RU2387948C1 - Grenade tester - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention relates to devices intended for testing grenades, primarily, grenade for grenade launchers. Proposed device comprises gas generator formed by cartridge chamber accommodating cartridge locked by breech block with trigger, smooth or rifled barrel, and intermediate chamber between barrel and cartridge chamber communicated with both. It comprises also cartridge booster arranged between intermediate chamber and cartridge chamber, and measurement and registration system. Gas generator uses blank cartridge for fire arms. Cartridge booster is formed by flat breakaway membrane pressed against cartridge chamber. Intermediate chamber is formed by grenade shot shell simulator. The barrel is arranged to compress grenade driving band towards barrel end face by shot shell simulator.

EFFECT: higher stability of operation and safety of tests.

2 cl, 1 dwg

Description

The present invention relates to the defense industry, and in particular to installations for testing, testing for the performance and durability of grenades, mainly for grenade launchers equipped with shells, as well as parts and components of grenades, shells and mines (fuses, moderators, etc. .).

The safety and reliability of grenades, their parts and assemblies is largely determined by the reliability of methods for monitoring the strength and performance of both the grenade itself and its individual components in the process of their development and serial production, simplicity and low cost.

Known devices used for this, according to the authors, do not fully meet these requirements.

For example, when testing grenades and their individual elements during mining and mass production, the most widely used is firing grenades with standard shells from a standard grenade launcher, equipped, if necessary, with the necessary control means. From this it follows that the test installation includes a standard sleeve, a standard grenade launcher, as a rule, in a bench (reinforced) version and control means. This installation is adopted as an analogue for the present invention.

The disadvantages of the analogue include the high consumption of fairly expensive regular cartridges, because depending on the design, they can either be used once, or several with preliminary for each use and quite expensive and lengthy restoration. In addition, when developing grenades and often during their mass production, shooting with increased charges is used, which requires the presence of two-chamber shells with enlarged loading chambers. If a standard sleeve is used for this purpose, then it is necessary to provide for the presence of a free volume compensator, which complicates its design.

In the installation for testing products according to Russian patent No. 2235301 dated 08/27/2004, selected as a prototype, the disadvantages of the analog are largely eliminated.

This installation contains a smooth or rifled barrel, a powder gas generator formed by a chamber with a unitary cartridge installed in it, pushed by a shutter with a unitary trigger mechanism, and an intermediate chamber gas-dynamically connected with the barrel, chamber and, if necessary, the atmosphere, while in the chamber in front of the unitary projectile cartridge and with emphasis placed on it a partition with through holes along its perimeter, passing into the intermediate chamber, the inner diameter of the chamber above the barrel of the cartridge case unit the primary cartridge to the septum is made larger than the diameter of the projectile of the unitary cartridge, and half the difference in their diameters is less than the minimum size of the powder elements of the charge of the unitary cartridge.

This embodiment of the chamber forms a forcing unit for the powder charge of the unitary cartridge and its gas-dynamic connection with the volume in front of the partition.

The main disadvantages of the prototype are:

- in the process of testing, as a rule, the projectile (bullet) of a unitary cartridge is destroyed into separate parts (fragments) that can block openings in the partition and, therefore, randomly change the mode of influence of powder gases on the test product or, if they are sufficiently completely blocked, to the destruction of the installation;

- for testing it is possible to use only practical cartridges, the shells (bullets) of which do not contain explosive or combustible substances present in explosive, tracing and other shells (bullets). However, these cartridges do not differ in size from practical ones and, therefore, their erroneous use is possible, which can lead to damage or destruction of the installation, personal injury to the testers when removing an unexploded burst shell from the installation, etc .;

- the increased cost of testing due to the use of a unitary cartridge, which sometimes contains a rather complex and expensive inert shell, and the difficulty of removing it from the installation after a shot due to significant deformations.

The technical task of the present invention is to eliminate the disadvantages of the prototype, namely improving the stability of the installation, ensuring its complete safety and the cost of testing.

The solution of the technical problem is achieved by the fact that in the installation for testing grenades containing a gas generator, formed by a chamber with a cartridge installed, a pushed shutter with a cartridge trigger mechanism, a smooth or rifled barrel, an intermediate chamber between the barrel and the chamber, gasdynamically connected to them, placed between the intermediate chamber and the chamber forcing unit for the charge of the cartridge and the measurement and registration system, a blank small arms cartridge is used in the gas generator, for ation for charging the cartridge is formed flat rupturable membrane is preloaded on the perimeter to the chamber and the intermediate chamber is formed by a shot sleeve simulator test grenades, wherein the barrel is installed with software compression of the leading end of the girdle grenades to its guide part simulator sleeve.

In the particular case, the intermediate chamber through a removable throttle hole is gasdynamically connected to the atmosphere.

The present invention is illustrated by graphic material, which shows a grenade testing installation, consisting of a cartridge 1, in which a blank cartridge 2 is mounted, pressed by a bolt 3 with a cartridge trigger 4 (striker for a shock capsule or an electric voltage supply device for a cartridge electrocapsule).

The chamber 1, through a flat destructible membrane 5 and a baffle 6 with an axial throttle hole 7, presses a sleeve simulator 8 containing an intermediate chamber 9 corresponding to the charging chamber of the standard shot sleeve of the tested grenade 10.

The intermediate chamber 9, gasdynamically, through the peripheral holes 11, is connected to the cavity 12 made in the simulator of the sleeve 8, repeating the internal form of the standard sleeve of the grenade shot.

Grenade 10 or its overall weight simulator with a test assembly, for example a fuse, and sleeve simulator 8 are mounted in a smooth or rifled barrel 13, from which a grenade 10 is fired. In this case, the leading belt 14 of the grenade 10 is pressed by the end of the sleeve simulator 8 to the end of the barrel guide part .

The system for measuring and recording the loading parameters of the tested products in the installation is represented mainly by pressure sensors 15 located on the sleeve simulator 8 and barrel 13 and electrically connected through a matching device to a recorder, for example, a computer complex based on an IBM PC computer (not shown).

Installation for testing grenades can be mounted on a test slip using clamps covering the barrel 13 (not shown).

In the particular case, the intermediate chamber 9 may be provided with a replaceable throttle hole 16 connecting it to the atmosphere and made in a threaded plug 17 screwed into the wall of the intermediate chamber.

Preparing the installation for work consists of:

- when the sleeve 8 of the baffle 6 and the membrane 5 are placed in the simulator, the size of the throttle hole 7 and the membrane (thickness and material) are selected on the basis of the required casing pressure (axial overload) required for testing;

- in combining the simulator of the sleeve 8 with the chamber 1 while ensuring the preload of the membrane, for example, screwing in the chamber with a certain torque of the thread;

- in the installation in the barrel 13 of the tested grenade 10 or its overall-weight simulator and simulator sleeve 8 with a chamber 1;

- if necessary, in the axial orientation of the sleeve simulator 8 and screwing the screw plug 17 into it with the required throttle hole 16 corresponding to the test mode;

- in the installation in the chamber 1 of the blank cartridge 2;

- in the installation of the shutter 3;

- in tightening the shutter 3, for example, by screwing the union nut 18 onto the barrel 13;

- if necessary, in screwing the sensors 15 into the simulator of the sleeve 8 and into the barrel 13;

- in cocking (connecting to the electric circuit) of the trigger 4.

The operation of the installation is as follows.

When the trigger mechanism 4 of the shutter 3 is activated, the powder charge of the blank cartridge 2 is ignited and, with its pressure of the powder gases, unclenches the compressed cartridge 19 of its sleeve, the powder gases break through the membrane 5, expire into the intermediate chamber 9, from where, if necessary, they are partially discharged into the atmosphere through the throttle hole 16, and in the bulk through the holes 11 enter the cavity 12 of the simulator sleeve. The pressure of the powder gases in the cavity 12 acts on the bottom of the tested grenade 10 and creates an axial force, under the influence of which the lead belt 14 of the grenade 10 is incised into the rifling of the barrel and the grenade is informed of the required muzzle velocity.

During installation, the operating parameters in the cavities 9 and 12 and barrel 13 are measured by pressure sensors, then they are used to make a conclusion about the load acting on the test item (grenade), as well as by known methods, for example photo-blocking, the muzzle velocity of a grenade is measured.

Installation for testing grenades according to the invention favorably differs from known devices used for the same purpose:

- the powder charge of the standard idle cartridge provides the installation with high stability characteristics, because these cartridges are airtight, mass-produced in specialized enterprises;

- idle cartridges have a significantly lower price than practical cartridges containing a mass-dimensional simulator of a shell or a bullet, and when fired, do not form fragments;

- the absence of a projectile (bullet) in an empty cartridge ensures the safety of their use for testing, while the dimensions of the chamber do not allow you to install a longer live cartridge in it;

- the forcing unit, made in the form of a flat destructible membrane that overlaps the throttle hole in the partition, provides, by using membranes of different thicknesses and made of materials with different strength properties (steel, copper, aluminum) and the use of removable partitions with different diameters of the throttle holes, stability the pressure required for testing in the projectile volume and, accordingly, the axial overload acting on the grenade;

- the stability of the outflow of powder gases into the slug volume is ensured by the fact that the part of the membrane that separates during destruction has a strictly defined shape (a circle with the diameter of the throttle hole in the baffle), and this part does not prevent the outflow of gases into the slug volume, because during the shot, it falls into the center of the intermediate chamber and does not block its peripheral holes;

- an intermediate chamber with an adjustable (interchangeable) throttle aperture allows the use of blank cartridges, the mass of the powder charge of which exceeds the mass of the powder charge of the standard shell of the test grenade, due to the discharge of excess powder gases into the atmosphere;

- preloading the grenade through its leading girdle to the end of the guide part of the barrel, as well as the correspondence of the internal volumes of the sleeve simulator and the standard sleeve, allow you to accurately reproduce the nature of the loading of the tested grenade during the shot.

Claims (2)

1. Installation for testing grenades, containing a gas generator formed by a chamber with a cartridge installed, a preloaded shutter with a cartridge trigger mechanism, a smooth or rifled barrel, an intermediate chamber between the barrel and the chamber, gas-dynamically connected to them, a forcing unit located between the intermediate chamber and the chamber for the charge of a cartridge and a measurement and registration system, characterized in that a blank small arms cartridge is used in the gas generator, a forcing unit for charging the cartridge is formed by a destructible membrane, pressed along the perimeter to the chamber, and the intermediate chamber is formed by a simulator of the test grenade firing sleeve, while the barrel is installed to ensure that the leading grenade belt is pressed against the end of its guide part by the sleeve simulator. 2. Installation according to claim 1, characterized in that the intermediate chamber through a removable throttle hole is gasdynamically connected to the atmosphere.

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