RU2820992C9 - Flameless smoke bomb - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: flameless smoke bomb relates to training facilities for military-sports games and reconstruction of historical events using smoke. Flameless smoke bomb, launched remotely from an electric igniter or manually from an igniter-match, contains a plastic housing with pyrotechnic equipment, which is closed by a plastic cover with a functional hole. Electric igniter through the central channel formed in the pyrotechnic equipment adjoins the pellet from the igniting composition, and its wires are brought to the outer surface of the plastic cover, which presses the polyethylene film in tension to the plastic housing. Igniter-match in the polyethylene bag is fixed on the outer surface of the plastic cover by means of a tape with a sticky layer, and the grater for igniting the igniter-match is attached to the cover by the adhesive side. Pyrotechnic equipment is made from a moulding composition containing a mixture of powders of high- and low-molecular weight chlorine-containing resins with a weight fraction of chlorine of up to 80%, zinc oxide as a smoke-forming agent, ammonium perchlorate as an oxygen-containing oxidant, ammonium chloride as a flame arrester and a low-molecular weight chlorine-containing resin in liquid form, with the following ratio of components, wt.%: mixture of powders of high- and low-molecular chlorine-containing resins 30–40, zinc oxide 20–30, ammonium perchlorate 20–30, ammonium chloride 5–10, low-molecular chlorine-containing resin in liquid form 10–15.

EFFECT: expansion of functional and technological capabilities of structural elements of smoke bombs, wherein the solution is the creation of a flameless smoke bomb having a relatively low combustion temperature in combination with intense aerosol formation, with possibility of manual or remote actuation and characterized by absence of flame combustion.

1 cl, 1 dwg

Description

The invention relates to educational and training means for conducting military sports games and reconstructing historical events using smoke.

The level of this field of technology is characterized by the aerosol generator described in the patent for the invention RU 2205671 C1, 04/03/2002, A62C 3/02, which contains a pyrotechnic block placed through a heat-protective shell made of building gypsum in a cylindrical body, a central flame transfer tube fixed in a cooling unit, in which the igniter is fixed, electrically connected to the remote control device, and a convex cover with distributed radial outlet holes, closed with an aluminum band.

The electric igniter is connected to the remote control device through a closed switch.

The cooling unit is a container filled with granules of ablative material, placed between the combustion chamber and a perforated receiver, covered with an aluminum membrane on top.

The receiver, through perforations, communicates with the heat-protective shell of the housing to supply the added water evaporated from the building gypsum during the burning of the block. This promotes forced heat removal from the body and dilutes the generated gas-aerosol combustion products of the pyrotechnic bomb.

The disadvantage of the known generator is the massiveness and complexity of the design resulting from its intended purpose.

The location of the igniter in the central fire-transfer tube determines the relatively long time it takes for the aerosol-forming block to reach the end-combustion mode, re-compaction by pressing the composition of which requires the use of an additional intensifying charge, burning out an even deeper cavity in the center.

Additionally, this design does not provide manual ignition initiation for individual use of the aerosol generator.

The noted shortcomings have been eliminated in a more advanced aerosol generator according to the utility model patent RU 73954 U1, 01/22/2008, F42B 3/00, which, in terms of its technical essence and the number of matching features, was chosen as the closest analogue to the proposed flameless smoke bomb.

The known aerosol generator contains a pyrotechnic aerosol-forming block placed in a cylindrical body through a heat-insulating shell, an electric igniter connected to a remote control device, a convex cover with distributed radial output holes covered with a bandage, and a switch.

A feature of the known generator is that the heat-insulating shell between the cardboard body and the aerosol-forming block is made by pressing a pyrotechnic mixture of an oxidizer - hexachloroethane, fuel - anthracene and a fluorine rubber binder, with a component ratio (wt.%):

hexachloroethane 79-85

anthracene 11-13

fluorine rubber 5-7.

At the open end of the aerosol-forming block, ignition charges are installed along the periphery; the bandage of the outlet holes is made in the form of a quick-removable lid cap, where the firing pin of a mechanical ignition initiation device is cantilevered, including an igniter primer and a retarding composition, located above one of the ignition charges of the block under which it is mounted. a switch in the form of a pyrotechnic current source equipped with an electrical cord, and the electric igniter is equipped with a means of serial connection with a similar generator.

Distinctive features ensured the improvement of the main technical indicators of the purpose: increased masking ability in a wider range of wavelengths (from the visible region of the spectrum 0.4-0.7 microns to mid-wave infrared radiation 2.0-5.6 microns), the dynamics of setting up a smoke screen of large dimensions for a longer lifetime, expanding the functionality of a more technologically advanced aerosol-forming bomb and a lightweight generator as a whole.

Making a heat-insulating shell by pressing from a pyrotechnic mixture of hexachloroethane, anthracene and fluorine rubber is aimed at unifying production with the main charge block.

Equipping the generator with an additional mechanical ignition device expands the possibilities of application both for types of initiation and for individual use for the purpose of operational camouflage during manual starting.

In this case, additional time is provided before the main charge is triggered due to the fact that a retarding composition is installed under the igniter capsule, which is displaced axially by one of the ignition tablets, igniting through the influence of the remaining tablets and then, accordingly, the main block.

The presence of free volume under the lid contributes to the formation of an aerosol mixing chamber, where the flame extinguishing processes are completed and the internal pressure is equalized.

However, a continuation of the noted advantages is the inherent disadvantages.

Pyrotechnic compositions made using press technology have a significant drawback - high sensitivity to mechanical influences. In addition, the pressing technology itself also has a number of disadvantages - the bulkiness of the equipment, dusting of the composition, low productivity when pressing large-sized products, the need to manufacture complex equipment for molding charges of complex shapes.

Compositions based on hexachloroethane burn at temperatures of 1000°C and above. This high temperature creates a significant thermal updraft, causing the smoke to rise quickly and easily dissipate into the atmosphere, thus reducing the effectiveness of the camouflage. In addition, smoke products with such a temperature are potential sources of fire, which significantly narrows the scope of their use for the protection of important objects.

Pyrotechnic compositions based on hexachloroethane and anthracene have a masking ability of 3-3.5 m ² /g, and in order to ignite them and quickly reach the regime of intense aerosol formation, additional tablets from the ignition composition must be pressed.

A mechanical initiation device, made in the form of a striker, requires the use of a heavy means at hand to strike it (the butt of a machine gun, a shovel, an ax, etc.), which is not always available.

The presence of a retarding composition under the igniter primer contributes to the safe activation of the generator, but at the same time it overcomplicates the design and increases the complexity of manufacturing.

To ensure stable operation of the generator and eliminate flame force, a free volume is formed under the cover, which further increases the weight and size characteristics and reduces the payload coefficient.

The generator is made in a metal casing and after the completion of smoke generation remains intact, which creates problems for the disposal of unburned casings.

From the above it follows that the area of intended use of the known generator is narrowly limited with a relatively low efficiency of pyrotechnic equipment that does not correspond to the complexity of the design.

The technical problem to which the present invention is aimed is to expand the functional and technological capabilities of the structural elements of smoke bombs, in which the solution is to create a flameless smoke bomb having a relatively low combustion temperature in combination with intense aerosol formation, with the possibility of manual or remote actuation and characterized by the absence of flaming combustion.

The required technical result is achieved by the fact that the flameless smoke bomb, launched remotely from an electric igniter or manually from a fuse-match, contains a plastic housing with pyrotechnic equipment, closed with a plastic cover with a functional hole.

A feature of the proposed technical solution is that the electric igniter, through the central channel formed in the pyrotechnic equipment, is adjacent to the igniter composition tablet, and its wires are routed to the outer surface of the plastic cover, which presses the polyethylene film against the plastic body.

In addition, a feature of the proposed technical solution is that the fuse-match in a plastic bag is attached to the outer surface of the plastic cover by means of tape with an adhesive layer, and the grater for igniting the fuse-match is attached to the cover with the adhesive side.

Pyrotechnic equipment is made of a cast composition containing a mixture of powders of high- and low-molecular chlorine-containing resins with a mass fraction of chlorine up to 80%, zinc oxide as a smoke former, ammonium perchlorate as an oxygen-containing oxidizer, ammonium chloride as a flame extinguisher and low-molecular chlorine-containing resin in liquid form at the following ratio of components, wt. %:

mixture of powders high and low molecular weight chlorine resins 30-40 zinc oxide 20-30 ammonium perchlorate 20-30 ammonium chloride 5-10 low molecular weight chlorine resin in liquid form 10-15

Distinctive features made it possible to significantly simplify the design compared to the known aerosol generator while ensuring efficiency and reliable operation.

The pyrotechnic equipment of a flameless smoke bomb is a composition made using casting technology based on highly chlorinated hydrocarbons.

Molding technology makes it possible to increase manufacturing productivity and eliminate the most dangerous and labor-intensive operations from the technological process, such as turning, curing, drying and pressing compositions.

The composition has high adhesion, which eliminates the delamination of the composition from the shell and, consequently, breakthrough of the combustion front.

The main components of the pyrotechnic composition are:

- a mixture of powders of high and low molecular weight chlorine-containing resins with a mass fraction of chlorine up to 80% as an organic fuel and a supplier of chlorine;

- ammonium perchlorate as an oxygen-containing oxidizer for afterburning carbon-hydrogen radicals from chlorine-containing resins;

- smoke generator based on zinc oxide;

- ammonium chloride is a flame arrester that removes heat from the reaction zone for its sublimation;

- low-molecular chlorine-containing resin in liquid form - a plasticizer that enables injection molding technology and is a supplier of chlorine.

The composition does not contain metal fuel, as a result, flameless combustion occurs at relatively low temperatures, in the range of approximately 350-500 ° C, while the necessary reaction of zinc oxide occurs efficiently, providing intense aerosol formation.

Thus, the design of the bomb does not require the presence of free volume for flame extinguishing, which makes it possible to reduce the weight and size characteristics of the bomb and make maximum use of the payload.

The body and cover of the checker are made of widely available polymer materials and are produced on automatic thermoplastic machines, which ensures high productivity compared to the technology of stamping metal body parts.

The checker has the ability to be activated remotely, including from a capacitor blasting machine, as well as from any battery of a portable radio station from a safe distance, and also to activate two or more checkers in parallel when using a sapper wire.

Manual actuation does not require the presence of heavy means at hand; the match safely ignites the flameless composition, which, due to the presence of a strong oxygen-containing oxidizer and active organic fuel, has a high sensitivity to thermal impulse and provides rapid access to the regime of intense aerosol formation.

The content of chlorine in organic fuel with a mass fraction of up to 80%, as well as the presence of zinc and chlorine atoms in the remaining components of the composition, provide a masking ability of 4-5 m ² /g, which is superior to known metal chloride compositions.

During the process of aerosol formation, the proposed checker is not a possible source of fire, which allows its safe use on protected objects. At the same time, the combustion temperature is sufficient for the product bodies to completely burn out during the smoke formation process, which solves the problem of recycling used smoke bombs.

The proposed flameless smoke bomb is characterized by ease of operation, high masking ability of the pyrotechnic composition, relatively low temperature and absence of flaming combustion, rapid entry into the regime of intense aerosol formation, a combined method of actuation (manually and remotely), the use of non-scarce raw materials and advanced technology for organizing large-scale production products.

The essence of the proposed technical solution is illustrated by the drawing (Fig. 1), which has a purely illustrative purpose and does not limit the scope of claims of the set of features of the claims. The drawing shows the proposed flameless smoke bomb.

The polyethylene body (1) is filled with a pyrotechnic composition (2), in the central channel of which a tablet of igniting composition (3) is installed, to which an electric igniter (4) is adjacent.

The electric igniter wires (4) are routed through the hole in the polyethylene cover (5), which presses the polyethylene film (6) against the body (1).

The fuse-match (7) in a plastic bag (8) is secured to the outer surface of the cover (5) by means of a tape with an adhesive layer.

The grater (9) for igniting the fuse-match (7) is attached to the cover (5) with the adhesive side.

A flameless smoke bomb functions as follows.

To activate the checker manually, it is necessary to remove the fuse-match (7) from the plastic bag (8), light it with a grater (9) and place it on the plastic film (6) through the functional hole of the lid (5).

The fuse-match (7) melts the polyethylene film (6) and falls on the pyrotechnic composition (2), which ignites from a thermal impulse and forms an invisible smoke screen.

To activate a bomb remotely, it is necessary to connect the bare ends of the electric igniter wires (4) through the main wire to the terminals of a power source, for example a blasting machine, and apply electric current to the circuit.

From the thermal impulse of the electric igniter, a tablet of the igniting composition (3) lights up, which ensures reliable ignition of the pyrotechnic composition (2), burning with the formation of an invisible smoke screen.

Tests of prototypes of the proposed flameless smoke bomb confirmed the reliability of its operation during manual and remote launch in established modes and sequences of actions.

A comparative analysis of the proposed technical solution with identified analogues of the level of this field of technology, from which the invention does not clearly follow for a specialist, showed that it is unknown, and taking into account the possibility of practical serial production of a flameless smoke bomb in an existing production, it can be concluded that it meets the criteria patentability.

Claims (2)

A flameless smoke bomb containing a body filled with a flameless pyrotechnic composition, and a cover with a functional hole, made with the possibility of remote start from an electric igniter or manually by a mechanical device, characterized in that the body and cover are made of plastic, the electric igniter is installed in the central channel of the flameless pyrotechnic composition and is adjacent to the igniter composition tablet installed in it, and its wires are brought out to the outer surface of the cover through a hole in it and are made with the possibility of connecting to a power source, while the cover presses the polyethylene film tightly against the body, a mechanical device in the form of an igniter-match in the polyethylene the package is secured on the outer surface of the lid by means of a tape with an adhesive layer, and a grater for igniting the fuse-match is attached to the lid with the adhesive side, and the flameless pyrotechnic composition is made of a casting composition containing a mixture of powders of high- and low-molecular chlorine-containing resins with a mass fraction of chlorine up to 80% , zinc oxide as a smoke former, ammonium perchlorate as an oxygen-containing oxidizer, ammonium chloride as a flame extinguisher and low molecular weight chlorine-containing resin in liquid form in the following component ratio, wt. %: mixture of high and low molecular weight powders chlorine resins 30-40 zinc oxide 20-30 ammonium perchlorate 20-30 ammonium chloride 5-10 low molecular weight chlorine resin in liquid form 10-15

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