RU2542782C1 - Bolt for artillery-type weapon and caseless loading - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: bolt of artillery-type weapon contains a wedge inside of which located is piston-shutter with possibility of movement under closed wedge along barrel channel axis to the chamber and its locking before a shot, and in breech installed are an additional wedge with its drive and an extractor, interacting with piston-shutter and additional wedge. Piston-shutter on a part of its length from the chamber side is designed hollow with possibility of partial location of charge in it after chamber locking. For chamber locking before a shot, a wedge with piston-shutter moves to the chamber by breech guide, and axis of piston-shutter coincides with the barrel channel axis. Then additional wedge with its drive moves to closed position along another breech guide, during this movement it displaces piston-shutter along the barrel channel axis from the wedge to the chamber using extractor, thus forming tension between chamber walls and piston-shutter and locking thus the chamber. Charge in it is introduced partially into the piston-shutter, and upon shot powder gases generate pressure on its walls.

EFFECT: improving reliability of powder gases shuttering in sliding wedge of artillery-type weapon of caseless loading.

2 cl, 1 dwg

Description

The invention relates to artillery technology and can be used in field artillery, tanks and in the CAO.

Known piston locks for artillery pieces, in which when loading are used shellless charges, i.e. cartridges, wedge bolts are also known (see MF Samusenko, MI Emelin, “Fundamentals of the design of artillery armament for tanks and self-propelled artillery installations”, Moscow. - 1958, p. 103). The disadvantage of piston locks is the long time required to close and open the shutter, because it is necessary to combine the axis of the piston with the axis of the channel of the gun barrel and screw or unscrew the piston into the cutting chamber, which prevents an increase in rate of fire.

The disadvantage of wedge gates is the practical impossibility of sleeveless loading, because in this case, reliable obturation (the absence of a breakthrough from the chamber) of the powder gases is not ensured.

Closest to the claimed invention in terms of essential features is a bolt mechanism for artillery shellless loading guns (patent RU 2122169 C1, 1998.11.20). In this mechanism, the leading part of the shutter moves along the guide inside the breech perpendicular to the axis of the bore (axis of the bore hole). The mechanism is equipped with a frame including an elastoplastic obturator and a guide pair connected to the breech, the part of the guide pair that is movable relative to the breech moves coaxially with the axis of the barrel channel (bore hole axis) and additionally has the ability to rotate relative to its axis of movement using a copier on the breech.

The disadvantage of this shutter mechanism is the lack of reliability of the obturation of the powder gases with an elastoplastic seal.

The aim of the invention is to increase the reliability of the obturation of powder gases with a wedge bolt in artillery shellless loading guns.

This goal is achieved by the fact that a piston-sealer is placed inside the wedge with the possibility of moving it into the chamber of the gun barrel and locking it when fired, an additional wedge and an extractor are placed in the breech, with the help of which an additional wedge acts on the piston-sealer when locking and unlocking the chamber, and also a drive for moving an additional wedge, for example, using the energy of the rolling parts of the gun.

The wedge and the additional wedge in the process of locking and unlocking the chambers move along the guides in the breech almost perpendicular to the axis of the bore and in opposite directions. The piston-sealer in the wedge is hollow on a part of its length from the side of the chamber with the possibility of partial placement of a charge inside it and elastic deformation of its walls when moving along the axis of the bore from the wedge into the chamber during its locking and subsequent firing.

A new set of structural elements, as well as the presence of connections between them, allow, in particular, due to:

- to place the piston-sealer inside the wedge and the extractor and additional wedge interacting with the latter in the breech, move the piston-sealer from the wedge into the chamber when closing the additional wedge along the axis of the bore and lock it before firing, and also, when opening the additional wedge, move the piston - obturator from the chamber back into the wedge and unlock the chamber;

- installation in the breech of the drive, for example, using the energy of the rolling parts of the gun, move the additional wedge when it is closed and opened;

- execution of the breech with guides to move both wedges almost perpendicular to the axis of the bore and in opposite directions;

- make the piston-obturator hollow on a part of its length from the side of the chamber to partially place a charge inside it, as well as provide elastic deformation of its walls when moving from the wedge along the axis of the bore into the chamber during its locking and subsequent firing, i.e. taking into account the wedge and the additional wedge, increase the reliability of the obturation of powder gases in the chamber.

Figure 1 shows an example of the implementation of the proposed shutter artillery shellless loading (section in a vertical plane passing through the axis of the barrel). The barrel 1, having a chamber 2, is connected to the breech 3, in which the wedge 4 is placed, a piston-obturator 5 is installed inside the breech 5. An additional wedge 6 is also placed in the breech 3 and the extractor 7 is installed, having short and long shoulders. On the additional wedge 6 there is a stop 8, which interacts with the short arm of the extractor 7, and a two-sided stop 9, located on the piston-sealer 5, is in contact with the long shoulder of the extractor 7. In the wedge 4 there is a groove 10 for the long arm of the extractor 7 to enter and the stop 9, and the spring 11 presses the extractor 7 against the abutment 8 of the additional wedge 6. The breech 3 has guides for the wedge 4 and the additional wedge 6.

The shutter is as follows. To lock the chamber 2, the wedges 4 with the piston-shutter 5 drive are moved from the open position (i.e., from below the axis of the barrel 1) to the position shown in Fig. 1, while the axis of the barrel 1 and the piston-shutter 5 are combined. After that, the additional wedge 6 with its drive moves from the position shown in Fig. 1 (when it is open) to the lowest position. In this case, at the beginning of the stroke, an additional wedge 6 acts on its long surface on the long arm of the extractor 7, which contacts the bilateral stop 9 and, rotating on the axis, moves the piston-sealer 5 from the wedge 4 into the chamber 2. Then it makes contact with the bilateral stop 9 directly an additional wedge 6 of its lower, and then left side, surfaces, while the piston-sealer 5 completely enters the wedge 4 and the chamber 2. As a result, an interference is created between the walls of the chamber 2 and the piston-sealer 5. The charge (in Fig. 1 not shown) in amore 2 is partially located within the piston, the obturator 5 during the subsequent firing and the powder gases bursting wall of the latter, that in view of the action of the wedge and the wedge provides additional reliability obturation.

After the shot, the additional wedge 6 with its drive moves from bottom to top in the open position (shown in Fig. 1), at the end of its stroke, the stop 8 interacts with the short arm of the extractor 7 and when the latter is turned, its long shoulder, in contact with the bilateral stop 9, moves the piston - the obturator 5 from the chamber 2 to the extreme right position (shown in FIG. 1). After that, the wedge 4 with the piston-obturator 5 with its drive moves down to the open position, and then the ammunition is loaded into the chamber 2.

Claims (2)

1. Shutter artillery shellless loading guns containing a wedge, a drive to move the wedge, a piston-sealer, characterized in that the piston-sealer is located inside the wedge, has the ability to lock the chamber in the barrel after moving into it from the wedge along the axis of the bore, from the side the chambers are made hollow to a part of their length with the possibility of a partial placement of a charge inside it and the elastic deformation of its walls when the chambers are locked, an additional wedge, an extractor, are placed in the breech with which you can add ny wedge cooperates with obturator-piston for locking and unlocking the chambers, and an actuator for moving the additional wedge. 2. The barrelless artillery loading bolt according to claim 1, characterized in that the wedge and the additional wedge, when locking and unlocking the chambers, move along the guides in the breech almost perpendicular to the axis of the barrel channel in opposite directions.