RU2707830C2 - Artillery shot of separate charging with variable propellant charge - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention relates to military equipment, in particular, to ammunition with separate charging consisting of several parts. Artillery shot of separate loading with variable propellant charge comprises front warhead with explosive substance and detonating fuse, which housing is made with a sharp aerodynamic surface, adjacent to it stern part, which body is shaped to truncated cone, and rear part, which is a propellant charge. Propellant charge consists of separate weight parts formed from plastic powder mass with solidification into rigid cylindrical hollow modules, each of which is packed into a combustible shell. In the middle hollow part of each module on its longitudinal axis there installed is a flammable powder element in form of a hollow cylinder with possibility of primary ignition of the module itself and transmission to the next module connected to it. Joints are made up of lock elements on end surfaces of each module. Lower module weight is 2 times greater than each other one. In lower module on its longitudinal axis there is a second easily ignited powder element, with possibility of ignition in combustion chamber of gun from electronic ignition mechanism. On the free end surface of the upper module there is a support and coupling mechanism for connection with a stern part in the form of a collet on the coupling surface of which there are made sharp-edged teeth with the possibility of being cut into the body of the stern part. On the free lower end surface of the lower module there is a separating partition, on its side cylindrical surface there is a driving band and an annular recess with the possibility of laying into the jack of the fighting compartment, on the free end face surface of the partition wall there is a mesh rolling. Blend envelope of module is made by metal method of sputtering of magnesium-aluminum alloy. Warhead used is projectile 3OF45.

EFFECT: invention makes it possible to exclude accidental ignition and detonation of artillery shots during production.

3 cl, 5 dwg

Description

The invention relates to military equipment, in particular, to munitions with separate loading, consisting of several parts.

Known artillery shot of the domestic T-72 tank (Kholyavsky G.L. Complete Encyclopedia of World Tanks 1915-2000, LLC Harvest, 2000, p. 400) with separate loading, in which the propellant is equipped with a semi-combustible sleeve with fireproof metal tray. In its central part, a shock capsule is installed to ignite the propellant propellant charge. Reducing the range of the projectile due to the re-equipment of the weight composition of the propellant charge is not provided. After the shot is fired, the metal pan is mechanically removed from the fighting compartment outside the turret.

The disadvantage of this design is:

- the removal path through which the metal tray is removed inside the fighting compartment is not isolated, as a result, it is possible to increase the content of carbon monoxide and other harmful gases in the air of the reserved fighting compartment, in which the tank crew is located;

- before firing a shot there is no overfitting to reduce the mass of the propellant charge for a flight at a distance less than the maximum;

- a shock-igniter capsule is installed in the fireproof bottom part; as a result, increased attention is required when loading charged propellant charges into a tank and when installing inside a fighting compartment.

Closest to the proposed invention in terms of essential features is an artillery round of separate loading of a self-propelled howitzer 2S19 “Msta-S” (GL Kholyavsky “Encyclopedia of armored vehicles of tracked combat vehicles 1919-2000”, “Harvest”, 2001, pp. . 199-204) containing a 3OF45 shell and an alternating propellant charge made up of individual weight parts equipped with a fireproof metal sleeve. Stacked weight parts of gunpowder are closed by a gasket and a sealing cover. An impact igniter capsule is installed in the central part of the liner bottom. Each individual weight part is packed in a combustible fabric shell. When firing at the maximum range of the projectile, only the removal of the sealing cover is required. When firing a projectile at a range less than the maximum, it is necessary to remove the sealing cover, take out the gasket, re-complete the propellant charge and install the gasket back. The excess individual weight parts of the propellant removed from the sleeve are placed in a box specially designated for storage located in the fighting compartment. After the shot is fired, the metal sleeve along the path inside the shell of the gun barrel is mechanically removed outside the reserved fighting compartment.

During the replenishment of the ammunition of a self-propelled howitzer, the accumulated weight parts of the propellant charge are transferred to support services for further use.

The disadvantage of this design is:

- the conical body of the removed metal sleeve after the shot is subject to mechanical damage, as a result, its secondary use is possible only after checking all dimensions and cleaning its surfaces from the remnants of the explosive combustion of the powder propellant charge - this is time-consuming;

- an igniter capsule is installed in the bottom of the non-combustible metal sleeve, as a result, increased attention is required when overloading loaded propellant charges;

- a loose powder propellant charge is equipped in a combustible fabric shell of a separate weight part, as a result, the process of overfitting can lead to damage to the shell, a powder charge placer.

The objective of the invention is the development of an artillery shot of separate loading with a variable propellant charge, excluding the use of a percussion igniter capsule and the accumulation of individual weight parts in the reserved combat compartment.

Separate artillery shot with a variable propelling charge contains a body with a pointed aerodynamic surface in front of which is located the warhead with an explosive and fuse. In the aft part, which has the shape of a truncated cone, there is a propellant charge made up of individual parts of the powder packed in a combustible shell, tightly packed in height in a non-combustible metal sleeve, in the bottom of which there is a powder igniter. Separate weight parts of the powder are made of plastic powder mass with curing in the form of a rigid cylindrical hollow module, on the longitudinal axis of which in the middle part there is an additional highly flammable powder element in the form of a hollow cylinder. The joints of the modules is carried out by locks located on the end surfaces of each module. The lower module is the main one and its weight is 2 times greater than each of the others; two additional easily combustible powder elements are installed in it, the ignition of which occurs in the combustion chamber of the gun from the electronic ignition mechanism. On the free lower end surface of the main module, a dividing wall is installed with an additional leading belt, with mesh knurling and an annular recess for securing the charge in the stacking slot, on the free end surface of the upper module there is a supporting-coupling mechanism in the form of a collet, on the coupling surfaces of which sharply directed teeth are made crashing into the conical body of the stern.

In addition, the outer side surface of each module is enclosed in a metallized combustible shell made by the deposition of a magnesium-aluminum alloy, and the warhead of the shot is made on the basis of a domestic large-caliber artillery high-explosive fragmentation projectile, for example, a 3OF45 projectile.

The invention is illustrated by drawings, which depict: in FIG. 1 - a general view of an artillery shot of separate loading; in FIG. 2 - general view of a separate weight part - module; in FIG. 3 - sectional coupling mechanism, place A; in FIG. 4-dividing wall in the context, place B; in FIG. 5 is a general view of a projectile in flight with remnants of a propellant articulated for disposal from overfitting.

An artillery shot of a separate loading with a variable propelling charge, contains a housing 1 (Fig. 1-5), which is made of two components: the front part 2 with a pointed aerodynamic surface 3 is combat, the aft part 4 is made in the form of a truncated cone 5. The rear part 6 is a propelling charge 7, composed of individual weight parts formed from a plastic powder with curing, into a rigid cylindrical hollow module 8, 9, 10, 11, 12. In the middle hollow part of each module, OMe module 12 on its longitudinal axis an additional flammable propellant member 13 in the form of a hollow cylinder, carrying primary ignition circuit and maintaining fire along the entire length of the module with the subsequent transfer of the chain to the next module is articulated with it. The articulation is performed by the locking elements 14, 15 on the end surfaces of each module 8, 9, 10, 11, 12. Moreover, the locking element 14 is defined as the upper one, and the element 15 as the lower one. The lower module 12 is defined as the main one and its weight is 2 times greater than each of the other modules. The outer diameter of the lower module 12 is equivalent to the diameter of the combustion chamber of an artillery gun. The outer diameter of the modules 8, 9, 10, 11 is 152 mm. The end edges of the modules 8, 9, 10, 11, 12 are made with a radius of 5 mm. In the lower main module 12 there are two additional easily flammable elements 13 for reliable ignition and the creation of a fire chain of the elongated module. The primary ignition of the additional highly flammable powder element 13 in the lower module 12 is created in the combustion chamber of the artillery gun from the electronic ignition mechanism (not shown). The lateral surface of each module 8, 9, 10, 11, 12 is enclosed in a metallized combustible shell 16 made by a sputtering method of a magnesium-aluminum alloy, which prevents the module from self-ignition from friction when moving along the surfaces of overload lines and sending a propellant charge 7 to the gun’s combustion chamber.

On the end surfaces of each module 8, 9, 10, 11, 12, 8 locking elements 14, 15 are installed. The principle of operation of the lock is as follows: first, the protruding parts 17 are placed against the passage recesses 18, then counter longitudinal movements are made parallel to the longitudinal axis of the module. After entering, perform a counterclockwise rotation, as the reverse rotation relative to the screw cut of the channel of the gun barrel, until it stops. On the free end surface of the upper module 8 there is a support-coupling mechanism 19 for possible articulation with the aft part 4 of the housing 1. The coupling-coupling mechanism 19 is made in the form of a spring split sleeve - collet 20 with a contacting coupling surface 21 on which sharply directed teeth 22 are additionally made , crashed into the articulated conical body of the warhead 2. On the lower end surface of the supporting-coupling mechanism 19, a locking element 15 is made for articulation with the locking element 14 of the modules 8, 9, 10, 11. Free the bottom bottom end surface of the main module 12 has a metal dividing wall 23. On its lateral cylindrical surface are made:

- an additional lead belt 24 (made of copper), which is mounted by rolling 25 on both sides, and on the outer cylindrical surface 26 there is a mesh knurling 27, which increases the friction to hold the partition 23 during its undocking from module 12, with subsequent rearrangement in the required gap between the modules, for example, 8-9, 9-10, 10-11, 11-12 when recompiling the propellant charge 7 to the required flight range of the warhead 2 is less than the maximum;

- an annular recess 28, which is necessary to secure an equipped propelling charge 7 in the nest of the fighting compartment.

A locking element 14 is made on the free upper end surface of the partition 23. In addition, on the lower end surface 29 of the partition 23, a combined thermal pad 30 is installed, consisting of three layers: the upper and lower layer 31 is made of an asbestos gasket for contacting with the metal surface of the partition 23, middle layer 32 - ceramic, on which, first of all, gases from explosive combustion of powder weight parts of the propellant charge 7 act. The combined thermal pad 30 is fixed to the end face the surface of the partition 23 due to rolling the edges of the protrusions 33 made on its surface.

Shot at maximum range.

The gun barrel is mounted at an elevation angle for firing at maximum range. Shell 3OF45 is sent to the bore. Throwing charge 7 is located on the tray re-equipment, located next to the casing of the gun. The fifth wheel 19 is removed from the upper end surface of module 8, and the dividing wall 23 is removed from the lower end surface of the main module 12. Modules 8, 9, 10, 11, 12 articulated in tandem along the height are moved to the sending line into the gun’s combustion chamber. Camora closes. An electric power is supplied to the electronic ignition mechanism, which initially ignites an additional easily flammable powder element 13. Explosive combustion occurs, the fire chain of combustion is transmitted in two directions: along the axis of articulated modules, up to module 8, to the side of this axis in each module 8, 9 , 10, 11, 12. The generated power impulse from the explosive burning of the propellant charge 7 shifts the projectile from its place and moves it with increasing speed to the edge of the gun barrel to complete the flight to the intended target. As a result of such a shot, all modules 8, 9, 10, 11, 12 of the propellant charge 7 are completely burned in the chamber of the artillery gun. When replenishing the ammunition load, the removed fifth wheel 19 and the dividing wall 23 are transferred to the support system for reuse in artillery equipment.

The production of a shot at a distance less than the maximum. The gun barrel is mounted at an elevation angle of the required firing. Shell 3OF45 is sent to the bore. Throwing charge 7 is located on the tray re-equipment. From the lower end surface of the main module 12, the dividing wall 23 is removed and the required gap between the modules is set, for example, 8-9 or 9-10, 10-11 or 11-12. After articulating the partition 23 with the modules in such a way that only the modules to be disposed of are located in the re-equipped propellant charge 7 from the support-coupling mechanism 19 and to the separation partition 23, and the modules necessary for firing for the required range remain from the partition 23 and the main module 12 . As a result of re-equipment, the articulated composition of the propellant charge modules 7, including the fifth wheel mechanism 19 and the separation wall 23, are moved to the sending line into the gun’s combustion chamber. After completing the sending, the camera closes. The primary ignition of an additional easily flammable element 13 is carried out in the main module 12. Explosive combustion of the main module 12 and the required number of modules from 8, 9, 10, 11 spread both along the longitudinal axis and sideways from this axis into the modules up to the partition 23 The generated power impulse from the explosive burning of the required modules, due to the installed additional drive belt 24, moves the dividing wall 23 and the modules located at the front for disposal with the supporting-coupling mechanism 19. When moving and this composition, approaching the rear part 4, the fifth wheel mechanism 19 is articulated with a truncated cone 5 and shifting the very 3OF45 shell. With increasing speed, they move to the edge of the gun barrel for a joint flight to the intended target. In the place of the shell rupture, the modules intended for disposal are simultaneously burned and the parts of the fifth wheel mechanism 19 and the separation wall 23 are scattered, thereby enhancing the power of the shot itself.

As a result of the firing of such a shot in the fighting compartment, there is no accumulation of the remaining individual weight parts of the propellant charge 7, thereby excluding the accident of fire and detonation of artillery shots in the compartment.

Claims (3)

1. An artillery shot of a separate loading with a variable propelling charge, comprising a front warhead with an explosive and a fuse, the body of which is made with a pointed aerodynamic surface, an adjacent rear part, the body of which has the shape of a truncated cone, and the rear part, which is a propelling charge, characterized in that the propellant charge is composed of separate weight parts formed from a plastic powder mass with curing into rigid cylindrical hollow modules, each Each of which is packaged in a combustible shell, in the middle hollow part of each module, a flammable powder element in the form of a hollow cylinder is installed on its longitudinal axis with the possibility of primary ignition of the module itself and transfer to the next module connected to it, the joints are made by lock elements on the end the surfaces of each module, the weight of the lower module is 2 times greater than each of the others, in the lower module on its longitudinal axis there is a second highly flammable powder element with the possibility of In order to ignite the guns in the combustion chamber from the electronic ignition mechanism, on the free end surface of the upper module there is a support and coupling mechanism for articulation with the aft part in the form of a collet on the coupling surface of which sharply directed teeth are made, with the possibility of cutting into the aft part body, on the free lower end a partition wall is installed on the surface of the lower module, a leading girdle and an annular recess are made on its lateral cylindrical surface with the possibility of laying in wrath to the crew compartment, on the free end surface of the mesh walls formed knurling. 2. An artillery shot according to claim 1, characterized in that the combustible shell of the module is made by the metal method of spraying a magnesium-aluminum alloy. 3. An artillery shot according to claim 1, characterized in that a 3OF45 shell is used as a warhead.

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