PL224546B1 - Module of rocket armament for simultaneous combating of armoured and flying objects - Google Patents

Description

The subject of the invention is an autonomous missile armament module for simultaneous combat of armored targets and flying objects.

Currently, in the defense system, the armed forces are equipped with no mobile sets with weapons that could simultaneously hit the enemy with anti-tank guided missiles and destroy flying objects.

Tracked and wheeled surface-to-air missile launcher carriers, artillery anti-aircraft sets on tracked chassis and wheel sets with 23 mm caliber guns are in operation. Moreover, the self-propelled anti-aircraft system "Poprad" on a lead carrier is used, as well as anti-tank guided missile launchers installed on wheeled armored personnel carriers and on turret systems, for example on the Rosomak APC vehicles. There are also rocket-artillery sets consisting of a set of rockets combined with 23 mm caliber cannons. Thus, there is no system combining the possibility of simultaneous destruction of flying targets and armored objects moving in different directions.

In the solutions known from foreign defense systems, the most common are mobile turret sets, mainly anti-aircraft guns with small-caliber rapid-fire cannons and active anti-aircraft missile systems, i.e. with radar detection systems for flying objects and classic anti-armored target sets as turret systems with automatic cannons integrated with guided launchers and / or unguided anti-tank missiles. Almost all armies in the world use the described solutions, the construction systems of these sets have different configurations, however, in all of them you can only control one of the weapons systems. The most advanced solution for the grouping of anti-tank and anti-aircraft missile systems is the Canadian MMEV (Multi-Mission Effects Vehicle) system, and in the case of this combat platform, fire can only be carried out from one system.

The aim of the invention is to develop the structure of an autonomous missile armament module for simultaneous combat of ground and surface armored targets and flying objects, intended for installation on wheeled and tracked modular combat platforms (chassis) or stationary fortified posts. The mobile combat set configured in this way is designed to cooperate with units of artillery, armored and mechanized troops to protect these formations against the simultaneous effects of armored weapons and air attacks, including by low-flying targets.

The autonomous missile armament module according to the invention for simultaneous countering of armored targets and flying objects consists of a rotating anti-aircraft weapon platform with vertically tilting booms to hold anti-aircraft missiles in the launch position. The booms, at one of their ends, are connected to the mechanism of changing the angle of lifting the booms attached to the plate, to which is attached one of the raceways of the slewing bearing mounted on a telescopic boom connected to the base plate. The bearing is part of the platform rotation mechanism. After the telescopic arm of the base has been moved from the combat position to the marching position, the base plate covers the combat compartment of the vehicle platform on which the device is mounted. The base plate is profiled at the periphery to ensure a firm seal of the hull in the marching position. The lower part of the telescopic boom is attached loosely to the bottom or sides of the undercarriage of the vehicle platform. Below the base plate there is a missile container with missile containers located on both sides of the telescopic boom, the front part of the container being a shaped projection to which the target head of the armor-piercing operator is attached. The operator's seat is located in the vehicle's crew compartment next to the commander's seat. An observation head with a tracking and targeting function, equipped with head rotation drive and camera elevation angle mechanisms, is located in the vicinity of the rocket boom mounts with the boom elevation angle mechanism attached to the base plate. The head also serves as an omnidirectional observation device for the combat vehicle commander, both when the vehicle is stationary and while it is driving in the marching and combat position.

The described device enables the simultaneous destruction of air targets flying at speeds of up to 300 m / s at an altitude of 10 m to 3500 m for a distance of 300 m to 5000 m,

Combating armored objects with guided anti-tank missiles at a distance of 200 m to 8000 m with the use of guided and unguided or homing missiles. The device allows fire during the day and at night and is equipped with a self-alien identification module.

The subject of the invention is shown in the embodiment in the drawing, in which Fig. 1 shows a schematic structure of an autonomous missile armament module, and Fig. 2 shows the device of Fig. 1 installed on a wheeled combat platform in a combat position.

As shown in Fig. 1 of the drawing, the autonomous missile armament module for simultaneous combat of armored targets and flying objects is a rotating anti-aircraft armament platform with vertically tilting booms 1 holding anti-aircraft missiles in the launch position. The booms 1 at one of their ends are connected to the mechanism 8 of the drive for changing the angle of lifting of the booms 1 fixed to the base plate 9, to which one of the raceways mounted on the telescopic boom 4 of the slewing ring 3 cooperating with the platform rotation mechanism 7 is attached. After the telescopic boom 4 of the base 9 has been moved from the combat position to the marching position, the plate 9 covers the combat compartment of the vehicle platform on which the device is mounted. The plate 9 is profiled at the periphery to ensure a firm seal of the hull in the marching position. The lower part of the telescopic boom 4 is loosely attached to the bottom or sides of the undercarriage of the vehicle platform. Below the plate 9 there is a missile container 5, with the missile containers located on both sides of the telescopic boom 4, the front of the container 5 being a shaped projection to which the aiming head 6 of the armor-piercing operator is attached. The operator's seat is located in the vehicle's crew compartment next to the commander's seat. In the vicinity of the mounting of rocket booms 1 with the mechanism 8 of the drive for changing the angle of elevation of the booms 1 attached to the base plate 9 there is an observation head 2 with a tracking-aiming function, equipped with the head rotation drive and camera elevation angle drive mechanisms. The head 2 also serves as an omnidirectional observation device for the combat vehicle commander, both when the vehicle is stationary and while it is driving in the marching and combat position. The drawing does not disclose details in the form of a rotary joint transmitting electric power to the drives 7 of the rotation mechanism and the mechanism 8 for changing the angle of lifting the booms 1, as well as the head 2 and transferring images from the cameras of the heads 2 and 6 to the positions of the commander and operator of anti-aircraft weapons.

The guidance of anti-aircraft missiles held on booms 1 takes place from the position of the operator of anti-aircraft weapons located inside the vehicle after receiving the coordinates from the automated anti-aircraft defense command system or after tracking the target by the observation tracking-targeting head 2.

Claims (3)

A missile armament module for simultaneous countering of armored targets and flying objects, characterized in that it has the form of a rotating platform with vertically tilting booms (1) holding anti-aircraft missiles in the launch position, which booms (1) are connected to one of their ends with the drive mechanism (8) for changing the angle of lifting the booms (1) attached to the base plate (9), to which one of the raceways mounted on the telescopic boom (4) of the toothed bearing (3) cooperating with the platform rotation mechanism (7) is attached, the plate (9), after sliding the telescopic boom (4) from the combat position to the marching position, covers the combat compartment of the vehicle platform on which the device is mounted, and the lower part of the telescopic boom (4) is attached loosely to the bottom or sides of the vehicle platform chassis, while below the plate (9) is a missile container (5) with missile containers positioned m on both sides of the telescopic boom (4), the front part of the container (5) being a shaped projection to which the target head (6) of the armor-piercing operator is attached, and in the vicinity of the rocket booms (1) with the drive mechanism (8) The observation head (2) with a tracking-aiming function, equipped with the head rotation drive and camera elevation angle drive mechanisms, is located attached to the base plate (9) to change the angle of boom lifting (1). PL 224 546 B1 2. The module according to claim 1. A machine as claimed in claim 1, characterized in that the plate (9) is profiled on the periphery, ensuring a firm seal of the fuselage after the telescopic boom (4) has been moved to the marching position of the combat vehicle. 3. The module according to p. The method of claim 1, characterized in that the drive mechanism (8) for changing the angle of lifting of the booms (1) is independent of the platform rotation mechanism (7), which allows for the independent use of the installed armament, regardless of the direction and height of the expected