Cartridge case and cartridge arrangement and method

Abstract

A cartridge case and cartridge arrangement and method in which a base is joined along an annular intermating chevron-shaped joint with a sleeve. In the illustrated and preferred embodiment the base is metal and the sleeve is glass-fiber-reinforced plastic. The case has a propellant, projectile, and a percussive primer. A plurality of circumferentially spaced vent holes are formed in the plastic sleeve along a portion of the chevron joint as an aid to reducing excessive interface friction loads at the chevron joint during firing of the cartridge. A less preferred modification and mode of practice of the invention is disclosed in which the base is formed of plastic material or a composite glass-plastic or other composite plastic material, and the sleeve is formed of metal. A further less preferred modification and mode of practice is disclosed in which both the sleeve and the base are formed of similar materials.

Description

Claims

1. A cartridge case comprising,

a base,

a sleeve connected to said base through a mechanical interlocking overlapping joint having radially innermost and outermost overlapping portions which have interengaging mechanical interlock surfaces, which joint forms an obturating seal under radially outward pressure exerted thereon,

and at least one radially extending vent hole formed in the radially innermost of the overlapping portions of said joint and within the zone of said mechanical interlock surfaces to enable partial pressure equalization and longitudinal pressure-responsive interlock relief relative movement along a longitudinal portion of said joint while enabling obturating circumferential sealing of the remaining portion of said joint.

2. A cartridge case according to claim 1,

said base being formed of metal and said sleeve being formed of a plastic material.

3. A cartridge case according to claim 2,

said mechanical interlocking overlapping joint comprising overlapping interfacing annular chevron surfaces formed on each of said base and said sleeve,

said vent holes being formed in the zone of and extending through the outwardly facing innermost one of said chevron surfaces.

4. A cartridge case according to claim 1,

further comprising a plurality of said radially extending vent holes circumferentially spaced about and formed in said radially innermost of said overlapping portions of said joint.

5. A cartridge case according to claim 4,

said base being formed of metal and said sleeve being formed of a plastic material.

6. A cartridge case according to claim 4,

said sleeve being formed of a fiber-reinforced cured plastic resin.

7. A cartridge case according to claim 4,

said mechanical interlocking overlapping joint comprising overlapping interfacing annular chevron surfaces formed on each of said base and said sleeve,

said vent holes being formed in the zone of and extending through the outwardly facing innermost one of said chevron surfaces.

8. A cartridge case according to claim 7,

said base being formed of metal and said sleeve being formed of a plastic material.

9. A cartridge case according to claim 7

said sleeve being formed of a fiber-reinforced cured plastic resin.

10. A cartridge case according to claim 7

said base having a longitudinally extending annular lip a portion of which has formed thereon one of said interfacing annular chevron surfaces forming said joint.

11. A cartridge case according to claim 10

said base lip being tapered at its end zone, and said one chevron surface being formed along said tapered end zone,

said interfacing sleeve chevron surface being substantially complementarily tapered and chevron surfaces in the zone of said overlapping joint.

12. A cartridge case according to claim 11,

said sleeve being disposed radially inboard of said base in the zone of said joint and having its said chevron surface facing radially outwardly and having said vent holes formed therein.

13. A cartridge comprising a cartridge case according to claim 1, and further comprising

a projectile carried by said case,

a propellant powder charge disposed within said case,

and means for igniting said propellant powder charge.

14. A cartridge comprising a cartridge case according to claim 4, and further comprising

a projectile carried by said case,

a propellant powder charge disposed within said case,

and means for igniting said propellant powder charge.

15. A cartridge case comprising

a base,

a sleeve connected to said base through a mechanical interlocking overlapping joint having radially innermost and outermost overlapping portions which have interengaging mechanical interlock surfaces, which joint forms an obturating seal under radially outward pressure exerted thereon,

and a plurality of circumferentially spaced radially extending vent holes formed in the radially innermost of the overlapping portions of said joint to enable partial pressure equalization and longitudinal pressure-responsive interlock relief relative movement along a longitudinal portion of said joint while enabling obturating circumferential sealing of the remaining portion of said joint,

said mechanical interlocking overlapping joint comprising overlapping interfacing chevron surfaces formed on each of said base and said sleeve,

said sleeve being disposed radially inboard of said base in the zone of said joint and having its said chevron surface facing radially outwardly and having said vent holes formed therein,

said vent holes being formed in the zone of and extending through the outwardly facing innermost one of said chevron surfaces.

16. A cartridge case according to claim 15

said base being formed of metal and said sleeve being formed of a plastic material.

17. A cartridge case according to claim 16

said sleeve being formed of a fiber-reinforced cured plastic resin.

18. A cartridge case comprising

a base,

a sleeve connected to said base through a mechanical interlocking overlapping joint having radially innermost and outermost overlapping portions, which have interengaging mechanical interlock surfaces, which joint forms an obturating seal under radially outward pressure exerted thereon,

and a plurality of circumferentially spaced radially extending vent holes formed in the radially innermost of the overlapping portions of said joint and within the zone of said mechanical interlock surfaces to enable partial pressure equalization over a longitudinal portion only of said joint while enabling obturating circumferential sealing of the remaining portion of said joint,

said mechanical interlocking overlapping joint comprising overlapping interfacing annular chevron surfaces formed on each of said base and said sleeve,

said sleeve being disposed radially inboard of said base in the zone of said joint and having its said chevron surface facing radially outwardly and having said vent holes formed therein.

19. A cartridge case according to claim 18,

said base being formed of metal and said sleeve being formed of a plastic material.

20. A cartridge case according to claim 18,

said sleeve being formed of a fiber-reinforced cured plastic resin.

21. A cartridge case according to claim 18,

said base having a longitudinally extending annular lip a portion of which has formed thereon one of said interfacing annular chevron surfaces forming said joint.

22. A cartridge case according to claim 21,

said base lip being tapered at its end zone, and said one chevron surface being formed along said tapered end zone,

said interfacing sleeve chevron surface being substantially complementarily tapered with interfitting chevron surfaces in the zone of said overlapping joint.

23. A cartridge comprising a cartridge case according to claim 15, and further comprising

a projectile carried by said case,

a propellant powder charge disposed within said case,

and means for igniting said propellant powder charge.

24. A cartridge case according to claim 18,

said base having a longitudinally extending annular rim or lip a portion of which has formed thereon one of said interfacing annular chevron surfaces forming said joint,

said base rim or lip being tapered at its end zone, and said one chevron surface being formed along said tapered end zone,

said interfacing sleeve chevron surface being substantially complementarily tapered with interfitting chevron surfaces in the zone of aid overlapping joint,

each of said chevron surfaces being formed of discrete step surfaces alternately oppositely canted at acute angles relative to an imaginary longitudinal center line of said case.

25. A cartridge case according to claim 18,

each of said chevron surfaces being formed of discrete step surfaces alternately oppositely canted at acute angles relative to an imaginary longitudinal center line of said case.

26. A cartridge case according to claim 15,

each of said chevron surfaces being formed of discrete step surfaces alternately oppositely canted at acute angles relative to an imaginary longitudinal center line of said case.

27. A cartridge case according to claim 26,

said base being formed of metal and said sleeve being formed of a plastic material.

28. A cartridge case according to claim 26,

said sleeve being formed of a fiber-reinforced cured plastic resin.

29. A cartridge case according to claim 26,

said base having a longitudinally extending annular lip a portion of which has formed thereon one of said interfacing annular chevron surfaces forming said joint.

30. A cartridge comprising a cartridge case according to claim 26, and further comprising

a projectile carried by said case,

a propellant powder charge disposed within said case,

and means for igniting said propellant powder charge.

31. A cartridge case comprising

a base,

a sleeve connected to said base through a mechanical interlocking overlapping joint having gradually innermost and outermost overlapping portions which have interengaging mechanical interlock surfaces, which joint forms an obturating seal under radially outward pressure exerted thereon,

and a plurality of circumferentially spaced radially extending vent holes formed in the radially innermost of the overlapping portions of said joint and within the zone of said mechanical interlock surfaces to enable partial pressure equalization and longitudinal pressure-responsive interlock relief over a longitudinal portion of said joint while enabling obturating circumferential sealing of the remaining portion of said joint,

said mechanical interlocking overlapping joint comprising overlapping interfacing annular chevron surfaces formed on each of said base and said sleeve.

and said vent holes being formed in the zone of and extending through the outwardly facing innermost one of said chevron surfaces.

32. A cartridge case according to claim 31,

said base being formed of metal and said sleeve being formed of a plastic material.

33. A cartridge case according to claim 31,

said sleeve being formed of a fiber-reinforced cured plastic resin.

34. A cartridge case according to claim 31,

said base having a longitudinally extending annular lip a portion of which has formed thereon one of said interfacing annular chevron surfaces forming said joint.

35. A cartridge case according to claim 34,

said base lip being tapered at its end zone, and said one chevron surface being formed along said tapered end zone,

said interfacing sleeve chevron surface being substantially complementarily tapered with interfitting chevron surfaces in the zone of said overlapping joint.

36. A cartridge case according to claim 31,

said base having a longitudinally extending annular lip a portion of which has formed thereon one of said interfacing annular chevron surfaces forming said joint,

said base rim or lip being tapered at its end zone, and said one chevron surface being formed along said tapered end zone,

said interfacing sleeve chevron surface being substantially complementarily tapered with interfitting chevron surfaces in the zone of said overlapping joint,

each of said chevron surfaces being formed of discrete step surfaces alternately oppositely canted at acute angles relative to an imaginary longitudinal center line of said case.

37. A cartridge according to claim 31,

each of said chevron surfaces being formed of discrete step surfaces alternately oppositely canted at acute angles relative to an imaginary longitudinal center line of said case.

38. The method of manufacture of a cartridge case having a metal base and a plastic sleeve in which excessive interface friction loads are reduced at a plastic/metal interface circumferential joint formed between a chevron-surface-interconnected metal cartridge base and an annular plastic cartridge sleeve having radially innermost and outermost overlapping mutually interfacing and interfitting longitudinally tapered chevron-surfaced annular lips, comprising

forming at least one radially extending vent hole in said radially innermost one of said chevron-surfaced annular lips and extending through the chevron surface thereof to thereby enable a gas-pressured partial separation and longitudinal friction reduction between the interfitting chevron surfaces of said annular lips to be effected as a function of pressurizing of the radial interior formed said said chevron-surface-interconnected metal cartridge base and plastic sleeve, to thereby reduce likelihood of cartridge breakage upon propellant ignition and propellant gas pressure build-up,

and joining said base and sleeve together in pressure sealing longitudinally pressure-responsively relievable mechanically interlocked relation.

39. The method according to claim 38,

forming a plurality of radially extending vent holes spaced circumferentially about said innermost one of said chevron-surfaced annular lips.

40. The method according to claim 39, further comprising

forming said innermost chevron-surfaced annular lip of plastic,

and forming said plurality of vent holes in said plastic chevron-surfaced annular lips and in registry with the chevron surface thereof.