NO171749B - AMMUNITION - Google Patents

Abstract

The invention relates to ammunition comprising a launcher (1) and an active charge (2) to be fired from the latter, the active charge being propelled from the launcher with the aid of a propulsive charge (14). According to the invention, it is proposed that the launcher (1) has in the bottom region an electromagnetic coil (6), which can be connected to an electrical supply source and has a movably mounted armature (10), the armature being designed as a striker pin (10) for a percussion cap (13), which fires the propulsive charge (14). In this way, the previously customary electrical ignition of the propulsive charge (14) is replaced by a reliable striker-pin ignition (5). <IMAGE>

Description

The present invention relates to ammunition comprising a launch tube and an active body, in accordance with the preamble of claim 1.

Such ammunition is mainly used in self-defense of vehicles, especially tanks. The active bodies, e.g. smoke grenades, are fired from cup-like launchers mounted on the tank to generate smoke at some distance from the vehicle to be protected, to allow e.g. a change in position in the smoke screen, cf. DE-OS 3501468.

Such launch tubes have contact pins in their lower side areas which extend into the interior of the launch tube and are connected via a terminal block to an external electrical power supply. The active body is inserted into the launch tube and comprises an active charge element which has e.g.

a smoke charge, and a contact head. The contact head comprises a drive chamber with a drive charge that is detonated electrically. Firing effect for ignition cap etc. is supplied to the contact head via the contact pins in the launch tube and contact rings on the periphery of the contact head. The contact head also contains

in protection circuits against electromagnetic interference, so-called EMV circuits. After the propellant charge is detonated, the propellant gases flow out of exhaust ports at the bottom of the active body into the launch tube, so that gas pressure builds up between the bottom of the launch tube and the active body causing the latter to be ejected from the launch tube.

However, the propellant gases foul the contact pins so that they must be routinely cleaned to ensure that there is a clean electrical contact between the contact pins and the contact rings, which is necessary to detonate the propellant charge. Until

) today this problem has not been solved.

The contact head, which contains the propellant chamber with the propellant charge as well as detonating agents for the propellant charge and EMV circuitry, is fired with the active body. The EMV circuits in the contact head, which are thus only used once, are

in relatively elaborate and expensive, as the electrically initiated ignition charge for the driving charge itself reacts to

relatively small interference currents. A simpler construction would be desirable, in order to reduce the production costs of the launch tube and the active body.

Furthermore, conventional constructions of active bodies are all designed for existing launch tubes and carried out in such a way that a maximum gas pressure of approx. 13 bar must not be exceeded in the launch tube. At higher gas pressures, the guides of the movable contact pins could be destroyed and the bottom cover of the launch tube could be blown off. In order to achieve or increase the minimum firing distance at such gas pressures, a special design of the drive chamber and the exhaust ports is required, cf. DE-OS 3501468. At higher gas pressures, which are not tolerated by launch tubes known up to now and which would also allow simpler constructions of the drive chamber and the exhaust ports, one could achieve equal or greater firing ranges for the active bodies.

None of the known solutions have been able to fully meet the set objectives.

The invention is therefore based on the problem of constructing a simpler construction for ammunition comprising a launch tube and an active body which achieves certain purposes, i.e. contact safety during ignition of the propellant charge, large firing ranges, low electromagnetic interference sensitivity and low production costs. It is also a purpose to be able to convert conventional launch tubes without much difficulty.

This purpose is solved in accordance with the invention by the features shown in the characterizing part of claim 1.

The essential idea of the invention is thus to replace the conventional ignition of the propellant charge via an electrically initiated ignition charge of an ignition tube. The ignition of charges by spark plugs is of course known. However, in the present case, i.e. when the ignition of an ignition charge to emit an active charge, e.g. a smoke blanket, from a launch tube, a fuze, or percussion ignition has surprising advantages.

The electrical connections to activate the igniter, unlike conventional contact pins, are not contaminated by the propellant gas when the active body is fired, as the propellant gas does not touch these connections - A detonation of the propellant charge is therefore always ensured.

The active body requires no separate contact head, which reduces the production costs of the ammunition.

EMV circuits are unnecessary, as the firing tube, as the armature of the electromagnetic coil, can only be moved with high currents that cannot be reached by interference pulses.

The active body can thus be inserted into a cartridge case, as the cartridge case remains in the launch tube when the active body is fired from there. The advantage of this is that gas pressure generated with the propellant only acts between the active charge and the carrier case and not on the launch tube. The latter does not need to absorb the recoil forces due to acceleration of the active body. The active body can therefore be launched at a much higher gas pressure than was possible until today. With such a construction, the launch tube is kept closed after firing and cannot be contaminated.

Further embodiments of the invention can be found in the independent claims. The invention shall be explained in more detail in embodiments as examples with reference to the drawings, therein

fig. 1 shows a partially cross-sectional view of a munition comprising a launch tube and an active body in a first embodiment with features of the present invention;

fig. 2 shows a partial cross-sectional view of a modified embodiment of a launch tube;

fig. 3 shows a partial cross-sectional view of the active body to be fired from the launch tube; and

fig. 4 shows an active body made as cartridge ammunition.

It should be noted that not all figures show the complete ammunition in accordance with the present invention, i.e. the action body inserted in a sleeve.

The ammunition shown in fig. 1 comprises a cylindrical launch tube 1 and an active body 2 inserted into this, e.g. a smoke grenade. The launch tube 1 is closed at the bottom by a screw-off bottom cover 3 which is designed as a container and has in its interior 4 an ignition tube 5. The ignition tube has an electromagnetic coil 6 wound on a coil holder 7 and connected via a driver circuit 8 with electrical connection 9 leading to a power supply not shown. As an anchor in the electromagnetic coil 6, an ignition pin 10 is arranged which is held in a central bore of the coil holder 7 and directed to the area of the tip in a bore 11 on an elevation 12 of the top of the bottom cover 3. The longitudinal axis of the igniter tube 10 lies on central longitudinal axis A of the launch tube and the smoke grenade. The smoke grenade 2 lies with its bottom on top of the elevation 12 and carries a percussion cap 13 for a propellant charge 14 as outlined.

When the electromagnetic coil 6 is activated, the igniter 10 fires at the percussion cap 13 and initiates this, and thus the propellant charge 14 is detonated. The propellant gas generated during combustion of the propellant charge 14 passes from the exhaust ports 15 into the free area between the underside of the smoke grenade 2 and the top of the bottom cap 3 into the launch tube 1, so that a gas pressure is generated there which shoots the smoke grenade 2 out of the launch tube 1. The propellant gas thus does not enter the area of the electronic coupling for the electromagnetic coil, so that the latter is not contaminated by the propellant gas. Fig. 2 shows a launch tube 1a with the same as a conventional launch tube except the bottom cover 3a. This launch tube has in its lower longitudinal area a terminal block 21 connected via electrical connections 8 with an electrical power supply which is not shown. Terminal block 21 comprises adapter and EMV circuits which connect electrical connectors 9 with two contact pins 22 which extend through the interior of launch tube 1a. The bottom cover 3a, which has exactly the same construction as the bottom cover 3 in fig. 1 in the case of the ignition pin, has a cylindrical beam 23 extending from the top and which is provided on its periphery with two contact rings 24 which are in electrical contact with the contact pins 22. Wires not shown lead from the contact rings 24 to the electromagnetic coil of the firing tube.

This embodiment has the advantage that conventional launch tubes can be modified into the launch tube in accordance with the invention simply by replacing the bottom cap with a modified bottom cap 3a. Fig. 3 shows a smoke grenade 2 which can be fired from the launch tube in accordance with fig. 1 and 2. The smoke grenade 2, which is usually covered by a rubber cap 31, has at its bottom a downwardly directed cylindrical extension 32 which, when the projectile is inserted, lies on the elevation 12 of the bottom cap 3. Cylindrical extension 32 contains a percussion cap 13 and propellant charge 14. A plurality of ejection ports 15 are located around the percussion cap 13. Propelling charge 14 also detonates a delay charge 33 as outlined, which detonates the active charge, i.e. a smoke salt, contained in the projectile 2. Fig. 4 shows an active body 2a designed as cartridge ammunition. It comprises a sleeve 41, e.g. made of steel, and a smoke grenade 42 inserted into this and containing an active charge. The sleeve and smoke grenade are sealed at the top with a rubber cap 31. Percussion cap 13 is inserted in the center of the flat bottom of the sleeve 41 to ignite the propellant charge 14 placed in the bottom of the sleeve 41. The projectile 42 in turn contains a delay charge 33 (outlined) for the active charge of the active body, which is detonated by the propellant charge 14. For firing, ammunition as shown, comprising case 41 and active body 42, is inserted into a launch tube. The rubber cap engages the edge area 31 around the upper edge of the launch tube. Along the upper edge of the active body 41, the rubber cap has a punched-out groove or a predetermined breaking point 43 so that the rubber cap divides into an edge area 31a and a lid area 31b. When the percussion cap 13 is ignited by the firing tube, the propellant charge 14 burns away, generating between the bottom of the sleeve 41 and the active body 42 a gas pressure that ejects the active body 42 with the lid area 31b of the rubber cap 31 out of the sleeve 41. Sleeve 41

is held during firing in the launch tube, whereby the edge area 31a of the rubber cap 31 is also held in place and still keeps the launch tube closed. The interior of the launch tube is then still protected against contamination, e.g. by rain or

dirt. Before the next firing, the sleeve 41 is removed from the launch tube and new cartridge ammunition comprising a sleeve and an active body is inserted. With such a construction, the active body 42 can be ejected at high gas pressure.

Claims (9)

1. Ammunition comprising a launch tube and an active body to be fired from this, e.g. a smoke grenade, the active body is launched from the launch tube by means of a propellant charge, characterized in that the launch tube (1) in the bottom area has an electromagnetic coil (6) which is to be connected to an electric power source and has a movable supported anchor, which anchor is designed as an ignition pin (10) for a percussion cap (13) that ignites the propellant charge (14), and that the active body (42) is inserted into a cartridge sleeve (41) which at its bottom accommodates the percussion cap (13) for the propellant charge ( 14) so that the active body (42) and sleeve (41) can be inserted into the launch tube (1) as cartridge ammunition (2a). 2. Ammunition in accordance with requirement 1, characterized in that the propellant charge (14) for launching the active body (42) is placed inside the bottom of the cartridge sleeve (41). 3. Ammunition in accordance with claim 1 or 2, characterized in that the cartridge sleeve (41) and the active body (42) are covered by a protective cap (31) which engages with an edge area (31a) around the upper edge of the launch tube and in that the protective cap (31) has along the upper edge of the active body (42) a punched incision or a predetermined breaking point (43). 4. Ammunition in accordance with requirement 1, characterized in that the firing pin (10) is directed along the central axis (A) of the launch tube (1). 5. Ammunition in accordance with requirement 1, characterized in that the electromagnetic coil (6) is placed with the ignition pin (10) in the interior (4) of a container-like bottom cover (3,3a) of the launch tube (1) and that at the top of the bottom cover (3) which is directed towards the active body (2,2a) is an opening (11) through which the ignition pin (10) passes to ignite the percussion cap (13). 6. Ammunition in accordance with requirement 6, characterized in that the bottom cover (3,3a) can be removed, preferably by unscrewing, from the launch tube (1). 7. Ammunition in accordance with any of the preceding claims, characterized in that the electrical power source is located on the outside of the bottom cover of the launch tube (1) and connected via connectors (9) on the launch tube (1) with the electromagnetic coil ( 6). 8. Ammunition in accordance with any of the preceding claims, characterized in that the active body (2,2a) on its underside has a propellant chamber which receives the propellant charge (14) and has a bottom wall which contains at least one exhaust port (15) for the propellant gas generated after ignition of the propellant charge (14), and that the percussion cap (13) extends into the propellant charge (14). 9. Ammunition in accordance with requirement 8, characterized in that the percussion cap (13) is placed on the central axis (A) of the active body (2,2a) and the exhaust port or ports (15) are placed off-centre.