RU2715426C1 - Smoke generator - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to defensive devices, and more specifically to generators for creation of camouflage curtains from infrared radiation generated during pyrotechnic outfitting of aerosol. Smoke generator initiated automatically or manually from the percussion primer comprises a functional pyrotechnical outfit which is placed around the central cartridge fixed on the bottom of the cylindrical housing closed by the cover with distributed outlets. Functional pyrotechnical outfit is made in the form of self-contained charges, during combustion of the infrared radiation generating the aerosol mounted in the detachable elements, placed in the guiding containers, coaxial to the outlet openings of the cover and which are equipped with a propellant charge initiated by electric igniters, each of which is connected to a programmable triggering device, supplied from discharge capacitor of pyrotechnic source current source of initiating device, percussion-igniter of impact action of which interacts with the sting of the pivoted lever installed on the gate of the central cartridge, inside of which on the bottom the receiving device of radio signals connected to the discharge capacitor is fixed.

EFFECT: technical result is expansion of technological capabilities to initiate generator manually and automatically to increase functional reliability of interference protection in form of aerosol formation of infrared radiation at given height, when adjusting its dimensions and density by programming the self-laundering charges launch device.

1 cl, 1 dwg

Description

The invention relates to defensive means, and more particularly, to generators for creating camouflage curtains from a pyrotechnic equipment generated during combustion of an aerosol infrared radiation.

The level of this technical field is characterized by the aerosol generator described in patent RU 2140310, А62С 13/22, 1999, which contains a thermally insulated casing with a functional pyrotechnic block interacting with an electric igniter mounted in a diaphragm having distributed outlet openings.

A pyrotechnic checker installed in a cylindrical body through a thermally insulating layer of hardened building gypsum is initiated by the firing force of an electric igniter, which is triggered automatically by a signal from a standard fire alarm system, when the sensor detects that the set temperature and / or smoke level is exceeded in the protected room.

Gypsum of the thermally insulating layer is a technological material for fixing a functional block in the body during curing. In addition, when the gypsum layer is heated from hot gaseous products of combustion of the pyrotechnic checker into the generated aerosol, structural moisture evaporates from it, which serves as an additional environmentally friendly combustion inhibitor in the extinguishing mixture.

A characteristic feature of this generator is the presence of a pine shell of a metal shell, which serves as a convector and acts as a receiver, where the generated aerosol is mixed, expanding, it equalizes temperature and pressure before jet discharge into the protected volume.

Among the shortcomings of the described generator, the following should be noted:

- low structural strength due to the presence of coaxial thin-walled shell for cooling the gaseous products of combustion of the checker, for which it has windows through which cooling air is injected, diluting the aerosol;

- the duration of the hardening process of the gypsum layer between the body and the block, which is made separately in advance, that is, it is impossible to press directly into the body;

- due to the relatively large volume of the gypsum layer, the payload coefficient of the device as a whole is underestimated;

- manual start of the generator is not provided, which limits technological capabilities and scope.

The noted drawbacks are eliminated in the more advanced smoke generator according to patent RU 2365855 C2, F41H 9/06, 2009, which, according to the technical nature and the number of matching features, is chosen as the closest analogue to the proposed generator.

A known smoke generator includes a housing equipped with a pyrotechnic checker of functional smoke, placed in the housing through a thermally insulating cardboard layer, an electric igniter mounted above the open end of the checker inside a central cartridge having distributed outlet openings.

A feature of the known generator is that parallel to the electric igniter initiated by a start pulse from an external device, a manual start igniter, for example, of a grater type, closed by a safety cover is fixed in the diaphragm.

Both ignition devices are located in the free volume of the central cartridge, which acts as a receiver, above the ignition tablet of a heat-sensitive composition that adjoins, via a quick-burning charge, to the pyrotechnic checker of the smoke-forming composition, which are placed on the cardboard laying of the bottom.

The equipment of the generator is carried out by a progressive injection method directly into the housing, which simplifies the manufacturing and assembly technology of generators.

After installing the generators, the electric igniters of which are connected to a common start-up unit, they are ready for use in a group by a stacker in a group for automatic operation.

If it is necessary to manually start, the safety cover is unscrewed and removed, giving access to the mechanical initiator igniter when pricked by impact or friction by pulling out a grater.

The well-known universal-action smoke generator, simple and reliable in operation, is widely used in practice for setting camouflage curtains, providing covert movement of equipment and personnel.

However, a continuation of the indicated advantages is an inherent disadvantage - narrowly targeted action, only for the installation of optically impermeable smoke curtains on the underlying surface, which limits the technological possibilities of applying interference detection and guidance means in the form of a high-altitude screen from aerosol formation of infrared radiation.

The technical problem to which the present invention is directed is the modernization of the well-known aerosol generator to counter the detection and guidance of the enemy by creating a high-altitude curtain of an aerosol cloud of infrared radiation, which shields the location of the working engines of the equipment.

The required technical result is achieved by the fact that in a known smoke generator, initiated automatically or manually from a shock igniter capsule containing functional pyrotechnic equipment, which is located around a central cartridge mounted on the bottom of a cylindrical body, closed by a lid with distributed outlet openings, according to the invention, functional pyrotechnic equipment is made in the form of autonomous charges, when burning aerosol-generating infrared radiation mounted in detachable elements placed in guide containers, coaxial to the outlet openings of the lid and which are provided with a propellant charge initiated by electric igniters, each of which is connected to a programmable triggering device, powered by a discharge capacitor, electrically connected to the pyrotechnic current source of the initiating device, capsule -percussion igniter which interacts with the sting of the rotary lever mounted on the shutter of the central patro and inside which is fixed on the bottom of the receiver radio device, connected to the discharge capacitor.

Distinctive features of the proposed technical solution provided the expansion of technological capabilities for initiating the generator manually and automatically to increase the functional reliability of noise protection in the form of aerosol formation of infrared radiation at a given height, while adjusting its size and density by programming a device for launching self-propelled charges.

The implementation of functional equipment in the form of autonomous pyrotechnic charges mounted in detachable elements created the possibility of their separate throwing for the formation of aerosol formation of infrared radiation of the required characteristics and parameters to create a false target at a height that shields the working engine of the special equipment, which is not being guided, resulting in protection of equipment and personnel takes place.

The installation of detachable elements in cylindrical containers distributed distributed around the periphery of the lid, coaxial to its outlet openings, provides autonomous storage in official circulation and serves as guides for oriented throwing to a height.

The firing of detachable elements is provided by equipping them with a propellant powder charge placed under the movable cross member of each container.

Ignition of a propellant powder charge is carried out from adjacent electric igniters, each of which is connected to a programmable trigger device that determines the order and mode of operation of each autonomous equipment charge.

The programmable triggering device is activated by the control pulse of the discharge capacitor, which accumulates the potential during combustion of the pyrotechnic current source of the initiating device when the generator is started manually.

The burning time of the pyrotechnic moderator is selected so that the operator has the opportunity to reach the shelter at a distance.

The pyrotechnic moderator is ignited by a force of fire from a coaxial percussion igniter capsule, which is triggered when a sting is pierced by an impact on the arm that carries it, previously rotated to the line of fire of the initiating device, before being combined with the igniter capsule.

Placing the rotary lever with a sting on the shutter of the central cartridge allows the sting to be installed in official circulation outside the access to the igniter capsule of the initiating device, eliminating unauthorized operation.

To start the generator, the lever is easily and easily rotated and mounted coaxially to the igniter capsule.

The electrical connection of the discharge capacitor with the receiving device of the radio signals provides automatic wireless inclusion of the programmable device in the work on command from an external control unit.

The placement of the radio signal receiving device inside the central cartridge isolated by the shutter is characterized by a compact design, which has a set of initiating means: manual and automatic.

Thus, the new relationship and design features of the known features inform the generator of a non-additive positive result, that is, a new effect that exceeds the sum of their effects.

The formed long cloud of infrared radiation characterizes a temperature significantly lower than the heat generated from the local working internal combustion engine, therefore it is not identifiable as the target of the lesion. Thus, a protective aerosol formation performs interfering functions for detection and guidance.

In the case when an aerosol formation of infrared radiation is formed at a height that will cause detonation, it will not have a damaging effect, since the cumulative jet near the surface will lose its burning properties far beyond the focal length, and the fragments at the exit practically lose their penetration energy when braking in the atmosphere .

Therefore, the described emitting cloud serves as a false target and creates a protective effect for equipment and personnel.

Therefore, each essential feature is necessary, and their combination in a stable constructive unity is sufficient to achieve the novelty of quality, that is, not the sum of the effects is obtained, but a new super-effect of the sum of the essential features is achieved.

The essence of the proposed invention is illustrated by the drawing, which have a purely illustrative purpose and do not limit the scope of the claims of the formula, which depicts an isometric view of a generator, a vertical section.

The functional smoke generator according to the proposed invention contains a cylindrical body 1, closed by a lid 2 with outlet openings 3 distributed around the periphery, coaxially with which guide containers 4 with detachable elements 5 are fixed.

Outlets 3 in service circulation are blocked by knockout plugs 6.

On the bottom 7, inside the central cartridge 8, a radio signal receiving device 9 is installed, which is connected to a discharge capacitor 10 electrically connected to the initiating device 11.

The receiving device 9 of the radio signals is closed by a plug 12 with a bracket 13 for pulling it out, and the central cartridge 8 is closed by a shutter 14, on which a pivot lever 15 is installed, equipped with a sting 16 for impact interaction when the generator is manually started with a coaxial igniter 17 of the initiation device 11, based on emphasis 18, mounted on the bottom 7.

Under the igniter capsule 17 there is a pyrotechnic moderator 19 adjacent to the pyrotechnic current source 20 (PIT), the burning electrodes of which are connected to a discharge capacitor 10 connected to a programmable device 21 for starting all electric igniters 22 of propellant powder charges 23 of the detachable elements 5.

The functional charge of the detachable elements 5 is made of a set of channel tablets 24, during combustion of the pyrotechnic composition of which an aerosol of infrared radiation is generated.

Inside the channel tablets 24, a bursting charge 25 is placed, initiated by a detonator 26, which interacts with a pyrotechnic moderator 27 mounted on the diaphragm 28 of the propellant powder charge 23.

The generator operates as follows.

To manually start the generator into operation, the lever 15 from the neutral position is turned until its tip 16 is coaxially aligned with the igniter capsule 17 of the initiating device 11. After this, by means of an improvised object on the lever 15, the igniter capsule 17 is pierced.

When the igniter capsule 17 is triggered by the directed action of the force of fire, the pyrotechnic composition of the moderator 19 is set on fire, the burning time of which is selected sufficient so that the operator can run to cover.

The front of combustion at the outlet of the moderator 19 ignites a pyrotechnic current source 20, the unlike electrodes of which are closed to a discharge capacitor 10, which accumulates an electric voltage potential. The capacitor 10 is pulse discharged to a programmable trigger device 21, including its operation.

Preliminarily, in the device 21, a program of the start sequence of the detachable elements 5 and the time interval between them, single and in one gulp is installed.

According to the program, from the launch device 21, the control signal is supplied to an electric igniter 22 of each detachable element 5, when triggered, a propellant powder charge 23 is ignited, which forms a large amount of hot gaseous products during combustion, which sharply increase the pressure under the detachable element 5, as a result of which it receives linear acceleration and moves relative to the container 4, receiving an impulse to rise to a given height.

In this case, by means of a calibrated nozzle of the diaphragm 28, part of the hot combustion products is converted into a torch directed to the pyrotechnic moderator 27, the burning time of which ensures that the combustion wave reaches the opposite end (the upper one according to the drawing) not earlier than the element 5 rises to the calculated height, where the detonator is initiated 26.

The detonation wave of the detonator 26 detonated detonates the central charge 25, as a result of which the pyrotechnic composition of the functional tablets 24 is ignited, which are dispersed by the shock wave, forming an aerosol formation in space, hot particles of which emit in the infrared range.

When all burning tablets 24 of the detachable elements of the generator 5 break at a given height, an extended curtain of infrared radiation is formed, which shields the protected area for secretive movement of equipment.

To automatically start the generator, a radio device is first installed in the central cartridge, which is connected to the receiving device 9 of the radio signals, for which the shutter 14 is removed and the plug 12 is pulled out and removed from the bracket 13. After installation, the generator is ready for operation as intended.

According to the signal from the external control unit, the radio device includes a receiving device 9, at the output of which a current pulse is generated, which flows to the discharge capacitor 10, where the electric potential is accumulated to turn on the device 21 for starting the detachable elements 5 in the manner described above.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the proposed invention does not explicitly follow for a pyrotechnic specialist, showed that it is not known, and given the possibility of industrial serial production of an infrared smoke generator, it can be concluded patentability conditions.

The positive results of prototype and full-scale tests of prototypes of the generator according to the invention confirmed the achievement of the required aerosol curtain of infrared radiation at a given height, when initiating a programmed start of detachable elements both manually and automatically via a radio channel, which gives reason to recommend the design for serial production and delivery to customers.

Claims (1)

A smoke generator initiated automatically or manually from a shock-igniter capsule containing functional pyrotechnic equipment, which is located around a central cartridge mounted on the bottom of a cylindrical body, closed with a lid with distributed exhaust openings, characterized in that the functional pyrotechnic equipment is made in the form of autonomous charges during combustion of aerosol-generating infrared radiation mounted in detachable elements placed in the guide containers, coaxial with the outlet openings of the lid and which are equipped with a propelling charge initiated by means of electric igniters, each of which is connected to a programmable trigger device powered by a discharge capacitor electrically connected to the pyrotechnic current source of the trigger device, the shock igniter of which interacts with the rotary sting a lever mounted on the shutter of the central cartridge, inside of which a radio receiver is mounted on the bottom channel connected to the discharge capacitor.

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