RU2043778C1 - Fire extinguisher - Google Patents

Abstract

FIELD: fire fighting engineering. SUBSTANCE: powder is delivered to fire focus with gas flow generated by burning a pyrotechnic composition. Kindling of such composition is accomplished by means of friction, when a brick of pyrotechnic composition is moving relative to its executive member, manufactured as rasp and controlled by pistol-type spring mechanism. EFFECT: enhanced effectiveness in fire control. 5 cl, 2 dwg

Description

 The invention relates to fire fighting equipment, and in particular to methods for extinguishing fires and to the means used for this purpose. More precisely, the invention relates to those fire extinguishing methods in which powder is used as a fire extinguishing agent and, accordingly, hand-held fire extinguishers refueling with a fire-extinguishing powder.

 When using powder fire extinguishers, the task of ejecting a charge of powder from a fire extinguisher and feeding it into a fire is solved, as a rule, by equipping a fire extinguisher with a gas source, which is supplied to a container with a charge of powder at the right time and ejects powder from the fire extinguisher . In this case, the most common are solutions related to the use of a gas cylinder with compressed or liquefied gas, closed by a membrane, which is destroyed when a fire extinguisher is activated, as a gas source. Thus, for example, a manual fire extinguisher OP-1B was made (production of a special enterprise DPO Pozhtehnika, Odessa, TU 220 of the Ukrainian SSR 74-76). It contains a hollow body with a charge of extinguishing powder, a gas generator in the form of a gas-balloon device with a destructible membrane and a starting device interacting with the latter. When the membrane is destroyed by the launching device, gas is released into the fire extinguisher body, aerated powder, the formation of gas-powder mixture and its supply through the output device to the fire. The specified manual fire extinguisher has low reliability due to uncontrolled leakage of compressed or liquefied gas from a gas cylinder during prolonged storage of a charged fire extinguisher. Practice shows that for this reason the fire extinguisher availability factor in some cases decreases to 0.5. In addition, the effectiveness of the use of this fire extinguisher is low, since its device does not allow to obtain a shock-pulse effect of extinguishing agents on the fire.

 The same principle of operation forms the basis of a fire extinguisher according to the accepted application of Japan N 50-5520, also containing a container with a charge of fire extinguishing powder, a gas generator and a starting device.

 The gas generator is a hollow body with an outlet device, inside of which is a cylinder with compressed or liquefied gas, covered by a destructible membrane. A container with a charge of extinguishing powder is made with holes located on opposite walls of the container and covered by destructible membranes. The pistol-type launcher comprises a housing in which a spring is mounted, spring charging and descent mechanisms, an actuating element interacting with a compressed or liquefied gas cylinder through an opening in the gas generator housing, and means for translating the actuating element under the influence of the spring after it is released. The output device of the gas generator is made in the form of a spring-loaded spool, on the opposite sides of which are made knife edges, interacting respectively with the destructible membrane of the cylinder with compressed or liquefied gas and with the destructible membrane of the inlet of the container with a charge of fire extinguishing powder. For the passage of gas from the body of the gas generator into the tank with the charge of the extinguishing powder in the spool, a through hole is made along its axis.

 When the spring is released, the slider, under the influence of the spring, moves in the direction of the gas generator, the actuating element acts through a hole in the gas generator body to the cylinder with compressed or liquefied gas, moving it to the outlet side of the gas generator. The destruction of the cylinder membrane occurs with the knife edge of the spring-loaded spool and the gas escapes from the cylinder. Under the action of gases, the spool moves in the direction of the container with the charge of the extinguishing powder and destroys the membrane in the inlet of the indicated container with the other knife edge.

 Gas from the body of the gas generator through a through hole in the spool enters the container with extinguishing powder. With increasing pressure in the tank to a predetermined value, the membrane is destroyed in the outlet of the tank. In this case, the extinguishing powder is released by gas into the fire zone. The release of powder is shock-impulse in nature, which increases the efficiency of extinguishing a fire.

 The disadvantage of the fire extinguisher in question, as previously indicated, is its low reliability due to uncontrolled leakage of compressed or liquefied gas from a gas balloon device. In addition, the problem of using gas cylinders is compounded by the complexity of monitoring gas leakage and the difficulty of identifying the cylinders from which the gas leakage occurred.

 There are also known methods of extinguishing a fire and, accordingly, fire extinguishers, which implement a different principle of generating gas used to eject a fire extinguisher powder from a fire extinguisher and supply it to the fire source. It consists in burning the pyrotechnic composition, during the combustion of which the gas is formed, which is used to move the extinguishing powder to the fire. The action, for example, of the portable fire extinguisher OPSh10G (TU 12.46 75547.270-89) is based on this principle. The specified fire extinguisher has a cylinder filled with a charge of extinguishing powder, in the inner cavity of which a gas-generating set ECG-10 and an initiator of combustion IG-1 are installed. The IG-1 combustion initiator, used to ignite the gas-generating set ECG-10, is a cartridge with a powder charge and the Zhivelo capsule, which is triggered by shock. The triggering of the Zhivelo capsule and ignition of the powder charge of the IG-1 combustion initiator is explosive, accompanied by a sharp increase in pressure at the moment the initiator is triggered. A trigger device is installed in the neck of the container, which includes a spring with a cocking and lowering mechanism and an actuating element in the form of a hammer striking the capsule when the spring is released. The cylinder outlet is connected to a locking and starting device through which fire extinguishing powder is ejected onto a fire source by a jet.

 The disadvantage of the OPSh10G fire extinguisher is the considerable metal consumption of the structure, and consequently, the large weight for the given dimensions, which is caused by the use of an explosive device in the gas generation system, which requires the use of a thick-walled strong cylinder in the design of the fire extinguisher. Another drawback of the considered fire extinguisher is the impossibility of obtaining a shock-pulse effect on the fire source with fire extinguishing agents, since the design of the fire extinguisher does not contain means that provide a one-time (shock-pulse) discharge of the entire charge of the fire extinguishing powder to the fire zone, which reduces the effectiveness of its use.

 The basis of the invention is the task of creating a fire extinguisher, the constructive implementation of which provides high reliability in operation, the effective use of a charge of fire extinguishing powder and a higher effect of shock-pulse impact on the fire with fire extinguishing agents.

 The problem is solved primarily by changing the principle of ignition of the gas-generating composition. Instead of the shock used in the OPSh10 G fire extinguisher described above, the invention implements the principle of igniting a pyrotechnic gas generating composition by friction. A necessary condition for the implementation of this method is the use of a gas-generating composition in tablet form.

 A fire extinguisher, made in accordance with the invention and implementing the new principle of igniting a gas-generating composition, comprises a container for extinguishing powder with an outlet, a gas-generating means creating pressure in said container for ejecting said powder from it, and a device for igniting a gas-generating means, comprising a spring with the mechanisms of its platoon and descent and the actuating element, moved under the influence of this spring.

 The main feature of the fire extinguisher made according to this invention is that the gas generating means is made in the form of a tablet located on the path of movement of the actuating element, ensuring their mutual friction against each other when moving the latter, and coated with a layer of igniter. The gas generating tablet has an axial channel, and the actuating element moves inside this channel with friction against its walls. To ensure ignition, the actuator is made in the form of a grater, the shape and dimensions of which correspond to the shape and dimensions of the cross section of the specified channel in a gas generating tablet. The end face of the gas generating tablet from the side of the actuating element can be covered by a membrane, on the surface of which an igniter layer can also be applied.

 As experimental studies have shown, the properties of a gas-generating tablet practically do not change during long-term storage, which ensures high reliability of the operation of a fire extinguisher.

 In the process of ignition and combustion of a gas generating tablet, detonation and explosive processes are not present. The pressure in the gas generator and in the container with the charge of the extinguishing powder increases gradually without sudden jumps. This allows the design of the fire extinguisher lightweight, and therefore convenient when used as a portable fire extinguishing means.

 Another feature of the fire extinguisher is the special shape of the container for the fire extinguishing powder, which has three different sections interconnected: confuser (facing the gas generating means), cylindrical (central) and confuser-diffuser (in the area of the outlet). The case of the fire extinguisher at the point of attachment of the powder container is made in the form of a nozzle with central and peripheral channels, the latter being oriented parallel to the generators of the confused portion of the powder container.

 These features ensure the efficient use of the charge of the extinguishing powder due to the use of dead zones in the container with the charge of the powder, aerating it in the entire volume of the container, and, finally, ejecting the entire charge of the powder with a compact jet at the extinguisher's output.

 Figure 1 as an example shows one of the possible designs of the inventive pistol type fire extinguisher, side view in section; in FIG. 2, view A in FIG. 1; figure 3 the design of the gas-generating tablets, a side view in section.

 A fire extinguisher functionally consists of a container with a charge of fire extinguishing powder, a gas generator and a device for starting a gas generator. The latter contains a housing 1, in the bore of which a slider 2 is located, connected to the actuating element 3, a spring 4, a spring cocking head 5, a stem 6, a trigger 7 interacting with a spring 8 and a lock 9, and a handle 10 connected to the housing 1. The head 5 of the spring cock is made in the form of a sleeve closed from one end, covering a cylindrical section of the housing 1 with the possibility of movement along the longitudinal axis of the housing and fixing in two extreme positions. One of the possible ways to ensure the longitudinal movement of the spring cocking head 5 in the considered example (Fig. 2) is realized by means of a screw groove 11 made on the spring cocking head 5 and a pin 12 mounted on the cylindrical part of the housing 1. The spring 4 is installed in the housing 1 between the end face of the slider 2 and the spring cocking head 5. The rod 6 is fixedly connected to the spring cocking head 5, and the free end of the rod 6 is made in the form of a head 13, the diameter of which exceeds the diameter of the rod 6. In the slider 2 from the side of the spring 4 is made blind cavity 14. The head of the rod 6 is placed in the cavity 14 of the slider 2 with the possibility of movement along the longitudinal axis of the slider 2. The cavity 14 of the slider 2 from the end is blocked by a nut 15, the axial hole in which provides free movement of the rod 6 passing through this hole and engagement with the head 13 of the rod 6. On the opposite side, on the slider 2, shoulders 16 are made, interacting with the latch 9, a conical section 17, at the top of which a rod 18 is fixed with an actuating element 3. The rod 18 passes through the hole 19 of the housing 1, and the conical 17 chastok slider 2 forms a conical portion 20 of said opening 19, the shutoff valve. The actuating element 3 is made in the form of a cylindrical head at the end of the rod 18, on the surface of which a notch is applied.

 The body of the gas generator in the present embodiment is made as part of the housing 1 of the starting device. Possible embodiments of the body of the gas generator in the form of a separate part connected to the housing 1 by a detachable connection. The gas-generating tablet 21 is installed in the bore of the housing 1 of the starting device and is a cylindrical body of the corresponding chemical composition, which ensures the intense release of gaseous substances during combustion.

In the example under consideration, a mixture based on activated carbon as a combustible substance and an active oxidizing agent, for example, potassium nitrate (KNO ₃ ), was used as the substance from which the gas-generating tablet 21 is made.

 A longitudinal opening 22 is made in the gas generating tablet 21, the diameter of which allows the actuator 3 to be moved with a grater surface sliding along the opening 22. An igniter layer 23 is applied to the surface of the opening 22. The end face of the gas generating tablet 21 is closed by a membrane 24 on the side of the grater 3, onto which a layer 25 of the composition initiating the ignition is applied. The opposite end of the gas generating tablet 21 may be (but not necessarily) covered by a membrane to prevent the extinguishing powder from entering the cavity of the hole 22. The length of the hole 22 corresponds to the longitudinal movement of the grater 3 when the spring is released. The output device of the gas generator is made in the form of a nozzle 26 with a central 27 and peripheral channels 28.

 The container with the charge of the extinguishing powder includes a cylindrical section 29 containing the main part of the extinguishing powder 30, an inlet section connected to the output device of the gas generator and made in the form of a confuser 31, and an outlet section made in the form of a nozzle 32 of a confuser-diffuser type. The nozzle 32 is blocked by a destructible membrane 33. It is possible to shut off the nozzle 32 by means of a lid tightly worn on the outlet of the nozzle 32. The peripheral channels 28 of the nozzle 26 of the gas generator output device are directed parallel to the confuser 31 of the container inlet with a charge of extinguishing powder.

 Consider a pistol type fire extinguisher operates as follows.

 When the fire extinguisher is ready for operation, the container is filled with fire extinguishing powder 30 and closed by a membrane 33. The gas generator is equipped with a gas generating tablet 21. The spring cock 5 together with the rod 6 is in the extreme rear position, the spring 4 is relaxed. The slider 2 head 13 of the rod 6 is moved to the rear position. The latch 9 is extended all the way into the shoulders 16 of the slider 2, the grater 3 is placed within the hole 19.

 If a fire occurs, the operator, holding the fire extinguisher by the handle 10 by turning the spring cock 5, moves it to its extreme forward position. In this case, the slider 2 remains stationary, the stem 6 moves in the cavity 14 of the slider 2, and the spring 4 is compressed between the slider 2 and the spring cocking head. The operator directs the output nozzle 32 of the fire extinguisher to the fire from a distance of 2-8 meters and pulls the trigger 7.

 This overcomes the resistance of the flat spring 8, the latch 9 is recessed and releases the slider 2. The slider 2 under the action of the spring 4 is moved forward. Grater 3 penetrates the membrane 24 and introduces the ignition composition 25 into the hole 22 of the tablet 21. In the hole 22 due to the friction of the ignition composition 25 initiating ignition on the igniter layer 23, the gas generating tablet 21 is ignited. The burning of the gas generating tablet 21 is accompanied by intense gas evolution. In this case, the conical section 17 of the slider 2 closes the hole 19, preventing the penetration of gases into the internal cavity of the starting device. The locking force is provided by the spring 4. Gas through the channels 27 and 28 of the nozzle 26 enters the internal cavity of the container with a charge of fire extinguishing powder, aerating the extinguishing powder 30. When a certain pressure in the container with extinguishing powder is reached, the membrane 33 is destroyed, and the extinguishing powder 30 is ejected by the shock wave through nozzle 32 to the fire.

 The fire extinguisher is simple in design, easy to operate, reliable in operation and provides effective fire extinguishing. The design was tested during fire tests on model fires (class B fires). The test results showed that the effectiveness of the inventive fire extinguisher exceeds the efficiency of known fire extinguishers in the same conditions 4-5 times.

Claims (5)

 1. FIRE EXTINGUISHER, comprising a gas generating means located in the housing with an actuator movable by means of a spring with an input and lowering mechanism, and means for connecting a fire extinguisher to a supply tank located in the housing, characterized in that the gas generating means is made in the form of a briquette onto the surface of which an igniter layer is applied to interact with providing friction with the surface of the actuator when moving it.  2. Fire extinguisher according to claim 1, characterized in that the gas-generating briquette has an axial channel, the axis of which coincides with the axis of movement of the actuator moving inside the channel with friction against the channel walls.  3. Fire extinguisher according to claims 1 and 2, characterized in that the friction surface of the actuator is made in the form of a grater, the shape and dimensions of which correspond to the shape and dimensions of the cross section of the axial channel of the gas-generating briquette.  4. The fire extinguisher according to claim 1, characterized in that the end face of the gas-generating briquette on the side facing the actuator is closed by a membrane on the surface of which a layer of igniter is applied.  5. The fire extinguisher according to claim 1, characterized in that the container for the fire extinguishing powder has a confuser shape at the point of attachment to the body, cylindrical in the middle part and a diffuser at the outlet end, and the body of the fire extinguisher at the point of attachment of the container for extinguishing powder is made in the form nozzles with a central and peripheral channels, while the peripheral channels are oriented parallel to the generatrix of the confuser portion of the indicated capacity.

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