WO2016209112A2 - Powder-type pyrotechnic automatic fire extinguisher - Google Patents

Abstract

The invention relates to the field of firefighting technology, and specifically to single-use pyrotechnic devices and to total flooding fire extinguishing means. The technical results achieved by carrying out the claimed technical solution include a simpler design of a fire-extinguisher, and an increase in the reliability and utilizational efficacy of same. A fire extinguisher has a housing (1) with a suppressing agent (2) and an initialization device in the form of a pyrotechnic charge (3). The fire extinguisher housing (1) is made hollow and in the form of one of the Platonic solids, and has the suppressing agent (2) and the pyrotechnic charge (3) disposed therein. The pyrotechnic charge (3) is provided with at least one detonation cord (4), an end of which extends to the outer surface of the housing (1) and is affixed thereto. The housing (1) is made of a workpiece sheet having a certain shape based on an unfolded-form (5) of one of the Platonic solids. The housing (1) is secured in an assembled position using locks in the form of protrusions/valves (6), the locks interacting with slots (7) which mate with same and which are provided in the unfolded-form (5) of the housing (1). The inner surface of the housing (1) is provided with notches (8) in the inner layer of the housing (1) material.

Description

 Self-working pyrotechnic powder fire extinguisher.

The invention relates to the field of fire fighting equipment, and in particular to disposable pyrotechnic devices, as a means of volumetric fire extinguishing.

 A fire extinguisher is known from the prior art that generates gas-aerosol combustion inhibitors that are jet-discharged into the protected volume when using the pyrotechnic composition of the checkers.

 The fire extinguisher has an axially mounted start-up device, a pyrotechnic checker generating a gas-aerosol combustion inhibitor, and a cooling unit placed in a housing that is installed inside the shell with an annular gap filled with a heat-protective layer and communicating with the outlet openings on the convex lid through radial channels located above cooling unit. The heat-insulating layer is made of gypsum, fixing the checker along the perimeter directly with the housing rigidly mounted on the cooling unit, inside which the launch device is mounted, and the outlet openings are distributed around the periphery of the cover rigidly connected to the shell (see RF Patent JN ° 2136338, IPC A 62 C 13/22, 1998).

The achievement of the required technical result in the known device is hampered by the fact that it has increased dimensions, determined by the layout of the launcher, while reducing the useful volume of the generating charge. The design is complicated, which limits the scope of the fire extinguisher to its intended use for effective, but only manual fire extinguishing. The throwing fire extinguishing device containing two pyrotechnic charges installed through cardboard interlayers in dish-shaped housing connected by flanges in the opposite direction is also known from the prior art, forming an output disk nozzle coaxial to the slit combustion chamber, and an igniter communicating by means of a pyrotechnic moderator with an initiation unit, placed in a quick-release pencil case mounted in the handle-bracket.

 The handle bracket is mounted on the flanges of the housing, and the combustion chamber is blocked by a flame arrester made in the form of an elastic ring mounted in the nozzle, with a flange with an end of the flanges, between which the nozzle of the canister is placed, where the igniter is located adjacent to the pyrotechnic moderator (see RF, Patent ^ 2483771, IPC A 62 C 19/00, 2012).

 The achievement of the required technical result in the known device is hampered by the fact that it has unsatisfactory effectiveness of the main action for the intended purpose due to the relatively low coefficient of functional filling, the mass of pyrotechnic charges of which is reduced from the maximum volume, which, as a result, reduces the protected volume at a given concentration limit in mute combustion inhibitors.

 The closest technical solution chosen for the prototype is a discharged fire extinguisher containing a body filled with a fire extinguishing composition, and an initiating device, moreover, the fire extinguishing composition forms a fire extinguisher body, and the moderator and igniter of the initiating device are located inside the body (see RF Patent JY ° 20991 13, IPC A 62 C 19/00, 1996).

The achievement of the required technical result in the known device is hindered by the fact that when a fire occurs, the fire extinguisher is first picked up, then the initiator is set on fire (or acted by friction), and only then the fire extinguisher is thrown into the fire. Then, sequential combustion of the moderator and igniter, igniting the housing. During the burning of the shell, an intensive formation of a fire extinguishing substance (aerosol) occurs, which is distributed in a burning room and suppresses the fire. The fire extinguisher is not intended for “stand-alone” use, I will deliberately be placed in a potentially fire hazardous room - operator intervention is required to initiate a fire extinguisher.

 The problem to which the claimed invention is directed, is to create a lightweight fire extinguisher in weight and simple in execution, not containing complex firing mechanisms, self-triggering when exposed to a fire flame, which does not have elements that additionally reduce the mass of the extinguishing agent, and provides high reliability and efficiency with ease of use.

 The technical results obtained from the implementation of the claimed technical solution include the simplification of the design of the fire extinguisher, increasing its reliability and efficiency of its use.

The problem is solved, and the technical result is achieved by the fact that in the fire extinguisher powder pyrotechnic self-operating, having a body with a fire extinguishing substance and an initiating device, according to the invention, the body of the fire extinguisher is made hollow in the form of one of the Platonic solids, inside of which there is a fire extinguishing substance and an initiating device made , in turn, in the form of a pyrotechnic charge equipped with at least one ignition cord, the end of which is brought to the outer surface of the housing and behind mounted on it, moreover, the case is made of a sheet of a workpiece of a certain shape based on the development of one of the Platonic solids and fixed in the assembled position by locks in the form of protrusions-valves interacting with their corresponding slots made in the development of the case, and cuts are made on the inner surface of the case inner layer of body material. A heat shrink film or a protective coating, for example, in the form of liquid rubber, can be applied to the outer surface of the housing over the pyrotechnic charge ignition cord located on it.

 The cuts of the inner layer of the material of the body can be made parallel to the lines of the edges of the Platonic solid forming it, and / or directly along them.

 The body of the fire extinguisher can be made of cardboard, for example, corrugated cardboard, or a three-layer corrugated cardboard.

 Pyrotechnic charge can be placed inside the housing in a suspended state, for example, due to the ignition cord and, for example, in the center of the housing.

 The pyrotechnic charge itself can be made in the form of a firecracker. The body of the fire extinguisher can be made in the form of one of the Platonic solids, for example, in the form of a tetrahedron, or an octahedron, or an icosahedron, or a hexahedron (cube), or a dodecahedron.

 As a fire extinguisher in a fire extinguisher, a fire extinguishing powder may be used.

 The end of the ignition cord of the pyrotechnic charge, brought to the outer surface of the housing, can be located arbitrarily over its entire surface and, for example, can be twice wrapped around the housing.

 The body of the fire extinguisher and its connections can be sealed, and the connection sheet of the workpiece in the form of a scan of the housing in its assembled position is treated with sealant.

 The body of the fire extinguisher can be equipped with a handle for throwing and / or hanging the fire extinguisher.

 The invention is illustrated by drawings, where:

 In FIG. 1 shows the appearance of a fire extinguisher;

 In FIG. 2 is a partial cross-sectional view of a fire extinguisher and an illustration of the location of the pyrotechnic charge inside it;

In FIG. 3 - an example of the development of the body in the form of an icosahedron; In FIG. 4 - a sketch drawing of the appearance of a fire extinguisher;

 In FIG. 5 is a schematic drawing of a fire extinguisher with a partial sectional view and an illustration of the location of the pyrotechnic charge inside it.

 A self-operating pyrotechnic powder fire extinguisher has a housing 1 with a fire extinguishing agent 2 and an initiating device made in the form of a pyrotechnic charge 3 (extinguishing agent 2 is conventionally indicated by the position in Fig. 5).

 The body 1 of the fire extinguisher is made hollow in the form of one of the Platonic solids, inside of which there is a fire extinguishing agent 2 and a pyrotechnic charge 3.

 Pyrotechnic charge 3 is equipped with at least one ignition cord 4, the end of which is brought to the outer surface of the housing 1 and is fixed on it.

 Case 1 is made of a blank of a certain shape based on a scan 5 of one of the Platonic solids.

 The housing 1 is fixed in the assembled position by locks in the form of protrusions-valves 6, interacting with their corresponding slots 7, made in the scan 5 of the housing 1.

 On the inner surface of the housing 1, cuts 8 of the inner layer of the material of the housing 1 are made.

 A heat shrink film (not shown) or a protective coating, for example, in the form of liquid rubber (not shown), is applied to the outer surface of the housing 1 over the ignition cord 4 of the pyrotechnic charge 3 located on it.

 The cuts 8 of the inner layer of the material of the housing 1 are made parallel to the lines of the ribs 9 of the Platonic solid forming it, and / or directly along them.

 The body 1 of the fire extinguisher can be made of cardboard, for example, corrugated cardboard, or a three-layer corrugated cardboard.

Pyrotechnic charge 3 is placed inside the housing 1 in a suspended state, for example, due to the ignition cord 4 and, for example, in the center of the housing 1. The pyrotechnic charge 3 itself is made in the form of a firecracker.

 The fire extinguisher body 1 is made in the form of one of the Platonic solids, for example, in the form of a tetrahedron, or an octahedron, or an icosahedron, or a hexahedron (cube), or a dodecahedron.

 As the extinguishing agent 2 in the extinguisher, an extinguishing powder may be used.

 The end of the ignition cord 4 pyrotechnic charge 3, displayed on the outer surface of the housing 1, is located arbitrarily over its entire surface and, for example, can be twice wrapped around the housing 1.

 The body 1 of the fire extinguisher and its connections are sealed, and the connection sheet of the workpiece 5 in the form of a scan of the housing 1 in the assembled position of the housing 1 is treated with sealant.

 The body 1 of the fire extinguisher is equipped with a handle 10 for throwing and / or hanging the fire extinguisher.

 A self-operating pyrotechnic powder fire extinguisher operates as follows.

 Self-working pyrotechnic powder fire extinguisher is a disposable pyrotechnic device designed to extinguish fires of the following classes:

· Fires of solid combustible substances and materials (A);

 • fires of flammable liquids or melting solids and materials (B);

 • gas fires (C);

 • fires of combustible substances and materials of electrical installations under voltage (E).

 The fire extinguisher case 1 is made, for example, from T-24 corrugated cardboard, 3 mm, a sheet of 2.6x1.25 with adhesive, mechanical fastening of the side walls or using metal clips.

With mechanical fastening, the housing 1 is assembled and fixed with locks in the form of protrusions-valves 6 interacting with the slots 7 corresponding to them, made in the reamer 5 of the housing 1. The shape of the body 1 is a different Platonic solids (icosahedron, octahedron, cube, tetrahedron, dodecahedron - the shape in the form of Platonic solids is a fundamentally and important feature of the product).

 The body 1 is assembled from one sheet of cardboard with notches 8 of the inner layer of the material of the body 1, forming a hollow body of the product.

 The cuts 8 of the inner layer of the material of the housing 1 are designed for uniform opening of the housing 1 of the product.

 The cuts 8 of the inner layer of the material of the housing 1 are made parallel to the lines of the ribs 9 of the Platonic solid forming it, and / or directly along them.

 Case 1 is made of a blank of a certain shape based on a scan 5 of one of the Platonic solids.

 The shape of the body in the form of one of the Platonic solids provides a stable position on a horizontal surface (floor) when a fire extinguisher is thrown into a fire.

 The cavity of the housing 1 provides accommodation for the normative amount of the extinguishing agent 2 on the basis of the powder and pyrotechnic charge 3 for opening the housing 1 and uniformly spraying the extinguishing agent 2.

 The connections of the housing 1 are tight, eliminating the possibility of loss of mass of the extinguishing agent 2 and the ingress of moisture. Case 1, when activated, does not injure a person in the event of a fire extinguisher in his hands.

 Pyrotechnic charge 3 is located inside the housing 1 in the center in suspension due to the ignition cord 4, which through two holes (not shown) is brought out and attached over the entire area of the outer surface of the housing 1 (the holes are clogged). Then, through a special hole (not shown), the cavity of the housing 1 is filled with a fire extinguishing agent 2 and sealed.

The sealing of the extinguishing agent 2 inside the extinguisher body 1 occurs at the stage of filling the cavity of the housing 1 with the extinguishing agent 2, for example, with constant vibration. After sealing and reaching the required amount of extinguishing agent 2, the hole is clogged and a heat-shrink film or a special protective coating is applied to the housing 1, for example, in the form of liquid rubber.

 Self-operating pyrotechnic powder fire extinguisher can be activated in two ways.

 The principle of operation of a fire extinguisher is to ignite the ignition cord 4 from an open flame with the subsequent initiation of a pyrotechnic charge 3, which leads to the opening of the body 1 of the fire extinguisher and uniform spraying of the fire extinguisher 2 by area or volume of combustion.

 In the first use case, the fire extinguisher is thrown by a person (operator), for example, by the handle 10, into the fire and the fire extinguisher fires when the flame of the ignition cord 4 touches the pyrotechnic charge 3, brought to the outer surface of the housing 1 and located arbitrarily over its entire surface.

 The ignition cord 4 of the pyrotechnic charge 3 is ignited and at a standard rate, reaches the pyrotechnic charge 3, which, in turn, creates excess pressure inside the housing 1, which forces it to open with the subsequent spraying of the extinguishing agent 2 into the volume of the room.

 Pyrotechnic charge 3 is triggered independently from the ignition cord 4, having a burning rate of up to 300 mm / sec.

 In the second use case, the fire extinguisher is permanently located in the room, in the place of the most fire hazardous device or device (electrical panel, transformer, car hood, etc.), being suspended, again, for example, by the handle 10, and it automatically works when touched flame of the ignition cord 4. Next, the sequence and principle of operation are identical to the first use case.

The condition for bringing the fire extinguisher to an active state (actuation) is direct flame exposure to the ignition cord 4, located on the outer (outer) surface of the housing 1 over its entire area.

 It is important to note that the opening of the housing 1 when the pyrotechnic charge 3 is triggered occurs along the lines of incisions 8 of the inner layer of the material of the housing 1, made parallel to the lines of the ribs 9 of the Platonic solid forming it, and / or directly along them. The cuts 8 of the inner layer of the material of the housing 1 are designed specifically for uniform opening of the housing 1 of the product.

 The choice of the external shape of the housing 1 in the form of one of the Platonic solids is due to the fact that when using the fire extinguisher according to the first embodiment, being abandoned by the operator into the fire, the fire extinguisher will not “roll” over the surface and roll “into the far corner” of the room, but due to the edges The platonic body - in the form of a tetrahedron, or octahedron, or icosahedron, or hexahedron (cube), or dodecahedron, will lie on one of the faces, taking a stable position.

 The most effective in this aspect is the icosahedron shape having twenty faces.

 The shape of the body 1 contributes to the uniform expansion of the extinguishing powder in the volume, and the ratio of the radius of the inscribed sphere to the radius of the middle sphere of the icosahedron is the largest of the five Platonic solids and close to unity - equal to 0.934172359, which ensures the largest powder packing with the minimum dimensions of the fire extinguisher. The shape of the housing 1 does not allow the fire extinguisher to "roll out" of the fire.

 The composition of the extinguishing agent 2 (extinguisher charge) in the form of an extinguishing powder is regulated by standards. Currently, Russian-made powder fire extinguishers use the following line of general-purpose powders with the following characteristics:

 • for class A fires - general-purpose powder ABSE (the main active component of ammonium phosphorus salts (Pirant-A, PF, P-

2АШ, Vekson-ABC, etc.)); • for fires of classes B, C, E - ALL powder (the main component may be sodium or potassium bicarbonate, potassium sulfate, potassium chloride, urea alloy with carbonic salts).

 As a fire extinguisher 2 fire extinguisher powder pyrotechnic self-generating used dry powder for general purposes in characteristics not inferior to the powders given above. The powder excludes the possibility of caking, crystallization or coking in the housing 1 of the product. The powder is sprayed evenly when opening the housing 1 due to the buoyancy of the explosion of the pyrotechnic pyrotechnic charge 3. The powder is safe for respiratory, vision and human skin. The powder is non-hygroscopic.

 Pyrotechnic charge 3 (for example, modifications of household firecrackers) is located inside the housing 1 and provides reliable and safe opening for the human body 1 and uniform spraying of the extinguishing agent 2 throughout the room. Pyrotechnic charge 3 does not have in its design elements capable of injuring a person when triggered in his hands.

 All the signs of an independent claim of the claimed invention are aimed at achieving a technical result.

 The execution of the housing 1 hollow in the form of one of the Platonic solids, in the example of the icosahedron, allows for the most efficient filling of it with a fire extinguishing agent using the maximum internal volume of the housing, which undoubtedly increases the efficiency of its use.

 The execution of the housing 1 from a sheet of a workpiece of a certain shape based on the development of one of the Platonic solids serves to unconditionally simplify the entire structure, because the housing 1 is made of a sheet of three-layer cardboard and in the assembled position is fixed with locks in the form of protrusions-valves 6 interacting with the slots 7 corresponding to them, made in a reamer 5 of the housing 1.

The placement of the ends of the ignition cord 4 pyrotechnic charge 3 on the outer surface of the housing 1 and securing it to it provides reliability of fire extinguisher operation from a fire flame - a fire flame in one way or another will certainly ignite the ignition cord 4 located on the outer surface of the housing 1 and directly interacting with the fire flame.

 The reliability of the fire extinguisher is also ensured by making cuts 8 of the inner layer of the shell material on the inner surface of the housing 1 - opening of the shell 1 when the pyrotechnic charge 3 is triggered occurs along the notch lines 8 of the inner layer of the shell material 1, made parallel to the lines of the edges 9 of the Platonic solid forming it, and / or directly on them. The cuts 8 of the inner layer of the material of the housing 1 are designed specifically for uniform opening of the housing 1 of the product.

 The technical result of the claimed invention is a technical effect and properties that are objectively manifested in the manufacture and use of the product - fire extinguisher:

 - the execution of the housing 1 from a sheet of a workpiece of a certain shape based on the development of one of the Platonic simplifies the design of the fire extinguisher, which manifests itself in its manufacture, because the housing 1 is made of a sheet of three-layer cardboard and in the assembled position is fixed with locks in the form of protrusions-valves 6 interacting with their slots 7 made in a reamer 5 of the housing 1 (simplification of the design of the fire extinguisher);

 - the execution of the housing 1 hollow in the form of one of the Platonic solids, in the example of an icosahedron, allows you to place the largest amount of extinguishing agent inside the housing 1 and does not allow the fire extinguisher to "roll into the far corner" in the fire, which is manifested when using a fire extinguisher (increased reliability and efficiency of use fire extinguisher);

- placing the ends of the ignition cord 4 of the pyrotechnic charge 3 on the outer surface of the housing 1 and securing it to it ensures the reliability of the fire extinguisher from a fire flame, which also manifests itself when using a fire extinguisher (increasing the reliability of a fire extinguisher), etc.

 And the claimed technical result certainly manifests itself against the background of the simplicity of using a fire extinguisher: the fire extinguisher is either deliberately located in a potentially fire hazardous room or thrown there by the operator.

 A self-working pyrotechnic powder fire extinguisher is made of traditional materials and using widely used substances, and can be manufactured under serial or experimental production conditions.

Claims

Claim. 1. A self-acting pyrotechnic powder fire extinguisher, having a body with a fire extinguishing agent and an initiating device, characterized in that the fire extinguisher body is made hollow in the form of one of the Platonic solids, inside of which a fire extinguishing agent and an initiating device are placed, made, in turn, in the form of a pyrotechnic charge, equipped with at least one ignition cord, the end of which is brought out to the outer surface of the body and secured to it, moreover, the body is made of a blank sheet of a certain shape based on the development of one of the Platonic solids and is fixed in the assembled position with locks in the form of protrusions - valves interacting with their corresponding slots, made in the development of the body, and on the inner surface of the body, cuts are made in the inner layer of the body material. 2. Self-acting pyrotechnic powder fire extinguisher according to claim 1, characterized in that a heat-shrinkable film or protective coating is applied to the outer surface of the housing over the ignition cord of the pyrotechnic charge located on it. 3. Self-acting pyrotechnic powder fire extinguisher according to claim 2, characterized in that a protective coating in the form of liquid rubber is applied to the outer surface of the housing over the ignition cord of the pyrotechnic charge located on it. 4. Self-triggering pyrotechnic powder fire extinguisher according to claim 1, characterized in that the cuts in the inner layer of the body material are made parallel to the lines of the edges of the Platonic solid forming it, and/or directly along them. 5. Self-triggering pyrotechnic powder fire extinguisher according to claim 1, characterized in that the body is made of cardboard. 6. Self-triggering pyrotechnic powder fire extinguisher according to claim 5, characterized in that the body is made of corrugated cardboard. 7. Self-triggering pyrotechnic powder fire extinguisher according to claim 6, characterized in that the body is made of three-layer corrugated cardboard. 8. Self-triggering pyrotechnic powder fire extinguisher according to claim 1, characterized in that the pyrotechnic charge is placed inside the housing in a suspended state due to the ignition cord. 9. Self-triggering pyrotechnic powder fire extinguisher according to claim 8, characterized in that the pyrotechnic charge is placed inside the housing in the center in a suspended state due to the ignition cord. 10. Self-triggering pyrotechnic powder fire extinguisher according to claim 1, characterized in that the pyrotechnic charge is made in the form of a firecracker. 1 1. Self-acting pyrotechnic powder fire extinguisher according to claim 1, characterized in that the fire extinguisher body is made in the form of one of the Platonic solids in the form of a tetrahedron, or octahedron, or icosahedron, or hexahedron (cube), or dodecahedron. 12. Self-acting pyrotechnic powder fire extinguisher according to claim 1, characterized in that the fire extinguishing agent is made in the form of a fire extinguishing powder. 13. Self-triggering pyrotechnic powder fire extinguisher according to claim 1, characterized in that the end of the ignition cord of the pyrotechnic charge, brought to the outer surface of the housing, is located randomly over its entire surface. 14. Self-acting pyrotechnic powder fire extinguisher according to claim 1, characterized in that the end of the ignition cord of the pyrotechnic charge, brought to the outer surface of the housing, is wrapped twice around the housing. 1 . Self-triggering pyrotechnic powder fire extinguisher according to claim 1, characterized in that the body and its connections are sealed. 16. Self-activating pyrotechnic powder fire extinguisher according to claim 15, characterized in that the joints of the workpiece sheet in the form of a body ream in its assembled position are treated with a sealant. 17. Self-triggering pyrotechnic powder fire extinguisher according to claim 1, characterized in that the body is equipped with a handle for throwing and/or hanging the fire extinguisher.