Air foam fire extinguishing system for boat
Technical Field
The invention relates to the field of fire fighting equipment, in particular to an air foam fire extinguishing system for a boat.
Background
At present, water-based fire extinguishing systems, foam fire extinguishing systems, dry powder fire extinguishing systems, halogenated hydrocarbon fire extinguishing systems and other novel fire extinguishing systems are commonly used on boats, wherein the foam fire extinguishing systems are divided into chemical foam fire extinguishing systems and air foam fire extinguishing systems; the air foam fire extinguishing system uses certain air foam liquid, water and air to form tiny dense film-shaped bubble groups filled with air through mechanical or hydraulic impact, thereby achieving the fire extinguishing effect. However, the existing air foam fire extinguishing system has low stability of foam formed, low shape-retaining effect under a certain flow length, and is easily broken, and therefore, it is urgent to design a fire extinguishing system with foam having high stability.
Disclosure of Invention
In order to solve the existing problems, the invention discloses an air foam fire extinguishing system for a boat, which comprises an air foam batcher, an air foam storage tank, a discharge funnel, water supply equipment and high-pressure air supply equipment, wherein the air foam batcher is connected with the air foam storage tank through a foaming agent pipeline, and a fresh water pipeline is arranged between the water supply equipment and the air foam storage tank;
the high-pressure air supply equipment is connected with the air foam storage tank through a high-pressure air pipeline, and a pressure gauge valve, a pressure reducing valve and a safety alarm valve are sequentially arranged on the high-pressure air pipeline along the air supply direction;
the air foam storage tank is provided with an air foam pipeline, the air foam pipeline is connected with a main pipe, and a right-angle stop check valve is arranged at the joint; a throttling sleeve and a net type diffuser are sequentially arranged on the air foam pipeline along the conveying direction;
the tail end of the main pipe is connected with a reel rack, and the reel rack is used for storing adhesive tape hoses with diffusion nozzles in all cabins of the submarine.
Furthermore, a first branch air pipe, a second branch air pipe and a third branch air pipe are arranged on the high-pressure air pipeline behind the safety alarm valve along the air supply direction, and the first branch air pipe is connected to a feed opening of the air foam batcher.
Further, still be equipped with the pipeline of giving vent to anger on the air foam batcher, should give vent to anger the pipeline with discharge the funnel and be connected, be equipped with the right angle on the pipeline of giving vent to anger and end the check valve.
Further, the second branch vent pipe is connected to the air foam storage tank, the first branch vent pipe is further provided with a branch pipe connected to a discharge funnel, and the branch pipe is further provided with a branch pipe connected to the air foam storage tank.
Furthermore, the first branch vent pipe, the second branch vent pipe and the third branch vent pipe are all provided with a through stop check valve.
Further, the top of the air foam storage tank is also provided with a safety valve.
Furthermore, the third branch vent pipe is connected with the main pipe, and a pressure gauge valve is arranged on the main pipe.
Further, a discharge hole of the air foam storage tank is connected with a sewage discharge pipeline, and the sewage discharge pipeline is connected to a discharge funnel.
Furthermore, the anterior segment of fresh water pipeline edge direction of delivery adopts detachable hose, does benefit to the later stage maintenance.
Furthermore, the tail ends of the foaming agent pipeline, the sewage discharge pipeline, the branch pipes, the second branch vent pipe and the main pipe are all provided with a straight-through stop check valve;
all be equipped with the manometer valve on first branch breather pipe, third branch breather pipe and the house steward, be convenient for real-time supervision gas circuit pressure improves the security.
The invention has the beneficial effects that: (1) the fire extinguishing system of the invention discharges foam extinguishing solution configured in an air foam storage tank out of the storage tank under the action of air pressure, and after passing through a throttling sleeve for sending air saturated with foam, a medium is on blades of a net type diffuser to rotate an impeller with a grid; the media, on the one hand, was cleaned of mechanical impurities while, on the other hand, was shaped in a mesh diffuser, and tests showed that the shaped, discharged aero-mechanical foam had a high degree of stability, and was able to remain for 1 to 1.5 hours, and the cylindrical foam discharged from the diffuser nozzle was able to retain its shape and did not break down over a flow length of 5 to 10 m. When the fire extinguishing device is used for extinguishing fire, foam can be sent to one side of the combustion surface to generate continuous steam-tight layered distribution on the whole combustion surface, and the fire extinguishing effect is excellent; (2) by arranging the sewage discharge pipeline, waste foam in the pipeline and the foam storage tank can be emptied in time, so that the influence of residue on the foam quality is avoided; (3) meanwhile, the gas path is connected to the discharge funnel, so that substances on the wall of the discharge funnel can be further cleaned conveniently, scaling is avoided, and the service life is prolonged; (4) the pressure reducing valve is arranged, so that the pressure parameter of the system can be conveniently adjusted; (5) the water pipe that fresh water route the place ahead set up adopts the hose, does benefit to operation and maintenance.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of part A of FIG. 1;
FIG. 3 is a schematic view of portion B of FIG. 1;
in the figure, 1-air foam batcher, 2-air foam storage tank, 3-water supply equipment, 4-high pressure air supply equipment, 5-fresh water pipeline, 6-throttling sleeve, 7-net type diffuser, 8-pressure reducing valve, 9-safety alarm, 10-pressure gauge valve, 11-high pressure air pipeline, 12-main pipe, 13-first branch vent pipe, 14-second branch vent pipe, 15-third branch vent pipe, 16-branch pipe, 17-branch pipe, 18-hose, 19-safety valve, 20-blow-off pipeline, 21-foaming agent pipeline, 22-air outlet pipeline, 23-reel frame, 24-right-angle stop check valve, 25-straight-through stop check valve and 26-discharge funnel.
Detailed Description
It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.
In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.
The following detailed description of specific embodiments of the invention refers to the accompanying drawings.
The IIO foaming agent mentioned herein is an aqueous film-forming foam extinguishing agent, and the foam extinguishing agent takes hydrocarbon surfactant and fluorocarbon surfactant as base materials and can form a water film on the surface of certain hydrocarbon liquids. Is suitable for extinguishing fire caused by water insoluble liquid fuel.
Example 1
As shown in fig. 1, an air foam fire extinguishing system for a boat comprises an air foam batcher 1, an air foam storage tank 2, a discharge funnel 26, a water supply device 3 and a high-pressure air supply device 4, wherein the air foam batcher 1 is connected with the air foam storage tank 2 through a foaming agent pipeline 21, and a fresh water pipeline 5 is arranged between the water supply device 3 and the air foam storage tank 2;
the high-pressure air supply equipment 4 is connected with the air foam storage tank 2 through a high-pressure air pipeline 11, and a pressure gauge valve 10, a pressure reducing valve 8 and a safety alarm valve 9 are sequentially arranged on the high-pressure air pipeline 11 along the air supply direction;
an air foam pipeline 27 is arranged on the air foam storage tank 2, the air foam pipeline 27 is connected with the main pipe 12, and a right-angle stop check valve 24 is arranged at the connection position; the air foam pipeline 27 is sequentially provided with a throttling sleeve 6 and a net type diffuser 7 along the conveying direction;
the tail end of the main pipe 12 is connected with a reel rack 23, and the reel rack 23 is used for storing adhesive tape hoses with diffusion nozzles in all cabins of the submarine.
Example 2
The present embodiment is further optimized based on embodiment 1, and specifically, a first branch vent pipe 13, a second branch vent pipe 14, and a third branch vent pipe 15 are provided on the high-pressure air pipe 11 located after the safety alarm valve 9 in the air feeding direction, and the first branch vent pipe 13 is connected to the charging port of the air foam dosing unit 1.
Example 3
The present embodiment is further optimized based on embodiment 2, and specifically, an air outlet pipe 22 is further disposed on the air foam meter 1, the air outlet pipe 22 is connected to the discharge funnel 26, and a right-angle stop check valve 24 is disposed on the air outlet pipe 22.
Example 4
This embodiment is a further optimization based on embodiment 3, in particular, the second branch vent pipe 14 is connected to the air foam tank 2, the first branch vent pipe 14 is further provided with a branch pipe 16 connected to a discharge funnel, and the branch pipe 16 is further provided with a branch pipe 17 connected to the air foam tank 2.
The first branch vent pipe 13, the second branch vent pipe 14 and the third branch vent pipe 15 are all provided with a through stop check valve 25.
The top of the air foam storage tank 2 is also provided with a safety valve 19.
The third branch vent pipe 15 is connected with the main pipe 12, and the main pipe 12 is provided with a pressure gauge valve 10.
Example 5
The present embodiment is further optimized based on embodiment 4, specifically, a discharge port of the air foam tank 2 is connected with a blowdown line 20, and the blowdown line 20 is connected to a discharge funnel 26.
The front section of the fresh water pipeline 5 along the conveying direction adopts a detachable hose 18.
The foaming agent pipeline 21, the sewage discharge pipeline 20, the branch pipes 16, the branch pipes 17, the second branch vent pipe 14 and the tail end of the main pipe 12 are all provided with right-angle stop check valves 24;
the first branch vent pipe 13, the third branch vent pipe 15 and the main pipe 12 are all provided with pressure gauge valves 10.
When the device is used specifically, a foaming agent is configured in the air foam batcher, the water supply equipment is opened, the foaming agent and fresh water are input into the air foam storage tank, a foaming agent solution is configured, the high-pressure air supply equipment is started at the same time, high-pressure air passes through the pressure reducing valve, so that a low-pressure vent pipeline is gradually formed, air enters the air foam batcher 1, once the low-pressure vent pipeline is over-pressurized, the safety alarm valve 9 can automatically alarm and release pressure, and remind a user of paying attention to an accident situation, and in addition, the low-pressure vent pipeline is also provided with a pressure gauge valve 10 capable of detecting the pressure, so; when fire is needed to be extinguished, the straight-through stop check valve on the third branch vent pipe 15 is opened, the foaming agent solution is discharged by air pressure, enters the main pipe through the throttling sleeve and the net type diffuser and then is sprayed to a fire source through the adhesive tape hose at the reel frame; the right angle stop check valve of the sewage pipeline 20 is opened to discharge the waste foam, waste water and waste gas to the discharge funnel 26.
In specific implementation, the air mechanical foam is formed by mixing compressed air and IIO foaming agent aqueous solution according to a certain volume ratio (wherein, water accounts for 96 percent, IIO foaming agent accounts for 4 percent), and the IIO foaming agent is a water film-forming fire extinguishing agent; the action principle is as follows: the solution is discharged from the tank by the action of air pressure, and after passing through the orifice sleeve for feeding the air saturated with foam, the medium comes to the blades of the mesh diffuser and rotates the impeller with the grid. The impeller crushes the bubbles to avoid generating air foam plug and pressure pulsation phenomenon to interrupt the system operation. The media, as it passes through the mesh diffuser, is cleaned of mechanical impurities and structurally set. A second mesh diffuser is mounted on the mandrel holder injection nipple and provides for re-diffusion of the medium. In the diffusion nozzle, the medium flows to the tip, the bubble rich center moves toward the sidewall, and the rarer component moves toward the center. In this way, the media flow has a uniform density prior to discharge, and forms a continuous, dense cylindrical flow as it exits the nozzle. The mono-dispersed cellular foam is colored and has a thick paste consistency (like that of thick sour cream) with cells that are virtually invisible to the naked eye.
Through tests, the outlet pressure of the high-pressure air supply equipment is 20Mpa and passes through the pressure reducing valve 8; reducing the pressure of high-pressure air to 1.5Mpa, inputting an IIO foaming agent and fresh water into an air foam storage tank, wherein a commercially available 6% water film-forming foaming agent with the model of AFFF/AR3 is adopted in the test, the concentration of the water film-forming foaming agent is 6 wt%, wherein the water accounts for 96%, and the IIO foaming agent accounts for 4%; simultaneously, air reduced to 1.5Mpa enters an air foam storage tank to be discharged, and the foam stability of three groups of parallel tests is observed under the process condition as follows:
TABLE 1 foam stability test results of three parallel tests
Sample number
|
Foam maintenance time (h)
|
Flow length 10m
|
Sample one
|
1.2
|
The foam layer will not break
|
Sample No. 2
|
1.5
|
The foam layer will not break
|
Sample three
|
1.4
|
The foam layer will not break |
As can be seen from the above table, the foam produced using this process condition has a high degree of stability, which can be maintained for 1-1.5 hours. The cylindrical foam discharged from the diffusion nozzle can maintain its shape and does not break down in a flow length of up to 10 m. Specifically, when the surface orientation method is used for fire extinguishing, the foam is sent to one side of the combustion surface and then is continuously distributed on the whole combustion surface in a steam-tight layered manner, so that the fire extinguishing effect is more excellent.
The above embodiments only describe the best mode of use of the existing device, and similar common means are used to replace the elements in the present embodiments, which fall into the protection scope.