Polymer marking projectile with integrated metallic sealing ring
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F42B-012/40
F42B-012/76
F42B-008/12
F42B-014/02
F42B-033/00
출원번호
US-0277300
(2014-05-14)
등록번호
US-9157715
(2015-10-13)
발명자
/ 주소
Lafortune, Eric
de Sousa, Luis
출원인 / 주소
General Dynamics Ordnance and Tactical Systems—Canada Inc.
대리인 / 주소
Ingrassia, Fisher & Lorenz, PC
인용정보
피인용 횟수 :
1인용 특허 :
13
초록▼
A marking projectile configured to be fired through the barrel of a firearm having rifling formed therein is provided. The marking projectile includes a polymeric base portion configured to engage the rifling of the barrel and a polymeric front shell portion coupled to the base portion. The polymeri
A marking projectile configured to be fired through the barrel of a firearm having rifling formed therein is provided. The marking projectile includes a polymeric base portion configured to engage the rifling of the barrel and a polymeric front shell portion coupled to the base portion. The polymeric front shell portion has a cavity formed therein for housing a marking compound and a structure configured to deform on impact and thereby release the marking compound. The marking projectile includes a metallic annular sealing component (e.g., a crimped metal ring) configured to seal the polymeric front shell portion to the polymeric base portion.
대표청구항▼
1. A marking projectile configured to be fired through the barrel of a firearm having rifling formed therein, the marking projectile comprising: a polymeric base portion configured to engage the rifling of the barrel;a polymeric front shell portion coupled to the base portion, the polymeric front sh
1. A marking projectile configured to be fired through the barrel of a firearm having rifling formed therein, the marking projectile comprising: a polymeric base portion configured to engage the rifling of the barrel;a polymeric front shell portion coupled to the base portion, the polymeric front shell portion having a cavity formed therein for housing a marking compound and having a structure configured to deform on impact and thereby release the marking compound; anda metallic annular sealing component configured to seal the polymeric front shell portion to the polymeric base portion;wherein the metallic annular sealing component is configured to seal the polymeric front shell portion to the polymeric base portion by applying radial compression to the outer surface of the polymeric front shell portion. 2. The marking projectile of claim 1, wherein the metallic annular sealing component comprises a crimped metallic ring. 3. The marking projectile of claim 1, wherein the metallic annular sealing component has an axial length that is greater than 5.0% of a total length of the marking projectile. 4. The marking projectile of claim 3, wherein the metallic annular sealing component has an axial length that is between approximately 17% and 25% of a total length of the marking projectile. 5. The marking projectile of claim 1, wherein the metallic annular sealing component comprises a copper alloy having at least a 50% copper content. 6. The marking projectile of claim 1, wherein the polymeric base portion, the polymeric front shell portion, the marking compound, and the metallic annular sealing component together form a 5.56 mm projectile having a mass between 0.25 and 0.50 grams. 7. The marking projectile of claim 1, wherein the metallic annular sealing component is configured such that the gyroscopic stability of the marking projectile at the barrel exit is greater than 1.3 times that of a reference marking projectile comprising only the base portion, the front shell portion, and the marking compound. 8. The marking projectile of claim 1, wherein the polymeric base portion includes a stepped circumferential driving band region configured to engage the rifling of the barrel and collect and remove residue from the barrel. 9. The marking projectile of claim 1, wherein the polymeric front shell portion includes at least one circumferential guiding band region configured to provide aligned engagement of the polymeric base portion with the rifling of the barrel. 10. The marking projectile of claim 1, wherein the structure configured to deform on impact comprises at least one circumferential groove formed in the polymeric front shell portion. 11. A marking projectile configured to be fired through the barrel of a firearm having rifling formed therein, the marking projectile comprising: a polymeric base portion configured to engage the rifling of the barrel;a polymeric front shell portion coupled to the base portion, the polymeric front shell portion having a cavity formed therein for housing a marking compound and having a structure configured to deform on impact and thereby release the marking compound; anda metallic annular sealing component configured to seal the polymeric front shell portion to the polymeric base portion;wherein:the base portion is partially overlapped, co-axially, by the front shell portion, andthe crimped metal ring has an uncrimped portion at least partially embedded within the polymeric base portion and a crimped portion applying radial compression to an outer surface of the polymeric front shell portion. 12. A method of forming a marking projectile configured to be fired through the barrel of a firearm having rifling formed therein, the method comprising: forming a polymeric base portion configured to engage the rifling of the barrel;forming a polymeric front shell portion having a cavity formed therein and having a structure configured to deform on impact to expose the cavity;inserting a marking compound in the cavity;coupling the polymeric base portion to the polymeric front shell portion; andsealing the polymeric front shell portion to the polymeric base portion with a metallic annular sealing component;wherein the metallic annular seal comprises a ring, and sealing the polymeric front portion to the polymeric base portion comprises crimping the ring onto the front shell portion. 13. The method of claim 12, wherein the metallic annular sealing component is co-molded with the polymeric base portion. 14. The method of claim 12, wherein the metallic annular sealing component has an axial length that is greater than 5.0% of a total length of the marking projectile. 15. The method of claim 12, wherein the metallic annular sealing component comprises a copper alloy having at least a 50% copper content. 16. The method of claim 12, wherein the polymeric base portion is formed with a stepped circumferential driving band region configured to engage the rifling of the barrel and collect and remove residue from the barrel. 17. The method of claim 12, wherein the polymeric front shell portion is formed with at least one circumferential guiding band region configured to provide aligned engagement of the polymeric base portion with the rifling of the barrel. 18. The method of claim 12, wherein the structure of the polymeric front shell portion comprises at least one circumferential groove formed in the polymeric front shell portion. 19. A marking projectile configured to be fired through the barrel of a firearm having rifling formed therein, the marking projectile comprising: a polymeric base portion configured to engage the rifling of the barrel;a polymeric front shell portion coupled to the base portion such that the base portion and the front shell portion partially overlap axially, the polymeric front shell portion having a cavity formed therein for housing a marking compound and having a structure configured to deform on impact and thereby release the marking compound; anda crimped metal ring configured to seal the polymeric front shell portion to the polymeric base portion by applying a radial compressive force thereto, the crimped metal ring having an uncrimped portion co-molded the polymeric base portion, and a crimped portion applying radial compression to the outer surface of the polymeric front shell portion.
Endicott, David W.; Doll, Daniel W.; Cragun, R. Brad; Olson, Jared K.; Rose, Michael T.; Moore, Mark A.; Rozanski, James D.; George, Russell J., Projectiles for marking targets, methods of manufacturing the same, and methods of utilizing the same.
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