RU67874U1 - EXTINGUISHING FIRE EXTINGUISHING SYSTEM FOR FINE-SPRAYED WATER AND NODE FORMING A GAS-FLUID MIXTURE INSTALLATION FOR EXTINGUISHING A FIRE-SPRAYED WATER FIRE EXTINGUISHING - Google Patents

Abstract

Utility models relate to fire fighting equipment, namely, to the design of a fire extinguishing installation of finely sprayed water, which can be used to protect enclosed spaces and fire hazardous objects, and to the design of a unit for forming a gas-liquid mixture of a plant to extinguish a fire by finely sprayed water. The essence of the first utility model is that a device for extinguishing a fire with finely sprayed water contains a container with a fire extinguishing liquid, a locking and starting device connected to an alarm, a supply pipe connected to sprinklers installed in a protected room, a container with working gas, a siphon tube, the inlet end of which is lowered into a container with a fire extinguishing liquid, and a gas-liquid mixture forming unit, made in the form of an adapter with a gas chamber, in which the gas amer, inlet chamber and mixing chamber and the outlet chamber is vertically located, the mixing chamber is located above the inlet chamber and communicated with the outlet chamber and is connected to the gas chamber through the first inclined opening, which is in communication with the inlet chamber through the second inclined opening, the gas-liquid mixture forming unit is hermetically fixed in the neck of the container with extinguishing liquid, the outlet end of the siphon tube is attached to the mixing chamber on the side of the container with extinguishing liquid, and the gas chamber and hermetically connected through a gas hose to a container with a working gas, and the outlet chamber is hermetically connected to the inlet end of the supply pipe. The essence of the second utility model is that the node for forming the gas-liquid mixture of the fire extinguishing device is made in the form of an adapter with a gas chamber, in which the gas chamber, the inlet chamber and the mixing chamber are horizontally located and the outlet chamber is vertically located, the mixing chamber is located above the inlet chamber and communicated with the exit chamber and through the first inclined opening communicates with the gas chamber, which through the second inclined opening is in communication with the inlet chamber. The technical result is to reduce the consumption of the original extinguishing agents and reduce the time required to eliminate the fire.

Description

Utility models relate to fire fighting equipment, namely, to the design of a fire extinguishing installation of finely sprayed water, which can be used to protect enclosed spaces and fire hazardous objects, and to the design of a unit for forming a gas-liquid mixture of a plant to extinguish a fire by finely sprayed water.

Known design sprinkler installation for extinguishing fires in enclosed spaces, a description of which is given in the book. M.G.Shuvalova Fundamentals of firefighting. - M .: Stroyizdat. - 1983. - S.180-187. The installation comprises a suction pipe, placed at the inlet end into a reservoir, equipped with a pump, the outlet of which through a non-return valve and a gate valve is connected to a system of serially connected pipelines, including a supply pipe with a control and signal valve, a supply pipe and a distribution network with irrigators located in a protected room. In addition, the installation contains an automatic water feeder that supplies irrigators with water during the first 5 minutes of the installation. The installation is activated as a result of the operation of fusible locks of irrigators that respond to an increase in room temperature. The sprinklers open, as a result of which the pressure in the distribution network decreases, which triggers the control-signal valve, and water begins to flow to the sprinklers first from the automatic water feeder, and then, after turning on the pump, from the reservoir.

The disadvantages of the installation are high water consumption and the need for constant maintenance of the supply and distribution pipelines under pressure to ensure the operation of the control and signal valve. In order to avoid false triggering of the installation in the event of malfunctions in the distribution network, it is necessary to periodically check the integrity of the pipelines, the correct readings of control devices, and

routine maintenance, which leads to increased operating costs. In addition, the scope of the installation is limited. So, its use is ineffective if it is necessary to protect premises with a complex layout, because this significantly complicates the distribution network.

Known for an improved installation with sprinkler sprinklers according to ed. testimonial. USSR No. 1102615, IPC A62C 35/00, publication July 15, 84. The installation is driven by a compressed gas control unit, which enters the distribution network when the sprinklers are triggered, after which the control unit opens, connecting the feed pipe to the main pipeline, and water enters the distribution network.

The disadvantage of the installation is its inertia, which leads to an increase in the time to eliminate the fire.

Also known installation by ed. testimonial. USSR No. 1077133, IPC A62C 35/20, publication 04/23/84, designed to extinguish a fire in rack warehouses. This installation uses sprinkler sprinklers with parabolic deflectors, crushing water jets and reflecting part of the jets up to the perforated panels, upon collision with which re-crushing of droplets and uniform distribution of water along the protected surface (shelf shelves) takes place. The specified installation provides effective fire extinguishing while reducing water consumption due to the finely dispersed spraying of water and its uniform distribution in the inter-rack space.

The disadvantage of the installation is the limited use due to the presence of special structural elements (perforated panels), rigidly connected with the guarded object.

The closest analogue adopted in the quality of the prototype of the invention is the installation for extinguishing a fire by ed. testimonial. USSR No. 607575, IPC A62C 35/58, publication 04/25/78. The fire extinguishing installation contains a container with a fire extinguishing liquid, a shut-off and starting device connected to an alarm device, a supply pipe connected to sprinklers installed in a protected room, a container with working gas, a siphon tube, the inlet end of which is lowered into a container with a fire extinguishing liquid,

and a node for forming a gas-liquid mixture, made in the form of an adapter with a gas chamber.

The disadvantage of the prototype device is the high consumption of the original extinguishing substances and the lack of installation efficiency when fighting a fire, especially in a complex layout.

The task of the utility model group is to increase the efficiency of fire fighting while reducing the consumption of the initial extinguishing agents and the time required to eliminate the fire.

The essence of the first utility model is that a device for extinguishing a fire with finely sprayed water contains a container with a fire extinguishing liquid, a locking and starting device connected to an alarm, a supply pipe connected to sprinklers installed in a protected room, a container with working gas, a siphon tube, the inlet end of which is lowered into a container with a fire extinguishing liquid, and a gas-liquid mixture forming unit, made in the form of an adapter, in which a gas chamber having a cylindrical shape RA, the input chamber, the mixing chamber and the output chamber, the axes of which are located in the same plane, while the axes of the gas chamber, the input chamber and the mixing chamber are parallel to each other, the mixing chamber is in communication with the output chamber, the axis of which is perpendicular to the axis of the mixing chamber, the mixing chamber by the first inclined opening is in communication with the gas chamber, which, through the second inclined opening is in communication with the inlet chamber, the gas-liquid mixture forming unit is hermetically fixed in the neck of the container with fire aschey liquid to the mixing chamber by a fire-extinguishing liquid container is attached the outlet end of the siphon tube and the gas chamber is sealed by a gas hose to a vessel containing a working gas, wherein the outlet chamber is sealingly connected to the inlet end of the supply line.

In addition, in the proposed installation for extinguishing a fire with finely sprayed water:

the diameter of the inlet chamber is 10 ÷ 20 mm, and the diameter of the mixing chamber is 12 ÷ 35 mm;

the diameter of the first inclined hole is 1 ÷ 10 mm, and the diameter of the second inclined hole is 0.8 ÷ 1.4 of the diameter of the first inclined hole;

stabilizers of the plug mode of gas-liquid mixture flow were installed in front of the sprinklers;

extinguishing liquid is pure water or water with additives; and the working gas is carbon dioxide, air or nitrogen;

the tank with fire extinguishing liquid is equipped with a connector for connecting to the pipeline of the water supply system.

The essence of the second utility model is that the node for forming the gas-liquid mixture of the fire extinguishing device is made in the form of an adapter, in which are located a cylindrical gas chamber, an inlet chamber, a mixing chamber and an outlet chamber, the axes of which are located in the same plane, with the gas chamber, the inlet chamber and the mixing chamber are parallel to each other, the mixing chamber is in communication with the output chamber, the axis of which is perpendicular to the axis of the mixing chamber, the mixing chamber by means of the first the inclined opening is in communication with the gas chamber, which, through the second inclined opening, is in communication with the inlet chamber.

In addition, in the proposed site for the formation of a gas-liquid mixture installation for extinguishing a fire with finely sprayed water:

the diameter of the inlet chamber is 10 ÷ 20 mm, and the diameter of the mixing chamber is 12 ÷ 35 mm;

the diameter of the first inclined hole is 1 ÷ 10 mm, and the diameter of the second inclined hole is 0.8 ÷ 1.4 of the diameter of the first inclined hole.

The essence of utility models is illustrated by drawings, on which:

figure 1 - installation diagram for extinguishing a fire with finely sprayed water;

figure 2 - connection diagram of the node forming a gas-liquid mixture;

figure 3 - design of the node forming a gas-liquid mixture.

Figure 1-3 marked:

1 - capacity with fire extinguishing fluid

2 - tank with working gas;

3 - a gas hose;

4 - locking and starting device;

5 - signaling device;

6 - node forming a gas-liquid mixture;

7 - feed pipe;

8 - sprinklers;

9 - stabilizers plug mode flow of gas-liquid mixture;

10 - connector for connecting to the pipeline of the water supply system;

11 - pipeline water system;

12 - input camera;

13 - output camera;

14 - mixing chamber;

15 - gas chamber;

16 - the first inclined hole;

17 - the second inclined hole;

18 - siphon tube;

19 - the neck of the vessel 1.

A device for extinguishing a fire with finely sprayed water contains a container 1 with a fire extinguishing liquid, which is pure water or water with additives, a container 2 with a working gas, equipped with a gas hose 3 and a locking and starting device 4 of an electric, thermomechanical or other type, which is connected to the signaling device 5, installed in the protected room, the node 6 forming a gas-liquid mixture, the supply pipe 7, connected to the sprinklers 8 installed in the protected room. Before sprinklers 8 installed stabilizers 9 plug mode (see figure 1).

The tank 1 is a vessel with a neck 19. To replenish the tank with water, it is equipped with a connector 10 for connecting to the pipe 11 of the water system.

The node 6 for the formation of a gas-liquid mixture, the design of which is shown in figure 3, and the connection diagram in figure 2, is made in the form of an adapter in which the gas chamber is located! 5, the inlet chamber 12, the mixing chamber 14, and the outlet chamber 13. The chambers 12-14 are cylindrical. The mixing chamber 14 is located, in particular, above the inlet chamber 12 and is in communication with the outlet chamber 13 and is in communication with the gas chamber 15 through the first inclined opening 16, which is in communication with the inlet chamber 12 through the second inclined opening 17.

The axes of all cameras are located in the same plane. The axes of the gas chamber 15, the inlet chamber 12 and the mixing chamber 14 are parallel to each other. The axis of the outlet chamber 13 is perpendicular to the axis of the mixing chamber 14.

The dimensions of the diameter d _{in the} input chamber 12, the diameter d _{cm of} the mixing chamber 14 and the diameters d ₁ , d _{2 of the} holes 16, 17 satisfy the relations:

The node 6 forming a gas-liquid mixture is hermetically fixed in the neck 19 of the tank 1 with a fire extinguishing liquid. The outlet end of the siphon tube 18, the inlet end of which is lowered into the vessel 1 with the extinguishing liquid, is attached to the mixing chamber 14 from the side of the tank 1 with the fire extinguishing liquid. The gas chamber 15 is hermetically connected by means of a gas hose 3 with a capacity of 2 to a working gas, for example, carbon dioxide, air or nitrogen. The outlet chamber 13 is hermetically connected to the inlet end of the supply pipe 7. In this case, the sealed connections, as a rule, are made in the form of sealed threaded connections.

In preparation for operation, the installations equip the protected room with the necessary number of sprinklers 8, install an alarm 5, made in the form of a sensor that responds to a rise in temperature in the room, the appearance of smoke, etc. At the exit from the premises of the supply pipe 7, capacity 1 is installed and connected via a connector 10 to the pipeline 11 of the water supply network. A container 2 with working gas is also installed there. Connect the locking-starting device 4 to the circuit of the signaling device 5 and connect the hose 3 to the tank 2. Then, the components of the installation are connected via the gas-liquid mixture forming unit 6. For this, a siphon tube 18 is screwed into the mixing chamber 14, introduced into the container 1, after which the gas-liquid mixture forming unit 6 is screwed into the neck 19 of the vessel 1. Then the outlet end of the gas hose 3 is connected to the gas chamber 15 of the unit 6, and the inlet end of the supply pipe 7 - to the output chamber 13. Through the connector 10 fill the tank 1 with water. The installation is ready to go.

When a fire occurs in the guarded room, the alarm 5 is activated and the locking and starting device 4 is activated, which allows access to the working gas in the gas chamber 15 of the gas-liquid mixture forming unit 6. Under the pressure of the gas jet formed by the inclined hole 17, water is displaced from the tank 1, and it enters the mixing chamber 14 through the siphon tube 18. Under the influence of another gas stream formed by the inclined hole 16, in the mixing chamber 14, drops of the initial water stream are repeatedly crushed, and the resulting gas-liquid mixture of water with carbon dioxide is supplied to the sprinklers 8 through the supply pipe 7, is sprayed in the room, quickly filling its volume, isolates and cools the source of fire, and burning ceases.

In this case, the selected ratios are the range of absolute sizes (1) - (4) that form gas jets, are determined experimentally and satisfy the condition of sufficient head for pumping water from tank 1, on the one hand, and the condition for achieving the optimal concentration of components of the fire extinguishing mixture, on the other.

Thus, the proposed installation can significantly reduce the flow rate of the original extinguishing agents due to the formation of a finely dispersed gas-liquid mixture and reduce the time required to eliminate the fire due to volumetric filling of the room, regardless of the complexity of its layout.

The installation can also be used to protect individual objects, in particular electrical installations, drive mechanisms, etc., when ignited, carbon dioxide is usually used to eliminate the fire.

The proposed unit for the formation of a gas-liquid mixture is simple and reliable and can be used as part of other fire extinguishing installations.

The installation does not require significant energy resources, is easy to maintain, and more reliable than its counterparts due to the separation of the incentive circuit, which actuates the locking and starting device, from the distribution network of the pipeline supplying the extinguishing agent. In the simplest case, the locking-starting device can be made in the form of a conventional handle, and the installation can be manually actuated by an alarm signal from an object.

The industrial applicability of the useful group is determined by the fact that for the manufacture of the installation and the unit for forming a gas-liquid mixture, ordinary materials and components are used, the installation of which can be performed according to the above description and drawings, traditional fire extinguishing agents are used as components for the formation of a gas-liquid mixture, which makes it possible to use the proposed installation for protection against fires, both of individual objects and premises, the proposed gas-liquid formation unit oh mixture can be used as part of other fire extinguishing installations.

Claims (9)

1. Installation for extinguishing a fire, containing a container with a fire extinguishing liquid, a container with working gas, a shut-off and starting device, a supply pipe connected to sprinklers installed in a protected room, a siphon tube, the inlet end of which is lowered into a container with a fire extinguishing liquid, and a unit forming a gas-liquid mixture, made in the form of an adapter with a gas chamber, characterized in that the adapter has a cylindrical gas chamber, an inlet chamber, a mixing chamber and an outlet chamber, axes which are located in the same plane, while the axes of the gas chamber, the inlet chamber and the mixing chamber are parallel to each other, the mixing chamber is in communication with the output chamber, the mixing chamber is in communication with the gas chamber through the first inclined opening, which is in communication with the inlet chamber through the second inclined opening, the assembly the formation of a gas-liquid mixture is hermetically fixed in the neck of the tank with a fire extinguishing liquid, the outlet end of the siphon is attached to the mixing chamber on the side of the tank with a fire extinguishing liquid second tube, the gas chamber is sealed by a gas hose to a vessel containing a working gas, the outlet chamber is sealingly connected to the inlet end of the supply line. 2. The installation according to claim 1, characterized in that the diameter of the input chamber is 10 ÷ 20 mm, and the diameter of the mixing chamber is 12 ÷ 35 mm 3. The installation according to claim 1, characterized in that the diameter of the first inclined hole is 1 ÷ 10 mm, and the diameter of the second inclined hole is 0.8 ÷ 1.4 of the diameter of the first inclined hole. 4. Installation according to claim 1, characterized in that in front of the sprinklers, stabilizers of the plug mode of the gas-liquid mixture flow are installed. 5. Installation according to claim 1, characterized in that the working gas is carbon dioxide, air or nitrogen. 6. Installation according to claim 1, characterized in that the tank with a fire extinguishing liquid is equipped with a connector for connecting to the pipeline of the water supply system. 7. A node for forming a gas-liquid mixture of a fire extinguishing device, made in the form of an adapter with a gas chamber, characterized in that the adapter has a cylindrical gas chamber, an inlet chamber, a mixing chamber and an outlet chamber, the axes of which are located in the same plane, the axes of the gas chamber, the inlet chamber and the mixing chamber are parallel to each other, the mixing chamber is in communication with the output chamber, the mixing chamber is in communication with the gas chamber through the first inclined opening, which osredstvom second oblique hole communicates with the inlet chamber. 8. The node for forming a gas-liquid mixture according to claim 7, characterized in that the diameter of the inlet chamber is 10 ÷ 20 mm, and the diameter of the mixing chamber is 12 ÷ 35 mm. 9. The node for forming a gas-liquid mixture according to claim 7, characterized in that the diameter of the first inclined hole is 1 ÷ 10 mm, and the diameter of the second inclined hole is 0.8 ÷ 1.4 of the diameter of the first inclined hole.