RU121916U1 - SMALL ARTILLERIAN CARTRIDGE - Google Patents

Abstract

A small-caliber artillery cartridge containing an armor-piercing sub-caliber projectile with a heavy-alloy core mounted inside a polymer sector housing adjacent to a central metal bushing equipped with bridges of a weakened section and geometrically closed by means of end protrusions located in radial grooves inside a separating aluminum pan with a gas dynamic a nipple, a copper leading belt and a sunset groove for connection with the muzzle of a cartridge case filled with a propelling powder charge, in which a stepped fire transfer sleeve of the igniter cap is located, and on the conical head part of the core there are two annular grooves-localizers into which the ballistic tip is rolled, and in its blind axial channel, a pyrotechnic charge is installed at the bottom, characterized in that the pyrotechnic charge at the bottom of the core is monolithically connected to the channel walls by means of an anaerobic adhesive layer sealant hardening in a gap between them of 0.1-0.2 mm.

Description

The utility model relates to ammunition, and more specifically, to small-caliber unit loading cartridges for automatic guns with a sub-caliber projectile, the massive core of which is mounted in a detachable tray.

Ammunition with a subcaliber projectile having an armor-piercing core coaxially mounted in a housing made with longitudinal blind grooves of weakened cross-section designed to divide it into sectors under radial loading is known from the patent literature (see US patent No. 4142467, F42B 13/16, 1997 .).

The sector case of this munition is paired with a pallet equipped with a leading belt, a sunset groove of the connection with the barrel barrel and a pressure chamber at its end, which communicates with the body volume through the channels.

When fired, part of the pulse of the gas-condensed combustion products of the propellant charge of the cartridge case creates excess pressure inside the shell of the projectile, which is separated from the pallet on the flight path.At the same time, the body is divided into sectors under the action of centrifugal rotation forces, releasing an armor-piercing core for autonomous flight on an external path.

For longitudinal stabilization in autonomous flight, the core is equipped with an aerodynamic plumage that shifts the center of pressure backwards beyond the center of mass, but the core is braked. In addition, for the longitudinal stabilization of the core, the mass torque of the sector housing is not used, relative to which the core is mounted freely in the radial direction.

The main disadvantage of the described ammunition is the low armor penetration of the core with a pointed head, which determines its tendency to ricochet, as well as due to the loss of part of the kinetic energy of the propelling charge on the ballast flight of the massive shell of the shell and the separation of the pallet.

The noted disadvantages are eliminated in the unitary small-caliber cartridge according to patent RU No. 2095735, F42В 5/02, 1997, which characterizes the level of this technical field.

The shell of said cartridge having increased armor-ballistics contains a polymer casing connected with an aluminum pallet, where a heavy-alloy armor-piercing core is mounted, having a head part of an anti-ricochet form, conical step profile.

The head part is made with an obtuse angle at the apex, which goes into a cone of 10-20 °, and is divided by two annular grooves-localizers of destructive deformations when they meet an obstacle into which a ballistic tip is rolled.

When interacting with an obstacle, the head of the heavy alloy core is deformed, as a result of which a consecutive kink occurs along the annular grooves. Thus, the deformation is localized, and the core arising by the reaction forces in the kink unfolds normal to the armor, which reduces the likelihood of a rebound and increases the armor penetration.

The sector shell of the projectile with internal longitudinal blind grooves is made of plastic and is rigidly connected in structural unity with the centering metal sleeve having webs of weakened section, while its internal profile is congruent to the adjacent conical head of the core.

The core of the residence permit alloy in the aluminum pan is mounted motionless in the radial direction due to the kinematic closure of the trapezoidal protrusions on the end of the core in the diametric grooves of the pallet of an adequate shape, which eliminates slipping when the projectile is unwound in the barrel of the weapon aimed at longitudinal stabilization of the core in autonomous flight.

A pyrotechnic charge (tracer) is installed in the end bottom chamber of the core, coaxial with the gas-dynamic hole in the pallet, in order to localize the energy of its separation, while maintaining a propelling impulse.

The pallet is equipped with a leading belt and a sunset groove for connection to the sleeve barrel.

The cartridge case contains a bulk powder propellant combined charge, inside of which there is a central igniter tube of a stepped shape, pressed into the bottom hole under the igniter capsule, and covered with a macerator material from above.

The constructive implementation of the lightweight quarter-round, compared to the standard, sub-caliber projectile of the described cartridge, which provided equalization of the pressure of the powder gases in the volume of the cartridge case and stable intra-ballistic characteristics of the shot, made it possible to fire from existing automatic guns that do not have an external autonomous drive for automation.

The system of power and geometric closure of cartridge elements: a heavy alloy core - a plastic sector case - a centering metal sleeve - a pallet - a sleeve, ensure its integrity during assembly, transportation, storage, operation as part of a link tape during official handling and passage of the cartridge along the power paths of the gun with the gun in the trunk. At the same time, the metal centering sleeve fastening the plastic case bearing the armor-piercing core can withstand overload of the shot from movement along the barrel to the exit of the muzzle.

The calculated cross-section of the jumpers of the centering sleeve contributes to the uniform separation of the sector housing under the action of centrifugal forces of rotation of the projectile behind the muzzle and the pallet is separated from the core by the internal pressure of the powder gases accumulated inside during the shot through the gas-dynamic hole and the pressure of the incoming air flow.

The disadvantages of the described cartridge should include low functional reliability and unsatisfactory performance indicators for armor penetration.

The depth of the annular grooves of the head of the core is selected from the conditions of its integrity upon impact against the obstruction and the possibility of rolling in the ballistic tip material in them, but it is not optimized to counteract the rebound at critical angles of encounter with the obstruction.

The gas-dynamic hole in a lightweight aluminum pan is burned by the high-temperature burning energy of the pyrotechnic charge of the tracer, and due to the diffusion of the material in the pan, a receiver is formed where the pressure of the gas flow drops, which inhibits the forced separation of the pallet from the core. In this case, the projectile speed from aerodynamic drag and the kinetic energy of the armor-piercing core fall.

The trapezoidal shape of the end protrusions prevents rotation of the core relative to the pallet due to geometric locking in the diametrical groove of the pallet without jamming the mating elements. But in the dynamics of a shot from a pulsating increase in pressure in a cartridge case when a propellant powder charge is burning, which is transmitted through a pallet to a massive inertial core, which is relatively free in the axial direction, they can be disengaged in the radial direction, as a result of which the core will not receive the necessary rotation for reliable longitudinal stabilization in autonomous flight.

An additional loss of core speed is due to the fact that the destruction of the bridges of the sleeve and the body into sectors is not synchronized, since the longitudinal blind grooves of the body and the weakened section of the sleeve are spatially separated for structural strength reasons.

All of the above reduces armor penetration to varying degrees.

A more advanced small-caliber artillery cartridge is described in patent RU 2235272 C1, F42B 5/02, 2004, which is selected by the number of matching features as the closest analogue to the proposed cartridge.

The well-known small-caliber artillery cartridge contains an armor-piercing projectile with a heavy alloy core mounted inside a sector-shaped polymer casing connected to a detachable aluminum pallet carrying a copper lead belt and a sleeve, the igniter cap of which is equipped with a fire-transfer step tube installed inside the powder propellant charge, while a core coupled with trapezoidal protrusions with radial grooves of the pallet, a pyrotechnic charge is installed, communicating with Hez receiver with a sleeve.

A feature of this cartridge is that the longitudinal grooves of the plastic casing are oriented coaxially to the jumpers of the metal centering sleeve, under which through-shaped windows are made, a nipple is fixed in the gasdynamic hole of the pallet, and the depth of the annular grooves-locators is 0.15-0.20 core diameters, and the height of the trapezoidal protrusions at its end is 3-5 mm.

Through curved windows of the centering sleeve serve to reduce its mass and minimize the weakened fracture cross section, while the mounting area with a plastic case increases, which preserves the bearing capacity of the projectile body under axial loading during firing.

The implementation of the curly windows above the jumpers of the weakened section of the metal sleeve simplifies the manufacturing technology by both casting and machining.

The steel nipple in the hole of the aluminum tray stabilizes the gas flow from the receiver, where gaseous products of combustion of the pyrotechnic composition of the tracer are accumulated, which ensures the calculated mode of forced separation of the tray for autonomous core flight along the trajectory.

The range of limit values for the depth of ring grooves-localizers on the head of the core is optimized to dampen the rebound and provide mechanical strength at critical angles of encounter with the obstacle.

The optimized height of the trapezoidal protrusions provides a locking connection of the core with the pallet in the radial direction to transmit torque from the leading belt of the pallet to the core in the bore.

However, the disadvantage of the known cartridge design is the functional unreliability of the ammunition due to the unstable fastening of the pyrotechnic charge in the milking chamber of the armor-piercing sub-caliber core, which is performed by the end core. The low ductility of the tungsten-containing core does not allow to deepen the core to form corrugations that impede the extrusion of the tracer from the chamber.

When fired, powder gases under a pressure of more than 3500 kg / cm ² can break into the inevitable clearance of the landing of the connection of the tracer with the bottom chamber, as a result of which they are dismantled.

A sub-caliber armor-piercing core without a tracer noticeably loses speed and moves off a predetermined path, because additional reactive thrust from the tracer stream is lost and the backward aerodynamic vacuum increases, which slows down the core.

In addition, without a tracer, it is impossible to visualize the trajectory of the projectile and to adjust the fire of aimed fire of an artillery automatic gun.

The technical problem, the solution of which the present utility model is aimed at, is to increase the functional reliability of the small-caliber artillery cartridge to ensure the given range and accuracy of fire.

The required technical result is achieved by the fact that in the well-known small-caliber artillery cartridge containing an armor-piercing sub-caliber projectile with a heavy alloy core mounted inside a polymer sector case, adjacent to a central metal sleeve equipped with jumpers of weakened section and geometrically closed by end protrusions located inside radial grooves detachable aluminum pan equipped with a central gas-dynamic hole with a nipple, copper lead with a girdle and a sunset groove for connection with a barrel of a sleeve filled with a propellant powder charge, in which a step-shaped fire-transfer sleeve of the igniter capsule is located, moreover, two annular grooves-localizers are made on the conical head part of the core, into which the ballistic tip is rolled, and in its blind axial channel a pyrotechnic charge is installed at the bottom, at the suggestion of the authors, the pyrotechnic charge at the bottom of the core is monolithically connected to the walls of the channel through a layer of anaerobic adhesive YETİK hardening in the gap between the magnitude of 0.1-0.2 mm.

Distinctive features ensured an increase in the functional reliability and performance indicators of the small-caliber artillery cartridge by creating the structural unity of its armor-piercing subcaliber core with a pyrotechnic charge (tracer) in the bottom deaf channel over the entire length of the autonomous flight to the target, which guaranteed visualization of the trajectory of the projectile with calculated gas-dynamic characteristics.

The adhesive sealant hardening in the gap creates a monolithic connection between the tracer and the armor-piercing core in official circulation, in the dynamics of the shot and on the flight path to the target,

A solid layer of polymerized sealant, tightly filling the technological gap between the tracer and the bottom chamber of the core, prevents the penetration of the combustion gases of the propellant charge of the sleeve and the pyrotechnic composition of the tracer, eliminating the force of the pushing effect and their dismantling.

The one-component sealant of the UG-6 brand has good manufacturability, maintaining fluidity for a long time, while quickly curing in narrow gaps, polymerizing without the presence of air, forms an adhesive polymer layer as a structural element.

The good wetting properties of this sealant provide high penetration into the gaps of 0.05-0.25 mm, where it polymerizes without shrinkage, the formation of shells, fistulas, etc. discontinuity defects typical when using traditional sealants of the grades UT-34, VGO-1, etc.

The monolithic strong connection of the tracer with the core by means of the polymer layer of the UG-6 sealant ensures their continuity at high pressure and temperature loads.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve the novelty of a quality that is not inherent in the characteristics of disunity, that is, the technical task posed is not solved by the sum of 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 - General view of the cartridge, a longitudinal section;

figure 2 - sub-caliber armor-piercing shell.

An armor-piercing core 1 made of heavy alloy is installed in an aluminum pallet 2, which is equipped with a copper driving belt 3, a sunset groove 4, and in the bottom part with a steel nipple 3 at the output of the receiver 6, located coaxially with the tracer 7 mounted in the bottom blind chamber 8 of the core 1.

Tracer 7 (a charge compressed from a pyrotechnic light / smoke composition) in the chamber 8 is installed with a gap of 1-2 mm filled with UG-6 sealant, during polymerization of which without the presence of air a dense layer 9 is formed, which integrally connects adjacent surfaces.

The pallet 2 is threadedly connected to a plastic case 10, in which longitudinal blind grooves 11 are structured inside to structure it into separation sectors.

In the sector housing 10, a centering sleeve 12 is technologically mounted during casting, the inner profile of which is made congruent to the profile of the head conical part of the core 1, which is fixed in a central position in the assembly projectile.

The sleeve 12, having a complex shape: conical inside, cylindrical in caliber of the projectile outside, equipped with jumpers 13 of weakened section, under which through holes 14 are made (not shown conventionally). The jumpers of the sleeve 12 are located coaxially with the longitudinal grooves 11 of the housing 10.

The sleeve 12 serves as reinforcement when casting a plastic housing 10, providing a monolithic unity in official circulation and in the bore when firing.

The head part of the core 1 has a stepped conical profile from 118-120 ° at the apex and then 10-20 °, separated by radial grooves 13, which serve as localizers of destructive deformations of its material under dynamic loading from an encounter with an obstacle.

At the end of the core 1 there are trapezoidal shaped radial protrusions 14, which are placed in the corresponding grooves 15 of the pallet 2, of an adequate shape, which creates a relative immobility of the connection in the radial direction.

The trapezoidal shape of the protrusions 16 prevents jamming of the core 1 in the pallet 2 and does not prevent their axial separation.

A ballistic tip 16 is rolled into the annular grooves 13 of the head of the core 1, which acts as a fairing on the path of its autonomous flight, which reduces the loss of speed.

The propelling charge 17 (figure 1) of the sleeve 18, the dulce of which is rolled into the sunset groove 4 of the pallet 2, is a combined mixture of pyroxylin phlegmatized gunpowder, seven-channel granular and spherical.

Inside the propellant powder charge 17, a stepped fire-transfer tube 19 is placed adjacent to the igniter capsule 20 mounted in the bottom point of the sleeve 18.

The tube 19 is closed from above with a lead plug 21, which serves as a demister of the combat faces of the spiral grooves of the gun barrel.

When fired, a force of flame and gas-condensed combustion products initiated by the igniter capsule 20 enters the tube 19, where they accumulate and accelerate, melting the material (lead) of the plug 21, which is dispersed in the powder charge 17 of the sleeve 18.

The torch formed in the tube 19 ignites the powder mixture of the charge 17 in its central part.

The uniform ignition from the center of the propellant charge 17, optimized by the combined powder composition, organized with the help of a fire-transfer tube 19, ensures equalization of the pressure of the generated powder gases in the volume of the sleeve 18, which ensures stable ballistic characteristics of the shot and the armor penetration indices of core 1 in a given range of values.

Moreover, in the proposed design of the cartridge with armor-piercing subcaliber shells, substantially light weight, having a heavy alloy core 1, the highest values of the initial velocity of the shells and the reliable operation of the automation of small-caliber guns are obtained.

The increased pressure of the powder gases on the pallet 2, the projectile is removed from the sleeve 18 and fed into the rifled channel of the gun barrel, with the walls of which along the entire length of the material dispersed in the powder gases is plugged 21 - demulsifier.

Through the nipple 5, the products of combustion of the propellant charge 17 set fire to the pyrotechnic composition of the tracer 7, the gaseous products of which pump the receiver 6 of the pallet 2.

At the same time, the constant passage section of the steel nipple 5 ensures the stability of the calculated gas-dynamic regime of the expiration of the combustion products of the pyrotechnic composition of the tracer 7.

A feature of the functioning of the proposed cartridge design is that the gaseous products of combustion of the propellant propellant charge 17 and the pyrotechnic composition of the tracer 7 do not penetrate into the bottom chamber of the pallet 2 by the installation gap tightly covered by a polymer layer 9 of cured sealant, adhesive bonded to the adjacent surfaces of the tracer 7 and the chamber pallet 2.

The torque from the rifling of the barrel through the leading belt 3 and the pallet 2, due to the articulation of the trapezoidal protrusions 14 with the diametrical recesses of the pallet 2, is transmitted to the core 1.

Behind the muzzle section of the barrel of the gun, the casing 10 breaks down along the grooves 11 by the internal gas pressure, splitting into sectors that are inhibited by the oncoming air flow.

Further, under the action of an incoming air flow, the axial separation of the tray 2 from the core 1 occurs, which continues autonomous movement along the external path to the target at a given speed, during which the end-face combustion of the pyrotechnic composition of the tracer 7 forms, which forms a clearly distinguishable force of the combustion products emitting in the visible range or forming a smoke trail.

When the core 1 interacts with the barrier due to deformation, a sequential kink occurs along its annular grooves 12. The arising reaction forces in the kinks normalize the axis of the massive core 1 to the surface of the armor, which reduces the tendency to ricochet and increases the armor penetration.

Thus, the proposed technical solution ensured the reliable functioning of the structural elements of small-caliber cartridges in the tape during automatic firing and a comprehensive increase in the efficiency of their main action.

Tests of an experimental batch of cartridges using a utility model showed the reliable functioning of the serial guns automation, providing an increase in the initial speed of the cores, which are characterized by increased armor penetration, which makes it possible to recommend the design of the ammunition for delivery to customers.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the utility model does not explicitly follow for the ammunition specialist, showed that it is unknown, and taking into account the possibility of industrial serial production of small-caliber cartridges for automatic guns using existing technological equipment, we can do Conclusion of eligibility for patentability.

Claims (1)

A small-caliber artillery cartridge containing an armor-piercing sub-caliber projectile with a heavy alloy core mounted inside a polymer sector case adjacent to a central metal sleeve equipped with jumpers of weakened cross-section and geometrically closed by end protrusions placed in radial grooves inside a separable aluminum gas tray equipped with a central borehole provided with a central borehole with a nipple, a copper driving girdle and a sunset groove for connection with a sleeve of a sleeve, n filled with a propellant powder charge, in which there is a step-shaped fire-transfer sleeve of the igniter capsule, and on the conical head part of the core there are two annular localizer grooves into which the ballistic tip is rolled, and a pyrotechnic charge is installed in its blind axial channel at the bottom, characterized in that the pyrotechnic charge at the bottom of the core is monolithically connected to the walls of the channel by means of a layer of anaerobic adhesive sealant that hardens in the gap between them with a value of 0.1-0.2 mm.