introduction:
The development of the G11 rifle was started in the late 1960's, when
West German government decided to replace existing G3 rifle with lighter
weapon with much better hit probability.
The initial studies lead to the idea of the small-caliber, rapid-fire
rifle that fires caseless ammunition. To ensure sufficient
stopping/killing power for small-caliber bullets used, the rifle should
had have the three-round bursts capability and high capacity magazine.
The new design, called G11, was created by german company Hecler und
Koch, with the Dynamit Nobel company in team. The HK was responsible for
the rifle itself, while Dynamit Nobel had to develop caseless
ammunition.
The basic concept of the G11 is as follows:
The rifle features unique cylinder breech/chamber system that rotates 90 degrees. The cartridges in the magazine are located above the barrel, bullets down. Prior to each shot, first cartridge is pushed down from magazine into chamber and then breech/chamber rotates 90 degrees to align the cartridge with the barrel (see pic). After that, the cartridge is fired and the breech/chamber rotates back, ready for the next cartridge to be chambered. In the case of the cartridge ignition failure, the failed cartridge is pushed down from the chamber by the next cartridge. The breech can be manually "cocked" by the rotating handle at the side of the rifle, located beyond the pistol handle. The cocking handle does not move when gun is fired. Another interesting detail is that barrel, rotating breech, feed module and magazine are mounted in the housing that can move in the rifle back and forth. When firing single shots, the housing moves back and forward after the each shot. When firing the full-auto, the housing moves back and forward during each shot, resulting in moderate rate of fire of some 600 round per minute. But, when firing the three-round bursts, second and third cartridges are feed and fired as soon as the chamber is ready for it, and third bullet leaves the barrel PRIOR to the moment when the housing becomes to its rearward position. This results in wery high rate of fire with three-shots bursts - ca. 2000 rounds per minute. Also, this results in that the actual recoil affects the rifle AFTER the last bullet in the burst is fired.
The rifle features unique cylinder breech/chamber system that rotates 90 degrees. The cartridges in the magazine are located above the barrel, bullets down. Prior to each shot, first cartridge is pushed down from magazine into chamber and then breech/chamber rotates 90 degrees to align the cartridge with the barrel (see pic). After that, the cartridge is fired and the breech/chamber rotates back, ready for the next cartridge to be chambered. In the case of the cartridge ignition failure, the failed cartridge is pushed down from the chamber by the next cartridge. The breech can be manually "cocked" by the rotating handle at the side of the rifle, located beyond the pistol handle. The cocking handle does not move when gun is fired. Another interesting detail is that barrel, rotating breech, feed module and magazine are mounted in the housing that can move in the rifle back and forth. When firing single shots, the housing moves back and forward after the each shot. When firing the full-auto, the housing moves back and forward during each shot, resulting in moderate rate of fire of some 600 round per minute. But, when firing the three-round bursts, second and third cartridges are feed and fired as soon as the chamber is ready for it, and third bullet leaves the barrel PRIOR to the moment when the housing becomes to its rearward position. This results in wery high rate of fire with three-shots bursts - ca. 2000 rounds per minute. Also, this results in that the actual recoil affects the rifle AFTER the last bullet in the burst is fired.
features:
Rifle featured built-in 1X optical sight with simple circle aiming
reticle. Early prototypes featured one 50 rounds polymer magazine, while
latest versions featured 45 rounds magazines - one in the loaded
position within the movable housing and two spare magazines on the top
of the rifle, asides from the loaded magazine.
The caseless ammunition in its early appearance was designed as a block
of the propellant, coated with flammable laquer, with bullet and primer
"glued on" the propellant. Final ammunition design DM11, that appeared
in the mid-1980s, featured "telescopic" design, when bullet was fully
enclosed in the block of the propellant. The cartridge propelled the
bullet that weights 3.25 gramms, to the 930-960 meters per second.
Early prototypes were prone to the ammunition cook-offs during the sustained fire, but later Dynamit Nobel solved this issue.
In the late 1980s the Bundeswehr (West German Army) began the field
tests of the pre-production G11s. After the initial tests, some
improvements were devised, such as removable optical sight, mounting of
two spare magazines on the rifle, and bayonet/bipod mount under the
muzzle.
The slightly modified G11 was also tested in the USA under the ACR
(Advanced Cobat Rifle) programme, in 1990. The ACR programme was not
intended to result in adoption of the new rifle for the US Army, just to
test new technologies and designs, and the G11 proved itself as a very
accurate, comfortable to handle and fire, and reliable weapon.
technical features:
Caliber: 4.7 mm caseless
Action: Gas operated, rotating breech
Overall lenght: 750 mm
Barrel lenght: 540 mm
Weight: 3.6 kg empty
Action: Gas operated, rotating breech
Overall lenght: 750 mm
Barrel lenght: 540 mm
Weight: 3.6 kg empty
Magazine capacity: 50 or 45 rds
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