RU2426571C1 - Fire fighting installation - Google Patents

Abstract

FIELD: fire-fighting means. ^ SUBSTANCE: installation aims at fire extinguishing of any capacity, mainly on ships, platforms, oil-gas and other flammable industrial projects by means of intensive water or foam delivery. The installation comprises a mixer for water and a foaming agent connected to a foaming agent container mounted above to provide foam flow. A water tank has volume of at least 15 m3 and is box-shaped. Water from the tank through the mixer is delivered onto a fire monitor by a water pump with a mechanical drive representing a diesel engine with a fuel tank and a power supply. An electrical control and automation system is equipped with a pump dry-running protector and a pump drive actuator with a power supply in the form of a storage battery. The installation equipment is designed for working in the sea conditions and can be presented both in a standard sea container, and in bulk. The engine, the fuel tank, the pump, the power supply and the panel are mounted on a single base frame. ^ EFFECT: invention provides design and performance simplification, improved overall performance ensured by power loss reduction and higher range of fire fighting compound supplying, and also presents improved reliability and profitability of the installation. ^ 8 cl, 8 dwg

Description

The invention relates to techniques for extinguishing fires with high energy mainly on ships, offshore platforms, oil and gas and other fire hazardous industrial facilities by intensively supplying foam or water to a distance of at least 150 meters.

Known mobile and stationary fire extinguishing installations that implement a pulsed method of supplying a powerful jet of extinguishing agent over significant distances. Their disadvantages are: the use of explosive and fire-hazardous powder gas generators, tanks working under pressure, the formation of unsuitable for breathing substances during operation of gas generators. Known mobile and stationary fire extinguishing installations that implement the supply of water, foam or a fine jet pump. The disadvantages of such installations are significantly shorter range and power of the jet compared to the pulsed supply of extinguishing agent due to the lack of the required capacity and performance on the pumping market or excessive saturation of the plants with various types of expensive mechanical and electrical equipment.

In particular, there is a known installation for extinguishing fires of any power with water or foam, containing a strong steel tank for water, in the end parts of which a gas generator with a trigger mechanism and a gas pipe is fixed, and an outlet pipeline with a funnel and valve (RF patent No. 2384355). In the upper part of the working tank, gas storage coaming is made, into which the gas pipe is led. At least one container for the foaming agent with a hatch for filling it is installed outside the working tank, which is connected by pipelines with fittings on one side to gas accumulating coaming, and on the other hand, with an outlet pipe on which a shut-off valve is installed behind the working tank. The outlet pipeline is equipped with a gun monitor with a rotation system in two planes. The disadvantages of the installation include the use of explosive and fire-hazardous powder gas generators, tanks operating under pressure and heating during operation, the formation of a gas generator unsuitable for breathing when triggered.

A known installation using a mechanical method of supplying a fire extinguishing agent and technology for producing highly concentrated jets having a long range and finely divided composition (RF patent No. 2236876). The installation includes a mounting frame, a liquid storage tank, a water intake device, a rotary fire barrel with a rotary drive, a gas turbine engine (GTE) with a fuel system mechanically connected to an electric generator, a compressor and a high pressure water pump, as well as low pressure water pumps, pipelines and fittings. The fire barrel is made in the form of a gas-dynamic nozzle connected to it by a device for mixing liquid and gas and has an additional coaxial nozzle. The disadvantages of this installation include excessive complexity and increased power losses in the water supply system to the fire barrel due to the operation of the gas turbine engine on the electric generator, compressor drive and drives of high and low pressure water pumps, which also leads to a decrease in the reliability of the installation and an increase in its cost, to The disadvantages also include the low, in comparison with a stream of water, flight range of a finely dispersed stream and the increased complexity of operation of the installation.

The fire extinguishing installation according to the patent of the Russian Federation No. 2236876 is selected as the closest analogue to the claimed technical solution.

The objective of the invention is to simplify the design and operation of the installation, to increase the efficiency of the installation by reducing power losses and by increasing the supply range of the extinguishing agent, as well as to increase its reliability and efficiency.

The problem is solved due to the fact that in the known fire extinguishing installation containing a water tank, a water pump with a mechanical drive, a mixer, and a rotary fire (monitors) barrel connected by pipelines and valves, according to the invention, the mechanical drive of the water pump is made in the form of a diesel engine with a fuel tank, an electric power source and a control panel, the mixer is connected via a pipeline to a shut-off valve with a foaming agent container, which is installed above the mixer, so that its outlet th opening is located above the inlet mixer and the water container is designed as a tank box-like structure, of not less than 15 m ^3, the said device being provided with a system of electric and automation consisting pump protection device "dry run" and starting the diesel engine, and the source The power supply for starting the engine and the operation of the electrical control and automation system is made in the form of a battery.

In addition, the high-performance fire monitor is equipped with a two-plane rotation system.

In addition, a diesel engine with a fuel tank, a pump, a power supply and a control panel are mounted on a single foundation frame.

In addition, the electrical and mechanical equipment of the installation in the container is made taking into account its operation in marine conditions.

In addition, all elements of the installation, except the gun barrel, are enclosed in a standard sea container

In addition, the power source for starting the diesel engine and the operation of the electric control and automation system is made in the form of an air cylinder (s) and a mini-turbine connected to it with an electric generator.

In addition, the water pump is connected to a ship or industrial water line.

In addition, the water tank and the foam container are made of plastic.

Achievable technical result consists in increasing:

the cost-effectiveness of the installation and the facilitation of its operation due to the use of fewer and cheaper equipment, due to the use of a diesel engine as a water pump, cheaper and easier to operate than gas turbine engines, which also makes it easier and cheaper to foundations and devices for fastening installation elements; as well as by reducing power losses;

the efficiency of the installation by increasing the supply range of two extinguishing compositions, a stream of water or foam at a distance of up to 150 m, to the formation of secondary fires, allowing to suppress fires of any power;

reliability of the installation by reducing the number of technically sophisticated equipment.

Using a diesel engine as a pump drive allows you to get the output flow parameters (jets), unattainable for commercially available pumps, thereby ensuring the required range. The amount of diesel fuel in the tank, which is part of the installation, provides at least 10 operations of the installation. At the same time, the specified fuel is necessarily available on ships, platforms and at all production and storage facilities where the use of the installation is provided.

The presence of an electric accumulator in the diesel-pumping unit provides not only the start-up of the diesel engine, but also the operation of the plant automation system. Electricity for periodic recharging of the battery is also always available on ships, platforms, and in all production and storage facilities, where the use of the installation is provided.

The interior lighting required for the mobile, container-mounted installation is also provided by the battery of the diesel pump unit.

Electrical control of the installation minimizes the response time of the installation, simplifies control and increases the safety of operation of the installation.

The drawing shows a schematic diagram of a mobile version of the fire extinguishing installation as standard. Installation can also be performed in a stationary version.

The fire extinguishing installation consists of a high-performance pump 1 with a mechanical drive - a diesel engine 2 (engine). The pump 1 is equipped with a device for its protection against “dry running” (not shown in the drawing). The engine 2 transmits the rotation to the pump 1 through the coupling 3. These units for ease of assembly are installed on a single foundation 4. Water to the pump 1 comes from the water tank - tank 5 through a pipe 6 equipped with a shut-off valve 7. The tank 5 has a box shape with organization at the bottom of the slope to the intake pipe 6. The box-shaped structure is the easiest to manufacture, which provides it with minimal cost and is convenient for placement in a container with a container version of the installation. The water storage tank 5 is equipped with a ventilation pipe 8 in the upper part and a neck with a cover 9 for filling with water. The pump 1 can also be connected to a ship or industrial water line.

Using pump 1, water flows through a pressure pipe 10 to a mixer 11, where, if necessary, to extinguish with foam, a foaming agent from a container 13 for a foaming agent is supplied through a pipe 12, for which a container 13 for a foaming agent is installed above the mixer 11 so that its outlet is located higher the inlet of the mixer 11, ensuring the flow of foam into the mixer 11 by gravity. The pipe 12 has a shut-off valve 14.

The container 13 for the foaming agent in the upper part is equipped with a neck with a cover 15 for filling the foaming agent and a ventilation valve 16.

The mixer 11 is connected to a gun barrel 17, designed to discharge a jet with high energy, the pipe 18. The gun barrel 17 is mounted on a rotary flange 19 and can rotate in horizontal and vertical planes.

Fuel to the engine 2 from the fuel tank 20 enters through a pipe 21 equipped with a valve 22. The fuel tank 20 is mounted on a single foundation frame 4 and is equipped with a fill-ventilation cover 23. The fuel flows to the engine 2 by gravity.

The engine 2 is equipped with a gas outlet 24, which is equipped with spark suppression devices and reduce noise and vibration.

The engine 2 and the automation system were started from the battery 25. The installation is driven by a push-button control panel 26. The battery 25 and the control panel 26 are also mounted on a single foundation frame 4 for ease of installation and operation.

The source of electricity for starting the engine 2 and the automation can be made in the form of an air cylinder (s) and a mini-turbine connected to it with an electric generator.

All equipment of the installation can be made taking into account its work in sea conditions and installed in the case of a standard sea container 27. The container 27, taking into account work in winter conditions, is made with insulation and external galvanization. The gun barrel 17 is moved outside the container 27. The water tank 5 and the container 13 for the foaming agent, in order to reduce weight characteristics, can be made of plastic.

The installation works as follows:

The tank 5 is filled with water when the valve 7 is closed, while the cover 9 of the tank 5 is opened manually. The tank 5 is filled before overflow through the cover 9. Then, the cover 9 is closed.

Filling the container 13 for the foaming agent is carried out with the valve 14 closed through the cover 15 until overflow. If it is necessary to extinguish with foam, the valve 14 is opened before starting the installation. Upon completion of filling, the lid 15 is closed.

Filling the fuel tank 20 is carried out through the neck fill-ventilation 23 until the fuel appears at the neck of the neck, after which the neck 23 is closed.

The charge of the battery 25 is checked every 3 weeks and, if necessary, the battery 25 is recharged from the electrical network of the facility on which the fire extinguishing installation is mounted.

To start the fire extinguishing installation, open the valve 7 for supplying water to the pump. If necessary, extinguish the foam open the valve 14.

The installation is started by pressing the button on the remote control 26. Water from the tank 5 using the pump 1 through the mixer 11 enters the gun barrel 17, with which a stream of water or foam coming from the tank 13 through the pipe 12 with the valve 14 open, is directed to the object, engulfed in fire. During the fire extinguishing, manual monitoring of the fire monitor 17 is performed on the rotary flange 19.

During operation of the installation, the exhaust of the engine - diesel is carried out through the gas outlet 24.

The operation of the installation continues until the device protects the pump 1 from "dry running", which is included in the package of the used diesel pump installation. After operation of the automatic device to protect the pump 1 from "dry running" engine 2 stops working.

At the end of the installation, the tank 5 for water and the container 13 for the foaming agent are again filled. Recharging the battery 25 is performed as necessary.

The proposed fire extinguishing installation allows you to suppress fires of high power both with water and foam until secondary fires occur from a safe distance in all weather and other conditions.

The proposed fire extinguishing installation is simple and effective in execution and operation, as well as reliable and economical due to the execution of the pump drive in a diesel version and due to a decrease in power losses and an increase in the range of the extinguishing agent.

Claims (8)

1. Fire extinguishing installation, including a water tank, a water pump with a mechanical drive, a mixer and a fire monitor connected by pipelines and fittings, characterized in that the mechanical drive of the pump is made in the form of a diesel engine with a fuel tank, an electric power source and a control panel, the mixer is connected by means of a pipeline with a shut-off valve with a container for the foaming agent, which is installed above the mixer, and the water tank is made in the form of a tank-box tank with a volume of at least 15 m ³ , the installation is equipped with an electric control and automation system, including a device to protect the pump from dry running and starting a diesel engine, and the power source for starting the engine and the operation of the electric control and automation system is made in the form of a battery. 2. Installation according to claim 1, characterized in that the high-performance fire monitor is equipped with a two-plane rotation system. 3. The installation according to claim 1, characterized in that the diesel engine with a fuel tank, a pump, a power source and a control panel are mounted on a single foundation frame. 4. Installation according to claim 1, characterized in that all the electrical and mechanical equipment of the installation is made taking into account its operation in marine conditions. 5. Installation according to claim 4, characterized in that all its elements, except for the gun mount, are enclosed in a standard sea container. 6. Installation according to claim 1, characterized in that the power source for starting the engine and the operation of the electrical control and automation system is made in the form of an air cylinder (s) and a mini-turbine connected to it with an electric generator. 7. Installation according to claim 1, characterized in that the water pump is connected to a ship or industrial water line. 8. Installation according to claim 1, characterized in that the water tank and the container for the foaming agent are made of plastic.

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