connecting the fire extinguishing agent or in the pipeline connecting the pressure generator to the container with the extinguishing agent water, while the displacing aerosol forming composition is fed into the fire zone. 2. Installation according to claim 1, characterized in that as the extinguishing agent use an aqueous liquid and / or a salt solution, and / or a foaming agent. 3. Installation according to claim 1, characterized in that the use of an organofluorine liquid as a fire extinguishing agent: freon, fluoroketone and the like. 4. Installation according to claim 1, characterized in that powders are used as the extinguishing agent. 5. Installation according to any one of paragraphs. 1-4, characterized in that the installation is connected to an autonomous power source. 6. Installation according to claim 5, characterized in that the installation is made in the form of a manual or portable device with a pressure generator.

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