RU2171965C1 - Projectile-to-propellant charge joint - Google Patents

Abstract

FIELD: artillery ammunition. SUBSTANCE: the joint has a tail piece with lateral bosses installed on the projectile bottom, the cylindrical part of the tail piece is restricted by a flange and bosses, and a bush with a cylindrical hole, shaped slots in the form of a through and blind intersecting grooves installed on the propellant charge, and a pair of opposite cross-pieces faced in the diameter of the tail piece bosses. The tail piece cylindrical part is made stepped in the form of two cylinders of different diameters, the diameter of the cylinder positioned at the flange exceeds the diameter of the central hole of the bush, but is less than the diameter of the tail piece bosses. A cylindrical groove, whose diameter exceeds the diameter of the cylinder positioned at the flange of the tail piece, is made on the side of the bush end coaxially with its central hole. EFFECT: prevented non-standard joint of the projectile and propellant charge. 6 dwg

Description

 The invention relates to the field of weapons and can be used in artillery ammunition.

 There are shots of unitary, separate shell and cartridge loading.

 There is also a class of ammunition in which a shot is brought into a unitary form immediately before firing (propelling charge is connected to the projectile with the help of a docking unit). The connection unit allows you to quickly and repeatedly make the connection and separation of the projectile and propellant charge.

This class of ammunition includes shots:
PG-9V, OG-9V to the SPG-9 grenade launcher;
PG-15V, OG-15V to BMP-1;
PG-16V to RPG-16 grenade launcher;
ZVOF54, ZVOF55, ZVBK14 to the 2S9 gun.

 In them, all the docking nodes are designed according to the principle of a complex bayonet connection.

 In the shots of the PG-9V, OG-9V, PG-15V, OG-15V, PG-16V, the pins and curly slots in the junction are outside. This leads to the loss of the shank at the time of the shot from the connection node, since the pressure of the powder gases significantly exceeds the force of the spring pressing shank. Therefore, additional locking devices are introduced into the design of such a connection unit, which complicates the operation when undocking the shot, since before disconnecting the propellant charge from the grenade, it is necessary to open the connection unit. In addition, the presence in the shots of OG-9V and OG-15V of the second flange on the shank and the corresponding recess in the sleeve leads to a decrease in the cut area at the point of contact of the pins in the figured slots.

 In the nodes of the connection used in the shots ZVOF54, ZVOF55, ZVBK14, this drawback is absent. In them, curly slots for accommodating the pins are located inside the sleeve, which is called a cross here, and are not directly affected by powder gases. Therefore, it is not necessary to introduce an additional locking device into the structure. In these designs of the connection unit, the role of the pins is performed by the protrusions on the shank.

 As a prototype adopted the connection node of the shot ZVOF54 - shell ind. ZOF49 and propellant charge ind. 4-s-9 ("120C self-propelled artillery gun 2C9". Technical description and instruction manual 2C9 TO. Part III. Ammunition. - M.: Military Publishing House, 1991, Fig. 1 p. 33; Fig. 10 p. 40; fig. 23 (item 3) p. 48; fig. 30 p. 52). It consists of a shank installed on the bottom of the projectile with lateral protrusions, the cylindrical part of which is bounded by a flange and protrusions, and fixed to the charging device of the propellant charge of the sleeve (cross) with a central cylindrical hole, curly slots in the form of through and blind intersecting grooves and trimmed by the diameter of the protrusions shank a pair of opposing jumpers. Cropped jumpers are designed to ensure the rotation of the shank protrusions in the sleeve (crosspiece) and their entry into the blind grooves for fixation.

 The high reliability of operation and the simplicity of the design of the unit for connecting standard shots to the 2C9 gun, confirmed by the long term of their operation in the army, make it advisable to use such a design scheme in newly developed ammunition and all of the indicated features of the prototype in the claimed invention.

 When developing new shots for the 2C31 gun, which uses standard shots of the ZVOF54, ZVOF55, ZVBK14 from the 2S9 gun, the task was to exclude the confusion of standard projectiles and standard projectile charges with newly developed ones, since standard projectiles have less weight, lower ballistic and strength characteristics compared to newly developed shells. However, the disadvantage of using a standard connection unit in newly developed shots is that the combination of new propellant charges with standard shells will lead to the destruction of the latter when fired, and the connection of standard propellant charges with newly developed shells will lead to under-flight.

 The task of the invention is to ensure the safety of firing in the event of a confusion of standard shells and standard propelling charges with newly developed ones.

 The technical result of the claimed invention consists in eliminating the docking of newly developed shells with standard projectile charges and new projectile charges with standard projectiles while maintaining simplicity of design and a high level of reliability and ensuring maximum unification of structural elements.

 The technical result is achieved by the fact that in the node connecting the projectile with a propelling charge, consisting of a shank installed on the bottom of the projectile with side protrusions, the cylindrical part of which is limited by the flange and protrusions, and a sleeve fixed to the projectile propellant charger with a central cylindrical hole, shaped slots in the form through and blind intersecting grooves and a pair of opposite jumpers cut to the diameter of the shank protrusions, the cylindrical part of the shank is made in steps d in the form of two cylinders of different diameter, wherein the diameter of the cylinders located at the flange, the diameter of the central opening of the sleeve, but smaller than the diameter of the shank of the projections. A cylindrical groove is made from the end face of the sleeve and coaxially with its central hole, while its diameter is larger than the diameter of a larger cylinder located at the shank flange.

 A cylindrical groove in the sleeve does not affect the area of engagement of the shank protrusions in the blind groove of the figured slots and does not reduce the shear area of the blind groove at the contact point of the protrusions, i.e., the strength characteristics of the joint assembly do not decrease and the achieved level of reliability is maintained.

 The height of the central hole in the new sleeve does not allow the protrusions of the shank of standard shells to go into the curly slots of the new propelling charge, and the cylinder of the shank with a large diameter located near the flange, and the height of the cylinder of the shank with a smaller diameter do not allow the new shank to go into the curly slots of the sleeve of standard throwing charges.

 Thus, the proposed technical solution ensures the safety of shooting by eliminating the coupling of elements of regular shots with elements of newly developed shots in case of confusion.

 The invention is illustrated by drawings.

 In FIG. 1 shows the connection node (local increase) before docking and after undocking a projectile with a propelling charge; in FIG. 2 - part of the connection node (top view); in FIG. 3 - sleeve connection node (cross section); in FIG. 4 - connection node at the time of docking; in FIG. 5 - connection node after docking the projectile with a propelling charge; in FIG. 6 - connection node after a shot.

 The site of connection of the projectile with a propelling charge (Fig. 1-3) consists of a shank 2 installed on the bottom of the projectile 1 and a propeller 4 mounted on the charger 3 of the sleeve 5. The cylindrical parts of the shank are bounded by a flange 6 and side protrusions 7, while the shank cylinder a large diameter of 8 is located at the flange, and a shank cylinder with a smaller diameter of 9 is located in front of the side protrusions. The sleeve has a central hole 10, shaped slots in the form of a through 11 and a blind 12 intersecting grooves and a pair of opposed trimmed jumpers 13. A cylindrical groove 14 is made at the end of the sleeve coaxially to the central hole 14. The disk 15 is pressed against the sleeve on the other side by spring 16, which are located inside the charger tube.

 Before firing, to bring the shot into a unitary form, the projectile 1 is connected to the propellant charge 4 as follows.

The lateral protrusions 7 of the shank 2 are combined with the through groove 11 of the sleeve 5 and, overcoming the force of the compression spring 16, push the propellant to the stop in the projectile (Fig. 4), and then rotate it 90 ^° counterclockwise (when viewed from the right side). A cylinder of a shank with a smaller diameter of 9 enters the central hole 10 of the sleeve, and a cylinder of a shank with a large diameter of 8 located at the flange 6, into the groove 14 of the sleeve, while the cylinder of the shank with a large diameter abuts its end against the inner end of the groove of the sleeve, and the protrusions the shank - in the disk 15, preloaded by the spring 16. Two jumpers 13, cut to the diameter of the protrusions, allow the shank to rotate to align the protrusions with the blind groove 12. When removing the axial load, the force of the spring 16 ensures the entry of the protrusions of the tail and a hollow groove 12, and clipped webs 13 of the sleeve 15 and the drive - locking projections in the sleeve (Figure 5.).

The separation of the projectile from the projectile during the shot is as follows. When fired, powder gases press on the bottom of the projectile and push it along the barrel. When the gun reaches a pressure of 25-40 kgf / cm ² , the weakened section D of the shank neck breaks (Fig. 6) and the projectile begins to move along the bore. The remaining part of the shank, fixed by its protrusions in the sleeve of the charger, after firing a shot is extracted from the gun’s chamber together with the charger.

If the shooting is canceled, then the separation of the projectile from the propellant charge is as follows. Overcoming the force of the spring, the propelling charge is pressed against the projectile until it stops and rotate it 90 ^° clockwise (when viewed from the right side). When turning, the shank protrusions come out of the blind groove and fall into the through groove of the sleeve, after which the shell and the propellant are separated.

 The introduction of two cylinders into the shank design, the grooves in the sleeve, as well as the corresponding selection of cylinder heights and grooves, made it possible to exclude the mating of regular shells with new propelling charges and new shells with standard propelling charges.

Additional technical results in the implementation of the proposed technical solution in the newly developed shots were:
the use of blanks from standard products;
unification of a number of standard parts (disk, springs, etc.);
conducting the manufacture of parts of the connection unit according to a single technological process;
preservation of the range of materials used;
use of unified equipment, measuring and cutting tools;
maintaining the achieved level of manufacturability.

Claims (1)

 The site of the connection of the projectile with a propelling charge, consisting of a shank installed on the bottom of the projectile with lateral protrusions, the cylindrical part of which is limited by the flange and protrusions, and a sleeve fixed to the projectile propellant charger with a central cylindrical hole, shaped slots in the form of through and blind intersecting grooves and cut the diameter of the shank protrusions with a pair of opposite jumpers, characterized in that the cylindrical part of the shank is made stepped in the form of two cylinders of different diameters, and the diameter of the cylinder located at the flange is larger than the diameter of the central bore of the sleeve, but smaller than the diameter of the shank protrusions, and a cylindrical groove is made on the side of the end of the sleeve and coaxially with its central hole, while its diameter is larger than the diameter of the larger cylinder located at the flange shank.

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