초록 ▼

To hinder activation caused by unplanned stimuli, a munition may include first and second discrete, separable parts. The first and second parts may include interlocking components to prevent relative axial translation of the first and second parts. The first and second parts may be torsionally biase

To hinder activation caused by unplanned stimuli, a munition may include first and second discrete, separable parts. The first and second parts may include interlocking components to prevent relative axial translation of the first and second parts. The first and second parts may be torsionally biased in opposite directions. A binder with a low melting temperature may fix the first and second parts together to prevent the torsional bias from rotating the first and second parts in the opposite directions. When the binder melts, the torsional bias may cause the first part to rotate with respect to the second part. Relative rotation of the first and second parts may allow relative axial translation of the first and second parts.

대표청구항 ▼

1. A munition, comprising: first and second discrete, separable parts, the first and second parts including interlocking components to prevent relative axial translation of the first and second parts;a spring that torsionally biases the first and second parts in opposite directions;energetic materia

1. A munition, comprising: first and second discrete, separable parts, the first and second parts including interlocking components to prevent relative axial translation of the first and second parts;a spring that torsionally biases the first and second parts in opposite directions;energetic material disposed in the munition; anda binder that fixes the first and second parts together to prevent the spring from rotating the first and second parts in the opposite directions, the binder having a melting temperature lower than melting temperatures of the first and second parts and lower than an ignition temperature of the energetic material;wherein, when the binder melts, the spring rotates the first part with respect to the second part to allow relative axial translation of the first and second parts. 2. The munition of claim 1, wherein one end of the spring is fixed to one of the first and second parts. 3. The munition of claim 2, wherein the binder comprises a eutectic metal solder. 4. The munition of claim 2, wherein the first part is a cartridge case and the second part is a plug that includes a primer pocket, the plug being disposed in an end of the cartridge case. 5. The munition of claim 4, wherein the plug includes a disc portion for at least partially closing the end of the cartridge case and a locking portion axially spaced apart from the disc portion, the locking portion bearing on a bearing portion of the cartridge case. 6. The munition of claim 5, wherein the cartridge case includes a spring stop, the one end of the spring being fixed to the spring stop. 7. The munition of claim 6, wherein a free end of the spring bears against the locking portion of the plug. 8. The munition of claim 7, wherein the binder fixes the plug to the cartridge case. 9. The munition of claim 8, wherein the bearing portion of the cartridge case comprises a portion of an annulus. 10. The munition of claim 9, wherein the binder is pre-coated on a binding surface on the plug and on a binding surface on the cartridge case. 11. The munition of claim 1, further comprising a plurality of second discrete, separable parts having interlocking components to prevent relative axial translation of the first part and the plurality of second parts; a plurality of springs that torsionally bias the first part and the plurality of second parts in opposite directions; a plurality of binders that fix the first part and the plurality of second parts together to prevent the springs from rotating the first part and the plurality of second parts in the opposite directions, the binders having melting temperatures lower than melting temperatures of the first part and the plurality of second parts and lower than an ignition temperature of the energetic material; wherein, when the binders melt, the springs rotate the first part with respect to the plurality of second parts to allow relative axial translation of the first part and the plurality of second parts. 12. The munition of claim 11, wherein the first part is a cartridge case and the plurality of second parts are plugs that are disposed in respective plug openings in an end of the cartridge case. 13. The munition of claim 12, wherein each plug includes a disc portion for closing the respective plug opening and a locking portion axially spaced apart from the disc portion, the locking portion bearing on a bearing portion of the cartridge case. 14. The munition of claim 12, wherein the binders comprise eutectic metal solder. 15. The munition of claim 2, wherein the first and second parts are first and second mating portions of a grenade body and the interlocking components include projections on the first mating portion and projections on the second mating portion. 16. The munition of claim 15, wherein alignment of the projections on the first and second mating portions prevents relative axial translation of the first and second mating portions. 17. The munition of claim 16, wherein the first and second mating portions each comprise about one half of the grenade body. 18. The munition of claim 16, wherein the binder comprises a eutectic metal applied at a seam between the first and second mating portions. 19. The munition of claim 16, further comprising a tension arm having one end fixed to one of the mating portions and a free end, the spring having one end fixed to the free end of the tension arm and another end fixed to the other of the mating portions. 20. The munition of claim 19, wherein the other end of the spring is fixed to a hook on the other of the mating portions. 21. The munition of claim 17, wherein the first mating portion includes a reduced diameter portion and the projections of the first mating portion are located on the reduced diameter portion. 22. The munition of claim 21, wherein the projections on the second mating portion are located on an interior of the second mating portion. 23. A munition, comprising: a cartridge case and a plug that includes a primer pocket;the plug being disposed in an end of the cartridge case, the plug including a disc portion for at least partially closing the end of the cartridge case and a locking portion axially spaced apart from the disc portion, the locking portion bearing on a bearing portion of the cartridge case to prevent relative axial translation of the cartridge case and the plug;propellant disposed in the cartridge case;a spring that torsionally biases the cartridge case and the plug in opposite directions; andeutectic material that fixes the cartridge case and the plug together to prevent the spring from rotating the cartridge case and the plug in the opposite directions, the eutectic material having a melting temperature lower than melting temperatures of the cartridge case and the plug and lower than an ignition temperature of the propellant;wherein, when the eutectic material melts, the spring rotates the cartridge case with respect to the plug to allow relative axial translation of the cartridge case and the plug. 24. A munition, comprising: a cartridge case and a plurality of plugs;the plugs being disposed in a plurality of respective plug openings in an end of the cartridge case, each plug including a disc portion for closing the respective plug opening and a locking portion axially spaced apart from the disc portion, the locking portion bearing on a bearing portion of the cartridge case to prevent relative axial translation of the cartridge case and the plug;propellant disposed in the cartridge case;a plurality of springs that torsionally bias the cartridge case and the plugs in opposite directions; andeutectic material that fixes the cartridge case and the plugs together to prevent the springs from rotating the cartridge case and the plugs in the opposite directions, the eutectic material having a melting temperature lower than melting temperatures of the cartridge case and the plugs and lower than an ignition temperature of the propellant;wherein, when the eutectic material melts, the springs rotate the cartridge case with respect to the plugs to allow relative axial translation of the cartridge case and the plugs. 25. A munition, comprising: first and second mating portions of a grenade body, the first and second mating portions including aligned projections to prevent relative axial translation of the first and second mating portions;energetic material disposed in the grenade body;a spring that torsionally biases the first and second mating portions in opposite directions;eutectic material disposed at a seam between the first and second mating portions, the eutectic material fixing the first and second mating portions together to prevent the spring from rotating the first and second mating portions in the opposite directions, the eutectic material having a melting temperature lower than melting temperatures of the first and second mating portions and lower than an ignition temperature of the energetic material; anda tension arm having one end fixed to one of the mating portions and a free end, the spring having one end fixed to the free end of the tension arm and another end fixed to the other of the mating portions;wherein, when the eutectic material melts, the spring rotates the first mating portion with respect to the second mating portion to allow relative axial translation of the first and second mating portions. 26. A method, comprising: providing a munition having first and second discrete, separable parts, the first and second parts including interlocking components to prevent relative axial translation of the first and second parts;torsionally biasing the first and second parts in opposite directions; andbinding the first and second parts together with a binding material to prevent relative rotation of the first and second parts in the opposite directions, the binding material having a melting temperature lower than melting temperatures of the first and second parts;melting the binding material; androtating the first part with respect to the second part. 27. The method of claim 26, further comprising, after rotating the first part with respect to the second part, axially translating the first part with respect to the second part. 28. The method of claim 27, wherein the binding material comprises a eutectic metal. 29. The method of claim 27, wherein the first part is a cartridge case and the second part is a plug that includes a primer pocket, the plug being disposed in an end of the cartridge case. 30. The method of claim 27, wherein the first and second parts are first and second mating portions of a grenade body and the interlocking components include projections on the first mating portion and projections on the second mating portion. 31. The method of claim 29, wherein the plug includes a disc portion for at least partially closing the end of the cartridge case and a locking portion axially spaced apart from the disc portion, the locking portion bearing on a bearing portion of the cartridge case to prevent relative axial translation of the plug and the cartridge case. 32. The method of claim 31, wherein binding includes fixing the plug to the cartridge case with the binding material. 33. The method of claim 32, wherein the bearing portion of the cartridge case comprises a portion of an annulus. 34. The method of claim 30, wherein alignment of the projections on the first and second mating portions prevents relative axial translation of the first and second mating portions. 35. The method of claim 34, wherein binding includes applying a eutectic metal to a seam between the first and second mating portions. 36. The method of claim 30, wherein the munition includes a tension arm having one end fixed to one of the mating portions and a free end, and a spring having one end fixed to the free end of the tension arm and another end fixed to the other of the mating portions. 37. The method of claim 26, further comprising providing energetic material in the munition, the binding material having a melting temperature lower than an ignition temperature of the energetic material.