US3326084A - Light gas cartridge - Google Patents

June 20, 1967 L. L BARBiEm ET AL 3,326,084

LIGHT GAS CARTRIDGE Filed April 25, 1965 V/\\\ \\\v 3 mgm A w/ @N @mm IBR U J.U A mm UVI 01N 9 NOM AQ wm mm United States Patent 3,326,0tl4 MIGHT GAS CARTRlDGE Louis l'. Barbieri, rliustin, and Seymour Lampert, Santa Ana, Calif., assignors to North American Aviation, inc. rires Apr. 2s, was, ser. No. @eases l@ Claims. (Cl. 89-7) This invention relates to a gun system for launching projectiles at high velocity and more particularly relates to a cartridge employing a low molecular weight gas for propelling a projectile.

In order to obtain long range and high penetrating capability of projectiles, it is desirable to have a high muzzle velocity. Laboratory investigations have shown that high pressure low molecular weight gases can be employed to propel projectiles to higher muzzle velocities than obtainable with combuston gases from conventional explosives. Such a high velocity gun is illustrated in U.S. Patent 2,872,846. Devices previously available have been limited to laboratory investigations and have employed only very light projectiles. Additionally these laboratory instruments have required extensive preparation between each successive tiring so that a very small number of projectiles can be fired in a given time period. Generally the entire gun is taken apart so that the damaged remains of a tiring can be removed and a new test arrangement provided in the gun. In the previous laboratory devices the burning powder gases are in contact with the gun wall While the gun chamber is under high pressure, thereby causing severe damage to the walls and limiting the effective life of the gun. The iiames on the pressurized chamber walls can initiate cracking in the walls and affect the safety of operation ofthe gun.

It is therefore a broad object of this invention to provide an improved means for propelling projectiles to very high velocities.

Thus in the practice of this invention according to a preferred embodiment there is provided a gun and a preloaded light gas cartridge therefor capable of indefinite storage before use. The light gas cartridge has a smooth continuous outer surface so that it is readily fitted closely in the breech of the gun. The light gas cartridge comprises a powder containing chamber having a conventional explosive gun powder and means for igniting the gun powder. A second adjoining gas sealed chamber -contains pressurized gas of low molecular weight such as helium. A conduit is provided for charging the chamber with light gas and this conduit is arranged within the cartridge so that there is no impediment to use of the cartridge in a gun. A light weight piston separates the two chambers and upon combustion of the gun powder the piston is driven into the second chamber thereby further compressing the low molecular weight gas. A projectile assembly having a pressure rupture release structure is on the opposite end of the second chamber from the piston. When the low molecular weight or light gas is suitably compressed the resultant pressure ruptures the projectile support structure and propels the projectile along a gun barrel. The light gas owing along the gun barrel driving the projectile provides a higher muzzle velocity than powder gases alone because of the higher acoustic velocity attainable in the lighter gas over the acoustic velocity in combustion products of a powder charge. After tiring, another preloaded cartridge having a new powder charge and chamber of compressed low molecular weight gas can be rapidly reloaded in the gun for a repeated firing. Since the piston is contained in the cartridge and the combustion of powder is in the cartridge the gun is quickly readied for another firing and no damage occurs in the breech of the gun due to hot powder gases.

Thus it is a broad object of this invention to provide an improved light gas gun.

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It is another object of this invention to provide a means for obtaining high muzzle velocity projectiles.

It is another object of this invention to provide a readily stored light gas cartridge.

Other objects and many attendant advantages of this invention will be readiiy appreciated as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings wherein:

FIG. l is a longitudinal cross section of a light gas gun employing a cartridge as provided in the practice of this invention;

FlG. 2 is an end view of the forward end of the gun of FIG. l;

FIG. 3 comprises a cross section view of the forward end of the light gas cartridge of FIG. l;

FIG. 4 comprises a cross section view of the center portion of the light gas cartridge of FIG. l; and

FIG. 5 shows a rear view of the light gas cartridge of FIG. l.

Throughout the drawings like reference numerals refer to like parts.

The advantage of using a light gas as a missile propellant rather than the combustion gas of a standard powder charge lies in the greater rate of expansion of a light gas at a given temperature and pressure than the rate of expansion of the combustion products of a conventiontal powder charge. If the energy contained in the standard powder charge is transferred to a monatomic, low molecular weight gas such as helium, then most of the energy in the gas is in the form of translational kinetic energy and none is present in the form of rotational or oscillatory modes as is the case with the higher molecular weight polyatomic gases which result when a powder is burned. In addition, because of the lower mass, a given energy produces a higher translational velocity of a helium atom than the velocity of a polyatornic molecule in a conventional gas, These factors combined result in a considerably higher expansion rate for helium gas at a given temperature and pressure and thus result in higher muzzle velocities in projectiles driven thereby than result from conventional powder gases.

It will be apparent that a cartridge incorporating the principles of this invention can readily be employed in other types of guns than the one specifically described herein. Thus for example, a quick locking breech block can be employed along with accessories such as automatic cartridge feeding and extraction and the like. A gun having percussion type of firing can be employed, in which case the cartridge is readily provided with cnventional percussion primers rather than the electrical initi ators illustrated in the preferred embodiment.

Obviously many modifications and Variations of the present invention are possible in light of the above teachings. lt is therefore to be understood that within the scope of the appended claims the invention may be practiced otherwise than as specifically described.

What is claimed is:

1. A self-contained light gas cartridge capable of indefinite storage for use in a light gas gun comprising:

a hollow housing having a cylindrical interior portion and a slightly conical exterior portion;

a projectile assembly in gas sealing relation to the for* ward end of said housing, said assembly including a frangible region for rupture at a predetermined high pressure in said housing;

6 a piston in gas sealing relation in said hollow housing and cooperating therewith to define a forward chamber and an aft chamber therein; a charge of compressed light gas in the forward chamber;

a charge of explosive in the aft chamber;

means for igniting said explosive; and

means for introducing the charge of light gas in the forward chamber comprising a filling conduit on the axis of said cartridge communicating with the forward chamber.

2. A self-contained light gas cartridge comprising:

a substantially cylindrical housing sealed at its aft end and having a smooth, continuous outer surface for close fit within the breech of a gun;

a projectile frangibly secured to the housing at its forward end in sealing relation thereto;

a slidable piston in the housing cooperating therewith to define forward and aft chambers and having a sealed filling conduit extending through the piston and wholly contained within the housing whereby the housing presents a smooth exterior for reception by a gun breech;

a pressurized light gas in the forward chamber;

an explosive in the aft chamber; and

means for igniting the explosive.

3. A light gas cartridge comprising:

a hollow housing having a shallow draft along the length thereof and a coating of solid material of low coeicient of friction thereon;

a missile secured to said housing at one end thereof by a connection that is rupturable at a preselected high pressure in said housing;

a light weight piston in said housing dividing the interior into a forward chamber and an aft chamber, said piston gas sealing the forward chamber from the aft chamber and having a sealed conduit therethrough for fluid communication with the forward chamber before sealing;

a compressed low molecular weight gas in the forward chamber;

a charge of explosive in the aft chamber;

means for igniting the explosive in the aft chamber.

4. A light gas cartridge comprising:

a hollow housing having a shallow draft along the length thereof and an internal shoulder having a circular knife edge facing toward the forward end of said cartridge;

a piston in said housing dividing said housing into a forward chamber and an aft chamber and seated on the knife edge to form a gas seal;

a compressed low molecular weight gas sealed in the forward chamber;

a charge of explosive in the aft chamber;

means for igniting the explosive in the aft chamber;

and

a projectile assembly in the forward end of the forward chamber comprising a missile to be propelled and a rupture plate that is rupturable at a preselected high pressure in said housing;

said piston including an axial conduit therethrough, said conduit being sealed shut for retaining the low molecular weight gas in the forward chamber.

S. A self-contained light gas cartridge capable of in- 65 definite storage for use in a light gas gun comprising:

a hollow housing having a shallow draft along substantially the full length thereof;

a piston in said housing in gas sealing relation thereto separating said housing into a forward chamber and an aft chamber;

a compressed low molecular weight gas sealed in the forward chamber;

a charge of explosive in the aft chamber;

means for igniting the explosive in the aft chamber;

and

a projectile assembly in the forward end of said cartridge housing including a missile to be propelled and a rupture plate secured to said missile, said projectile assembly including a conical groove partially separating the missile and the rupture plate for providing a boattail on the missile and providing a deliberately weak portion of said rupture plate so that the locus of rupture is smaller than the caliber of the missile.

6. A light gas cartridge comprising:

a housing forming a chamber therein;

a piston in the chamber for dividing the chamber into a forward portion and an aft portion;

a missile at the forward end of said housing;

a rupture plate adjacent said missile for containing gas below a preselected pressure and releasing gas above the preselected pressure;

a compressed low molecular weight gas in the forward portion of the chamber;

a charge of gunpowder in the aft portion of the chamber;

a scalable conduit through said piston for admitting low molecular weight gas to the forward portion of the chamber;

a gas port in the aft portion of the chamber;

a thermolabile plug in said port; and

a layer of polytetrauoroethylene on the exterior of said housing.

7. A light gas cartridge comprising:

a forward housing defining a forward chamber therein for containing a low molecular weight gas, said forward housing having a smooth cylindrical inner wall and an outer wall having a draft for facilitating cartridge extraction from a gun breech;

an aft housing defining an aft chamber for containing a charge of gunpowder;

a projectile assembly axially aligned in the forward end of said cartridge including a partially cylindrical missile to be propelled and a rupture plate secured to said missile, said rupture plate being gas sealed to said cartridge and including a deliberately weak portion for rupturing at a preselected gas pressure; said weak portion comprising a groove in the plate at its junction with the missile, said groove circumscribing the missile and having an inner diameter smaller than the diameter of the cylindrical part of said missile;

a catcher block in the forward end of the forward chamber having an aft facing conical surface, for minimizing shock loads on the end of said cartridge;

a light weight piston in the forward chamber, separating the forward chamber from the aft chamber and having a forward facing conical surface substantially similar to the catcher block surface;

a scalable conduit through said piston for lling the forward chamber with a low molecular weight gas;

a transition piece fixed to the aft end of the forward housing having an internally threaded portion and a forward facing knife edge gas seal for gas sealing with said piston;

a pressurized low molecular weight gas in said forward chamber;

a gas relief port in said aft housing communicating with the aft chamber and with the cartridge exterior;

a thermolabile plug in said gas relief port for providing temporary gas sealing of said port;

gunpowder in the aft chamber;

an igniter in the cartridge for igniting said gunpowder;

and

a layer of polytetrafluoroethylene on the draft portion of the cartridge for facilitating extraction thereof.

8. A light gas gun system comprising:

a barrel portion having a bore therethrough;

a breech portion having a cartridge receiving chamber therein aligned with the bore, said chamber having a draft therein for facilitating cartridge extraction;

a breech block removably secured to said breech portion for closing the cartridge receiving chamber;

a removable cartridge in the cartridge receiving chamber; said cartridge having a draft thereon matching the draft of the chamber so as to fit snugly therein and further comprising:

a forward housing defining a forward chamber therein for containing a low molecular weight gas, said forward housing having a smooth cylindrical inner wall;

an aft housing defining an aft chamber for containing a charge of gunpow-der;

a projectile assembly in the forward end of said cartridge and aligned with the bore in said barrel portion including a missile to be propelled and a rupture plate secured to said missile, said rupture plate being gas sealed to said cartridge and including a deliberately weak portion for rupturing at a preselected gas pressure;

a light weight piston in the forward chamber, separating the forward chamber from the aft chamber;

a sealable conduit through said piston for filling the forward chamber with a low molecular weight gas;

a knife edge gas seal on the forward housing for gas sealing with said piston;

a pressurized low molecular weight gas in said forward chamber;

gunpowder in the aft chamber;

an igniter in the cartridge for igniting said gunpowder;

and

a layer of polytetrafluoroethylene on the draft portion of the cartridge for facilitating extraction thereof.

9. A light gas gun system comprising:

a barrel portion having a bore therethrough;

a breech portion having a cartridge receiving chamber therein aligned with the bore, said chamber having a draft therein for facilitating cartridge extraction;

a breech block removably secured to said breech portion for closing the cartridge receiving chamber;

a removable cartridge in the cartridge receiving chamber; said cartridge having a draft thereon matching rthe draft of the chamber so as to fit snugly therein and further comprising:

a forward housing defining a forward chamber therein for containing a low molecular weight gas, said forward housing having a smooth cylindrical inner wall;

an aft housing defining an aft chamber for containing a charge of gunpowder;

a projectile assembly in the forward end of said cartridge and aligned with the bore in said barrel portion including a missile to be propelled and a rupture plate secured to said missile, said rupture plate being gas sealed to said cartridge and including a deliberately weak portion for rupturing at a preselected gas pressure; said weak portion comprising a groove in the plate at its junction with the missile, said groove circumscribing the missile and having an inner diameter smaller than the bore of said barrel;

a catcher block in the forward end of the forward chamber having an aft facing conical surface, for minimizing shock loads on the end of said cartridge;

a light weight piston in the forward chamber, separating the forward chamber from the aft chamber and having a forward facing conical surface substantially similar to the catcher block surface;

a sealable conduit through said piston for filling the forward chamber with a low molecular weight gas;

a transition piece fixed to the aft end of the forward housing having an internally threaded portion and a forward facing knife edge gas seal for gas sealing with said piston;

a pressurized low molecular weight gas in said forward chamber;

a gas relief port in said aft housing communicating with the aft chamber and with the cartridge exterior;

a thermolabile plug in said gas relief port for providing through said piston communicating with said rst temporary gas sealing of said port; chamber for injecting the pressurized light gas into gunpowder in the aft chamber; the first chamber, and means for sealing the conduit an igniter in the cartridge for igniting said gunpowder; subsequent to injection of the pressurized light gas.

pressurized light gas, a second closed chamber mount- 15 ed rearwardly of said first chamber containing gun SAMUEL W ENGLE, Primmy Exgminerpowder, a movable piston between said first chamber and said second chamber, an axially extending tube BENJAMIN A' BORCHELT Asslsmm Examme"