PL187332B1 - Pulse-type fire extinguishing gun - Google Patents

Abstract

The extinguishing pulse handgun (1) comprises the gas chamber (4) connected with the firing chamber (3) by means of a movable nozzle (5), shifting in relation to a closing member (10) and controlled by the trigger mechanism. When closed, the nozzle (5) is pressed against the closing member (10) by the gas medium pressure fed under its flange (7a) via discharge channel (12), housing a release valve (13). When pulling the trigger (14), dynamic nozzle (5) rebound off the closing member (10) causes that the compressed air pulse from the gas chamber (4), heightened by the flow through the nozzle (5), enters the firing chamber (3), from where it is discharged in the direction of the fire in form of mist or dust.

Description

The subject of the invention is a pulse extinguishing pistol, classified as a portable fire-fighting device containing extinguishing agents that are pressurized immediately before use. Fire extinguishing is carried out by spraying the gun with fog or dust of significant kinetic energy.

There is known from the publication of the application description PL-A1-317984 a method and a device for fire extinguishing using water mist. The known method is characterized by the use of a relatively small amount of water in particulate form in the extinguishing process, rather than the relatively large volumes of water that would be distributed or used in the case of conventional sprinkler systems. Water mist is extinguished by at least two mechanisms: by absorbing heat and by displacing oxygen. The rapid evaporation of small water droplets absorbs heat. Oxygen is displaced due to the displacement of air vapor as the water droplets are turned into water vapor. Furthermore, the amount of heat radiating from the flame to the non-combustible fuel is reduced.

The known device consists, in the simplest form, of a sealed container in which a piston is placed, which is moved by a driving member towards the spray nozzle, closed by a frangible partition. The space between the nozzle and plunger is filled

187 332 is water. During the extinguishing process, a driver, typically an explosive, generates an inert gas which, acting on the piston, moves it rapidly towards the spray nozzle. As a result of the increase in pressure, the septum inside the container breaks and the water is rapidly thrown outside, which becomes a mist with very small droplets.

A fire extinguishing gun is also known from the publication of the European patent specification EP-A1-0638334. The gun contains a magazine with several cartridges filled with the extinguishing agent, which are repeatedly shot towards the fire. Cartridges are pressurized gas storage containers with extinguishing properties. Pulling the trigger with your finger moves the cartridge towards the barrel. The firing pin placed in the barrel breaks the tight closure of the container, causing the extinguishing gas to be ejected towards the fire. The blast force is an additional extinguishing mechanism in this device.

The object of the invention is a new device for extinguishing a fire by means of repetitive pulses of fog or dust, using compressed gas both for the production and ejection of the extinguishing agent and for the operation and control of the main units.

The essence of the invention consists in the fact that the impulse extinguishing gun has a movable nozzle between the gas chamber and the blast chamber, which moves as a function of the setting of the trigger system. Before the shot, the gas chamber is filled with compressed non-flammable gas, while the shot chamber is filled with an uncompressed liquid or solid extinguishing agent. The dynamic springback of the nozzle from the closing member causes the impulse of compressed air from the gas chamber, enhanced by the flow through the nozzle, to fall into the blasting chamber, from where it is shot towards the fire in the form of mist or dust.

Preferably, a pulse chamber, for example cylindrical, conical or stepped, is provided between the nozzle and the firing chamber. Experience has shown that this chamber improves the ejection efficiency of the extinguishing agent.

It is also advantageous if the nozzle in the closed state is pressed against the closing member by a gas pressure fed under its collar by a discharge channel provided with a bleed valve. The surfaces are selected in such a way that the pressure under the collar is greater than the pressure exerted by the gas chamber. In such a solution, opening the bleed-off valve rapidly lowers the pressure in the discharge duct and under the flange, as a result of which the nozzle is displaced by a significant thrust force directed from the gas chamber. In the case of using a Laval nozzle in which the converging part enters the closure member head loosely seated in the disc with holes, which is a further feature of the invention, the complete opening takes place with great force with a slight shift, and the outflowing gas reaches a speed exceeding the speed of sound. In turn, closing the nozzle and refilling the gas chamber is possible thanks to the connection of the filling channel with the discharge channel and its branching into a section introduced into the chamber through the non-return valve. The safety parameters of the system are ensured by a safety valve. In order to obtain a standing wave along the entire ejection path, the possibility of adjusting the length of the chamber was introduced.

Moreover, it is advantageous if the shot chamber is closed with a flexible, radially pivotable partition and has an extinguishing agent valve placed in the gun handle. This allows for quick filling and maintenance of the liquid extinguishing agent before the shot, and for the impulse discharge of fog or dust during the shot.

Finally, it is advantageous if the inlet valve is closed by the pressure of the extinguishing agent exerted on the piston piston surface, the piston rod of which is placed in the low pressure channel and terminated with a plug placed in the blasting chamber, the piston overlying surface cooperating with a manual lever.

The fire extinguishing gun according to the invention enables the fire extinguishing operations to be carried out both in a closed room and in an open space. The ejection force of the extinguishing agents is achieved without the use of hazardous explosives.

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The invention is illustrated in the drawing in which Fig. 1 shows a cross-sectional view of a pulse fire extinguisher; Fig. 2 is a sectional view of the extinguishing agent inlet valve; and Fig. 3 - fire extinguishing pistol with the equipment necessary for its use.

The pulse extinguishing gun 1 shown in Fig. 1 uses water as the extinguishing medium and compressed air as the gaseous medium. The main part of the gun 1 is composed of the body 2 passing on one side into the blasting chamber 3 and on the opposite side into the gas chamber 4. The Laval nozzle 5 is slidably located in the axis of the body 1, directed with the convergent part 5a towards the gas chamber 4. Externally, the nozzle 5 has a seal 6 and flange 7. In the open state, the lower surface of the flange 7a rests on the face of the opening in which the nozzle 5 fits, and this opening later turns into a slightly larger opening 8, which is an extension of the divergent part 5b. In the closed state, the nozzle 5 moves so that the tapered portion 5a abuts tightly against the edge 9a of the closure member 10. The plug 9 sits loosely in the disc of the closure member 10 and is made of a material harder than that of the nozzle 5. The closure member 10 has oval openings 11 with a significant cross-section. For aerodynamic reasons, the disc tip of the closing member located inside the divergent part 5a has an appropriately selected bowl 9b.

The body 2 also has a trigger system that opens the nozzle 5. It consists of a trigger channel 12, separated by a drain valve 13 controlled by a trigger 14, located in the upper part of the handle 15. Pulling the tongue 14 with the finger moves the pin 16 upwards, overcoming the spring force and forces of air pressure and adjustment of the relief valve 13, consisting in moving the mushroom 13a away from the saddle of the outlet opening, while simultaneously pressing the opening of one of the legs of the filling channel 17 against the saddle. As a result of the adjustment, air from the drain channel 12 and from the space under the lower surface of the flange 7a flows into surroundings. The discharge valve 13 is characterized by an immediate, substantial opening. The trigger 14 is secured against accidental pulling by a known lock 18 located on the front of the handle 15. The filling channel 17, which starts in the quick coupler 19 of the medium pressure pipe, also branches into a section ending with a safety valve 20 and a section ending with a non-return valve 21 entering into gas chamber 4.

The arrangement described above works as follows. The air fed through the supply channel 17 with a pressure of 2.5 MPa passes first through the closed bleed valve 13 and the drain channel 12 into the space under the flange 7a and shifts the nozzle 5 towards the plug 9 causing it to close. Almost simultaneously, overcoming the spring force of the check valve 21, the compressed air fills the gas chamber 4. The shape of the flange 7 is selected such that the pressure exerted by the compressed air on the upper surface of the flange 7b, of a relatively significant value, is smaller than the pressure on the lower part 7a. . Accordingly, the nozzle 5 is kept closed. The displacement of the relief valve 13 causes a rapid pressure drop under the flange 7a and the nozzle 5 is moved away from the closing member 10 with a considerable force of 1000 N. A properly selected design of the plug 9 causes that, despite a slight displacement, an immediate discharge of compressed air from the gas chamber 4 takes place. The Laval nozzle achieves a velocity in port 8 in excess of Mach 1. The air impulse with such parameters constitutes the ejection force of the extinguishing material from the gun 1.

The gas chamber 4 connected to the body 2 is closed by a piston 22 with rings 23 additionally supported for sealing by compressed air pressure acting through holes 24. A screw 25 is rotatably mounted in the piston, screwed into the cover 26 and secured with a nut. Rotating the screw 25 moves the piston 22 in the gas chamber 4, allowing its length to be adjusted. Thanks to the regulation, it is possible to obtain a standing wave, which substantially improves the extinguishing performance of the gun.

Also connected to the body 2 is a blasting chamber 3 having the shape of a solder closed at the outlet with a partition 27 embedded in the cap 28. The partition 27 is made of a relatively thick rubber disc, cut several times from the center towards the periphery, while

The cuts are smaller than the radius so that they do not extend to the edge. Such a structure of the baffle 27 allows to keep the water in the chamber before firing, and after firing it to throw the mist out through the segments of rubber bent almost perpendicularly outwards. Internally, the blast chamber 3 communicates with a cylindrical impulse chamber 29 formed in the body and then with a nozzle 5. Externally, the blast chamber 3 has a lateral water inlet. The inlet valve 30 (Fig. 2) is connected to the handgrip 31, which facilitates its control and aiming with the gun. The valve 30 has a body 30a with a piston 32 moving inside, the piston rod 33 of which ends with a plug 34 placed in the blasting chamber 3. Water fed under the piston 32 through a low pressure channel 35 keeps the piston 32 moved towards the handle 31 and closes the valve on the conical plug 34 The opening of the valve and the filling of the blast chamber 3 with water takes place within a few seconds after pressing the lever 36 with the thumb.

Completely equipped fire extinguishing gun 1 (Fig. 3) also includes a backrest 37 holding a compressed air cylinder 39 and a water container 40 with clamps 38. The cylinder 39 is terminated with a shut-off valve 41 and a double, blocked pressure reducing valve 42, reducing the high pressure of 20 MPa in the cylinder 39, to the level of 2.5 MPa and 0.4 MPa. Air with a low pressure of 0.4 MPa is fed through a conduit 43 to the container 40, from where it pushes water, and via a water conduit 44 it supplies it to the inlet valve 30. Air with an average pressure of 2.5 MPa is fed via an air conduit 45 to the quick coupler 19. The kit is equipped with also includes a fill head 46 and a (optional) second air cylinder with a respiratory protection kit (optional) not shown. This kit is used when the gun is used in an unbreathable environment.

During the firefighting operation, a firefighter with a backrest 37 on his back and a gun 1 slung on his belt 47, held in both hands, approaches the source of the fire and presses the lever 36 alternately to fill the gun with water, and by pressing the trigger 14 he shoots the water mist towards the fire.

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Fig. 1

Publishing Department of the UP RP. Mintage 50 copies Price PLN 2.00.

Claims (9)

Patent claims 1. Pulse extinguishing pistol, comprising a gas chamber, an extinguishing agent chamber and a trigger mechanism, characterized in that the gas chamber (4) is connected to the shot chamber (3) by means of a movable nozzle (5) that moves in relation to the closing member (10). ) and controlled by the trigger system. 2. The fire extinguishing pistol according to claim The method of claim 1, characterized in that a pulse chamber (29) is provided between the nozzle (5) and the blasting chamber (3). 3. The fire-extinguishing pistol according to claim The nozzle (5) as claimed in claim 1 or 2, characterized in that the nozzle (5) in the closed state is pressed against the closing member (10) by the pressure of the gaseous medium, fed under its flange (7a) through a discharge channel (12) on which a discharge valve (13) is located. 4. The fire-extinguishing pistol according to claim A method as claimed in any one of the preceding claims, characterized in that the nozzle (5) is of the Laval type and the closing member (10) has a mushroom (9) projecting into its converging part (5a), mounted loosely in the disk with holes. 5. The fire-extinguishing pistol according to claim Device according to claim 3, characterized in that the drain channel (12) communicates with a filling channel (17) that extends into the gas chamber (4), which has a non-return valve (21) and a safety valve (20). 6. The fire-extinguishing pistol according to claim The gas chamber of claim 1, characterized in that the gas chamber (4) is adjustable in length. 7. The fire-extinguishing pistol according to claim The method of claim 1, characterized in that the shot chamber (3) is closed by a flexible, radially pivotable partition (27) and has an extinguishing agent inlet valve (30). 8. The fire-extinguishing pistol according to claim 7. A method according to claim 7, characterized in that the inlet valve (30) is closed by the pressure of the extinguishing agent exerted on the piston (32) piston surface, the piston rod (33) of which is placed in the low pressure conduit (35) and ended with a plug (34) placed in the blasting chamber (3), with the piston head surface (32) cooperating with a hand lever (36). 9. The fire-extinguishing pistol according to claim The method of claim 7 or 8, characterized in that the inlet valve (30) is located in the holder (31) of the gun.