RU2583108C1 - Method of firing sub-calibre rocket-assisted projectile and sub-calibre rocket-assisted projectile - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to ammunition, particularly to sub-calibre active projectiles for smooth-bore guns and method of firing same. Rocket-assisted projectile comprises subcalibre body with tail part, jet engine, a stabiliser with rigid fins and discharge master device. Jet engine includes housing with combustion chamber and fuel charge. Jet engine housing is connected with body tail part. Discharge master device comprises centering device mounted on resulting stabiliser, tray with a bottom and obturating band. Tray is made to ensure entry of charge powder gases into combustion chamber of jet engine. Method of firing rocket-assisted projectile comprises throwing a projectile with powder gases from smooth-bore weapon, separation of master device in preset moment, fixation and maintaining or deceleration fall velocity of a shell by means of jet engine.

EFFECT: higher efficiency of projectile.

13 cl, 9 dwg

Description

The invention relates to artillery ammunition, namely to sub-caliber active rockets, that is, sub-caliber shells fired from a gun with a propelling charge and having a jet engine operating on the flight path of such a shell.

A known method of firing a sub-caliber active-reactive projectile containing a sub-caliber housing with a jet engine, a stabilizer and a detachable lead device, including throwing a projectile with powder gases of a propellant charge from a rifled gun with a given initial speed, separating the lead device under the action of a jet engine gas jet, opening the stabilizer and accelerating the projectile on a given portion of the projectile flight path using a jet engine to increase flight range projectile (US 6234082, IPC ⁷ F42B 13/16, publ. 2001).

Also, the indicated information source describes a sub-caliber active-reactive projectile, including a sub-caliber housing with a jet engine in its rear part, having a combustion chamber with a fuel charge placed therein, closed by a bottom with a nozzle hole; a drop-down stabilizer with flexible feathering, mounted on a sub-caliber case, and a detachable master device containing a centering device in the form of sectors and a tray with a bottom and a turning drive belt, mounted on a jet engine housing and a closing stabilizer, the tray being made to provide propellant propellant gases charge into the combustion chamber and with the possibility of separating the pallet from the subcaliber housing under the action of the combustion products of the fuel charge.

When fired from a rifled gun barrel, the projectile receives a predetermined initial speed and a rotation speed reduced due to a rotating leading belt, while propellant propellant gases enter the combustion chamber through an opening in the bottom of the pan to ignite the fuel charge. On the trajectory, the sectors of the centering device are separated from the projectile under the influence of an incoming air flow, and under the action of the combustion products of the fuel charge, a pallet, as a result of which the flexible tail of the stabilizer is revealed. In a known projectile, its sub-caliber housing and jet engine contribute to lower aerodynamic drag and increase the range of the projectile, however, since the flexible tail of the stabilizer contains several separate feathers, when they open at the very beginning of movement along the flight path, the projectile gets disturbed due to their simultaneous disclosure, especially taking into account the rotation of the projectile, which negatively affects the stability of the projectile and accuracy of shooting and does not allow the use of such sleep poison for the smooth-bore guns.

The objective of the present invention is to provide a method of firing a sub-caliber active-reactive projectile and a sub-caliber active-reactive projectile to implement such a method that not only reduces the aerodynamic drag of the projectile, but also improves its stability and accuracy when used for a smooth-bore gun.

The solution to the problem is a method of firing a projectile active-reactive projectile containing a projectile housing, a rigid stabilizer, a jet engine and a detachable host device, including throwing a projectile with powder gases of a propelling charge from a smooth-bore gun with a given initial speed; separation of the host device with a simultaneous increase in the distance between the center of mass of the projectile and its center of pressure by a predetermined amount by axial movement of the specified stabilizer; fixing said stabilizer; maintaining or slowing the fall of the indicated velocity of the projectile in a given section of the projectile flight path by means of a jet engine.

To increase the stability of the projectile of the present invention, the fixation of the specified stabilizer is preferably carried out in a position that ensures the impact of the jet of gases of the jet engine on the rigid tail of the stabilizer.

The solution to the problem is also a sub-caliber active-reactive projectile, including a sub-caliber body with a tail; a jet engine for maintaining or slowing the fall of the initial velocity of the projectile in a given section of the flight path, comprising a housing with a combustion chamber and a bottom with an opening, and a fuel charge placed in the combustion chamber, the jet engine housing being connected to the tail section of the sub-caliber housing; a rigidly stabilized stabilizer and a detachable master device comprising a centering device in the form of sectors mounted on the stabilizer's rigid plumage, and a pan with a bottom and a septum belt fixed to the jet engine housing; wherein said stabilizer is capable of axial movement along the sub-caliber housing and the jet engine housing with subsequent fixation on the jet engine housing; the pan is configured to allow propellant propellant gases to enter the combustion chamber of the jet engine, with the possibility of separating the pan and the jet engine housing under the action of the combustion products of the fuel charge and has a means of connection with the specified stabilizer to provide the said movement of the specified stabilizer with subsequent separation of the pan from the specified stabilizer .

The specified stabilizer can have a small ring mounted on a sub-caliber housing along a sliding fit, on which the front sections of the stabilizer feathers are fixed, and a large ring that fastens the rear sections of the stabilizer feathers from the outside and is connected to the pallet with the possibility of separation.

The housing of the jet engine can be made with a diameter equal to the diameter of the subcaliber case, and have a protrusion for fixing the specified stabilizer in a small ring.

To ensure ignition of the fuel charge of the jet engine after the projectile leaves the gun barrel in the combustion chamber of the jet engine housing, a free volume above the fuel charge can be formed, while the fuel charge is made with an axial channel in which a tube having a section with a critical section and connected with side of one end with the indicated free volume, and the other end fixed in the hole of the bottom of the jet engine housing.

The specified other end of the tube may be made with expansion, and a throttle hole is made in the bottom of the pallet and a sleeve is fixed concentrically to the throttle hole, the inner diameter of which is larger than the diameter of the throttle hole, and the sleeve is installed in the specified extension on a sliding fit.

To ensure uniform distribution of the interaction force of the pallet and the jet engine housing in the channel of the gun barrel when firing the surface of the jet engine housing and the pallet facing one another, can be performed in response.

Moreover, these mating surfaces may have a cylindrical section of a larger diameter, a radially tapering section and a flat section of a smaller diameter.

To increase the obturation in the barrel of the gun during firing, especially in the case of a worn barrel channel, a recess can be made on the pallet from the side of the propellant gases of the propellant charge, with the formation of an annular protrusion under the obturation belt, while a rubber cuff is pressed into the recess, pressed by a metal disk, made with the possibility of deformation under the influence of the pressure of the powder gases of the propellant charge.

Each of the sectors of the centering device can be made with a groove for placement on the front section of the corresponding pen of the specified stabilizer. In this case, the front sections of the feathers of the specified stabilizer can be made tapering in the longitudinal section, and the grooves of the sectors of the centering device are made with a mating surface to allow radial-axial movement of the sectors in the channel of the gun barrel when firing, each sector has a means of fixation on the corresponding feather specified stabilizer.

To increase safety during the shot, each sector of the centering device can be equipped with a metal plate located along the bottom of the groove of the sector, while the transverse size of the metal plate exceeds the thickness of the pen of the specified stabilizer.

The invention is illustrated in the drawings, where

- in FIG. 1 shows a general view of a sub-caliber active-rocket projectile before firing;

- in FIG. 2 shows a general view of a sub-caliber active-rocket projectile on a flight path;

- in FIG. 3 shows a partial section of a sub-caliber active-rocket projectile before firing;

- in FIG. 4 shows a partial section of a sub-caliber active-rocket projectile on a flight path;

- in FIG. 5 shows a view A of a sub-caliber active-rocket projectile shown in FIG. 3;

- in FIG. 6 shows a view B of a sub-caliber active-rocket projectile shown in FIG. 3;

- in FIG. 7 shows a view G of a sub-caliber active-missile projectile shown in FIG. four;

- in FIG. 8 shows a section BB of a sub-caliber active-rocket projectile shown in FIG. 3;

- in FIG. 9 shows a general view of a sector of a centering device.

The sub-caliber active-reactive projectile of the present invention (Figs. 1-4) comprises a sub-caliber housing 1, a detachable master device in the form of a centering device 2 and a pallet 3, a rigid stabilizer 4 with a plumage and a jet engine 5.

As shown in FIG. 3 and FIG. 4, the sub-caliber housing 1 has a tail portion 6 separated by a partition 7 from the jet engine 5. The jet engine 5 comprises a housing 8 with a combustion chamber 9 and a bottom 10 with a hole 11. In the combustion chamber 9 a fuel charge 12 is placed, while above the fuel charge 12 a free volume is formed 13. An axial channel 14 is made in the fuel charge 12, in which the tube 15 is installed. The tube 15 has a section with a critical section 16 formed, for example, by a metal sleeve 17 of heat-resistant metal, mainly molybdenum, pressed against the stop 18 against the friction surface of the tube 15 of the threaded sleeve 19. On the side of its one end the tube 15 communicates with the void volume 13 and the other end of the tube 15 is formed with an extension 20 and secured in the opening 11 of the bottom 10 of the body 8 of the jet engine 5.

The stabilizer 4 has feathers 21, the front sections 22 of which are rigidly fixed to a small ring 23 mounted on a sub-caliber housing 1 along a sliding fit, and the rear sections 24 are rigidly fixed to the outside by a large ring 25.

The housing 8 of the jet engine 5 has a diameter equal to the diameter of the sub-caliber housing 1, and a protrusion 26 is made on the housing 8 (FIGS. 6 and 7) to abut the small ring 23 in the final position of the stabilizer 4 with rigid plumage.

As shown in FIG. 3, 5, 8, and 9, the centering device 2 comprises sectors 27, each of which is mounted on a respective stabilizer pen 21. Each of the sectors 27 is made with a recess 28 in front, which facilitates the separation of the sector 27 under the influence of an incoming air stream, and a groove 29 for placing on the front section 22 of the corresponding pen 21. The front sections 22 of the feathers 21 of the stabilizer 4 are made tapering in longitudinal section, and the grooves 29 of the sectors 27 are made with a mating surface. Each sector 27 is fixed to the corresponding feather 21 by means of hooks 30 (Fig. 5, Fig. 8 and Fig. 9), made in the groove 29 and covering the pen behind the small ring 23 of the stabilizer 4. In addition, each sector 27 is equipped with a metal plate 31 located along the bottom of the groove 29 of the sector 27, while the transverse size of the metal plate 31 exceeds the thickness of the pen 21. Between each other, the sectors 27 can be optionally fastened with a polypropylene tape 32 wrapping them along a recess 33 on the outer surface.

As shown in FIG. 3 and 6, the pallet 3 has a bottom 34 and an obturation girdle 35. At the bottom 34, a throttle hole 36 is made to provide propellant propellant gases (not shown) to the combustion chamber 9 of the jet engine 5. A sleeve 37 is fixed to the throttle hole 36 in the bottom 34. , the inner diameter of which is larger than the diameter of the throttle aperture 36, due to which an annular section 38 is formed on the bottom 34 of the pallet 3 from the side facing the bottom 10 of the housing 8 of the jet engine 5. The sleeve 37 is mounted on a sliding fit in the extension 20 of the tube 15. On a recess 39 is made on the pallet 3 from the side of the impact of the powder gases of the propellant charge, due to which an annular protrusion 40 is formed under the obturating belt 35, while a rubber cuff 41 is placed in the recess 39, pressed by a metal, for example steel, disk 42, attached to the bottom 34 of the pallet 3.

One facing the other surface of the housing 8 of the jet engine 5 and the pallet 3 are made reciprocal, which contributes to the uniform distribution of the interaction force of the housing 8 of the jet engine 5 and the pallet 3 in the channel of the barrel of the gun when fired. The counter surfaces preferably have a cylindrical section of a larger diameter 43, a radially tapering section 44 and a flat section 45.

The pallet 3 is glued to the housing 8 of the jet engine 5 and is also connected to it by at least one fastening element, for example, a shear pin 46. Instead of the shear pin 46, the pallet 3 and the jet engine body can be connected by a shear threaded connection made on a cylindrical section 43 of them mating surfaces. In addition, the pallet 3 is fastened to the large ring 25 of the stabilizer 4 by at least one shear fastener, for example a shear screw 47.

When fired during the passage of a sub-caliber active-reactive projectile through the channel of a smooth gun’s barrel, the pressure of propellant gases of a propellant charge (not shown) acts on the pallet 3, while the steel disk 42 is deformed, which causes the rubber cuff 41 to deform, which causes the ring the protrusion 40, on which the obturating belt 35 is fixed, bends and increases the force of pressing the obturating belt 35 against the walls of the smooth channel of the gun barrel (not shown). In addition, the rubber cuff 41, compressing itself protects against breakthrough of powder gases. As a result, the reliability of the obturation of powder gases is increased and additional self-centering of the projectile is provided, which is especially important when firing from a gun with a worn bore. Through the throttle hole 36 and the sleeve 37 of the pan 3 and the tube 15 in the axial channel 14 of the fuel charge 12, the powder gases enter the free volume 13 of the combustion chamber 9 of the jet engine 5. The parameters of the jet engine 5 are calculated so that the pressure of the powder gases is provided in the free volume 13, sufficient to ignite the fuel charge 12 from the end facing the free volume 13.

At the beginning of movement along the bore, the sub-caliber case 1 with stabilizer 4, a jet engine 5 and a pallet 3 “overtakes” sectors 27, which causes the feathers 21 to affect sectors 27. Metal plates 31 provide the distribution of the force of impact of the plane of pen 21 over a larger area of sectors 27 and therefore, the safety of sectors 27 is increased. Under the influence of this force, sectors 27 are unclenched and more strongly pressed against the walls of the barrel channel, centering the projectile. If the sectors 27 acquire speed relative to the projectile in the direction of movement, they are displaced in the direction of the small ring 23 of the stabilizer 4 and expand even more, since the grooves 29 of the sectors 27 are made with the same inclined profile as the tapering front sections 22 of the feathers 21. Thus, ensures the accuracy of the projectile even through a worn bore. Thus, the radial-axial movement of sectors 27 provides centering of the projectile regardless of the individual configuration of the worn channel of the gun barrel.

After the projectile leaves the bore, upon reaching a predetermined level of excess of the pressure of the gases of the working jet engine 5, coming through the tube 15, to the annular section 38 of the bottom 34 of the pallet 3, above the level of both the pressure force of the powder gases flowing out of the bore and the strength shear pin 47, the latter is cut off, and the pallet 3 under the action of the jet force of the gases flowing out of the jet engine 5 and the force of the incoming air flow departs from the jet engine 5, while pulling the stabilizer 4 behind it. The air flow also acts on the recesses 28 of the sectors 27, and the latter are discharged from the feathers 21, in this case the polypropylene tape 32 fastening the sectors 27 and the hooks 30 are cut off. The aforementioned predetermined level of excess of the pressure force is determined by the area of the annular section 38, thereby ensuring a distance from the muzzle a cut of the gun barrel, on which, on the one hand, there is a reliable separation of the pan 3 and the jet engine 5, and on the other hand, the delay in the movement of the stabilizer 4 to the slave is prevented Others position, adversely affecting accuracy. During the separation of the pan 3 and the jet engine 5, the sleeve 37 serves as a guide for expanding 20 of the tube 15, which contributes to the axisymmetric displacement of the stabilizer 4 together with the pan 3. This cylindrical section of a larger diameter 43 of the reciprocal surfaces of the housing 8 of the jet engine 5 and the pallet 3 also contributes to this. The stabilizer 4 moves together with the pallet 3 until its small ring 23 is stuck on the protrusion 26 on the outer surface of the housing 8 of the jet engine 5 by means of an elastic-plastic coupling ki of the deformable cantilever part 48 of the small ring 23 formed by cutouts 49 on the feathers 21, with a protrusion 26. At this moment, a screw 47 is cut off under the action of inertia forces, which fastens the large ring 25 of the stabilizer 4 with the pallet 3, and under the action of a gas jet engine 5, the pallet 3 is discarded, without exerting a disturbing effect on the projectile. This ensures the position of the center of pressure of the projectile as far as possible from the center of mass of the projectile, and thereby ensures the stability of the projectile on the flight path. In addition, the stability of the projectile is enhanced due to the effect of the jet of outgoing gases of the jet engine 5 on the feathers 21 of the stabilizer 4.

The parameters of the fuel charge 12 are designed so that the jet engine 5 provides thrust at which the initial speed obtained by the projectile due to the propellant charge is maintained at a predetermined portion of the projectile’s flight path, or its drop is slowed, which leads to a decrease in the dispersion of the projectile due to the side wind.

In addition, due to the fact that the sub-caliber active-reactive projectile of the present invention has a shorter length in official circulation and when loading, it can be used to fire a separate-shell loading to a smooth-bore tank gun.

Claims (13)

1. The method of firing a sub-caliber active-reactive projectile containing a sub-caliber case, a stabilizer with rigid plumage, a jet engine and a detachable master device, including:
- throwing a projectile with powder gases of a propelling charge from a smoothbore gun with a given initial speed;
- separation of the host device at a given moment with a simultaneous increase in the distance between the center of mass of the projectile and its center of pressure by a predetermined amount by axial movement of the specified stabilizer;
- fixing the specified stabilizer;
- maintaining or slowing the fall of the indicated velocity of the projectile in a given section of the trajectory of the projectile by means of a jet engine. 2. The method according to p. 1, in which the fixation of the specified stabilizer is carried out in a position that ensures the impact of the jet of gases of a jet engine on the rigid tail of the stabilizer. 3. Sub-caliber active-reactive projectile, including:
- Caliber housing with a tail;
- a jet engine to maintain or slow down the fall of the initial velocity of the projectile in a given section of the flight path, comprising a housing with a combustion chamber and a bottom with a hole, and a fuel charge placed in the combustion chamber, the jet engine housing being connected to the tail of the sub-caliber housing;
- stabilizer with rigid plumage and
- a detachable master device containing a centering device mounted on a rigid plumage of the stabilizer, and a pan with a bottom and an obturating belt attached to the housing of the jet engine; wherein
- the specified stabilizer is made with the possibility of axial movement along the sub-caliber housing and the jet engine housing with subsequent fixation on the jet engine housing;
- the pallet is configured to provide propellant propellant gas to the combustion chamber of a jet engine, with the possibility of separating the pan and the jet engine housing under the action of the combustion products of the fuel charge and has a means of connection with the specified stabilizer to ensure the said movement of the specified stabilizer with subsequent separation of the pallet from the specified stabilizer. 4. The projectile according to claim 3, wherein said stabilizer has a small ring mounted on a sub-caliber housing along a sliding fit, on which the front sections of the stabilizer feathers are fixed, and a large ring that fastens the rear sections of the stabilizer feathers from the outside and is connected to the pallet with the possibility of separation. 5. The projectile according to claim 4, wherein the jet engine casing is made with a diameter equal to the diameter of the sub-caliber casing and has a protrusion for fixing said stabilizer in a small ring. 6. The projectile according to claim 3, in which a free volume is formed above the fuel charge in the combustion chamber of the jet engine casing, wherein the fuel charge is made with an axial channel in which a tube is installed having a section with a critical section and communicating from one of its end with the indicated free volume, and the other end fixed in the hole in the bottom of the jet engine housing. 7. The projectile according to claim 6, wherein said other end of the tube is made with expansion, and a throttle hole is made in the bottom of the pallet and a sleeve is fixed concentrically to the throttle hole, the inner diameter of which is larger than the diameter of the throttle hole, and the sleeve is installed in the specified extension along a sliding fit. 8. The projectile of claim 3, wherein the surfaces of the jet engine housing and the pallet facing one another are reciprocal. 9. The projectile of claim 8, wherein said mating surfaces have a cylindrical portion of a larger diameter, a radially tapering portion, and a flat portion of a smaller diameter. 10. The projectile according to any one of paragraphs. 3-9, in which a recess is made on the pallet from the side of the impact of the powder gases of the propellant charge, with the formation of an annular protrusion under the obturating belt, while a rubber cuff is placed in the recess, pressed by a metal disk made with the possibility of deformation under the influence of the pressure of the powder gases of the propellant charge. 11. The projectile according to claim 3, in which the centering device is made in the form of sectors, each of which has a groove for placement on the front section of the corresponding pen of the specified stabilizer. 12. The projectile according to claim 11, in which the front sections of the feathers of said stabilizer are made tapering in a longitudinal section, and the grooves of the sectors of the centering device are made with a mating surface to allow radial-axial displacement of the sectors in the channel of the gun’s barrel when firing, fixation means on the corresponding pen of said stabilizer. 13. The projectile according to claim 11 or 12, in which each sector of the centering device is equipped with a metal plate located along the bottom of the groove of the sector, while the transverse size of the metal plate exceeds the thickness of the pen of the specified stabilizer.

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