RU2175877C1 - Device for pulsing feed and spraying of finely divided liquid and powdery fire-extinguishing substances - Google Patents

Abstract

FIELD: fire-fighting equipment, particularly, manual devices for pulsing feed of sprayed fire-extinguishing substances to fire seats. SUBSTANCE: claimed device may be used in fire-extinguishing for directed spraying of liquid and powdery fire-extinguishing substances with the help of gas medium. Device has a barrel with loading hole for supply of sprayed substance into the barrel cavity, end valve, accumulating chamber for compressed gas, valve for shutting off the working duct for passage of compressed air from accumulating chamber into the barrel cavity, means for supply of compressed air to device, and means for control of device operation. Device has gate for displacement and shutting off barrel loading hole. Gate accommodates a working channel. A part of accumulating chamber is formed by at least one surface of gate. Means for control of compressed gas flow from means of its supply is made to supply compressed air in its initial state to accumulating chamber in amount sufficient at least for displacement of gate ensuring shutting off the barrel loading hole, and for withdrawal of compressed air in its second state from the second chamber to ensure opening of shutoff valve and direction of compressed air from accumulating chamber into the barrel cavity through working channel of gate. Accommodated in accumulating chamber is means for turbulization of compressed air flow directed from said chamber to the barrel cavity, particularly, for swirling of compressed air flow. Shutoff valve and the second chamber may be accommodated inside turbulization means. Means for control of device operation may be made for prevention of changing over the means for control of compressed air flow in its second state. EFFECT: higher efficiency of extinguishing of fire flame and increased amount of fire-extinguishing substances supplied to fire seat in time unit due to reduced intervals between pulses of substance supply. 17 cl, 5 dwg

Description

 The invention relates to fire fighting equipment, in particular to devices for the directional spraying of liquid and powder extinguishing agents using a gaseous medium, and in particular to devices for the pulsed supply of atomized extinguishing substances to a fire source.

 A device is known for pulsed atomization and water supply to a fire source, comprising a cylindrical body, which is a reservoir for compressed gas, a cylindrical exhaust pipe mounted inside the body coaxially with the tank, connected to the gas tank through a pneumatic valve located inside the tank at the inlet end of the exhaust pipe. The internal cavity of the said pneumatic valve forms a retaining chamber, which locks the exhaust pipe when compressed air is supplied to the retaining chamber and unlocks when pressure is released from the pneumatic valve cavity (SU 1463319 A, 03/07/1989).

 The disadvantages of this device are the low speed and low energy of the ejection of atomized water, as well as insufficient water quality sprayed in one pulse and, therefore, low fire extinguishing efficiency.

 A device for pulsed fire extinguishing, containing an ejection pipe adapted for filling with a quenching liquid or powder substance, and a reservoir for compressed gas, the outlet of which is connected to the ejection pipe through a quick shut-off valve (US 5664631 A, 09.09.1997).

 During the operation of the described device also does not provide a fine spray of extinguishing substances, insufficient energy and the rate of release of extinguishing substances. These disadvantages reduce the effectiveness of the device and extinguishing the fire.

 The closest analogue is the known device for pulsed feeding and fine atomization of substances, containing a barrel with a loading hole for feeding the atomized substance into the barrel cavity, an end valve configured to discharge the atomized substance from the barrel cavity when a certain pressure is reached in it, a storage chamber for compressed gas, a shut-off valve, configured to block the working channel for the passage of compressed gas from the storage chamber into the barrel cavity, means for supplying compressed gas to the device and means for controlling the operation of the device (RU 2144404 C1, 01.20.2000).

 The main disadvantages of this device are the insufficient discharge rate of the extinguishing agent, the low hydrodynamic characteristics of the compressed gas stream supplied from the reservoir, which does not provide a fine atomization of the extinguishing agent at a compressed gas pressure of less than 3 MPa, and significant time intervals between two pulses due to manual control of the filling of the barrel cavity with an extinguishing agent substance.

 Thus, the problem to which the claimed invention is directed is to reduce the resistance to movement of the compressed gas while increasing the degree of dispersion of the sprayed substance, as well as providing automatic control of the filling of the barrel cavity with a fire extinguishing agent. The technical result achieved by the implementation of the claimed invention consists in increasing the efficiency of extinguishing the flame and increasing the amount of extinguishing agent supplied to the source of ignition per unit time by reducing the intervals between pulses of supply of the substance.

 The specified technical result in a device for pulsed supply and fine atomization of substances containing a barrel with a loading hole for feeding the sprayed substance into the barrel cavity, an end valve configured to discharge the sprayed substance from the barrel cavity when it reaches a certain pressure, a storage chamber for compressed gas , a shutoff valve made with the possibility of blocking the working channel for the passage of compressed gas from the storage chamber into the barrel cavity, means for supplying to the compressed gas system and means for controlling the operation of the device is achieved in that it comprises a shutter arranged to move to close the barrel bore, a second chamber, a part of which is formed by at least one surface of the shutoff valve, and means for controlling the movement of the compressed gas stream from means for supplying it, configured to supply compressed gas in its first state to the storage chamber in an amount sufficient to at least displace the shutter and shut off by supplying a barrel bore to the second chamber in an amount sufficient to ensure that the shutoff valve is at least equal to the shutter bias, while the working channel is made inside the shutter, part of the storage chamber is formed by at least one shutter surface, and means for controlling the movement of the compressed gas stream is configured to discharge compressed gas in its second state from the second chamber to enable opening of the shut-off valve and directing the compressed gas from the storage chamber in the barrel cavity through the working channel of the shutter, wherein in the storage chamber is arranged turbulence means for directed from the storage chamber into the cavity of the compressed gas flow of the barrel, in particular for compressed gas stream swirls.

 In addition, in the particular case of the invention, the shut-off valve can be made in the form of a cylindrical sleeve installed with the possibility of axial movement in the bore of the barrel, and the working channel for the passage of compressed gas into the cavity of the barrel is a central bore of the sleeve, with a seat located in the working channel shutoff valve.

 The profile of the working channel behind the shut-off valve seat is a stepped cylindrical bore of the sleeve, and the diameter of the steps increases in the direction from the valve seat.

 In addition, in the particular case of the invention, part of the storage chamber can form the rear surface of the shutter sleeve relative to the barrel outlet, which is made in the form of an elliptical paraboloid with a truncated apex.

 In addition, in the particular case of the invention, the means for turbulence of the compressed gas stream may be an insert with screw channels located in the storage chamber, the end part of the insert being a fairing for a shut-off valve.

 In addition, in the particular case of the invention, the shut-off valve may be a hollow cylindrical rod mounted coaxially to the shutter in the channel of the means for turbulent flow of compressed gas with the possibility of axial movement and having an elastic tip.

 In addition, in the particular case of the invention, the second chamber can be formed by the channel in which the shut-off valve is installed, and the end surface of the shut-off valve, which is rear relative to the barrel outlet.

 In addition, in the particular case of the invention, the means for controlling the movement of the compressed gas stream can be a spool, on the outer surface of which annular grooves are made with the possibility of opening the passage for the compressed gas into the storage and second chambers in the first position of the spool corresponding to the first state of the control means the movement of the flow of compressed gas, while the end face of the spool is a valve made with the possibility of releasing compressed gas from the second chamber in the second position and a spool corresponding to the second state of the means for controlling the movement of the compressed gas stream, at a certain pressure of the compressed gas at the end of the spool.

 In this case, the spool can be equipped with a return spring abutting against an adjusting nut made with the possibility of regulating the pressure created in the storage and second chambers.

 In addition, in the particular case of the invention, the means for controlling the operation of the device may be a trigger lever mounted on the handle of the device and connected with a rod configured to prevent axial displacement of the spool in its second position.

 In addition, in the particular case of the invention, the means for supplying compressed gas to the device may be a compressed gas reservoir mounted on the device or placed separately from it.

 In addition, in the particular case of the invention, the means for supplying the compressed gas to the device may be a fitting for the line of the stationary compressed gas supply system.

 In addition, in the particular case of the invention, the end valve can be located on the output end of the barrel and is a flat six-segment diaphragm made of reinforced elastic material.

 The shut-off valve and the second chamber are located inside the means for turbulizing the flow of compressed gas.

 The device may include a compression chamber to return the shutter to its original position after each pulse of ejection of a substance.

 Means for controlling the operation of the device is configured to prevent the translation of means for controlling the movement of the compressed gas stream into its second state.

 Thus, by ensuring the rotational movement of the jet of compressed gas and the pulsation of the supply and pressure (surge) of the jet when passing through the stepwise working channel of the shutter during operation of the device, a higher degree of dispersion of the extinguishing agent is provided and the rate of release of the extinguishing agent is increased. In addition, a fully automatic mode of operation of the device due to the synchronization of the shutter and the shut-off valve is organized. The gas-dynamic resistance to the movement of a stream of compressed gas at the inlet to the working channel is reduced due to the above-described execution of the rear end surface of the shutter and the presence of a fairing shut-off valve.

 The possibility of carrying out the invention, characterized by the above set of features, as well as the possibility of realizing the purpose of the invention can be confirmed by the description of a possible design of a device for pulsed feeding and fine atomization of liquid and powder extinguishing agents, made in accordance with the present invention, which is illustrated by the drawings, where in FIG. 1, 2, 3 shows a schematic diagram of the operation of the device; in FIG. 4 - insert with screw channels for turbulization of the flow of compressed gas; in FIG. 5 - end valve.

 A device 1 for pulsed feeding and fine atomization of liquid and powder fire extinguishing substances includes a barrel 2 with a feed hole 3 for feeding the sprayed substance into the cavity 4 of the barrel, an end valve 5, a shutter 6 with a working channel 7, a compression chamber 8, a storage chamber 9, an insert 10 with screw channels installed in the storage chamber, a second chamber 11 and a shut-off valve 12, a channel 13 for supplying compressed gas to the storage chamber, a channel 14 for supplying compressed gas to the second chamber, a channel 15 for discharging compressed gas from the second chamber, a gas distribution valve 16, a return spring 17, an adjusting nut 18, a rod 19, a holding spring 20, a cap 21 for adjusting the holding spring, a handle with a release lever 22.

 The device operates as follows.

 The extinguishing agent through the loading hole 3 is injected under pressure into the cavity 4 of the barrel between the valve 6 and the end valve 5. Compressed gas entering the device from the reservoir or stationary compressed gas supply system passes through the annular grooves of the gas distribution valve and channels 13, 14 into the storage 9 and the second 11 cameras. In this case, the shut-off valve 12 and the shutter 6 are simultaneously moved until the filling opening 3 is completely blocked by the shutter. The elastic tip of the shut-off valve remains in the seat of the shutter working channel, since the shutter 6 is subjected to the force created by the pressure of the gas compressed in the compression chamber 8 when the shutter 6 is moved. The shutter has a cylindrical, two-stage outer surface, the larger diameter of which is equal to the diameter of the corresponding channel in the housing devices, and the smaller one is the inner surface of the cylinder of the compression chamber 8, the presence of which ensures the return to the initial position of the shutter 6 after each impulse non-extinguishing substance.

 When you press the trigger lever 22, the rod 19, moving, compresses the holding spring 20, while creating the necessary clearance with the gas distribution valve 16, which allows it to make reciprocating movements. When moving the valve 16 towards the return spring 17 by the action of compressed air passing through the channel 23 and acting on the end of the valve, it compresses the return spring 17 and blocks the access of the compressed gas to the storage and second chambers. This opens the valve 24, formed by the end face of the gas distribution valve, and the compressed gas is discharged from the second chamber 11 by direct communication of the channels 23 and 15. At the time of the pressure relief from the second chamber, the shut-off valve 12 under the working pressure in the storage chamber 9 acting on the annular surface of its end face and the elastic tip returns to its original position, while the working channel 7 of the shutter 6 opens, which allows the compressed gas from the storage chamber 9 to rush into the cavity 4 of the barrel 2, When the gas flow acquires an additional rotational movement, passing through the screw insertion channels 10 and in the cavity of the barrel 4 the mixing of pressurized gas and the extinguishing agent. The end valve 5 opens under the action of a sharply increased pressure in the cavity 4 of the barrel, and the resulting mixture is ejected from the barrel of the device, spraying the extinguishing agent into the fire.

 After the pulse of the discharge of the extinguishing agent, the valve 6 under the action of the pressure of the compressed gas in the compression chamber 8 returns to its original position, while the elastic tip of the shut-off valve 12 sits on the valve seat, blocking the working channel 7. At the time of the pressure relief from the second chamber 11, the gas distribution valve the action of the return spring 17 also moves to its original position, while the end face 24 of the spool lies on the saddle, closing the gas passage from channel 15 to channel 23, and the supply of compressed gas again opens cutting the annular grooves of the gas distribution valve and channels 13 and 14, that is, the entire cycle is repeated, thus ensuring the automatic operation of the device.

 The action of the gas distribution valve 16 is regulated by the required speed and / or range of the extinguishing agent, that is, the required value of the working pressure of the compressed gas in the storage chamber 9 and depends on the stiffness of the return spring 17 and the position of the adjusting nut 18, which determine the opening moment of the said valve 24.

 To end the operation of the device, stop pressing the trigger 22 and the latter returns to its original position under the action of the rod 19, which is moved by the holding spring 20, while eliminating the possibility of axial displacement of the spool.

 The described example of the implementation of the device for pulsed feeding and fine atomization of liquid and powdered extinguishing agents proves the possibility of realizing the purpose of the invention and achieving the above technical result, but it does not exhaust all the possibilities of carrying out the invention, characterized by a combination of features described in the claims.

Claims (17)

 1. Device for pulsed supply and fine atomization of substances, containing a barrel with a loading hole for feeding the sprayed substance into the cavity of the barrel, an end valve configured to discharge the sprayed substance from the cavity of the barrel when it reaches a certain pressure, a storage chamber for compressed gas, a shut-off a valve configured to shut off the working channel for the passage of compressed gas from the storage chamber to the barrel cavity, means for supplying compressed gas to the device and means To control the operation of the device, characterized in that it comprises a shutter arranged to move to close the barrel bore, a second chamber, part of which is formed by at least one surface of the shutoff valve, and means for controlling the movement of the compressed gas stream from the means for supplying it made with the possibility of supplying compressed gas in its first state to the storage chamber in an amount sufficient at least to displace the shutter and overlap the loading opening a, and into the second chamber in an amount sufficient to ensure a shutoff valve displacement of at least equal to the shutter displacement, while the working channel is made inside the shutter, a part of the storage chamber is formed by at least one shutter surface, and means for controlling the movement of the compressed gas flow configured to discharge compressed gas in its second state from the second chamber to enable opening of the shutoff valve and directing the compressed gas from the storage chamber to the barrel cavity through the slave Chii seal channel, wherein arranged in the collection chamber means for turbulence directed from the storage chamber into the cavity of the compressed gas flow of the barrel, in particular, for compressed gas stream swirls.  2. The device according to claim 1, characterized in that the shut-off valve is configured to open in the second state means for controlling the movement of the compressed gas stream under the action of the pressure of the compressed gas in the storage chamber.  3. The device according to claim 1 or 2, characterized in that the shutter is made in the form of a cylindrical sleeve installed with the possibility of axial movement in the barrel channel, and the working channel for the passage of compressed gas into the barrel cavity is the central hole of the sleeve, while in the working The channel has a valve seat.  4. The device according to claim 3, characterized in that the working channel profile behind the stop valve seat is a stepped cylindrical bore of the sleeve, and the diameter of the steps increases in the direction from the valve seat.  5. The device according to claim 3 or 4, characterized in that the part of the storage chamber forms the rear surface of the shutter sleeve relative to the barrel outlet, which is made in the form of an elliptical paraboloid with a truncated apex.  6. The device according to one of claims 1 to 5, characterized in that the means for turbulizing the flow of compressed gas is an insert with screw channels located in the storage chamber, while the end part of the insert is a fairing for a shut-off valve.  7. The device according to one of claims 1 to 6, characterized in that the shut-off valve is a hollow cylindrical rod mounted coaxially to the shutter in the channel of the means for turbulizing the flow of compressed gas with the possibility of axial movement and having an elastic tip.  8. The device according to claim 7, characterized in that the second chamber is formed by a channel in which the shut-off valve is installed, and the end surface of the shut-off valve, which is rear relative to the barrel outlet.  9. The device according to one of claims 1 to 8, characterized in that the means for controlling the movement of the compressed gas flow is a spool, on the outer surface of which annular grooves are made with the possibility of opening a passage for compressed gas to the storage and second chambers in the first position of the spool corresponding to the first state of the means for controlling the movement of the flow of compressed gas, while the end face of the spool is a valve configured to release compressed gas from the second chamber in the second position pendulum, corresponding to the second state means for controlling the movement of the compressed gas stream at a certain pressure of the compressed gas on the end of the spool.  10. The device according to claim 9, characterized in that the spool is provided with a return spring abutting against an adjusting nut made with the possibility of regulating the pressure created in the storage and second chambers.  11. The device according to claim 9 or 10, characterized in that the means for controlling the operation of the device is a trigger lever mounted on the handle of the device and connected to the rod, made with the possibility of preventing axial displacement of the spool in its second position.  12. The device according to one of claims 1 to 11, characterized in that the means for supplying compressed gas to the device is a reservoir for compressed gas, mounted on the device or placed separately from it.  13. The device according to one of claims 1 to 11, characterized in that the means for supplying compressed gas to the device is a fitting for the mains of a stationary compressed gas supply system.  14. The device according to one of claims 1 to 13, characterized in that the end valve is located at the output end of the barrel and is a flat six-segment diaphragm made of reinforced elastic material.  15. The device according to claim 1, characterized in that the shut-off valve and the second chamber are located inside the means for turbulizing the flow of compressed gas.  16. The device according to one of claims 1 to 15, characterized in that it comprises a compression chamber for returning the shutter to its original position after each pulse of emission of a substance.  17. The device according to one of claims 1 to 16, characterized in that the means for controlling the operation of the device is configured to prevent the translation of means for controlling the movement of the compressed gas stream into its second state.

Images