This application claims the priority of German Patent Application DE 102 07 256.6 filed Feb. 21, 2002 which is incorporated herein by reference.
The invention relates to a gun barrel having a muzzle brake, especially for large-caliber guns.
European Patent EP 0 085 754 B1 discloses a gun barrel in which a separate muzzle brake is attached to the muzzle end of the barrel in order to reduce the recoil energy. The muzzle brake includes a tubular piece that ends flush with the barrel and has radial bores around its circumference, with the inside diameter of the tube being identical to the caliber. The brake further includes a jacket tube, which has diametrically opposite gas-exit openings that extend perpendicular to the longitudinal axis of the bore.
A drawback associated with this known arrangement is that the use of such muzzle brakes dictates a complicated machining of the respective gun muzzle, because relatively high stresses (high acceleration forces, high tensile forces due to the braking effect) act on the muzzle brake when the gun is fired, so the threaded connection that fixes the muzzle brake to the gun barrel must be designed with these stresses in mind. It is also necessary to machine the muzzle brake to attain a smooth transition for the projectile between the caliber diameter of the barrel and that of the muzzle brake. This is especially the case for rifled barrels, in which a smooth transition must be additionally assured between the rifling-field profiles of the barrel and the muzzle brake.
It is the object of the invention to provide an arrangement comprising a gun barrel and a muzzle brake, in which, during firing, no high stresses comparable to those in the known barrels are exerted on the parts of the muzzle brake that are detachably connected to the barrel.
This object generally is achieved according to the present invention which is essentially based on the concept of embodying the muzzle-side end of the gun barrel itself as a component of the muzzle brake. This end is provided with a plurality of bores that are disposed in ring formation around the barrel. The jacket tube, which has diametrically opposite gas-exit openings that extend slot-like in the direction of the circumference, is attached over this muzzle-side barrel segment.
The jacket tube has a plurality of circular-ring-shaped grooves in its inside surface, which respectively end in the opposite, slot-shaped gas-exit openings, and terminate into openings of the barrel that lie in one plane.
Because up to 80% of the braking forces are transmitted directly to the barrel in the barrel/muzzle brake arrangement of the invention during firing, and only about 20% of the braking forces must be transmitted from the jacket tube to the barrel, the jacket tube and the corresponding fastening thread, etc., can be significantly smaller than in comparable gun-barrel arrangements having a completely separate muzzle brake. The arrangement of the invention therefore also has a lower weight than comparable, known arrangements.
A further distinguishing feature of the barrel/muzzle brake arrangement according to the invention is that the muzzle of the barrel can be machined very easily. The arrangement further ensures that projectiles pass smoothly through the region of the muzzle brake, and there is no negative influence on the jump-error angle, which guarantees a high hitting accuracy.
The axially adjacent openings of the barrel in the muzzle region are preferably offset from one another. This takes into account the stability requirements on the barrel, on the one hand, and assures the unimpeded passage of projectiles in this barrel region, on the other.
The cross-sections of the barrel openings in the muzzle region can be circular, slot-shaped or polygonal.
The size, shape and number of the openings, and the positions of the openings in the muzzle region of the barrel with respect to the bore longitudinal axis (radial or angled), depend on the desired effect of the muzzle brake.
Further details about and advantages of the invention ensue from the following exemplary embodiments explained in conjunction with drawing figures.
To secure the jacket tube 4 against rotating, a spline and keyway connection 8 is provided and includes a longitudinally extending spline or key 9 disposed in the jacket tube 4. This spline or key 9 extends into a groove, not shown, in the annular stop 5 of the barrel 1.
To assure fast assembly and a secure seating of the jacket tube 4 on the barrel 1, the outside surface 10 of the barrel 1 and the inside surface 11 of the jacket tube 4 taper slightly in conical fashion toward the muzzle 12 of the barrel 1.
A securing piece 13, which extends in a form-fit into a serration 14 of the screw ring 7 and secures the ring 13 against loosening, is secured to the front of the jacket tube 4.
In the muzzle region 3 of the barrel 1, radial bores 16 are provided in a plurality of planes that are disposed one behind the other in the longitudinal direction and extend perpendicular to the bore longitudinal axis 15 of the barrel 1. The bores 16 in adjacent planes are offset radially from one another.
The jacket tube 4 disposed over the bores 16 of the barrel 1 has a plurality of diametrically opposite gas-exit openings 17, best seen in
The arrangement of the lateral gas-exit openings 17 represents a defined out-flow direction of the released propellant gases. The size and position of the gas-exit openings 17 also influence the size and the region of the exiting propellant gases, and the magnitude and region of the sound pressure.
After a cartridge (not shown) has been ignited, the highly stressed propellant gases following the projectile reach the region of the muzzle brake 2, and travel via the bores 16 (impact surfaces) of the barrel 1 to the walls of the circumferential grooves 18 of the jacket tube 4 (additional impact surfaces), which reduces the barrel-recoil energy.
A muzzle reference system 19 is also attached to the front of the jacket tube 4.
Of course, the invention is not limited to the above-described embodiment. For example, the muzzle-side openings (16) of the barrel need not necessarily be bores as shown, but may be formed as slots.
The invention flow being fully described, in will be apparent to one of ordinary skill in the art that many changes and modifications can be made thereto without departing from the spirit of scope of the invention as set forth herein.
Number | Date | Country | Kind |
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102 07 256 | Feb 2002 | DE | national |
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Number | Date | Country | |
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20030154849 A1 | Aug 2003 | US |