A wad or basewad for ammunition includes an ignition chamber. The ignition chamber can be integrally formed with the payload wad, basewad, or battery cup or can be attached to the payload wad, basewad, or battery cup. The ignition chamber communicates with a primer of the ammunition to receive and c
A wad or basewad for ammunition includes an ignition chamber. The ignition chamber can be integrally formed with the payload wad, basewad, or battery cup or can be attached to the payload wad, basewad, or battery cup. The ignition chamber communicates with a primer of the ammunition to receive and contain the primer blast for at least an initial period of time. This facilitates faster initial ignition of the propellant of the ammunition, and consequently allows higher performance levels to be achieved. Other advantages regarding other applications of this invention include cleaner burning loads, greater economy, and lower perceived recoil.
대표청구항▼
1. A round of ammunition, comprising: a shell body;a primer;a wad disposed along the shell body;a projectile payload located forwardly of the wad; andan ignition chamber disposed within the shell body with a proximal end of the ignition chamber aligned with and located adjacent the primer, the ignit
1. A round of ammunition, comprising: a shell body;a primer;a wad disposed along the shell body;a projectile payload located forwardly of the wad; andan ignition chamber disposed within the shell body with a proximal end of the ignition chamber aligned with and located adjacent the primer, the ignition chamber comprising a propellant and an ignition tube defining an ignition recess configured to at least partially focus and at least partially contain a primer blast in the ignition chamber, the ignition recess is shaped to reduce or compress a volume of the primer blast so as to augment ignition of the propellant, to ignite more of the propellant within the ignition chamber, or to increase an initial pressure in the ignition chamber. 2. The round of ammunition of claim 1, wherein the ignition recess extends between a distal end of the ignition chamber adjacent the wad and the proximal end of the ignition chamber, and the ignition recess includes a minimum cross-sectional area at the distal end of the ignition chamber and a maximum cross-sectional area at the proximal end of the ignition chamber. 3. The round of ammunition of claim 2, wherein the ignition tube comprises an interior surface having a first portion extending from the distal end of the ignition chamber at a first angle, and a second portion extending from the first portion to the proximal end of the ignition chamber at a second angle. 4. The round of ammunition of claim 3, wherein the first angle is greater than the second angle. 5. The round of ammunition of claim 1, wherein the wad comprises a base wad and the ignition tube is integrally formed with the base wad. 6. A round of ammunition, comprising: a shell body;a primer;a wad disposed along the shell body;a projectile payload located forwardly of the wad;an ignition chamber disposed within the shell body with a proximal end of the ignition chamber aligned with and located adjacent the primer such that the ignition chamber receives and at least partially contains a primer blast therein;an ignition recess defined by the ignition chamber and extending between a distal end of the ignition chamber adjacent the wad and the proximal end of the ignition chamber, the ignition recess includes a minimum cross-sectional area at the distal end of the ignition chamber and a maximum cross-sectional area at the proximal end of the ignition chamber; anda first propellant disposed in at least the ignition chamber and a second propellant disposed along at least a portion of an exterior of the ignition chamber. 7. The round of ammunition of claim 6, wherein the first propellant is different from the second propellant. 8. The round of ammunition of claim 6, further comprising a secondary tube concentric with and exterior to the ignition chamber, the secondary tube defining at least one recess between the ignition chamber and the secondary tube. 9. The round of ammunition of claim 8, wherein the ignition chamber comprises an ignition tube, and wherein the secondary tube and the ignition tube are integrally formed with the wad. 10. The round of ammunition of claim 6, wherein the ignition chamber comprises a tube having a substantially cylindrical, square, rectangular or polygonal cross-sectional configuration. 11. A round of ammunition, comprising: a shell body;a primer;a wad disposed along the shell body;a projectile payload located forwardly of the wad;an ignition chamber disposed within the shell body with a proximal end of the ignition chamber aligned with and located adjacent the primer such that the ignition chamber receives and at least partially contains a primer blast therein, wherein the primer is at least partially disposed in a battery cup, and the proximal end of the ignition chamber extends from the battery cup; andan ignition recess defined by the ignition chamber and extending between a distal end of the ignition chamber adjacent the wad and the proximal end of the ignition chamber, the ignition recess includes a minimum cross-sectional area at the distal end of the ignition chamber and a maximum cross-sectional area at the proximal end of the ignition chamber. 12. The round of ammunition of claim 11, wherein the ignition chamber comprises an ignition tube, and wherein the ignition tube is integrally formed with the battery cup at the proximal end of the ignition chamber.
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이 특허에 인용된 특허 (49)
Bilsbury Stephen J. (Godfrey IL) Grelle Peter F. (Edwardsville IL), Adjustable volume shot wad structure and method of assembling the same.
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