초록 ▼

An ordnance venting system has one or more adapters that separate the warhead section from other sections of a rocket, or submunition compartments within the warhead itself. The adapters structurally fail at given temperatures and pressures to reduce the danger of explosion from heat induced over-pr

An ordnance venting system has one or more adapters that separate the warhead section from other sections of a rocket, or submunition compartments within the warhead itself. The adapters structurally fail at given temperatures and pressures to reduce the danger of explosion from heat induced over-pressurization. By dividing the sections of the rocket with the adapters, the separate sections of the rocket become physically separated by the structural failure of the adapters.

대표청구항 ▼

What is claimed is: 1. An ordnance venting system to reduce the danger of explosion from heat induced over-pressurization in rocket warheads, comprising: a first rocket section comprising a rocket warhead section having at least a first connectable end; and, an adapter for melting at high temperatu

What is claimed is: 1. An ordnance venting system to reduce the danger of explosion from heat induced over-pressurization in rocket warheads, comprising: a first rocket section comprising a rocket warhead section having at least a first connectable end; and, an adapter for melting at high temperatures comprising a first mating surface and a second mating surface, the first mating surface of the adapter effective to rigidly connect to the first connectable end of the rocket warhead section and the second mating surface of the adapter effective to rigidly connect with a connectable end of a second rocket section comprising a fuze section, wherein the adapter binds the first rocket section and the fuze rocket section, wherein a portion of the second mating surface extends beyond the first connectable end in contact with the rocket fuze section, and wherein the first mating surface and the second mating surface are non-continuous surfaces each in a different plane. 2. The ordnance venting system of claim 1, wherein the rocket warhead section comprises a single compartment explosive fill. 3. The ordnance venting system of claim 1, wherein the rocket warhead section comprises a multiple submunitions. 4. The ordnance venting system of claim 1, further comprising a second adapter, wherein the rocket warhead section comprises a second connectable end, the second adapter effective to connect, rigidly, to the second connectable end of the rocket warhead section. 5. The ordnance venting system of claim 1, wherein the adapter is comprised of a thermoplastic material. 6. The ordnance venting system of claim 1, wherein the adapter is comprised of polycarbonate. 7. The ordnance venting system of claim 1, wherein the adapter is comprised of a polycarbonate filled with glass in an amount from at least about 30 weight percent. 8. The ordnance venting system of claim 7, wherein the adapter is comprised of a polycarbonate filled with glass in an amount ranging from about 30 weight percent to about 40 weight percent. 9. The ordnance venting system of claim 1, wherein the adapter is comprised of a nylon material. 10. The ordnance venting system of claim 1, wherein the adapter is comprised of a tetrafluoroethylene material. 11. A rocket comprising the ordnance venting system of claim 1. 12. The rocket of claim 11, wherein the rocket warhead is selected from one of an unguided rocket warhead and a guided rocket warhead. 13. The ordnance venting system of claim 1, wherein the adapter melts at a temperature from at least about 350�� F. 14. The ordnance venting system of claim 1, wherein the adapter structurally fails at a pressure from at least about 5000 psi. 15. The ordnance venting system of claim 1, wherein the first mating surface comprises a portion substantially perpendicular to the first connectable end. 16. The ordnance venting system of claim 1, wherein the adapter comprises a an external portion in relation to the first mating surface. 17. The ordnance venting system of claim 1, wherein the first mating surface is a substantially L-shaped first mating surface. 18. An ordnance venting system in a rocket warhead, comprising: a first rocket section comprising a rocket warhead section having at least a first connectable end; and, an adapter for melting at high temperatures comprising a first mating surface and a second mating surface, the first mating surface of the adapter effective to rigidly connect to the first connectable end of the rocket warhead section and the second mating surface of the adapter effective to rigidly connect with a connectable end of a second rocket section comprising a fuze section, wherein the adapter comprises an external surface portion, and wherein the first mating surface and the second mating surface are non-continuous surfaces each in a different plane. 19. The ordnance venting system according to claim 18, wherein the external surface portion contacts the first connectable end and the second rocket fuze section. 20. The ordnance venting system according to claim 18, wherein the external surface portion is situated substantially intermediate the first connectable end and a portion of the second rocket fuze section.