The present invention pertains to the armament sector and more specifically to ‘gun tubes’ of weapons
It is a system that allows cooling the canon tube of the weapons by means of the use of a device of nebulization of the water contained in an auxiliary deposit.
During the firing, part of the heat generated by the combustion of the gunpowder is transferred to the walls of the gun causing the elevation of its temperature.
This rise in temperature can cause the self-ignition (cook-off) of the propulsion charge of a shot unexpectedly, incrementing the possibility of accidents.
On the other hand, the users demand every day increasing performance to their weapons systems and the heating of the tube is one of the factors that more limit the increase of the rate of fire.
Over the years, attempts have been made to address this limitation applying different solutions:
The employment of propellant compositions with lower adiabatic flame temperatures.
Using additives in the gunpowder to reduce the temperature of the gases.
Fitting the canon tube with air cooling fins.
Using systems of rapid replacement of the canon tube in machine guns
Covering the canon tube with a water tank in machine guns
None of these solutions has proven effective.
There are several patents that describe ways of cooling the canyon, of which we highlight one Chinese, CN1372123 and one Korean, KR20110047317. The first uses refrigerant oil and the second use a turbocharger.
There are also 2 Americans, U.S. Pat. Nos. 5,463,926 and 5,511,456, whose owner in both cases is the North American Navy and who are very similar; both mount a system, quite complicated, to circulate a liquid, water or a liquid solution of certain chemical foam.
But there is no one that claims a nebulization system.
It consists of the use of a set of water fogging nozzles. These nozzles surround the tube, so that the mist of water produced wet the entire outer surface of the tube.
Once the tube reaches the temperature of 100 degrees Celsius, the mist of liquid water vaporizes, absorbing during that process 540 cal/g.
To improve the performance of the process, the canon tube, or barrel, is surrounded with a metal jacket or any other material, which prevents the dispersion of the nebulized water. This shirt also has holes along its surface, to evacuate liquid water or generated steam.
Therefore, the system consists of a water tank, a pneumatic or electric drive system, a jacket that surrounds the canon tube, a dispensing flange and a system of tubes of different lengths, which end in nebulizer nozzles.
On the outside of the canon tube (1) is placed a jacket (2) that keeps the nebulized water in contact with the external surface of the canon tube.
At one end of the canon tube, or barrel, and between the tube and the jacket, there is a delivery flange (4) which acts as a pressurized water injection.
The water pressure is obtained by any available means (by means of an air compressor, by means of an electric pump, etc.)
These tubes are of different lengths so that, mist of droplets of liquid water are deposited along the entire canon tube outer surface.
The jacket has holes so that the water vapor generated also goes into the atmosphere.
The distributor flange has a quick connector to admit the pressurized water that comes from a tank that in its upper part has a pressurized air chamber, generated by a service compressor. The flange (4) is fixed to the lower part of the canon tube (1) and also serves as a support for the outer jacket. The flange has a series of holes in which are mounted alternately, metal tubes (3), which end and/or start all in nebulizer nozzles (5). The length of these is adapted to achieve a better distribution of the nebulized water along the canon tube.
There is an intermediate flange (6) to immobilize the tubes inside the outer jacket. The jacket has holes in the lower part for the evacuation of excess liquid water, and in the upper part for the evacuation of the generated water vapor.
A thermocouple measures the temperature of the tube in the area where more heat is generated. When the thermocouple marks 100 degrees Celsius, it acts on a solenoid valve that puts the pressurized water tank in communication with the distributor flange.
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/IB2018/000912 | 8/21/2018 | WO | 00 |