RU2796065C1 - Multi-barrel projector - Google Patents

Abstract

FIELD: weaponry.

SUBSTANCE: multi-barrel projector consists of a body with barrels installed in a base plate, vertical and horizontal aiming mechanisms, a tripod, and a running gear. Five barrels are rigidly installed in the body, and in the muzzle part, the receiving body is movably hinged with a latch and a possible deviation of 90°, in which the barrels of the identical caliber of the barrels of the body are rigidly fixed, the inner diameter of which is increased by 1 mm. In the combat position, the barrels of the receiving body are a continuation of the barrels. In the ribs of each barrel of the receiving body there is a cut-out window, where a movable safety lock is installed on the axis to hold the mine in the body barrel, including a blade, a stopper spring-loaded with a stop, and an injection chamber with a piston. The injection chambers along the perimeter are sequentially connected by branch pipes with adjacent barrels, forming a system of injection channels. The movable safety lock of the central barrel has a manual trigger. The running gear has left and right independent wheels fixed in beam bearings, which are fixed with stops in the traveling position. The receiving body is made in the form of a capping container, in the barrels of which rounds are placed, fixed in the traveling position by a thrust sleeve in the spacer and fixed by a shut-off valve.

EFFECT: increasing the rate of fire, an improvement in the combat effectiveness of the projector.

1 cl, 4 dwg

Description

The invention relates to artillery weapons, namely mortars.

Known 120-mm mortar M84 of the Spanish company ECIA. The mortar contains a barrel, a plate, a tripod, a sight. The mortar barrel on the outer surface has a cylindrical guide surface, on the lower part of the barrel there is a breech with a ball bearing. The plate is round with a central spherical cup. To secure the barrel with the breech in the plate, the spherical cup has a depth somewhat greater than its radius, and the barrel support included in the cup has an inclined cylindrical flat that allows you to fix and disconnect the barrel with the breech in one specific non-working position. A feature of the mortar is the use of a tripod as the front support of the barrel. The tripod inside the front leg contains a screw lifting mechanism, a swivel with a screw turning mechanism and a sight is fixed at the end of the screw of the lifting mechanism. There is a clip on the swivel, in which the barrel is placed with its cylindrical guide surface with the possibility of longitudinal and rotational movement relative to the clip both when pointing and when firing. This mortar is loaded from the muzzle with feathered mines ("Military Technology" 1986, vol. 10, No. 10, pp. 260-262.).

The disadvantage of this mortar is the low rate of fire due to manual loading, the difficulty of loading ammunition that has a large mass and size.

A well-known design of a domestic 82 mm mortar (see Technical description and operating instructions 2B14-1.00 TO, Military Publishing House of the USSR Ministry of Defense, 1990, p. 6 ... , and a ball heel with a cylindrical groove made on it, a base plate with a ball socket in the center for placing and fixing the breech ball heel and an inlet equal to the diameter of the cylindrical groove of the ball heel, and a bipedal carriage containing vertical guidance mechanisms (VH) and horizontal guidance (GN) with L-shaped handles, equipped with a hub with a counterweight, a clip, a shock absorber, a sight mount, two racks.

In this mortar, the pipe is also several times longer than the length of the mine and is rigidly connected to the threaded breech, the shock absorber contains a rod fixed at one end in the body of the GN mechanism, and at the other, equipped with a guide sleeve, in the hole of the body, made in the form of a hollow cylinder installed parallel to the pipe in a hole located at the bottom of the cage, and a spring installed between the end face of the guide sleeve and the bottom of the cylinder. The clip is made for rigid fastening of the pipe in it and consists of a semi-clip, a basting and a clamp. The lower ends of the posts are interconnected by a chain, the leveling mechanism is fixed on the middle part of one of the posts and is connected by a movable part to the body of the VN mechanism with the possibility of quick detachment, and the attachment point of the sight is located on the body of the GN mechanism.

Such a mortar has less mobility, due to the large mass and the need to carry its components separately, requiring a large combat crew (five people).

The invention of the mortar was adopted as a prototype. The mortar barrel with a breech and a ball bearing is made in the form of a capping container, in which a shot is placed. A guidance mechanism and a clip equipped with a basting with a spring-loaded latch are fixed on the tripod. The plate for the ball bearing is made with a spherical cup, the depth of which is equal to or less than its radius. The use of the invention allows to increase the rate of fire and mobility of firing ammunition of increased sizes and masses. (Patent RU 2121643 IPC F41F1/06, published 11/10/98).

The disadvantage of the invention is that the replaceable barrel-container needs to be installed on a tripod-carriage, this takes time and the difference in loading time between the mine and the barrel-container is almost the same, so it is unlikely that there will be a big gain when loading.

The purpose of the invention is to increase the combat rate of fire. This is achieved by the fact that on the mortar, consisting of a body, devices and guidance mechanisms, a plate, a tripod, a sight, a running gear, five barrels are additionally rigidly installed in the body, and a receiving body with a latch and a possible rotation on 90°, in which the barrels of identical caliber of the hull barrels are rigidly fixed, the inner diameter of which is increased by 1 mm, and in the combat position they are their continuation, the axes of which coincide with the axes of the hull barrels. In the tides of each barrel of the receiving body there is a cut-out window, where a movable fuse is installed on the axis to hold the mine in the body barrel, including a blade, a stopper spring-loaded with a stop and an injection chamber with a piston. In this case, the injection chambers are connected in series by branch pipes with adjacent shafts, forming a system of injection channels. The undercarriage has left and right independent wheels fixed in beam bearings, which are fixed with stops in the stowed position. The receiving body is made in the form of a capping container, in the barrels of which shots are placed, fixed in the stowed position by a thrust sleeve in the spacer and fixed by a shut-off valve. This allows you to transport a multi-barreled mortar with shells over short distances.

In FIG. 1 shows a general view of a multi-barreled mortar with a receiving body in the loading position; in fig. 2 front view; in fig. 3 multi-barreled mortar in the stowed position; in fig. 4 shows: a) a stopper, b) a stopper with a latch.

The mortar contains a body 1 (Fig. 1) with barrels installed in the base plate 13, mechanisms for vertical 8 and horizontal aiming 14 (Fig. 2), a tripod 9, a running gear, characterized in that five barrels 16 are additionally rigidly installed in the body 4 (Fig. 2), as well as in the muzzle, a receiving body 4 is movably hinged on hinges with a latch 3 and a possible rotation of 90 °, in which barrels 16 of identical caliber barrels of the body are rigidly fixed, the inner diameter of which is increased by 1 mm, and in combat position, which are their continuation, the axes of which coincide with the axes of the hull barrels, in the tides of each barrel of the receiving hull there is a cutout window 21, where a movable fuse is installed on the axis 19 to hold the mine in the hull barrel, including a stopper blade 17, spring-loaded with a stop 20 and an injection chamber with a piston 18, while the injection chambers 18 along the perimeter are sequentially connected by nozzles with adjacent shafts, forming a system of injection channels, the movable guard of the central barrel has a manual trigger lever 15, the chassis has left and right independent wheels 12 fixed in the bearings of the beams 10, which are in the position are fixed by stops 11, in addition, the receiving body 4 is made in the form of a capping container, in the trunks of which shots 5 are placed, fixed in the stowed position by the thrust sleeve 6 in the spacer and fixed by the shut-off valve 7.

The device works as follows. In the combat position, the base plate is installed 13 is installed on the ground. Wheels 12 with beams 10 and stops 11 are fixed on the body 1. A tripod 9 is installed and using the mechanisms of vertical 8 and horizontal aiming 14, the body 1 with the barrels is set in a predetermined position. The shut-off valve 7 and the thrust sleeve 6 are removed. To fire a shot, the operator quickly presses the trigger lever 15. At the same time, the blade-stopper 17 of the fuse is recessed into the window cutout, and the mine falls under its own weight into the central barrel, while the cap of the expelling charge impales on the drummer, occurs shot. When a mine moves along the bore during a shot with powder gases breaking through the gap between the guide belt of the mine and the surface of the mortar tube channel, the blade - stopper 17 of the fuse is tilted into the window cutout, while the mine freely flies out of the barrel, and the blade-stopper 17 of the fuse returns to the initial state under the action of a spring-loaded stop 20. At the same time, the gas pressure in the barrel through the nozzle presses on the piston of the injection chamber 18 of the adjacent barrel. the charge impales on the drummer, a shot occurs. In this case, the gas pressure in the second barrel through the nozzle presses on the piston of the injection chamber 18 of the third barrel, a shot is fired from the third barrel and thus, in order, one after another, shots are automatically fired alternately from all barrels. What ensures the high rate of fire of the mortar.

After the burst of shots, the mortar is loaded. For this purpose, with the help of a latch 3, the receiving body 4 is opened and the mines are alternately laid in the barrels 16 and held in a charged state by the blades-stoppers of the barrels 17. Later, the receiving body is closed and fixed by a latch in a combat-ready state. Shooting is carried out in the manner described above.

At the end of the firing, the multi-barreled mortar is transferred to the traveling state. For this purpose, the receiving body 4 is opened with a latch 3. The barrels 16 are checked for charge, if there are mines held by the shoulder blades of the barrels 17, a thrust sleeve 6 is installed and closed with a gate valve 7. Then the receiving body 4 is fixed with a latch 3. The undercarriage is installed. To do this, wheels 12 with beams 11 are installed from the body 1 in the stowed position and fixed with stops 10. To move, the multi-barreled mortar is attached to the machine with the help of a pivot beam.

EFFECT: invention makes it possible to significantly increase the rate of fire, by the fact that a package of mortar barrels is installed in the hull, which fire alternately automatically. In addition, an additional body is used as a closure and allows one set of shells to be carried in the barrels. All this improves the combat effectiveness of the mortar.

Claims (1)

SUBSTANCE: multi-barreled mortar contains a body with barrels installed in a base plate, vertical and horizontal aiming mechanisms, a tripod, a chassis, characterized in that five barrels are additionally rigidly installed in the body, and also in the muzzle part, a receiving body with a latch and a possible deflection by 90°, in which the barrels of the identical caliber of the hull barrels are rigidly fixed, the inner diameter of which is increased by 1 mm, and in the combat position they are their continuation, the axes of which coincide with the axes of the hull barrels, in the tides of each barrel of the receiving hull there is a cut-out window where a movable fuse is installed on the axis to hold the mine in the hull barrel, including a blade, a stopper, spring-loaded with a stop, and an injection chamber with a piston, while the injection chambers along the perimeter are sequentially connected by nozzles with adjacent trunks, forming a system of injection channels, the movable central barrel fuse has a manual the trigger lever, the chassis has left and right independent wheels fixed in the bearings of the beams, which are fixed with stops in the stowed position, in addition, the receiving body is made in the form of a capping container, in the trunks of which shots are placed, fixed in the stowed position by the thrust sleeve in the spacer and secured with a shutter.

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