RU2122169C1 - Breechblock for caseless artillery gun - Google Patents

Abstract

FIELD: artillery equipment. SUBSTANCE: breechblock for caseless artillery gun with an axial breech hole has a guide in the bore located across the breech hole, a breechblock in the form of a leading part moving along the guide, and an elastic-plastic obturator. The breechblock is furnished with a frame with a mushroom-shaped rod terminating in a sledge plate carrying the obturator. The frame is linked with the breech through a guide couple aligned with the breech hole and made in the form of movable and fixed parts relative to the breech. The movable part of the guide couple is additionally linked with the breech by a cam couple and can be turned relative to the guide couple. EFFECT: enhanced rate of fire reliability and safety of use of artillery gun. 7 cl, 5 dwg

Description

 The invention relates to defense technology, and more specifically, to artillery shellless shells. In case-free artillery guns, shutter mechanisms with an elastoplastic shutter are used. The bolt mechanism of the breech-loading mortar is known, where the barrel bore is locked before firing by means of an elastoplastic obturator of the Banja type previously inserted into the barrel bore and a breech connected to the gun carriage. The barrel bore is locked when the breech of the barrel with the obturator tangentially enters the breech grooves. Such a solution, which is used for towed systems, has not been used in self-propelled armored guns (see. "Service Manual 160-mm M-160 Mortar", Military Publishing, 1955).

 Also known shutter mechanism for artillery shellless loading guns, adopted as a prototype (US patent N 4308785 class. F 41 A 3/12, 1982). This bolt mechanism for a gun barrel having an axial breech hole contains a guide whose axis is located across the breech hole next to it, and translationally moving along the guide bolt, having a leading part and a shutter, which are interconnected by an articulated lever. These two parts of the shutter are mutually contacted on a stepped surface in two different gears.

 At the first engagement, the breech hole is open, at the second - closed. The transition from the first engagement to the second occurs when the stepped surface is moved one step. Between the obturator and the guide there is a cam, which restricts the movement of the obturator when the leading part of the shutter moves across the breech hole along the guide. At the same time, the obturator is forced to move along the arc segment, passing at one end into the axis of the guide, and at the other into the axis of the gun barrel. This invention is based on the idea of a transversely sliding shutter mechanism, which closes the breech of the barrel along the axis and uses a conventional elastic-plastic obturator, including the Bunge type. However, such a device of the bolt mechanism has a number of drawbacks, the most significant being that before starting the translational movement of the bolt along the guide across the axis of the bore hole, it is necessary to completely fire a barrelless shot into the bore and securely fix it at different angles of elevation of the barrel. As a result of these following sequential operations, the rate of fire of the artillery gun is reduced.

 An object of the invention is to reduce the time for loading a shot of a sleeveless loading and locking the bore.

 The technical problem is solved by the proposed design of the bolt mechanism of an artillery gun having an axial breech hole containing a guide in the breech of the barrel, located across the breech hole next to it, the shutter in the form of a leading part, translationally moving along the guide, and an elastic-plastic shutter, equipped with a frame with a mushroom rod, ending with combat tile and on which an elastic-plastic obturator is placed, and the frame is connected to the breech of the barrel by means of a coaxial bore hole stiyu guide pairs as movable and fixed relative to the breech parts for reciprocating movement relative thereto, furthermore, the movable part of the guide pair is further connected with the breech by means of a guiding pair and being rotatable relative to the guide axis pairs.

 The guide pair is made in the form of two coaxial cylinders located inside the cylindrical bore of the breech, and the inner cylinder is fixed rigidly on the breech of the gun, and the outer one is movable, carries a frame with a mushroom rod and contains a roller included in the groove of the copier pair, and the groove of the copier pair made on the breech in the form of longitudinal and inclined relative to the axis of the guide parts. The inner cylinder can be made in the form of a hollow rod with bulges in the outer part.

 To facilitate the process of loading the shot and locking the bore, the bolt mechanism is equipped with a compressed air supply system from an external source in the form of control electro-pneumatic valves and contacts, sending and folding pipes ending with a pin with compressed air supply channels, the outer part of the pin and the inner cavity of the rod forming a detachable the coupling, the frame folding pipe is connected through the internal cavities of the pin and rod with the rear cavity of the outer cylinder, and the frame sending pipe is connected through the second the channel of the pin and part of the internal cavity of the pin is connected to the front cavity of the outer cylinder, in addition, the control electro-pneumatic valves through the contacts on the breech are connected with the leading part of the shutter.

 To purge the bore and remove unburned remnants of the propellant charge, the bolt mechanism is additionally equipped with a time relay, nozzles located on the inside of the guide and connected to the compressed air supply system with a pneumatic clutch, one of the moving parts is mounted on the breech, the other on the cradle of the gun.

 To ensure a more reliable locking of the bore, the contact surface of the leading part and the guide is made inclined to the axis of the breech hole, i.e. the leading part is made in the form of a wedge.

 For artillery guns using shots with propelling charges placed on the charger, and for their subsequent extraction after firing through a breech hole on the combat tile, an area of 0.4 ... 0.7 in diameter was guided under the notch of the charger.

 For artillery systems that do not have sources of compressed air, usually towed, the guide pair can be significantly simplified and made in the form of a movable cylinder, bearing a frame with a mushroom-shaped rod and placed inside the cylindrical bore of the breech.

 With this arrangement of the bolt mechanism, it is not necessary to first fully insert the shellless loading elements into the bore, since the firing is carried out directly when moving the bolt frame with an elastoplastic obturator along the axis of the bore and then locking it when moving the leading part along the breech guide. In addition, the extraction of propellant elements (chargers) from the barrel channel and purging of the barrel channel from unburned remnants of the propellant charge are ensured, which is essential for artillery systems using ammunition with ready-made projections on the projectile and fledged regular ammunition.

 As a result, the proposed implementation of the bolt mechanism increases the rate of fire, reduces the energy consumption of personal calculation and increases the reliability and safety of operation.

 Figure 1 shows a right view; figure 2 is a rear view of the breech of the guns; figure 3 is a guide pair with a frame and shutter; figure 4, 5 - the main elements of pneumatic equipment.

 The main elements of the bolt mechanism of the artillery guns contain a cradle 1 guns, barrel 2 with breech 3 and a guide 4 in the breech of the barrel, located across the breech hole next to it, the leading part 5, translationally moving along the guide and made in the form of a wedge, elastoplastic obturator 6, placed on the mushroom-shaped rod 8, ending with a combat tile 9, frame 7, the movable part of the guide pair 10, located coaxially to the breech hole and included in the cylindrical bore of the breech (its axis 12, the axis of the can shaft barrel - the axis of the bore hole 13), shellless loading ammunition on the sending line 11, the copy pair roller 14, the outer one is movable 15 and the inner one is fixed relative to the breech, 16 cylinders of the guide pair with a frame and a shutter, an inner cylinder in the form of a hollow rod with thickenings, flats for fastening the inner cylinder to the breech 17, the front cavity of the outer movable cylinder 18, the back cavity of the outer movable cylinder 19, the compressed air supply line from an external source 20, electro-pneumatic valves 21, pipeline d frame Shortcuts 22, tilting frame pipe 23, a pin with a compressed air supply channel 24, nozzles 25, the movable part pnevmomuftoy (mounted on the breech) 26, the fixed part pnevmomuftoy (mounted on the cradle guns) 27, a purge line with a solenoid-and-time relay 28.

 The operation of the proposed device is as follows.

 Ammunition loading.

 Frame 7 is in the extreme left position. The dotted line in figure 1 shows one of the intermediate positions of the ammunition when loading. The front part of the ammunition is introduced into the barrel bore and centered there, the rear part is laid on the back of the breech on a tray with a spring-loaded holder, which ensures its fixation from moving backwards. The leading part (wedge) 5 is located in the guide 4 in its lowest position, which does not prevent the passage of ammunition into the bore 2. When the hands are charged with force, the frame 7 is moved along the axis of the bore to the ammunition and then together until the elastoplastic obturator fits into the conical ramp barrel 2. In this case, the spring-loaded drive part 5 is released, and when moving up, it additionally compresses the elastic-plastic obturator 6 through the lower end of the frame 7, thereby ensuring reliable locking of the channel ol. By means of a system of devices located in the breech 3, the leading part (wedge) 5, the mushroom-shaped rod 8 and the war plate 9, the corresponding initiation of the propellant charge of the ammunition is provided and the gun is fired accordingly.

 When firing after the rollback of barrel 2 with breech 3 during rolling, a leading pair (wedge) 5 is forcedly moved down with the help of a carbon pair and locked in this position. Devices for this are widely known in wedge-locked artillery and are not considered in detail here.

 Frame 7 is manually retracted.

 For artillery systems using ammunition with a propelling charge placed on chargers and requiring their extraction, a section 0.4–0.7 of its diameter is guided under the recess of the charger on the combat tile. When transferring the frame 7 to its original position, the charger with the help of the guide section on the combat tile is connected to the mushroom-shaped rod 8 and is extracted from the barrel 2 of the gun. The ratio is determined experimentally. The operation of the proposed bolt mechanism has been verified by numerous firing, and its high reliability and effectiveness have been confirmed.

 The guide pair, made in the form of two coaxial cylinders 15, 16 located in the cylindrical bore of the breech, with a rigidly fixed inner cylinder on the breech of the gun and a movable outer bearing frame 7 with a mushroom rod 8 and a copy roller 14, which is included in the groove of the copier pair, which made on the breech in the form of a longitudinal and inclined relative to the axis of the guide pair of parts, provides rotation of the shutter frame from the charging line when moving it to its original position.

 The guide pair can also be made in the form of a movable cylinder bearing a frame with a mushroom-shaped rod and placed inside the breech bore.

 When using compressed air, the functioning of the proposed device is as follows.

 Ammunition loading.

 The frame 7 is in the extreme left position and rotated around the axis 12 in such a way that it completely frees up space for the unhindered passage of ammunition along the axis 13 of the bore 2. The dashed line in Fig. 1 shows one of the intermediate positions of the ammunition during loading. The front part of the ammunition is introduced into the barrel bore and centered there, the rear part is laid on the back of the breech on a tray with a spring-loaded holder, which ensures its fixation from moving backwards. The leading part (wedge) 5 is in the guide 4 in the lowest position that does not prevent the passage of ammunition into the bore 2. When sending a command to the electro-pneumatic valve of the sending 21 through the pipeline sending the frame 22 air through the channel of the pin 24 located on the cradle 1 and part of the internal cavity the rod 16 and the side holes therein enters the front cavity of the external movable relative breech 18 of the cylinder 15 and moves the frame 7 with the bolt to the munition and then together with them until the elastoplastic obturator comes into contact with onic slope of the barrel 2. At the same time, the spring-loaded drive part 5 is released, and when moving up, it additionally compresses the elastic-plastic obturator 6 through the lower end of the frame 7, which ensures reliable locking of the barrel channel. By means of a system of devices located in the breech 3, the leading part (wedge) 5, the mushroom-shaped rod 8 and the war plate 9, the corresponding initiation of the propellant charge of the ammunition is provided and the gun is fired accordingly. These devices in the shock method of transmitting an impulse can be similar in the already known mortar.

 When firing after the rollback of barrel 2 with breech 3 during rolling with the help of photocopiers, the leading part (wedge) 5 is forcedly moved down and locked in this position. Devices for this are widely known in wedge-locked artillery and are not considered in detail here.

 In this case, by means of contacts and electro-pneumatic valves, compressed air enters through the frame tilt 23 through the internal cavities of the pin 24 and the rod 16 into the rear cavity of the outer cylinder 19 and moves (tilts) the frame back. The roller 14 moving at the beginning along the longitudinal and then along the inclined part of the copier groove provides the appropriate orientation of the frame 7. At the same time, through the contact of the leading part (wedge) 5 with the electro-pneumatic valve, a signal is sent to the time relay of the purge system 28, air enters through pipelines and nozzles 25 in the bore. After completion of the time set in the relay, the barrel bore is completed and the gun is ready for the next shot.

Claims (7)

 1. The bolt mechanism for artillery shellless loading guns having an axial breech hole containing a guide in the breech of the barrel, located across the breech hole next to it, a bolt in the form of a leading part, translationally moving along the guide, and an elastoplastic seal, characterized in that it is equipped a frame with a mushroom-shaped rod ending in combat tile, on which an elastoplastic obturator is placed, the frame is connected to the breech of the barrel by means of a coaxial bore hole apravlyayuschey pair of fixed and movable relative to the breech part, and with the possibility of reciprocating movement relative thereto, the movable part of the guide pair is further connected with the breech by means of a guiding pair and being rotatable about the axis of the guide pair.  2. The bolt mechanism according to claim 1, characterized in that on the combat tile from the outside, a section 0.4 to 0.7 in diameter is guided under the recess of the charger.  3. The bolt mechanism according to claim 1 or 2, characterized in that the guide pair is made in the form of two coaxial cylinders placed in the cylindrical bore of the breech, the inner cylinder being fixed rigidly to the breech of the gun, and the outer one is movable, carries a frame with a mushroom rod and equipped with a roller included in the groove of the copy pair, while the groove of the copy pair is made on the breech in the form of a longitudinal and inclined relative to the axis of the guide pair of parts.  4. The bolt mechanism according to claim 3, characterized in that the inner cylinder is made in the form of a hollow rod with a thickening in the outer part.  5. The shutter mechanism according to any one of claims 1 to 4, characterized in that it is equipped with a compressed air supply system from an external source in the form of control electro-pneumatic valves and contacts, sending and folding pipes, ending with a pin with compressed air supply channels, the outer part the pin and the inner cavity of the rod form a detachable sleeve, the frame folding pipe is connected through the internal cavities of the pin and the rod to the rear cavity of the outer cylinder, and the pipeline for sending the frame through the second channel of the pin and part of the inner The lower cavity of the stem is connected to the front cavity of the outer cylinder, while the control electro-pneumatic valves are connected through the contacts on the breech to the leading part of the shutter.  6. The shutter mechanism according to any one of claims 1 to 5, characterized in that it is equipped with a time relay and nozzles, while the nozzles are located on the inside of the guide and are connected to the compressed air supply system with a pneumatic coupling, one of the moving parts of which is fixed to the breech, another on the cradle of the gun.  7. The bolt mechanism according to claim 1, characterized in that the guide pair is made in the form of a movable cylinder bearing a frame with a mushroom-shaped rod and placed inside the breech bore.

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