RU184278U1 - THE IMITATOR OF THE SUPERFORTABLE GRANATE - Google Patents

Abstract

The utility model relates to training ammunition for training and training of personnel in conditions close to combat, and is intended for use as an imitator of a rifle grenade for paramilitary games and airsoft.

The grenade grenade simulator includes a cardboard sleeve with a bottom plug that carries an electric igniter as part of an axial electrode and a contact wire adjacent to the expelling charge placed in the receiver of a tubular shank, and a body of a grenade filled with bulk from a pea or polymer balls, longitudinally movably mounted in the sleeve, and filled with bulk of peas or polymer balls, which are mounted in a sleeve located gas-generating squib, initiated from the expelling charge through a pyrotechnic temporary retarder.

New is that the contact wire electric spark is shaped bridge filament between the axial electrode coaxial current collector is aligned with the plug arms squib mounted within the central thrower tube obturate the ends pyzhami by interlayers hotmelt adhesive, and a pyrotechnic time retarder configured as a fuse, while the free end of the igniter cord is located in the receiver of the shank, and the body of the grenade from the side of the shank is reinforced congruent shell second, rigidly connected to the transverse bridge of the receiver.

Distinctive features of the proposed technical solution increased the functional reliability and safety of gaming ammunition.

Description

The utility model relates to training ammunition for training and training of personnel in conditions close to combat, and is intended for use as an imitator of a rifle grenade for paramilitary games and airsoft.

The level of this field of technology characterizes the signal cartridge according to the patent RU 2567490 C1, F42B 4/02, 2015, containing a sleeve with an extracting flange, in which a polymer container with functional pyrotechnic equipment connected by means of a stop with a tubular shank, supported by a propelling powder, is coaxially mounted charge.

The end of the functional equipment through the gasket is tightly closed with a lid.

The tubular shank performs the functions of the combustion chamber of the propellant powder charge and the receiver, which accumulates energy from the pressure of the expelling gases generated in this case.

Stopin serves for a time delay after the shot to initiate pyrotechnic equipment at a given distance of the autonomous flight of the loaded container.

The disadvantage of the described cartridge is narrowly intended purpose only as a signal, lighting, while it can not be used as a fragmentation grenade simulator, because at a given distance from the container, which is not crushed, only the lid is knocked out to release colored smoke.

The container on the autonomous flight trajectory is not stabilized, which sharply reduces the distance and makes it difficult to shoot accurately.

A massive unexploded container is not suitable for imitating the fragmentation effect of a grenade and, together with the lid being knocked out, represents a great danger to the participants of the games.

The noted deficiencies are eliminated in the game cartridge described in the patent RU 2622063 C2, F42B 8/16, 2017, which, by its technical essence and the number of matching signs, is chosen as the closest analogue.

The well-known game cartridge, designed to simulate the action of a grenade launcher, includes an extractor flange sleeve, in which an axial electric igniter of a propellant powder charge, bounded by a cardboard tube placed under a bottom lintel of a cylindrical container closed through a wad with functional bulk equipment from peas or polymer balls, is installed or paintball balls.

Inside the bulk filling, which, when undermined, serves as ready-made fragmentation elements of non-lethal action, a gas-generating squib is installed - a bursting charge associated with a propellant powder charge by means of a pyrotechnic match, which provides a time delay for the transmission of an initiating fire pulse.

The cardboard tube of the shank is rigidly connected with the bottom lintel of the container and serves as an aerodynamic stabilizer for grenades on the flight, shifting the center of pressure backwards from the center of mass. At the same time, its cavity, opened on autonomous flight, forms a rear discharge of the incoming flow, reducing braking of the longitudinally stabilized ammunition.

The electric igniter contains an axial electrode and a contact wire, in the spark gap between the ends of which (in junction with the head of a pyrotechnic match) an igniter tablet is placed, initiating a propellant powder charge of a tubular shank.

A petard as a discontinuous gas-generating charge is the simplest, reliable and not dangerous means of dispersing the bulk equipment of a cardboard case, which is destroyed during blasting, carried out automatically at a given distance of an autonomous flight of a grenade.

The firecracker is locked to the common fire circuit of the game cartridge through a pyrotechnic temporary retarder from an electric igniter, the action of which, when fired, triggers a projectile charge, knocking the grenade out of the sleeve.

However, the continuation of these advantages are inherent disadvantages, which include the following.

Due to the high porosity, the bulk filling of the grenade is a relatively small aerodynamic resistance for gases generated during the burning of a firecracker, which limits the propelling effect of its “striking” elements to the required distance, the pressure energy of which is used mainly on the breaks of the container body.

The functional unreliability of the ammunition due to the spark nature of the initiation of its fire chain, when there may be cases of ignition of the igniter tablet remote from the discharge gap.

The complexity of the multi-element design of the ignition unit equipment when fired.

The aerodynamic braking by the oncoming air flow does not noticeably affect the subsonic speeds of the grenade, from the profile of the head of the grenade, so the presence of a fairing, which is mounted on the lid of the container body, is superfluous both structurally and technologically.

The technical challenge that this utility model is aimed at is to simplify the design of a rifle-grenade simulator while improving its functional reliability and efficiency of operation for the main purpose.

The required technical result is achieved by the fact that in a well-known simulator of a grenade launcher, including cardboard sleeves with a bottom plug that carries an electric igniter as part of an axial electrode and a contact wire, adjacent to the expelling charge placed in the receiver of the tubular shank, and the grenade case is longitudinally movably mounted in the sleeve with bulk filling of peas or polymer balls, inside of which there is a gas-generating squib, initiated from the expelling charge through the pyrotechnic time The retarder, at the suggestion of the author, the contact wire of the electric igniter is made in the form of an incandescent bridge between an axial electrode and a coaxial current collector aligned with the weapon plug; a squib is installed inside the central throwing tube obtyurirovanny on the ends of the wads using hot melt glue, and the pyrotechnic temporary retractor is molded. cord, while the free end of the igniter cord is located in the receiver of the shank, and the body of the grenade from the side of the shank is reinforced to on the loose shell rigidly connected with the cross-bar of the receiver.

Distinctive features of the proposed technical solution increased the functional reliability and safety of gaming ammunition, while:

- the glow plug is guaranteed to ignite the adjacent expelling charge with a standard thermal impulse, which is released during a short circuit of the reactive resistance from the starting electrical impulse from the weapon when fired;

- placement of the gas-generating firecrack in the closed volume of the central throwing tube multiply increases the impulse of force from the pressure jump of the products of its combustion, which increases the speed of expansion of the finished "striking" filling elements;

- the implementation of a temporary moderator in the form of an igniter cord has expanded the technological capabilities to regulate the distance of the detonation of the ammunition (by choosing its length), increasing the effectiveness of the main action of the simulator grenades to the destination.

When placing a petard in a closed volume of the projectile tube, the energy of its generated combustion gases is localized for an adjustable breaking of the tube shells and the casing, through which the bulk filling moves freely to a predetermined expansion distance in order to form the maximum fragmentation field.

Wads, gaplessly connected by a layer of hot melt glue to the ends of the central throwing tube, form its closed volume, preventing unauthorized gas breakthrough, which ensures the required pressure pulse, creating an effect of undermining a grenade, sound and fragmentation.

The execution of a pyrotechnic time moderator in the form of a fire-cord extends the technological capabilities of the simulator for a more accurate transmission of the igniter pulse from the propellant charge needed to blow up the squib, given its positioning inside the grenade on its autonomous flight.

The implementation of the electric igniter wire in the form of an incandescent bridge - wire resistance, electrically closed on the axial electrode and coaxial current collector - provides increased accuracy of initiation of the ammunition fire chain, since the calculated thermal energy is released directly into the adjacent expelling charge, almost instantly initiating its ignition.

The installation of an axial electrode in a coaxial current collector mated when loading a grenade with a power supply plug of a weapon simplifies mobile preparation for firing by automatically geometrically and electrically closing it when the ammunition is fed to the stop.

The latter circumstance made it possible to exclude in the design special means of orientation and fixation of the simulator of a grenade grenade in a weapon.

Placing the free end of the igniter cord inside the receiver of the shank, where hot gaseous combustion products of the expelling charge are accumulated when fired, is intended to trigger a time delay from the start of movement of the simulator grenades relative to the sleeve held in the weapon to a predetermined distance of its autonomous flight, where the “fragmentation” "Fields.

The reinforcement of the grenade body of an additional congruent shape with a shell, glued together with a crosspiece on the side of the receiver, is necessary to preserve the shape and function of the grenade under dynamic loads of the shot.

Consequently, each essential feature is necessary, and their combination is sufficient to achieve novelty in quality that is not inherent to features in disunity, that is, the technical problem posed in the utility model is solved not by the sum of effects, but by the new supereffect of the sum of features.

Comparison of the proposed technical solution with the closest analogues of the prior art did not reveal an identical match of the set of its essential features.

The proposed differences of the grenade imitator simulator, which do not directly follow from the statement of the technical problem, are not obvious to a specialist in practical and training ammunition.

Production of gaming ammunition for militarized games is possible on the existing pyrotechnic production serially.

From the above, it can be concluded that the proposed utility model complies with the conditions of patentability.

The essence of the proposed utility model is illustrated in the drawing, which has a purely illustrative purpose and does not limit the scope of the claims of the totality of features of the formula, which shows a simulator of a grenade-mounted grenade in a longitudinal section.

The gaming under-barrel ammunition includes a tubular sleeve 1, in which a congruent body 2 of a grenade is mounted with the possibility of relative longitudinal displacements, which is closed at the ends with cross bridges 3, 4, respectively, upper and lower. In this case, the lower jumper 4 is rigidly fastened with an additional shell 5, adjacent and glued to the body 2 grenades.

Case 2 grenades mounted on the mounting bottom plug 6 of the sleeve 1 carrying the current collector 7, mating with the plug-in electrical contact of the weapon (conventionally not shown), which is geometrically and electrically closed when combined from the longitudinal supply of grenades to the stop.

Inside the current collector 7, an axial electrode 8 is movably mounted to which the contact wire 9 is soldered, the second end of which is fixed to the current collector 7, forming an electric bridge of incandescence.

On the plug 6 is placed expelling composition 10, which is adjacent to the electric 9 of the filament.

In the housing 2 there is a central throwing tube 11, where a explosive charge is installed - a gas-generating squib 12, which has been sealed at the ends by pyzhe 13, filled with a layer of hot melt 14, which is rigidly fastened during polymerization with the throwing tube 11.

The volume between the tube 11 and the body 2 of the grenade is filled with bulk functional material 15 (peas or adequate polymer balls), which, when the munition is blown up, perform the functions of ready-made "striking" elements.

A receiver 16 (shank) is formed between the mounting plug 6 and the lower jumper 4 of the grenade case 2, where the free end of the igniter cord 17 (stop) is located, the upper end of the throwing tube 11 connected to the firecracker 12.

All bearing hull structural elements of the ammunition are made of cardboard.

Functions simulator grenade grenades as follows.

The grenade is manually fed to the weapon cradle before the current collector 7 is combined with the plug of the weapon, on which its fixation takes place (their geometrical and electrical closure along the profile).

When an electric pulse is fired from a weapon entering through the current collector 7 to bridge 9 of the glowing, it heats up, releasing thermal energy, thus triggering the ignition and burning of the expelling compound 10, accompanied by the formation of force flame and red-hot particles of the generated aerosol filling the receiver 16.

Increased in the receiver 16, the pressure of the gaseous products of combustion of the composition 10 garnet receives a linear acceleration relative to the stationary sleeve 2.

As a result of exposure to thermal energy released during combustion of composition 10, the free end of stop 17 ignites, along which the combustion front moves to explosive charge 12, igniting it through a given temporary deceleration necessary to remove the grenade in autonomous flight from the line of fire.

The fire impulse from the burned out stop 17 ignites the firecracker 12, generating at the same time a large amount of gaseous combustion products, which abruptly increase the pressure in the closed volume of the central throwing tube 11, obtyurirovannymi pyzhami 13, equipped with a layer 13 of hot melt, forming a permanent connection.

Under the action of a pressure jump, a mechanical loading of the throwing tube 11 occurs, which forms its fractures.

The shock wave of the activated bursting charge 12 forms gaps of the body 2 of the grenade, through which the bulk filling 15 is thrown into the atmosphere, where it forms a “fragmentation field” of players' damage, imitating the non-lethal effect of a regular grenade grenade.

Experimental testing of samples of the proposed grenade simulator confirmed the performance and reliability of the structure in specified modes, similar to the standard grenade on the light and sound effect of undermining and fragmentation damage to non-lethal players, which allows us to recommend it for mass production according to customer orders.

Claims (3)

1. A simulator of a grenade-mounted grenade, including a cardboard sleeve with a bottom plug that carries an electric igniter as part of an axial electrode and a contact wire, adjacent to an expelling charge placed in a receiver of a tubular shank, and a body of grenades filled with bulbs filled with pea or longitudinally movably mounted in a sleeve. , inside of which there is a gas-generating firecracker, initiated from an expelling charge through a pyrotechnic temporary retarder, characterized in that the contact wire rovosplamenitelya is shaped bridge between the axial filament electrode current collector and a coaxial, aligned with the plug arms squib mounted within the central thrower tube obturate the ends pyzhami by hotmelt adhesive layers, and temporal pyrotechnic retarder configured as a fuse. 2. The simulator according to claim 1, characterized in that the free end of the igniter cord is located in the receiver shank. 3. Simulator in PP.1 and 2, characterized in that the body of the grenade from the side of the shank is reinforced with a congruent shell rigidly connected with the cross-bar of the receiver.

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