RU2471143C1 - Hand cassette grenade - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: grenade includes functional elements filled with pyrotechnic composition and packed in polymer housing, each of which is equipped with detonating fuse adjacent to pyrotechnic retarder interacting with common primary charge of initiating assembly, which is actuated by safety-trigger device. Grenade is equipped with additional charge generating aerosol of irritative action, which is placed axially to functional elements in easy detachable cover plate of housing and coated with plate-type pyroheater located under switching holes of transverse diaphragm.

EFFECT: increasing efficiency of destructive effect due to additional generation of aerosol, irritative action on functional human organs.

2 cl, 3 dwg

Description

The invention relates to ammunition disintegrating in flight, and more particularly to hand grenades of non-lethal complex effects of functional elements formed in a cartridge.

The level of this technical field is characterized by a multi-element hand grenade according to the patent US 5996503 A, F42В 8/12, 1998, in the housing of which there are functional elements in communication with a propelling device equipped with an initiating firing mechanism of a safety-starting device.

The spring-loaded hammer of the safety-starting device in the cocked position is held by the stopper (cotter pin provided with a ring). Additionally, the drummer is loaded with a spring of the lever handle resting on the end face of the drummer.

As a throwing device, a central high-pressure gas tank is used, mounted coaxially with the hammer, with channels communicating with launch tubes radially arranged around the periphery of the housing.

Functional elements are placed in the obturable launch tubes, which are initiated by the pressure pulse of the distributed gas from the tank that is depressurized during breakdown of the tank cover and rushed into space at a given distance, where the action is performed as intended.

A characteristic feature of the described hand grenade is its reusable use.

The disadvantage of this grenade is its functional unreliability, since the energy-containing propellant is made in the form of a reservoir with compressed gas, the pressure of which is not controlled during equipment and storage, which can cause failures.

A more advanced manual cassette grenade "Fakel" with an energy-containing propellant in the form of a pyrotechnic igniter charge is described in the textbook "Means of destruction and ammunition" edited by prof. V.V. Selivanova, MSTU, Moscow, 2008, p. 829, Fig. 12.59, b, which was selected as the closest analogue to the proposed grenade by the purpose and the number of matching features.

Launch tubes are radially distributed in the polymer grenade bearing case, in which six functional elements are installed containing pyrotechnic composition of the light-sound non-lethal effect of the combustion products on the human senses.

The igniters of the pyrotechnic filling of the functional elements through the pyrotechnic moderators communicate with the central ignition channel adjacent to the standard safety-starting device containing a spring-loaded striker interconnected with the lever handle that is mounted on the removable stopper.

A spring-loaded striker is mounted in a tube coaxially with the igniter capsule, which initiates an ignition composition during its incandescence, the heat pulse of which is transmitted to trigger functional elements that fly to a distance of 20 m.

The level of light and sound pressure created by the grenade element at a distance of 10 m is at least 145 dB, with a light intensity of 10 × 10 ⁶ cd, which is quite enough to temporarily psychophysiologically overwhelm the offenders who have taken refuge in the room for their physical neutralization.

A disadvantage of the known grenade is the narrowly targeted focus of the action due to the limited caliber of the equipment, which technically does not allow the use of complex content in each functional element, autonomously acting at a great distance from each other when throwing into the volume of the processed room.

This reduces the effectiveness of the complex effect with a limited set of charges generating an aerosol that has a psychophysiological effect on a person in one grenade and requires an additional consumption of grenades of various actions in the set, which, in turn, reduces the efficiency of neutralizing offenders.

The problem to which the present invention is directed, is to expand the technological capabilities of the integrated effective impact of a manual cassette grenade as intended.

The required technical result is achieved by the fact that in the well-known manual cassette grenade of non-lethal action, containing functional elements packed in a polymer case with pyrotechnic filling, each of which is equipped with a detonator adjacent to the pyrotechnic moderator, which interacts with the general igniter charge of the initiating unit, which is triggered by a safety starter device, according to the invention it is equipped with an additional charge generating an aerosol of irritating effect I, which is placed axially functional elements in an easily detachable housing cover and is covered with a plate pyroheater located under the communication holes of the transverse diaphragm, and the aerosol-forming charge is equipped with an accumulating funnel that communicates with the smoke outlet openings of the transverse diaphragm.

Distinctive features expand the technological possibilities of using a hand grenade for its intended purpose due to the additional generation of an irritating aerosol on a person’s functional organs during the combustion of an autonomous pyrotechnic charge generated during the combustion of an autonomous pyrotechnic charge, initiated from a common ignition unit, in parallel with elements of light-sound action.

Initiation and communication with the atmosphere of an aerosol-forming charge is carried out by the internal energy of the product, without special mechanisms and devices.

An additional technical effect is to increase the functional reliability of an autonomously operating irritating aerosol generator.

Equipping a hand-held cartridge grenade with an additional aerosol-forming charge, which generates an irritating aerosol during combustion, creates a new quality, providing a comprehensive effect on the physiology and organs of the person, as a result of which offenders receive a temporary loss of legal capacity from severe irritation of the endocrine glands and mucous membranes of the gastric and respiratory tract, collectively with the sequential effect of pulses of light radiation and sound pressure, depressing the psyche.

The placement of an additional aerosol-forming charge to axially functional elements ensures automatic transmission of the ignition pulse from the common initiating assembly through the structural clearances of the cassette unit, which perform the functions of fire-transfer channels, for parallel burning of them.

Installation of an additional aerosol-forming charge in the free volume of the grenade body (in place of the damping pad) noticeably increases the payload of the non-lethal grenade without fundamental changes in the standard design.

The installation of an additional aerosol-forming charge in the easily detachable case cover ensures their automatic separation with increasing pressure of the gaseous products of combustion of the grenade equipment and the subsequent autonomous functioning of this charge in the smoke mode.

Placing an adjacent ignition-sensitive plate-type pyroheater on the open end of the aerosol-forming charge is aimed at enhancing the energy of the heat pulse coming from the remote igniter charge of the common initiating assembly, which ensures its end burning.

The transverse diaphragm above the additional aerosol forming charge forms a structural unity with an easily detachable housing cover as an autonomously functioning self-sufficient functional element.

The transverse diaphragm provides, through its communication openings, the formation of localized jet streams of hot products of combustion of the igniter charge for concentrated energy exposure, guaranteed to ignite the plate pyroheater adjacent to the aerosol-forming charge.

The communication openings of the diaphragm perform additional functions of smoke exhaust openings for the free passage of the generated aerosol in the smoke mode to the treated room.

The implementation of an aerosol-forming charge placed in the housing cover with an accumulating funnel communicating with the communication holes of the transverse diaphragm is aimed at increasing its burning surface and, ultimately, provides an increase in the effectiveness of the irritating effect on the physiology of the organs of offenders who have taken refuge in the room.

In addition, in the turbulized flows of the generated aerosol arising in the accumulating funnel of the charge, sedimentation of the disperse system occurs with the separation of slag in the form of sediment, which prevents the power of dismantling the transverse diaphragm due to the possible overlap of its smoke exhaust openings.

Thus, the functional reliability of the aerosol forming charge is guaranteed in the lid separated from the housing, equipped with a diaphragm with smoke exhaust openings - an autonomous generator.

Therefore, each essential sign is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the signs of disunity, that is, the technical problem posed in the invention is solved not by the sum of the effects, but by a new super-effect of the sum of the signs.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the invention does not explicitly follow for a pyrotechnic specialist, showed that it is unknown, and taking into account the possibility of serial production of a hand-held grenade cartridge in an existing production, we can conclude that it meets the criteria patentability.

The invention is illustrated by the drawing, which has a purely illustrative purpose and does not limit the scope of the claims of the totality of the features of the formula.

Figure 1 shows the proposed grenade;

figure 2 is a section along aa in figure 1;

figure 3 - aerosol forming charge, an embodiment.

The proposed manual cluster grenade contains functional elements 1, tightly packed with a block of seven pieces in a thin-walled polymer case 2 with a diameter of 60 mm, under the wrist of a person (figure 2).

The housing 2 has inside the longitudinal grooves 3, which form mechanically weakened sections.

Each element 1 (figure 1) has pyrotechnic equipment 4 of light-sound action and includes sequentially mounted moderator 5 (pyrotechnic checker of slow combustion) and detonator 6.

The igniter charge 7 of the initiating node 8 interacts with the executive charge 9 of the safety-starting device 10.

The firing pin of the firing mechanism of the safety-starting device 10 (not shown conditionally) is kinematically closed by the stop of the lever handle 11, fixed in service by means of a cotter pin 12 connected to the ring 13.

Elements 1 are installed between the radial stops 14 (stiffeners) of the gas distribution cover 15 of the initiating assembly 8. The through outlet openings 16 of the gas distribution cover 15 are closed by a burning membrane 17.

One of the seven functional elements 1 is placed axially to the cassette block of elements 1 in the housing 2 (figure 2).

The retarders 5 of the functional elements 1 in the cassette block are arranged with direct communication with the outlet openings 16 of the gas distribution cover 15 of the common initiating assembly 8.

On the opposite side, the functional elements 1 end up against a charge 19 of a pyrotechnic composition placed in an easily removable cover 18 of the housing 2, generating an irritating aerosol of irritating effect on human organs when burning in smoke mode.

The free end of the pyrotechnic charge 19 is covered with a plate pyroheater 20, which is installed under the communication holes 21 of the diaphragm 22 located under the cassette unit 1.

To increase the efficiency of the aerosol-forming charge 19, an axial recess 23 is made in it (Fig. 3), which serves as an accumulating storage of gaseous products of its combustion.

Moreover, in the turbulent flows of gaseous products of combustion of the charge 19 there is a separation of the dispersed aerosol with the precipitation of slag. This prevents the communication (chimney) openings 21 of the diaphragm 22 of the calculated flow area from being blocked, preventing its unauthorized removal from the cover 18 from excessive pressure inside.

The manual cassette grenade operates as follows.

To cock the executive firing mechanism of the safety-starting device 10 before throwing grenades, they manually pull out the forelock 12 (pin) for ring 13, holding the handle 11 in the position adjoined to the body 2 with the other hand.

After throwing a grenade, the spring-loaded striker of the firing mechanism moves down (according to the drawing), turning the free handle 11 through the stopper to the open position when its stopper releases the striker.

Then, the igniter capsule of the safety-starting device 10 is pricked, that is, its operation.

The heat pulse of the triggered igniter capsule of the safety-starting device 10 after a deceleration time of 3-5 s, necessary for throwing a grenade, its executive charge 9 is initiated, the directed flame force of which at the same time ignites the pyrotechnic charge 7 of the initiating unit 8.

When the pyrotechnic composition of the charge 7 of the node 8 is burning, the pressure inside the grenade increases, the volume of which is filled with the gaseous products of its combustion, as a result, retarders 5 of the elements 1 and the plate pyroheater 20 ignite, initiating the ignition of the charge 19 in the cover 18.

Next, the destruction of the housing 2 occurs along the longitudinal flutes 3, releasing the functional elements 1 for radial expansion, and the connector of the cover 18 from the housing 2, which continues to move autonomously.

After the end-face burning of pyrotechnic moderators 5 elements 1, sufficient to remove the grenade in flight from the fighter, radiation detonators 6 are triggered by a thermal pulse, the energy of which destroys the shell of elements 1, their bulk pyrotechnic composition 4 is ignited, which is dispersed into the processed volume of the room.

When burning functional equipment of 4 elements 1, a powerful light and sound pulse is formed: (15-16) × 10 ⁶ cd of the glow of an aerosol cloud 6-8 m in diameter at a sound pressure of at least 160 dB at a distance of 10 m.

When the charge 19 is burning in smoke mode, an aerosol is generated that irritates the physiology of a person, limiting for the time being the legal capacity of the offender who has taken refuge in the room.

The combined action of the elements 1 and charge 19 significantly increases the efficiency of a powerful light and sound pulse from the distributed burning particles of equipment 4 in conjunction with the psychophysiological effect of an irritating substance that is sublimated during the burning of charge 19.

Tests of prototypes of the proposed grenade design in the temperature range from minus 40 ° C to plus 50 ° C showed the accuracy of the operation of structural elements in a given sequence with their necessary interaction.

The achieved indicators of the appointment of a complex cluster hand grenade allow us to recommend it to the customer for practical use in special forces.

Claims (2)

1. A non-lethal manual cassette grenade containing pyrotechnic-filled functional elements packed in a polymer case, each of which is equipped with a detonator adjacent to the pyrotechnic moderator, which interacts with the general igniter charge of the initiating unit, which is triggered by a safety-starting device, characterized in that it is equipped with an additional charge generating an irritating aerosol, which is placed by the axially functional elements in easily zemnoy housing cover plate and covered pironagrevatelem positioned under the communication holes of the transverse aperture. 2. The manual cassette grenade according to claim 1, characterized in that the aerosol-forming charge is equipped with an accumulating funnel that communicates with the flue openings of the transverse diaphragm.

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