JP2010532857A - Launching device, ammunition and method for protecting a target against a missile attack - Google Patents

Abstract

  Provides a method of camouflage and dazzling, isolated. In the present invention, it is possible to use a small caliber ammunition (4), which unfolds the illusion material (6). These illusion materials (6) or ammunition (4) are fired vertically and / or laterally by a tank to be protected (object (9)). For this purpose, the launch tube (2) is mounted vertically upwards on a tank or object (9) to be defended. A suitable light flash (8) is generated with a specific spectrum by detonation of the loaded ammunition. And the detonation can be changed in height over time, obstructing the approaching device of the approaching warhead. Above and / or to the side of the object (9), disassembled flashes with different heights are generated alternately by a plurality of ammunition (4).

Description

  The present invention relates to disturbances used to deflect anti-tank guided missiles by launching illusion material. The disturbance is that it corresponds to the enemy missile motor. The motor is constantly adjusted to control the rocket from the launcher, and the deviation from the orbit is corrected by correcting the rocket. This guidance device is affected by the disturbance and the rocket deviates from the orbit.

  The dazzling is done by optical methods or ammunition techniques. One optical method is the generation of a light flash by a strobe lamp, which is attached to the stationary position of the tank. One of the ammunition techniques is the burning of a spatially banded ammunition with a closed light bullet similar to Bengal flare.

  If the ammunition technology method is ammunition, the illusion is generated by the ammunition itself, and the ammunition is also used for visual blockage (smoke). The light flash is generated by an appropriate break-up charge incorporated in the smoke bomb (Patent Documents 1, 2, and 3).

  U.S. Pat. No. 6,057,089 discloses a self-defense device for tanks or objects to be protected. Self-defense devices and launchers are equipped with ammunition, which contains an activator and generates an intense light flash and / or smoke immediately after firing. The smoke bomb contains an activator.

  Patent Document 5 discloses a method for protecting an object emitting infrared rays, and when a missile is discovered, a phantom radiation cloud with a wide range of explosives is generated between the missile and the object. It emits strong infrared light for the first time and disturbs the electronic equipment for guidance. Subsequently, this dazzling radiant cloud emits weak infrared radiation for a long time. As this radiation cloud is formed, the missile gradually diverts away from the object to be protected.

  The disadvantages of optical methods are that they are technically complex, heavy and require a long time to burn before they are effective.

  The ammunition technology method has a relatively large muzzle caliber and is difficult to carry on a tank in many operations. In addition, ammunition is heavy. And because there are many false alarms, the amount of ammunition used increases.

  Traditionally, ammunition is fired in the direction of attack. Since this requires the aiming of the ammunition launcher (Patent Document 6), it causes a time delay. A plurality of devices need to cover all attack directions at the same time (Patent Document 4).

  Conventional ammunition launchers require a large space and are difficult to incorporate into a tank.

  A further drawback is the ammunition itself. For example, smoke illusions and camouflage effects are always developed by this ammunition. However, smoke is not always needed because it interferes with visibility.

German Patent Publication No. 383588C2 Specification German Patent Publication No. 2842797C2 German Patent Publication No. 102005020159A1 German Patent Publication No. 102005054275A1 European Patent Publication No. 0512202A2 German Patent Publication No. 102005020177A1

  It is an object of the present invention to provide an improved dazzling method and reduce the weight acting on the launcher.

  This object is achieved by the features specified in claims 1, 4 and 6. Advantageous embodiments are defined in the dependent claims.

  The idea of the present invention is to completely separate the effects of camouflage and dazzling. This makes it possible to use a small caliber ammunition, which fires a dazzling material. These illusions and / or ammunition are fired vertically and / or laterally by the tank to be protected. For this purpose, the launcher is mounted vertically upwards on a tank or object to be defended. A suitable light flash is generated in a specific spectrum by detonation of the loaded ammunition. And the detonation can be changed in height over time, obstructing the approaching device of the approaching warhead. Above and / or to the side of the object, disassembled flashes with different heights are generated alternately by a plurality of ammunition.

  The amount of illusion material fired is unrelated to other effects such as smoke. Smoke bombs that can be fired individually do not require dazzling effects. This makes it possible to include a plurality of smoke bodies in a smoke bomb.

  The firing is small and compact by means of a launching device, eg electrically or mechanically from a magazine. The initiation time of each light flash is controlled by electronic equipment. These electronic devices are preferably components of the launcher.

  The advantage of the launcher in the present invention is that it is a small structure, does not require a guidance device, and is light weight.

  Hereinafter, exemplary embodiments will be described in detail with reference to the drawings.

FIG. 1 illustrates an ammunition launcher. FIG. 2 illustrates the ammunition of FIG. FIG. 3 illustrates what is built into a tank.

  FIG. 1 is a perspective view of a compact launcher or launcher 1, wherein the launcher is provided with a plurality of launchers that are arranged upward and parallel to each other. And forming a magazine 3. One ammunition 4 is arranged in each of these firing tubes 2.

  FIG. 2 illustrates the structure of the ammunition 4. The ammunition 4 has a casing 5 in which one or more auxiliary ammunition 6 (illusion material) of the casing 5 is fired. Alternatively, the auxiliary ammunition 6 (illusion material) may be fired directly from the magazine 3 without a casing. The ammunition 4 or the auxiliary ammunition 6 has a relatively small muzzle caliber for tank defense, for example, 40 mm (medium caliber).

  The ammunition 4 or the auxiliary ammunition 6 has a contact point 10 with the firing device 1, and the ammunition 4 and the auxiliary ammunition 6 are ignited electrically or mechanically via the contact point 10. The time for igniting each light flash 8 is controlled by the electronic device 7. These electronic devices are preferably components of the launcher 1. In order to ignite a light flash or break-up flash 8, a plurality of auxiliary ammunition 6 and / or a plurality of ammunition 4 are ignited successively according to time.

  The disassembly flash 8 of the illusion material 6 is generated spatially above the tank 9 (FIG. 3). The height of the disassembly flash is preferably in the range of about 3 m to 15 m above the tank 9. In this case, the height rises inside each optical flash 8. Firing is preferably performed vertically upward from the tank 9. The horizontal disassembly flash can be performed by reducing the height of the disassembly flash.

  FIG. 3 illustrates the arrangement of the launching device 1 in the tank 9. The disassembly flash 8 is generated above the tank 9 at a height of, for example, 4 m, 8 m or 12 m.

Claims (10)

A method for defending an object (9) by obstructing a missile attack,
One or more auxiliary ammunition (6) or dazzling material has been fired directly by the ammunition (4) from the launcher (1) in the vertical or lateral direction with respect to the object (9), and the auxiliary ammunition (6) And time measurement is electronically performed to fire the associated optical flash (8) so that at least one optical flash (8) is generated in a spectrum that interferes with the missile guidance device. And the light flash (8) is generated with a different height and / or lateral displacement relative to the object (9).   The plurality of ammunition (4) can generate light flashes (8) having different heights above the object (9), and have a lateral spread on the side of the object (9). 2. Method according to claim 1, characterized in that an optical flash (8) can be generated.   The method according to claim 1 or 2, characterized in that the height of the decomposition flash of the auxiliary ammunition is in the range of about 1m to 15m above the object (9).   4. A method according to any one of the preceding claims, characterized in that the height of the resolving flash is rising inside each individual optical flash (8).   4. A method according to any one of the preceding claims, characterized in that the height falls within each of the optical flashes (8). Auxiliary ammunition (6) or launcher (1) for ammunition (4) with auxiliary ammunition (6) to dazzle to defend against object (9) by interfering with missile attacks A launching device (1) comprising parallel firing tubes (2) aligned vertically upwards on an object (9),
Electronic timing is performed to fire each of the auxiliary ammunition (6) and its associated light flash (8), said light flash (8) being directed against the object (9) A launcher that is generated at various heights and / or laterally offsets.   The ammunition (4) or the auxiliary ammunition (6) has a contact (10) with the firing device (1), and the ammunition (4) or the auxiliary ammunition (6) is electrically connected via the contact. 6. The launcher of claim 5, wherein the launcher is mechanically or mechanically detonated. In ammunition (4) to protect the object (9) by blocking against missile attacks, comprising one or more auxiliary ammunition (6) or ammunition (4)
Electronic timing is performed to fire each of the auxiliary ammunition (6) and its associated light flash (8), said light flash (8) being directed against the object (9) Ammunition generated at various heights and / or laterally offsets.   Ammunition according to claim 7, characterized in that the ammunition is fired directly from the magazine (3) or the launch tube (2) without a casing.   Ammunition according to claim 7 or 8, characterized in that the ammunition (4) or the auxiliary ammunition (6) has a relatively small caliber with respect to the ammunition for tank defense.

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