RU114518U1 - BALLISTIC INSTALLATION - Google Patents

Abstract

1. A ballistic installation containing a removable barrel mounted on a carriage, kinematically closed by a threaded union nut with a breech breech, characterized in that the breech of the breech, the wall of which is commensurate with the diameter of its chamber, is movably mounted relative to the gun carriage, to which it is connected through a hydraulic damper , and is directly rigidly connected to the artillery standard barrel, mounted with the possibility of longitudinal displacement in the guides of the carriage, while its return spring rests on a guide, to which a union threaded nut adjoins through a buffer. ! 2. Ballistic installation according to claim 1, characterized in that the breech of the bolt through the drainage hole communicates with the crusher mechanism or piezoelectric sensor mounted in the adapter.

Description

The proposed utility model relates to the field of weapons technology, and more specifically, to universal ballistic installations (stands) and can be used in testing cartridges and standard barrels to record the maximum pressure during the shot and its distribution in the dynamics necessary to determine the propellant impulse developed by the powder the charge of the cartridge case.

The level of this technical field is characterized by a ballistic installation described in patent US 3877167, F41C 21/00, 1975, which is a test bench for checking the ballistic characteristics and designs of channels of interchangeable shafts.

In this device for installing and fixing the barrel in the receiver used two threaded bushings that interact with the corresponding threaded elements of the barrel and receiver. When changing the barrel, maintaining a constant distance from a given end of the barrel to the front end of the shutter (the so-called mirror clearance) is provided by moving one of the bushings along the barrel.

The presence of a large number of threaded elements complicates the design and does not ensure the identity of the base of the trunks.

In addition, differences in the diameters of the landing elements of the tested trunks necessitates the production of individual alignment of each barrel relative to the receiver, which is laborious and requires skilled labor.

The described ballistic installation does not provide universality in the application of a wide range of ammunition, without receiving all necessary externally - and ballistic indicators of cartridges or barrel design from one installation.

Known more advanced ballistic installation for testing cartridges and barrels for accuracy of fire and determining the pressure in the barrel according to patent RU 2246677, F41A 31/00, 2005, which is selected by technical essence and the number of matching features as the closest analogue of the proposed ballistic installation .

The well-known installation is a monoblock test bench mounted on a carriage by means of a massive receiver, in which a replaceable barrel and a firing mechanism with a bolt are coaxially mounted, which is characterized by universality for testing different types of ammunition.

A washer calibrated in thickness with a cylindrical hole formed in it equal to the diameter of the larva of the breech of the shutter and grooves for the protrusions of the larva of the shutter, as well as a fixing groove interacting with the protrusion of the insert rigidly connected to the box, is installed in the hole in the box under the barrel.

A longitudinal groove is made in the receiver, the bottom of which forms the upper guides for the larva and shutter skeleton. An insert is installed in the groove with a cylindrical groove at a distance from the rectilinear bottom of the groove of the box, equal to the thickness of the protrusions of the larva and the shutter body.

A feature of the known ballistic installation is its versatility from placing a gun carriage calibrated by the thickness of the washer in the bore of the receiver adjacent to the end of the breech of the shutter, which provides a “mirror clearance” (constant distance from the rear end of the barrel to the front end of the shutter).

The following was formed in the calibrated washer: a cylindrical hole equal in diameter to the larva channel, grooves for the protrusions of the shutter larva and a fixing groove interacting with the protrusion of the insert rigidly connected to the box, thereby ensuring longitudinal movement of the cage with the larva and excluding the rotation of the larva when the shutter cage rotates in locking process.

However, a continuation of the indicated advantages is the inherent disadvantages, which are manifested in the form of the technological complexity of manufacturing the described construction from interconnected in the dynamics of pulse-loaded elements of precision precision mates.

When replacing the barrel under another cartridge, an appropriate sized calibrated multifunction washer is selected.

The presence of a large number of mating elements complicates the design and does not ensure the identity of the base of interchangeable shafts, which in each case must be individually centered relative to the receiver.

High capital costs for testing are determined by the fact that the installation uses specially manufactured ballistic barrels that are rigidly fixed in the receiver, mounted on a carriage for firing, which provide only an indirect assessment of the performance of regular artillery barrels with varying degrees of accuracy.

In addition, in the known ballistic installation it is not technically possible to measure the actual propelling impulse, since only the maximum pressure of the powder gases is recorded, which does not exclude a false estimate of the pressure surge.

The technical problem to which the present utility model is aimed is to expand the technological capabilities of a universal ballistic installation of simple design, which provides the measurement of real parameters when firing various cartridges from regular artillery barrels.

The required technical result is achieved by the fact that in the well-known ballistic installation containing a removable barrel mounted on a carriage, kinematically closed with a threaded nut with a breech of the shutter, at the suggestion of the authors, the breech of the shutter, the wall of which is made comparable with the diameter of its chamber, is mounted movably relative to the carriage , which is connected through a hydraulic damper, and directly rigidly connected to the artillery staff barrel, mounted with the possibility of longitudinal movement s in the guide mast, with its return spring is supported on the guide, to which is adjoined via a buffer threaded union nut.

Another difference of the proposed ballistic installation is that the breech of the shutter through the drainage hole communicates with a crash mechanism or a piezoelectric sensor mounted in the adapter.

Distinctive features made it possible to carry out ballistic tests of artillery cartridges by firing directly from standard artillery barrels, excluding the manufacture of special ballistic barrels, which, most importantly, ensured the reliability of the measured parameters actually developed during the operation of artillery systems, and a noticeable reduction in capital costs for testing.

The proposed ballistic installation provides damping of the destructive action of the barrel recoil forces on the breech of the bolt of a special design with 20-30% thickened walls, compared to the standard one, the thickness of which is comparable with the diameter of its chamber.

The execution of the breech of the shutter with the estimated thickening of the walls allows you to localize in its mechanically enhanced volume a pulse increase in the pressure of the powder gases generated during the combustion of the propellant shell charge before the projectile travels through the channel of the regular artillery barrel.

Thus, the mechanically reinforced breech of the test bench can withstand dynamic loading by the pressure developed by the powder gases of the burning propellant charge of the cartridge case during firing, that is, the breech section of the bolt is suitable for ballistic tests of interchangeable standard artillery barrels and cartridges as a universal autonomous power unit.

The hardening of the breech of the bolt, when its wall thickness is commensurate with the diameter of the chamber, ensures the localization of the impulse of the developed pressure of the powder gases when fired in its volume until the projectile moves along the adjacent regular artillery barrel.

The confidence range of the required wall thickness of the ballistic breech part of the test bench shutter in this case is 1.2-1.3 shutter wall thickness in a standard gun, which was calculated according to the mathematical model of the experimental design and confirmed by experienced shooting.

When the wall thickness of the breech section of the shutter is less than 1.2 of the nominal thickness, the integrity of the shutter from possible pressure surges of powder gases when firing with serial cartridges is not guaranteed.

When the wall thickness of the breech part of the shutter is more than 1.3 of the nominal thickness, there is no improvement in the service characteristics of the installation with a ballast increase in the dimensions of the shutter and stand.

The execution of the breech of the shutter movable relative to the carriage made it possible to combine it in a rigid kinematic connection with the tested regular artillery barrel.

A rigid connection between the breech of the shutter and the rod of the hydraulic cylinder mounted on a carriage, which acts as a damper that accumulates recoil energy, allows you to distribute dynamic loads during reactive reversal of the barrel after a shot, thereby further reducing the negative mechanical effects in the oscillatory system of the ballistic installation.

The placement of the artillery barrel in the carriage guides with the possibility of longitudinal displacements under the influence of a propelling impulse of the powder gases of the cartridge, the elastic forces of the return spring and the hydraulic damper serving as the energy accumulator ensures its easy adaptation with the breech of the shutter of the ballistic installation and functioning in the normal mode of real shooting during tests in the structure test bench.

The emphasis of the artillery barrel return spring on the guide on the bolt side connected to the carriage ensures elastic compression during rollback, which noticeably reduces mechanical stresses on the breech of the bolt and the subsequent reverse movement due to the kinetic energy accumulated in this case. As a result of these dynamically damped oscillations, the longitudinal movements of the barrel are relatively quickly completely stopped.

The buffer, made in the form of a cylindrical spring or polyurethane washer, characterized by high wear resistance and elastic-plasticity, dynamically absorbs the energy of the propelling impulse, dramatically calming the longitudinal vibrations of the barrel, and dampens harmful mechanical shocks in the system. A preference for a polyurethane buffer consists in the manufacturability of its manufacture, according to the calculated parameters, and an increased service life without a noticeable change in service characteristics.

A union nut for a rigid and quick-detachable connection of the artillery barrel to the breech of the test bench forms a complete analogy to the standard gun, which ensures objective shooting results while fully maintaining the structural integrity of the barrels, which are simply adaptable as a structural interchangeable element of the ballistic installation for the time of certification by shooting.

Placing an elastic dividing buffer calibrated for shock working loads between the threaded union nut of the barrel and the carriage guide is necessary to mitigate the multiple dynamic effects of moving masses on the breech of the shutter, to ensure quick attenuation of their oscillations due to the longitudinal damping in the elastic buffer shock and compressive forces arising from a shot and recoil.

Communication volume of the breech of the bolt through the drainage hole with a crash mechanism installed in it, allows you to measure the ballistic characteristics of the cartridges and the maximum pressure developed during the combustion of the propellant charge of the cartridge.

An alternative use of the piezoelectric sensor as a measuring device installed in the drain hole of the breech block of the shutter allows you to record the change in pressure inside the barrel in the dynamics of the shot, integrally measuring propelling impulse.

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

The essence of the utility model is illustrated in the drawing, which shows:

figure 1 - diagram of the proposed ballistic installation;

figure 2 is a view of figure 1.

On a stationary carriage 1 in stationary guides 2, 3, a regular artillery barrel 4 is installed with the possibility of longitudinal movements.

The barrel 4 return spring 5 is pressed against the guide 3 from the side of the shutter 6, equipped with a firing mechanism (not shown conventionally).

The barrel 4 is kinematically closed by means of a threaded union nut 7 with a breech portion 8 of the shutter 6, forming a monolithic functional unity.

The wall thickness of the breech 8 of the shutter 6 is made equal to the diameter of its chamber, where the cartridge sleeve is located.

Between the threaded union nut 7 and the guide 3 on the barrel 4 is placed an elastic buffer 9, mainly made in the form of a calibrated washer made of polyurethane.

The shutter 6 through the carrier 10 is rigidly connected with the rod 11 mounted on the carriage 1 of the hydraulic cylinder 12, which acts as a damper of the longitudinal recoil forces, designed to accumulate kinetic energy for reversing the barrel.

The walls of the breech 8 of the shutter 6 are thickened, compared to the standard ones, forming a power ballistic chamber under the powder gases generated by the combustion of the propellant charge of the cartridge case of the test cartridge.

To measure the developed maximum pressure of the powder gases within the volume of the breech portion 8 of the shutter 6, a drainage hole 13 (FIG. 2) is made in its thickened wall, in which a crasher mechanism 14 or an adapter with an adequate profile with a piezoelectric sensor (not shown conditionally) for measuring the propelling pulse is installed.

On the barrel 4 is fixed the pointer arrow 15 above the scale 16, longitudinally mounted on the carriage 1 (figure 1).

The proposed ballistic device operates as follows.

For ballistic tests, the standard artillery barrel 4 is installed in the guides 2, 3 through the union nut 7 and the buffer 9.

Next, the rotation of the threaded nut 7 coaxially align the breech portion 8 of the shutter 6 with the end face of the barrel 4, ensuring their geometric and kinematic closure.

At the same time, the piston of the rod 11 located above the mirror of the working fluid (liquid oil in the cylinder 12) is installed in the extreme left position in the drawing of FIG. 1.

For firing tests, the cartridge shell of the shutter 6 is sent to the adjacent barrel 4, which is locked by the barrel of the cartridge case located in its breech 8.

By means of the firing mechanism of the shutter 6, ignition of the propellant propellant charge of the liner is initiated, during combustion of which the pressure rises sharply, as a result of which the projectile is traveling, traveling along the barrel 4 to take off.

The increase in the pressure of the powder gases is recorded by the cracker mechanism 14 or the piezoelectric sensor, which is mounted through the adapter in the drainage channel 13.

The cracker mechanism 14 captures the maximum pressure in the breech 8 of the shutter 6, and the piezoelectric transducer - the pressure increase in the dynamics of the process, which is used to judge the propelling pulse developed during the shot.

The reactive force that occurs after the projectile goes beyond the muzzle of the barrel 4 reverses the latter relative to the guides 2 and 3 together with the shutter 6. In this case, the return spring 5 is elasticly compressed, and the carrier 10 of the rod 11 of the hydraulic cylinder 12 moves to the right according to the drawing, moving synchronously with the barrel 4, parallel to the shutter 6, acting on an incompressible working fluid with its piston, which accumulates recoil energy.

Measured by shooting the SCS, the deviation of the arrow 15 to the right along the scale 16 registers the value of the maximum rollback, which is regulated for regular automatic guns.

This allows you to accurately set the normatively regulated value of the rollback within the specified tolerance limits by selecting the location and stiffness of the return spring and / or the elasticity of the accumulator, which increases the functional reliability of the certified artillery barrels mounted during carriage tests.

Having reached the maximum deviation of the recoil, the barrel 4 and the shutter 6 stop and almost instantly return to their original position under the action of the elastic forces of the return spring 5 and the accumulated energy of the working fluid of the hydraulic cylinder 12.

The impact force of the moving mass when meeting with the guide 3 is mixed in an elastic buffer 9.

The described oscillation cycle of the movable part of the installation quickly attenuates, and the barrel 4 and the shutter 6 are installed in the initial position.

Thus, the proposed ballistic installation allows simultaneously registering various parameters and characteristics during firing, is universal for testing various interchangeable artillery barrels and cartridges for them due to the adaptability of removable structural elements, interchangeable in accordance with the caliber of the tested barrel and the type of cartridges.

Using the proposed design of the test bench made it possible to exclude the manufacture of special expensive ballistic installations and to certify regular artillery barrels equipped with a special shutter, directly firing with various cartridges. This ensured an increase in the objectivity and reliability of the results of combined tests, the cost of which was reduced by a multiple.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the invention does not explicitly follow for the artillery testing specialist, showed that it is unknown, and given the possibility of industrial serial production of a ballistic installation for the entire range of calibers, we can conclude that patentability criteria.

Claims (2)

1. A ballistic installation comprising a carriage mounted on a carriage, a replaceable barrel kinematically closed with a threaded nut with a breech block, characterized in that the breech block, the wall of which is comparable with the diameter of its chamber, is mounted movably relative to the carriage, which is connected through a hydraulic damper , and is directly rigidly connected to the artillery standard barrel, mounted with the possibility of longitudinal movements in the guides of the carriage, while its return spring supports I guide through the buffer to which the adjacent union threaded nut. 2. Ballistic installation according to claim 1, characterized in that the breech block through the drainage hole communicates with a crash mechanism or a piezoelectric sensor mounted in the adapter.