RU64751U1 - Grenade launcher - Google Patents

Abstract

The utility model relates to the field of armaments, in particular, to grenade launchers, which are intended to be used as independent shooting complexes for firing from ground positions, as well as shooting systems mounted on various carriers. The essence of the utility model is that the grenade launcher contains a grenade launcher and a movable top machine with a vertical guidance mechanism, articulated through a clip with a fixed supporting part. The clip is made in the form of a cylindrical hollow rack equipped with a rotation lock of the upper machine in the horizontal plane and a stopper for its vertical movement. The fixed support part is made in the form of a pin with ring belts. The latch and stopper are mounted on a cylindrical hollow rack with the possibility of interaction with the annular belt of the pin. The gap between the annular belts and the inner surface of the cylindrical hollow pillar and the distance between the annular belts are selected based on the required total dispersion of the grenade launcher using a certain relationship. The grenade launcher is equipped with a cartridge case in the form of a container for collecting shells and an S-shaped sleeve connected to it. The implementation of the utility model allows to increase the dispersion stability when firing from a place and in motion while reducing the time for putting the grenade launcher into combat readiness and ensuring the safety of use when firing. 1 s.p. f-ly, 4 ill.

Description

The utility model relates to the field of armaments, in particular, to grenade launchers, which are intended to be used as independent shooting complexes for firing from ground positions, as well as shooting systems mounted on various carriers.

Known automatic grenade launchers, such as AGS-17, CiS 40 AGL, etc. (see the book "Weapons of infantry." Murakhovsky VI, Fedoseev SD: Arsenal-Press. - 1997. - P 311, 319) . The complex includes a machine with a fixed and a rotatable part, sighting devices, a magazine for cartridge cartridge. In the complex, the magazine for cartridge cartridge is made in the form of a metal box-container, rigidly fixed to the receiving window of the grenade launcher box.

During the shooting, the mass of the store changes due to the consumption of grenades. Moreover, the mass of the store filled with grenades is commensurate with the mass of the grenade launcher, and the mass of the empty store is quite small. Structurally, the center of mass of the store is located on the side-bottom of the grenade launcher, where the common center of mass of the grenade launcher and the store is shifted, and the magnitude of the offset depends on the filling of the store with grenades. In this regard, when firing from a grenade launcher, a difference arises in the position of the center of mass of the machine-grenade-magazine system and in the magnitude of the moment of inertia of the system relative to the reference points of the machine on the ground. This leads to a change in the magnitude of the recoil force of the grenade launcher, perceived by the machine, and the nature of the oscillations of the latter in the horizontal and vertical planes of fire, which, in turn, as the grenades are consumed in the store, changes the position of the midpoint of the grenade’s hit in the burst of shots, worsens the dispersion characteristics. Almost due to the lack of sighting devices for automatic compensation of the mass of the store when aiming a grenade launcher, especially at maximum ranges

firing, it’s rather difficult to ensure that the target is hit from one shot round, which takes time to adjust the aiming, increased ammunition consumption and, ultimately, reduces the combat effectiveness of the complex.

Also known is a grenade launcher according to patent RU 2202090, selected as a prototype, which contains a tripod machine with a swivel, a grenade launcher mounted in the front and rear attachment points, a grenade launcher control handle when firing, a trigger with a bracket, while the front attachment point is made on a retractable stand the vertical part of the body of the vertical guidance mechanism, and the rear mounting unit has two trunnions on the sides of the receiver grenade launcher. The grenade launcher and the machine can only be operated together. To prepare a grenade launcher for combat use, it is necessary to assemble a grenade launcher with a machine gun and sight, which takes a certain amount of time, and also install a grenade launcher on a carrier or soil, depending on the chosen shooting conditions. All this reduces firing accuracy due to the large dispersion of shells caused by an increase in the height of the line of fire and the difference in the elastic properties of the machine, installed either on the ground or on the vehicle body. In addition, when shooting from a carrier, the high kinetic and thermal energy of the extracted cartridges can cause damage to the carrier equipment and injuries to the crew.

The objective of the utility model is to eliminate these drawbacks, namely, increasing the efficiency of the grenade launcher.

The technical result of the utility model is to increase the dispersion stability when firing from a place and in motion while reducing the time to bring the grenade launcher into combat readiness, as well as ensuring the safety of use when firing.

The specified technical result is achieved by the fact that the top machine of the grenade launcher is mounted on a cylindrical hollow rack,

mated to a pin mounted on the carrier body. The mating of the rack and the pin occurs on two surfaces made in the form of annular bands on the pin. The horizontal rotation lock and vertical movement stopper are mounted on a cylindrical hollow column with the possibility of interaction with the upper ring belt of the pin. The clearance in the pair, as well as the distance between the annular bands on the pin, are selected based on the required total dispersion of the grenade launcher according to the following relationship:

0 <Δ / L≤γtr-γgr.

where: γtr. - the required total dispersion of the grenade launcher;

γgr. - dispersal of a grenade launcher;

Δ is the maximum gap between the annular belts and the inner surface of the cylindrical hollow rack;

L is the distance between the annular bands.

In the particular case of execution, the grenade launcher can be equipped with a sleeve collector in the form of a container for collecting shells and an S-shaped sleeve connected to it, configured to interact with the opening of the grenade launcher in the ejection area of the shells by means of a frame with a window and fixation on it using a spring-loaded latch. On the concave surface of the wall of the S-shaped sleeve located in the alignment of the frame window, flame-retardant shutters are made, and ejector windows are made on the convex surface of the wall.

The utility model is illustrated by drawings, where:

- figure 1 shows a General view of a grenade launcher mounted on the housing of a movable carrier;

- figure 2 is a diagram of a pair of racks with a pin;

- figure 3 - sleeve;

- figure 4 - placement of the grenade launcher on the carrier in the combat position;

- figure 5 is the same - top view.

The grenade launcher installation consists of a grenade launcher 1, a movable top machine 2 with a vertical guidance mechanism 3, a cylindrical hollow strut 4 with a rotation lock for the grenade launcher in the horizontal plane 5 and a vertical movement stopper 6, pin 7 with ring belts 8, a cartridge case 10 mounted on the grenade launcher by spring-loaded latch 11. The pin 7 is mounted on the housing of the carrier 9.

The rotation lock in the horizontal plane 5 interacts with the annular belt 8 of the pin 7 and, thereby, reduces the influence of the gap on the accuracy of shooting. The vertical movement stopper 6 eliminates the possibility of undocking the cylindrical hollow pillar 4 with the pin 7 when pointing the grenade launcher from the moving carrier due to its stop in the lower part of the annular belt 8. If necessary, the grenade launcher is removed from the pin 7, for which the vertical movement stopper 6 is released.

When preparing a grenade launcher for combat use, a cylindrical hollow strut 4 with the upper machine tool 2 is put on the pin 7 until the vertical movement stopper 6 interacts with the lower part of the upper ring belt 8. Then, the grenade launcher 1 is attached to the upper machine 2 with an aim and ammunition, after which the shooter carries out guidance, secures the grenade launcher horizontally with a rotation lock in the horizontal plane 5 and fires. The rotation lock in the horizontal plane 5 is also used to secure the grenade launcher during its transportation in the combat position.

Fastening is done by turning the handle of the latch 5, which acts as an actuator on the annular girdle 8, pressing it to the inner surface of the cylindrical hollow rack 4.

When using a grenade launcher in combat, the aforementioned latch 5 is released in motion, after which guidance is carried out and firing is opened. The required firing accuracy is achieved by the ratio of the gap Δ between the annular belts 8 and the inner surface of the cylindrical hollow pillar 4, which should be greater than zero, and the distance between the annular belts 8. The specified clearance Δ should ensure smooth grip of the grenade launcher horizontally with minimal play . For this purpose, the mating surfaces or one of them may also be made of antifriction material, or have an antifriction coating, or they must first be lubricated. The gap Δ and the distance L between the annular belts 8 are determined taking into account the magnitude of the required total dispersion γtr., Which is composed of the intrinsic dispersion of the grenade launcher γgr. and the value of the ratio of the gap Δ to the distance between the bands L. The indicated values are among themselves in the following relationship:

0 <Δ / L≤γtr-γgr.

where: γtr. - the required total dispersion of the grenade launcher;

γgr. - dispersal of a grenade launcher;

Δ is the maximum gap between the annular belts and the inner surface of the cylindrical hollow rack;

L is the distance between the annular bands.

The sleeve 10 (figure 3) is a container for collecting spent cartridges with an S-shaped sleeve 12 located in its upper part,

which in the upper part is limited by the frame 13 with the window, and on the sides by the walls 14 and 15. The wall 14 is located in the alignment of the window of the frame 13, is right in relation to the direction of fire and has a concave surface with flame-retardant shutters made on it. The wall 15 is respectively left in relation to the direction of fire and has a convex surface with ejector windows made on it. This embodiment of the S-shaped sleeve provides the removal of flame and the quenching of the kinetic energy of the sleeves.

The frame 13 of the cartridge case 10 mates with the opening of the grenade launcher 1 in the ejection area of the cartridges. The frame 13 is fastened by installing it on the front 16 and rear 17 yoke of the grenade launcher 1 and fixing the spring-loaded latch 11. The spring-loaded latch 11 is mounted on the frame 13 with the possibility of interaction with the rear yoke 17.

When firing from the carrier, the cartridge case 10 protects the crew and equipment from the effects of spent cartridges, which increases safety when firing from a grenade launcher.

To bring the grenade launcher 1 to alert when firing from the ground, it is necessary to depress the spring-loaded latch 11 of the frame 13 of the sleeve 10 and disconnect it from the grenade launcher 1.

Using a utility model allows one to achieve dispersion stability, i.e. the same accuracy when shooting both from a place and in motion, which, in turn, allows the use of a grenade launcher for combat operations from a mobile carrier and increases the combat effectiveness of not only the grenade launcher, but also the combat vehicle as a whole. In addition, the time for preparing the grenade launcher for combat use is reduced, its transportation is ensured not in laying inside the combat vehicle, but outside in a state of combat readiness, and safety of use when firing.

Claims (2)

1. Grenade launcher, mainly for mobile carriers, containing a grenade launcher, a movable top machine with a vertical guidance mechanism, pivotally connected to a stationary support part, characterized in that it is equipped with a cylindrical hollow rack, a rotation lock of the upper machine in the horizontal plane and a stopper for its vertical movement while the upper machine is mounted on a cylindrical hollow rack designed to interact with the stationary supporting part, the latter is made in the form of a pin with annular belts, and the said retainer and stopper are mounted on a cylindrical hollow pillar with the possibility of interaction with the annular belt of the pin, and the gap between the annular belts and the inner surface of the cylindrical hollow pillar and the distance between the annular belts are selected based on the required total dispersion of the grenade launcher using the following dependencies: 0 <Δ / L≤γtr-γgr where γtr is the required total dispersion of the grenade launcher; γgr - dispersal of a grenade launcher; Δ is the maximum gap between the annular belts and the rack; L is the distance between the annular bands. 2. Grenade launcher according to claim 1, characterized in that it is equipped with a sleeve collector in the form of a container for collecting shells and an S-shaped sleeve connected to it, configured to interact with the opening of the grenade launcher in the ejection area of the shells by means of a frame with a window and fixing on it with the help of a spring-loaded latch, while on the concave surface of the wall of the S-shaped sleeve, located in the alignment of the window frame, flame-retardant shutters are made, and ejector windows are made on the convex surface of the wall.