RU2663398C1 - Mobile fire extinguishing installation with foam generation by compression method - Google Patents

Abstract

FIELD: fire safety.SUBSTANCE: invention relates to the fire fighting equipment, namely to the ground fire-fighting vehicles with the foam generation by compression method. Mobile fire extinguishing installation with foam generation by compression method comprises mixing chamber, to which outlet the foam supply device to the fire center is connected, and by the pipes connected to the mixing chamber inlet the water supply system, including the water supply pump and the water supply pump drive, foaming concentrate supply system, including the foam pump and the foam pump drive, as well as the air supply system, including the air compressor and the air compressor drive. According to the invention, connecting the water supply pump and the mixing chamber the water supply pipeline is provided with the water flow meter, with electric driven throttle valve and check valve, as well as the throttle valve electronic control unit, at that, the throttle valve control unit input is electrically connected to the water flow meter output, and the throttle valve control unit output is electrically connected to the throttle valve electric drive input.EFFECT: achieved by the claimed invention technical result consists in the possibility of obtaining in the automatic mode of the necessary by the pressure and density foam with the foam variable back pressure at the mobile extinguishing installation output, as a result of the pressure hoses changing hydraulic resistance and the foam rise geometric height along these hoses, while achieving the installation greatest efficiency due to the stable foam supply mode, which is maintained automatically, regardless of the possible variations in the of the pressure line characteristics at the mobile fire extinguishing installation output.5 cl, 1 dwg

Description

The invention relates to fire fighting equipment, and in particular to fire-fighting ground vehicles with foam generation by a compression method.

From the journal "Modern Technologies for Civil Defense and Emergency Response Management", published by the Voronezh Institute of the State Fire Service of the Ministry of the Russian Federation for Civil Defense, Emergencies and Natural Disasters, issue No. 1 ( 6) / Volume 1/2015, in the article “Portable installation for the production of compression (gas-filled) foam” (authors Shavaleev M .R., Koksharov A.V.), compression (gas-filled) foam is known, which, as indicated, is one of the most effective extinguishing agents, since its action is simultaneously aimed at cooling the combustion zone and isolating it from oxygen. In addition, the use of compression foam in comparison with water has several advantages: low recoil and ease of retention of the fire barrel when extinguishing agent is supplied; low weight of the sleeve, which facilitates the movement of the shredder; the possibility of supplying foam through a dry pipe to a height of up to 250 meters at a pressure in the system of not more than 10 atm .; low vaporization, which leads to improved visibility when extinguishing, increasing the accuracy of the foam and reducing the risk of burn injuries to firefighters; low thermal conductivity of the foam, which facilitates operation in low temperature conditions. Also, the indicated source of information discloses a diagram of a portable installation consisting of a metal pipeline, the ends of which contain connecting heads for connection to hose lines, on the one hand, to a fire pump (water pump) and, on the other hand, to a foam supply device to the center fire (fire hose, hand barrel, fire monitor); systems for dosing and supplying a foaming agent (foaming concentrate); and systems for supplying air from points of personal respiratory protection (RPE) through a gearbox. Thus, a foaming and dosing system for foaming, intended for feeding and dosing the foaming agent into the unit from a third-party tank, includes a submersible pump that takes the foaming agent from a third-party tank and transports it to a feeding device under pressure. The feed device is structurally a pitot tube, the bent end of which is rotated in the direction of fluid movement. For dispensing the foaming agent, a faucet is located in front of the feeding device, opening or closing of which controls the saturation of the foaming agent solution. The foaming agent is mixed with water under the action of a developing turbulent regime. At the same time, the quality indicators of compression foam are regulated by the flow rate of the foaming agent solution using a tap. The design of a portable installation for producing compression foam proposed in this article is mainly aimed at modernizing existing mobile fire fighting installations in order to expand their functionality while reducing the cost of such expansion. The disadvantages of the disclosed installation are:

- the need to use cylinders with compressed air;

- the need for quick manual adjustment of a fire-fighting installation modernized with it, in which manual adjustment must be carried out, including when the supply pressure of any component of the foam (water, foam-forming concentrate, compressed air) is changed, for example, when the installation is operated from a water source with back-up ( fire hydrants, etc.);

- the lack of automatic adjustment of water supply pressures, foaming concentrate and compressed air when the pressure at the outlet of the installation (back pressure) changes, depending on the hydraulic resistance of the pressure hoses through which the finished foam is supplied, and on the geometric height of the foam on these hoses, to overcome which it is required to change the pressure of these components in manual mode, which is even more difficult in the absence of direct line of sight of the jet from the workplace of the installation operator;

- lack of automation of the process of creating compression foam, because in systems for dosing and supplying a foaming agent and air supply from the cylinders personal protective equipment for respiratory organs (hereinafter - RPE) there are no controllers controlling the operation of the devices that control depending on the required and current characteristics of the finished foam, which requires manual adjustment of the foam components.

Also, from the patent for the invention of the Russian Federation No. 2580779, published on 04/10/2016, IPC A62C 27/00, a mobile robotic fire-extinguishing complex is known including a compression foam fire extinguishing system consisting of a mixer, a centrifugal pump, electromagnetic valves, a pressure switch, and an auxiliary high-pressure pipeline pressure, fire monitor and pressure transmitter (gear). The mixer provides for the connection of a fire hose from a tank truck or a fire hydrant and a foaming agent through inlet pipes with quick-detachable connecting heads. The hydraulic centrifugal pump provides a capacity of 31 l / s. In addition, the high-pressure pipeline has a quick-detachable connection for connecting an additional fire hose to the hand barrel (hose). Also, said fire extinguishing system includes a foam generating device, a container with water, a container with compressed air, and a container with a foaming agent. The main element of this installation is a foam-generating device, which from water and a foaming agent using compressed air provides the formation of low-pressure air-mechanical foam (compression foam), while air is supplied to the system from a high-pressure cylinder through a pressure reducer, which reduces the pressure to the operating level. Foaming agent is stored in a special tank. In standby mode, the tank is at atmospheric pressure, when the unit starts up, it is inflated with air. The mixture is used to extinguish fires far from water bodies or to extinguish fires that require fire events of high complexity. The resulting compression foam is fed through the gun barrel to the fire. The disadvantages of the disclosed installation are:

- the need to use cylinders with compressed air, providing not only compressed air, but also a blowing agent, which, in the case of compressed air in the cylinders, makes it impossible to extinguish a fire using compression foam;

- lack of service elements of the proposed installation, including a drainage and flushing system.

The closest analogue of the proposed mobile fire extinguishing installation with foam generation by the compression method is the fire extinguishing system CAFSPro (fire extinguishing system CAFSPro) manufactured by HALE PRODUCTS, INC, disclosed in the user manual published on the website:

https://lacountyfirefighters.org/items/QMAX_MUSCLE_PUMP_CAFS_Manual.pdf

A well-known technical solution is a system, which includes the following main elements: a centrifugal fire pump (fire pump or pump for water supply), which supplies water with the necessary excess pressure; a volumetric type pump that provides the supply and injection (injection) of the foaming concentrate into the water stream in order to obtain the initial foaming solution (foam pump); a dosing device that provides automatic control of the amount of foaming concentrate (hereinafter - PO), sent to the injection into the water stream (PO dispenser); an air compressor supplying compressed air to the initial foaming solution, after mixing with which the foam is generated in the unit (compressor); a mechanical transmission that drives the air compressor from the shaft of the fire pump through a belt drive (belt drive); a mixing chamber providing foam generation by mixing the initial foaming solution and compressed air (mixing chamber); measuring devices, electronic control units, shut-off and control valves, pipelines and other switching elements.

The principle of operation of the known technical solution is based on the production of foam from three initial components: water, foam-forming concentrate and compressed air, which, in a certain dosage, enter the mixing chamber, where, undergoing intensive borotation, they turn into finished foam due to the presence of surface-active properties in the initial liquid .

Moreover, depending on the type of foam-forming concentrate used, and also depending on what density of the foam is required to be obtained at the outlet of the installation in each specific case of its use (which is determined by fire extinguishing tactics), the ratio of the specified components of the foam (water, foaming agent and compressed air ) can be varied by the operator using appropriate presets. In particular, in certain cases for fire extinguishing, one can use either lighter foam - with a higher relative air content, which is called "dry", or heavier - with a lower relative air content, which is called "wet".

The required proportions of the constituent components of the foam, entered by the operator as presets, are provided using special automatic controllers, which, depending on the current flow rate of water, carry out a dosed injection of the right amount of foaming concentrate and the right amount of compressed air.

Foaming concentrate is dosed using a special foam pump and a PO dispenser. Dosing is carried out by varying the speed of the foam pump, the performance of which varies quasi-proportionally to the speed. The required (target) value of the rotation speed is calculated according to a given proportion, based on the current water flow. Water flow rate is measured continuously using the appropriate water flow meter device.

Dosing of compressed air is carried out using special pneumatic equipment, controlled automatically according to the air flow meter and preset presets, depending on the current water flow. At the same time, the compressor speed is not regulated, since it is determined only by the belt drive parameters and the fire pump speed, and the latter is set by the operator according to the criterion of obtaining the desired water pressure at the outlet of the fire pump.

The disadvantage of this technical solution, selected as the closest analogue, is the dependence of its output characteristics (intensity and range of the foam jet) on the hydraulic resistance of the pressure hoses that feed the finished foam, and on the geometric height of the foam on these hoses. Both of these values cause the so-called backpressure at the outlet of the installation, with an increase in which the flow rate of water (and, as a result, of both other components of the foam - foam-forming concentrate and compressed air) will decrease, until it stops completely. To compensate for the indicated decrease in intensity, the operator must "manually" adjust the pressure at the exit of the fire pump, which is not always possible due to the lack of direct visibility of the jet from the operator's place of work.

The problem solved by the claimed invention is to increase the reliability and performance of a mobile fire extinguishing installation.

The technical result achieved by the claimed invention is the ability to automatically obtain the necessary pressure and density of the foam with varying back pressure of the foam at the output of the mobile fire extinguishing installation, as a result of the changing hydraulic resistance of the pressure hoses and the geometric height of the foam on these hoses, while achieving the greatest operational efficiency of the installation due to the stable mode of supply of foam, which is supported automatically, independently by possible variations in the characteristics of the pressure line to the mobile fire extinguishing output.

The specified technical result is achieved due to the fact that a mobile fire extinguishing installation with foam generation in a compression method, comprising a mixing chamber, to the output of which a foam supply device is connected to the fire source, and a water supply system including a water supply pump and a drive connected by pipelines to the input of the mixing chamber a water supply pump, a foaming concentrate supply system including a foam pump and a foam pump drive, and an air supply system including an air compressor and an air compressor drive, wherein, according to the claimed solution, the water supply pipe connecting the water supply pump and the mixing chamber is equipped with a water flow meter, an electric throttle valve, and an electronic throttle valve control unit, while the input of the throttle valve control unit is electrically connected with the output of the water flow meter, and the output of the throttle valve control unit is electrically connected to the input of the electric throttle valve.

In this case, the foam-concentrate supply system may include a container for foam-forming concentrate and a foam-concentrate supply valve, a foam pump, a foam-concentrate drain valve, a foam-concentrate flow meter, a foam-concentrate check valve, and can also be equipped with an electronic control unit for the foaming concentrate supply system, the inputs of which are connected They are connected by electrical conductors with the outputs of the rotation sensor of the foam pump and the flowmeter of the foaming concentrate, and the output is connected by an electrical conductor to the input of the adjustable hydraulic pump of the hydraulic transmission of the foam pump drive.

Also, the air supply system can be equipped with a three-way valve and an air non-return valve installed in series between the air compressor and the mixing chamber, as well as an electronic control unit for the air supply system, the output of which is connected by an electric conductor to the input of an adjustable hydraulic pump for the hydraulic transmission of the air compressor drive, and the input of which is connected to the rotation sensor of the air compressor.

Advantageously, the electrical input of the electronic control unit of the foaming concentrate supply system and the electrical input of the electronic control unit of the air supply system are electrically connected to the electrical output of the water flow meter or to the electrical output of the electronic throttle valve control unit.

A mobile fire extinguishing installation can be installed on the chassis of a land vehicle or on railway rolling platforms.

The claimed invention is illustrated in graphic material, where the figure shows a functional diagram of a mobile fire extinguishing installation with foam generation by compression method.

The proposed technical solution is a mobile fire extinguishing installation with foam generation by a compression method, which is explained by the specific design described below, however, the above example is not the only possible, but clearly demonstrates the possibility of achieving this set of essential features of the claimed technical result.

A mobile fire extinguishing installation with foam generation in a compression way, comprises a mixing chamber 1, to the output of which a foam supply device 2 is connected to the fire source, and a water supply system including a water supply pump (not shown) and a drive connected to the inlet of the mixing chamber 1 by a pipe a water supply pump (not shown in the figure), a foaming concentrate supply system including a foam pump 3 and a foam pump 3 drive, and an air supply system including an air compressor 4 and an air drive compressor 4. The mobile fire extinguishing installation is equipped with a water flow meter 5 installed on the water supply pipe between the water supply pump (not shown in the figure) and the water meter 5, an electric throttle valve 6 (not shown in the figure), and an electronic throttle control unit 7 valve 6, while the input of the electronic control unit 7 control the throttle valve 6 is electrically connected to the output of the flowmeter 5 of water, and the output of the electronic block 7 control the throttle valve 6 is electrically connected to the input of the electric throttle actuator 6.

The foaming concentrate supply system includes a container for foaming concentrate (not shown in the figure) and a crane 8 for supplying a foaming concentrate, a foam pump 3, a valve 9 for draining a foaming concentrate, a flow meter 10 of a foaming concentrate installed in a pipeline between the container for foaming concentrate and the mixing chamber 1 , check valve 11 foaming concentrate. The foaming concentrate supply system is also equipped with an electronic control unit for the foaming concentrate supply system 12, the inputs of which are connected by electrical conductors to the outputs of the rotation sensor 13 of the foam pump 3 and the flow meter 10 of the foam concentrate, and the output is connected by an electric conductor to the input of the adjustable hydraulic pump 14 of the hydraulic transmission of the foam pump drive 3.

The air supply system is equipped with a three-way valve 15 and the air check valve 16 sequentially installed on the pipeline between the air compressor 4 and the mixing chamber 1, as well as the electronic control unit 17 of the air supply system, the output of which is connected by an electric conductor to the input of the adjustable hydraulic pump 18 of the hydraulic transmission of the air drive compressor 4, the input of which is connected to the rotation sensor 19 of the air compressor 4.

The electrical input of the electronic control unit 12 of the foaming concentrate supply system and the electrical input of the electronic control unit 17 of the air supply system are electrically connected to the electrical output of the water flow meter 5 (communication is not shown in the figure). Moreover, to obtain data on the current water flow rate, these electrical inputs can be electrically connected to the electrical output of the electronic control unit 7 of the control of the throttle valve 6, which receives this data from the water flow meter 5.

A mobile fire extinguishing installation is installed on the chassis of a land vehicle (not shown in the figure). It can also be installed on railway rolling platforms.

Functional diagram of a mobile fire extinguishing installation with foam generation by a compression method, depicted in the figure, contains the auxiliary elements presented below, which are part of the fire extinguishing installation.

The water supply system includes a water valve 20 to shut off the water supply, a water drain valve 21 and a check valve 22 to prevent the compression foam from entering the water supply system.

The drive motor 23 is kinetically connected to an adjustable hydraulic transmission of the drive of the air compressor 4 and an adjustable hydraulic transmission of the drive of the foam pump 3. An internal combustion engine is installed as the drive motor 23, and an electric motor can be used instead of the internal combustion engine. The adjustable hydraulic transmission of the air compressor drive 4 includes an adjustable hydraulic pump 18 and an uncontrolled hydraulic motor 24 of the air compressor drive connected to it by pipelines 4. The adjustable hydraulic transmission of the foam pump 3 drive includes an adjustable hydraulic pump 14 and an unregulated hydraulic drive motor 25 connected to it by pipelines foam pump 3.

The air supply system is connected to the water supply system by a pipeline containing a drainage check valve 26 and a drainage valve 27 installed in series.

In addition, the water supply system is connected to the foaming concentrate supply system by a pipeline containing a flushing valve 28.

The mobile fire-extinguishing installation with foam generation by the compression method also includes a heat exchanger 29, which provides cooling of the oil in an adjustable hydraulic transmission of the air compressor drive 4 and an adjustable hydraulic transmission of the foam pump drive 3, safety valves 30 and 31, which protect the adjustable hydraulic transmission of the air compressor 4 drive and adjustable hydraulic transmission drive foam pump 3 from exceeding the inherent pressure indicators mas and, water pressure sensor 32, pressure sensor 33 foamable concentrate and an air pressure sensor 34, providing the operator information about the current state of the system, the sensor 35 can fill the foamable concentrate supply system, the electrical output of which is connected to the input of the electronic unit 12 the foamable concentrate feed control system.

A mobile fire extinguishing installation with foam generation by a compression method works as follows.

The necessary water pressure is supplied to the water supply system using a water supply pump (not shown in the diagram) from a reservoir (tank) (not shown in the figure), either using a fire hydrant without an additional increase in water pressure by a water supply pump, or using a fire hydrant with an additional increase in water pressure by a water supply pump, which is selected depending on the place of operation of the installation. In the water supply system, the water pressure is controlled by the electronic control unit 7 using a water flow meter 5 and is changed, if necessary, using a throttle valve 6, after which water enters through the check valve 22 into the mixing chamber 1. Thus, when the foam back pressure increases or decreases the output of the mobile fire extinguishing installation, the water flow meter 5 captures data on the increase or decrease in water consumption, respectively, and sends them to the control unit 7, which in accordance with the specified type of foam (lighter ("dry") foam or heavier (“wet”) foam) controls the opening of the throttle valve 6, so that the necessary pressure of water is supplied to the mixing chamber 1 to form compression foam.

The drive motor 23 drives the hydraulic pump 14 and the hydraulic pump 18.

Depending on the pressure of the water, the data of which come from the water flow meter 5 (or the electronic control unit 7) to the electronic control unit 12 of the foaming concentrate supply system, the latter controls the operation of the adjustable hydraulic pump 14 of the hydraulic transmission of the drive, which drives the unregulated hydraulic motor 25, which in turn is the drive of the foam pump 3. In this case, the electronic control unit 12 of the system for supplying the foaming concentrate receives data on the frequency of rotation of the foam sucker 3 using a foam pump rotation sensor 13, on the consumption of a foaming concentrate using a flow meter 10, and also on filling the foam-concentrate supply system using a filling sensor 35. Depending on the required qualities of the foam, lighter (“dry”) foam or more heavy (“wet”) foam with different water pressures, the foam pump 3 delivers the foam-forming concentrate from the reservoir (tank) (not shown in the figure) through the non-return valve 11 into the mixing chamber 1 the required amount of foam-forming concentrate with Qdim pressure.

Depending on the water pressure, the data of which come from the water flow meter 5 (or the electronic control unit 7) to the electronic control unit 17 of the air supply system, the latter controls the operation of the adjustable hydraulic pump 18 of the hydraulic transmission of the drive, which drives the unregulated hydraulic motor 24, which is drive the compressor 4. The electronic control unit 17 of the air supply system receives data on the frequency of rotation of the compressor 4 using the sensor 19 of rotation of the compressor. Depending on the required qualities of the foam - lighter ("dry") foam or heavier ("wet") foam with different water pressure, the compressor 4 supplies compressed air through the check valve 16 to the mixing chamber 1 the required amount of air under the necessary pressure.

The operator of a mobile fire extinguishing system with foam generation in a compression way can control the operation of the water supply system using the water pressure sensor 32, the operation of the foam concentrate supply system using the foam concentrate pressure sensor 33 and the operation of the air supply system using the air pressure sensor 34. Based on the data obtained, the operator can increase the pressure of the water supply, including by adjusting the opening of the throttle valve 6. At the same time, for a given type of foam, the foam concentrate supply system and the air supply system automatically change the pressure head of the foam concentrate and the pressure of the supplied air. In accordance with the required parameters, the operator can also change the pressure head of the foaming concentrate and the pressure of the supplied air, regardless of the pressure of the supplied water.

In the mixing chamber 1, where the required amount of water, foaming concentrate and air is supplied under pressure, intensive bubbling occurs, in which these components are converted into finished foam. The finished foam from the mixing chamber 1 enters the foam supply device 2 into the fire.

After using a mobile fire extinguishing installation with foam generation by the compression method in the compression foam production mode, this installation can be washed by closing the water valve 20, opening the washing valve 28, closing the valve 8 for supplying a foam-forming concentrate, and supplying water using a water supply pump (not shown in the figure shown) under pressure through the foaming concentrate supply system until the remnants of the foaming concentrate are completely cleaned. After that, the mobile fire extinguishing installation with foam generation by compression can be dried by closing the three-way valve 15, opening the drain valve 27, closing the water supply valve (not shown in the figure), opening the water valve 20, opening the washing valve 28, closing the supply valve 8 foaming concentrate, and air supply using a compressor 4 through a drainage check valve 26, a water supply system and a foaming concentrate supply system, including through an open valve 9 for draining a foaming concentrate ATA and tap 21 for draining the water, before draining.

Claims (5)

1. A mobile fire extinguishing installation with foam generation by a compression method, comprising a mixing chamber, to the output of which a foam supply device is connected to the fire source, and a water supply system, including a water supply pump and a water supply pump drive, a foaming system, connected by pipelines to the inlet of the mixing chamber concentrate comprising a foam pump and a foam pump drive, as well as an air supply system including an air compressor and an air compressor drive, characterized in that the pipe the water supply line connecting the water supply pump and the mixing chamber is equipped with a water flow meter, an electric throttle valve and a check valve, as well as an electronic throttle valve control unit, while the input of the throttle valve control unit is electrically connected to the output of the water flow meter, and the output of the control unit the throttle valve is electrically connected to the input of the electric throttle valve. 2. The mobile fire extinguishing installation according to claim 1, characterized in that the foam-concentrate supply system includes a foam-concentrate container and sequentially installed on the pipeline between the foam-concentrate container and the mixing chamber a foam-concentrate supply valve, a foam pump, a foam-concentrate discharge valve, a foam-concentrate flow meter, a foam-concentrate check valve, and is also equipped with an electronic control unit for the foam supply system present concentrate, the inputs of which are connected by electrical conductors with the foam pump rotation sensor outputs and flowmeter foamable concentrate and an output coupled to the electrical conductor to the input of the hydraulic pump controlled hydraulic transmission actuator foam pump. 3. The mobile fire extinguishing installation according to claim 1, characterized in that the air supply system is equipped with a three-way valve and a non-return valve of air in series between the air compressor and the mixing chamber, as well as an electronic control unit of the air supply system, the output of which is connected by an electric conductor to the input of the adjustable hydraulic pump of the hydraulic transmission of the air compressor drive, and the input of which is connected to the rotation sensor of the air compressor. 4. Mobile fire extinguishing installation according to any one of paragraphs. 1, 2, 3, characterized in that the electrical input of the electronic control unit of the foaming concentrate supply system and the electrical input of the electronic control unit of the air supply system are electrically connected to the electrical output of the water flow meter or to the electrical output of the electronic throttle valve control unit. 5. The mobile fire extinguishing installation according to claim 1, characterized in that it is installed on the chassis of a land vehicle or on railway rolling platforms.

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