RU2421676C1 - Grenade launcher system - Google Patents

Abstract

FIELD: weapons and ammunition. ^ SUBSTANCE: grenade launcher system includes reusable grenade launcher with sighting device, firing mechanism and docking assembly with ammunition in the form of a missile. Grenade launcher has the length which is not more than the half length of container, and firing mechanism and sighting device are fixed on opposite side surfaces of grenade launcher barrel. Docking assembly is made on grenade launcher with the housing containing internal cylindrical and conical sections from polymer material and slip rings installed in cylindrical section, as well as external section in which there is installed spring-loaded lever with fixing tooth passing through the slot made in the housing in cylindrical section between slip rings and conical section. On transport launch barrel there is wiping gland with outer conical and cylindrical sections mating with inner sections of housing of docking assembly on grenade launcher. Parallel longitudinal slots are made in cylindrical section of wiping gland with spring contacts arranged in them, which have flat sharp plates projecting beyond gland outer surface, and annular groove mating with the fixing tooth entering it. ^ EFFECT: military and operating weapon properties are improved. ^ 5 cl, 6 dwg

Description

The present invention relates to the field of weapons, namely, grenade launchers.

Known grenade launcher system, which includes an anti-tank missile located in a transport-launch container of single use, and sighting and launch equipment of multiple use, mounted on a launch container (Sample ALCOTAN-100, Instalasa, 50002, Zaragoza, - SPAIN), adopted as an analogue . In such samples, the container plays the role of a package that protects the missile components from damage during external influences during storage, transportation by various vehicles and people on the battlefield, during various impacts and possible falls during transportation.

At the same time, the container is a launching device that ensures the launch of the rocket in a given direction, as well as the accuracy of the target. In addition, the container protects the firing from the impact of a flame jet of a jet engine when the rocket is launched from the shoulder. The task of accurately aiming and issuing a command to launch the rocket is ensured by a sight with an initiating device (reusable), mounted on top of the transport and launch container.

Among the drawbacks of this design is the difficulty of basing the sight on the container, which allows for pairing with the required accuracy of the line of sight of the target, which determines the direction to the target, and the axis of the channel of the container, which determines the direction of flight of the rocket. The resulting pairing errors can lead to a decrease in the accuracy characteristics of the weapon.

Known grenade launcher system containing a reusable rocket launcher and shots in replaceable disposable transport and launch containers, for example, such as a sample SMAW WEAPONS SYSTEM (Firm MCDONNEL DOUGLAS ASTRONAUTICS COMPANY, P / O / Box 516 St. Louis, Missouri 63166 USA), selected as as a prototype.

In this weapon, the grenade launcher is a reusable unit of the firing complex, which determines the main characteristics of the effectiveness of the weapon, such as accuracy of fire, as well as operational properties. An aiming device is mounted on the grenade launcher with a given accuracy. The grenade launcher also has a unit for docking mechanical and electrical circuits with the container, which serves for installing and securing a disposable transport and launch container before firing and transmitting an initiating pulse to the ignition unit of the ammunition in the container. In addition, a grenade launcher and a shot in a single-use transport and launch container are equipped with elements and units that determine the usability of the complex, as well as operating conditions and features during transportation of the complex, its loading and firing in combat conditions.

Analysis of technical solutions used in the prototype showed that the specified sample has the following disadvantages:

- the length of the grenade launcher does not provide the possibility of its compact transportation together with a set of ammunition one firing;

- the sighting device and the trigger mechanism have parts protruding beyond the dimensions of the complex, making it difficult to transport and operate;

- when loading a grenade launcher with ammunition, it is necessary to orientate the position of the ammunition in a horizontal plane relative to the position of the docking unit of the grenade launcher. In this case, loading and locking the ammunition in the grenade launcher is done by rotating it in the direction indicated by the arrow.

- on the grenade launcher there are no operational units providing ease of operation during firing (shoulder rests and tool holders for the convenience of holding the complex on the firing shoulder).

The problem solved by the claimed invention is to increase the technical, operational and ergonomic characteristics of a grenade launcher complex.

The technical result consists in increasing the combat properties of weapons, increasing operational properties and reducing negative ergonomic factors.

The technical result is achieved by the fact that the grenade launcher system contains a reusable grenade launcher with a sight, a firing device and a docking unit with ammunition, the ammunition in the form of a rocket. The grenade launcher is made with a length of not more than half the length of the container, and the trigger mechanism and sight are mounted on opposite side surfaces of the grenade launcher barrel. The docking unit on the grenade launcher is made with a housing containing internal cylindrical and conical sections of polymer material and contact rings mounted on a cylindrical section, as well as an external section on which a spring-loaded lever with a fixing tooth passing through a groove made in the housing on the cylindrical section is installed between the contact rings and the conical section. A contact sleeve with external conical and cylindrical sections interfaced with the internal parts of the docking unit housing on the grenade launcher is mounted on the transport and launch container. In the cylindrical section of the contact sleeve, parallel longitudinal grooves are made with spring contacts placed therein with flat pointed plates protruding beyond the outer surface of the sleeve and an annular groove associated with the locking tooth that enters into it.

The sight may include a housing with external conical and cylindrical sections and a groove in the cylindrical section, with a configuration identical to the outer surface of the contact sleeve on the container.

On the container, at both ends, bosses of elastic polymer material with internal cavities can be installed, and on the side of the contact sleeve of the boss the cylinder is cylindrical in shape and has a maximum diameter larger than the outer diameter of the grenade launcher body.

At the junction of the container body and the contact sleeve, an elastic compensator in the form of a ring in contact with the inner conical portion of the docking unit on the grenade launcher can be installed on the container.

The implementation of the grenade launcher is quite short, more than half the length of the container, allows you to conveniently transport the grenade launcher in a short bag, provides good maneuverability of the shooter when moving on the battlefield, especially when conducting combat operations in urban areas and in defensive structures.

Securing the sight and the trigger mechanism on the opposite side surfaces of the grenade launcher provides the convenience of holding a charged grenade launcher during firing and contribute to more accurate aiming.

The implementation of the docking unit, consisting of a housing on a grenade launcher with internal sections of polymeric material with metal contact rings and a contact sleeve on a container with external conical and cylindrical sections with longitudinal grooves and spring-loaded contacts placed in them, with flat pointed plates protruding beyond the outer surface of the sleeve reliable electrical contact of the grenade launcher circuits with the container and does not require the angular orientation of the contacts relative to the contact rings when charging Jania grenade.

Installing a spring-loaded retainer in the form of a lever with a fixing tooth passing through a groove in the housing on the outer section of the housing, and making an annular groove on the contact sleeve that is paired with the locking tooth that enters it, ensure that the ammunition is securely mounted in the grenade launcher.

The implementation of the sight with a housing with outer conical and cylindrical sections and an annular groove identical to the outer surface of the contact sleeve on the container, allows it to be mounted in the stowed position inside the barrel of the grenade launcher, which makes it easy to carry and protects the sight from the effects of operational loads during transportation.

Installation on the container on both sides of the body of the bosses of elastic polymer material with internal cavities, moreover, on the side of the contact sleeve of the boss the cylinder is cylindrical in shape and has a maximum diameter greater than the diameter of the body of the docking unit of the grenade launcher, which allows protecting the grenade launcher and the container from damage, while the front boss, performing the function of a shoulder rest, ensures the stability of the position of the sight relative to the eye of the shooter, and the rear boss helps to reduce the impact of heat Vågå and barometric effects on the head while firing a shot.

The installation on the container at the junction of the housing and the contact sleeve of the elastic compensator in the form of a ring in contact with the internal conical portion of the housing of the docking unit on the grenade launcher provides soft joining, angular locking and sealing of the connection when loading the container into the grenade launcher.

The proposed design of the sample is illustrated by the illustrations.

Figure 1 shows a grenade launcher complex.

Figure 2 shows a grenade launcher (front view).

Figure 3 shows the ammunition (in section).

Figure 4 shows a fragment of the contact sleeve.

Figure 5 shows the node docking grenade launcher with a container (in section).

Figure 6 shows the sight.

The grenade launcher system shown in Fig. 1 consists of a reusable grenade launcher 1 with a sight 2, a trigger mechanism 3 and a docking station 4 with ammunition 5.

Sight 2 and trigger mechanism 3 are located on opposite sides of the grenade launcher body 1 parallel to the axis of the barrel, as shown in figure 2.

Ammunition 5, shown in figure 3, is made in the form of a missile 6 with a warhead 7 and a rocket engine 8, placed in a disposable transport and launch container 9. Transport and launch container 9 consists of a launch tube 10, on which a contact node, consisting of from the sleeve 11 and the spring contacts 12 located therein. A metal shell 13 is mounted on the launch tube 10 and in its rear part. The cylinder-conical and cylindrical bosses 14 and 15 of elastic polymer material are also installed on the launch tube. The rear end of the pipe is closed by a cover 16.

In the sleeve 11, longitudinal parallel grooves 17 are made, in which the spring plates of the contacts 18 are placed, as shown in Fig. 4. An annular groove 19 is also made on the cylindrical section of the contact sleeve 11.

The docking station on the grenade launcher, shown in figure 5, contains a housing 20, on which is made an inner section of a polymeric material with conical and cylindrical surfaces, while two metal contact rings 21 are mounted on the cylindrical part. in the form of a lever with a fixing tooth 23 passing through a groove 24 made in the wall of the housing 20, in the area between the contact rings 21 and the conical surface. The contact sleeve 11 contains external conical and cylindrical sections and spring contacts 18. At the junction of the container body 9 with the contact sleeve 11, an elastic compensator 25 is installed, which contacts the inner conical section of the body 20.

The sight 2 includes a housing 26 with an outer surface having a configuration identical to the outer surface of the contact sleeve 11 of the container 9, as shown in Fig.6. Conical and cylindrical surfaces are made on the outer surface, as well as a groove identical to the outer surface of the contact sleeve 11.

The design of the grenade launcher complex is as follows:

When loading the ammunition 5, the transport and launch container 9 is inserted into the grenade launcher 1 until it stops, while under the action of the cone on the contact sleeve 11 the spring-loaded clamp 22 is pressed out, the container 9 is re-pressed to the stop, and the spring contacts 18 fall onto the contact rings 21. The pointed shape of the plates on the contacts 18 provides a reliable connection of the electric circuits of the grenade launcher 1 and the container 9 due to scratching of the surfaces of the contact rings 21 by the points of the plates. When the annular groove on the contact sleeve 11 approaches the range of springing retainer 22 retaining tooth 23 sinks in the groove and fixes the container 9 in the grenade 1. Thus, the launcher 1 is charged, the container 9 securely in place, the electrical circuits and the container connected to the grenade launcher.

Next, the shooter places the charged grenade launcher complex on the shoulder so that the cylinder-conical boss 14 acts as a shoulder rest. This placement of the charged complex ensures a stable position of the eye of the shooter relative to the eyepiece of the sight 2. Holding the charged complex is carried out with the left hand - for the sight body 2 and with the right hand - for the trigger mechanism 3. When you press the sear trigger mechanism 3 generates an electrical impulse, which is transmitted through a docked circuit to an electric igniter of a rocket engine. A shot is taking place. The rear boss 15 reduces the effect of a gas flame arising during the operation of the rocket engine on the firing. After the shot, the shooter squeezes the lock 22, the locking tooth 23 leaves the annular groove of the contact sleeve 11, the used container 9 is disconnected and discarded. The sight 2 is removed from the grenade launcher and inserted instead of the container 9, secured with a fixing tooth 23. Thus, the grenade launcher 1 is brought to the stowed position and prepared for carrying along with the sight 2.

The presented design of the grenade launcher complex has been extensively tested by field tests in various environmental conditions, and on various terrain by shooting from the shoulder with positive results.

Claims (5)

1. A grenade launcher for shooting "from the shoulder", containing a reusable grenade launcher with a sight, a firing device and a docking unit with ammunition, as well as ammunition in the form of a rocket placed in a disposable transport and launch container, characterized in that the grenade launcher is not made more than half the length of the container, the trigger mechanism and the sight are mounted on opposite side surfaces of the grenade launcher barrel, the docking unit on the grenade launcher is made with a housing containing an internal cylindrical and conical sections of polymer material and slip rings mounted on a cylindrical section, as well as an outer section on which a spring-loaded lever with a fixing tooth is inserted through a groove made in the housing on a cylindrical section between the contact rings and the conical section, and on the transport and launch container a contact sleeve is installed with external conical and cylindrical sections mating with internal sections of the housing of the docking unit on the grenade launcher, moreover, on the cylindrical section of the contour tnoj sleeve formed with parallel longitudinal slots arranged therein spring contacts with projecting beyond the outer surface of the sleeve tapered flat plates, and an annular groove that is conjugate with the setting therein a locking tooth. 2. Grenade launcher system for shooting "from the shoulder" according to claim 1, characterized in that the sight comprises a housing with outer conical and cylindrical sections and a groove in the cylindrical section with a configuration identical to the outer surface of the contact sleeve on the container. 3. Grenade launcher system for shooting "from the shoulder" according to claim 1 or 2, characterized in that on the container, at both ends, bosses are made of elastic polymer material with internal cavities, and on the contact sleeve side the boss is cylindrical in shape and has a maximum diameter greater than the outer diameter of the grenade launcher body. 4. Grenade launcher system for shooting "from the shoulder" according to claim 1 or 2, characterized in that on the container at the junction of the container body and the contact sleeve there is an elastic compensator in the form of a ring in contact with the inner conical portion of the docking unit on the grenade launcher. 5. Grenade launcher system for shooting "from the shoulder" according to claim 3, characterized in that on the container at the junction of the container body and the contact sleeve there is an elastic compensator in the form of a ring in contact with the inner conical portion of the docking unit on the grenade launcher.

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