This application claims benefit of Serial No. TO 2010 A 000897, filed 10 Nov. 2010 in Italy and which application is incorporated herein by reference. To the extent appropriate, a claim of priority is made to the above disclosed application.
The present invention is relative to an ammunition loading system and, in detail, it is relative to an artillery ammunition loading system.
It is known that artillery ammunition loading systems of the traditional type are designed and configured to fulfill the specific needs of a combat vehicle or a battleship and require a manual operation in order to load the ammunition.
In particular, artillery ammunitions comprise a first part, or projectile, which, in use, is the first one to be loaded into the cannon or howitzer, and a second part, or propelling charge, which is the second part to be inserted following the projectile.
Some of the loading operations for loading the ammunitions, i.e. the projectile and the propelling charge, are at least partially performed in a manual manner and, therefore, cause a delay in terms of time and a risk due to the manual handling.
As a consequence, loading operators are exposed to a plurality of risks, which comprise, at least, being subject to overpressure at the moment of the firing and the risk of exposure to contamination from ionizing particles (nuclear radiations), bacteriological or chemical agents, commonly known as NBC agents (Nuclear, Bacteriological, Chemical), as well as the risk of exposure to contaminations due to the handling of propelling material to be inserted into the breech.
Furthermore, loading operators typically work in a turret that supports the carriage of the cannon or howitzer; said turret rises above a hull both of a fighting vehicle and of a battleship. The hull typically guarantees a higher degree of protection than the turret due to the fact that operators are situated at a lower height and, therefore, their position is more hidden.
Furthermore, ammunition loading systems of the known type present great difficulties in loading the cannon or howitzer, if the latter is configured with large elevation angles.
The object of the present invention is to describe an artillery ammunition loading system, which does not present the drawbacks described above.
The invention will now be described with reference to the accompanying drawings, which illustrate a non-limiting embodiment, wherein:
With reference to
Combat vehicle 10 comprises, furthermore, a plurality of firing stabilization means 13, which are arranged in correspondence to its front end and its rear end and, in the above-mentioned figures, comprise four legs, two front legs and two rear legs, which can be respectively retracted and lowered during the ride and during the firing operations.
On the side of cannon or howitzer 11 there is a pair of elevation linear actuator means 203, which are able to move cannon or howitzer 11 and cause it to rotate so as to vary its inclination with respect to the hull (elevation adjustment).
In particular, the ammunitions that can be fired by combat vehicle 10, and, therefore, can be handled by the artillery ammunition loading system, can be ammunitions of the traditional type, namely of the type comprising a projectile and a propelling charge that, in use, is inserted into the breech of the cannon or howitzer 11 following the projectile itself or, alternatively, ammunitions of a different type, such as, for example, HEFSDS ammunitions (High Explosives Fin Stabilized Discarding Sabot), which basically are subcaliber, non self-propelled ammunitions having a guided version comprising aerodynamic controls, inertial/GPS navigation and, in some sub-types, a terminal guidance system.
For each firing cycle, the first and the second mobile means, respectively suited to load projectiles and propelling charges of the ammunition, selectively and at least partially automatically feed said cannon or howitzer 11.
In detail, as shown in
In the open position, breech 11c allows the projectile and, subsequently, the propelling charge of the ammunition to enter the carriage of the cannon or howitzer 11, while, in the closed position, breech 11c allows the ammunition itself to be fired, with the consequent outlet of the projectile from a muzzle 11v of the cannon or howitzer 11.
The loading procedure needed to load a projectile comprises a first step, during which, as shown in
During the first step, the second mobile propelling charge loading means 102b is arranged in an extreme position as well, which is opposite to the position of breech 11c.
During the first step, the first mobile projectile loading means 102a is arranged in a position which is misaligned with respect to the longitudinal axis of the cannon or howitzer 11
Subsequently, in a second step illustrated in
Subsequently, in a fourth step shown in
As shown in
After the propelling charge has been picked up, the second mobile propelling charge loading means 102b is rotated again and translated parallel to a longitudinal axis of cannon or howitzer 11, until it reaches the second extreme position in substantial vicinity to the breech, in order to be then translated by linear actuator means 103 to a position in correspondence to the axis of cannon or howitzer 11, so as to allow the propelling charge to be inserted after the projectile.
Now the ammunition loading procedure is completed and breech 11c can be closed to start the firing procedure.
The system according to the present invention, furthermore, is managed by a numerical subsystem, which controls the automated operations for the loading of the ammunition described above. Said numerical subsystem can rely on a data processing unit, which, if necessary, can be redundant and which is suited to process, besides the automated operations for the loading of the ammunitions, ballistic and shooting solutions, as well as data exchange concerning operations for the exchange of operating, tactical and logistic information coming from one or more vehicles or men operating on the battle field and, therefore, knowing the exact position of the enemy forces as well as the sources of possible threats.
The advantages of the system according to the present invention are known in the light of the above description. In particular, it allows the person responsible of the weapon to remain inside of the hull, thus placing him/her in a safer position.
Furthermore, the system according to the present invention also guarantees a higher firing rapidity, due to the fact that the loading operations of the projectile and of he propelling charge are automated.
Finally, the loading system according to the present invention also allows both the projectiles and the propelling charges to be loaded with the same effectiveness independently from the variations made to the elevation angle of cannon or howitzer 11.
The device described above can be subject to variations that are obvious to a person skilled in the art, without in this way going beyond the scope of protection provided by the accompanying claims.
Number | Date | Country | Kind |
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TO 2010 A 000897 | Nov 2010 | IT | national |