This disclosure is in the field of shaped charge ordnance.
For the purposes of promoting an understanding of the principles of what is claimed, reference will now be made to embodiments illustrated in the drawings and specific language will be used to describe the same. It will nevertheless be understood that no limitation of the scope of the claims is thereby intended. Any alterations and further modifications in the illustrated device, and any further applications of the principles disclosed and illustrated herein are contemplated as would normally occur to one skilled in the art to which the disclosure relates.
With respect to the specification and claims, it should be noted that the singular forms “a”, “an”, “the”, and the like include plural references unless expressly discussed otherwise. As an illustration, references to “a device” or “the device” include one or more of such devices and equivalents thereof. It also should be noted that directional terms, such as “up”, “down”, “top”, “bottom”, and the like, are used herein solely for the convenience of the reader in order to aid in the reader's understanding of the illustrated embodiments, and it is not the intent that the use of these directional terms in any manner limit the described, illustrated, and/or claimed features to a specific direction and/or orientation.
Disclosed is a small caliber projectile that incorporates a shaped charge explosive as part of the projectile ordnance. For purpose of this application small caliber refers to calibers that are utilized in handheld weaponry and can be fired as alternative rounds in standard handheld weapons. For example, a ten or twelve gauge shotgun shell, a large caliber handgun shell up to 0.50 caliber (0.50″ (12.7 mm) barrel bore), or a large caliber rifle cartridge up to 0.50 caliber (0.50″ (12.7 mm) barrel bore). For purpose of this application, small caliber does not refer to larger rounds that may be adapted to be fired from specialized weapons that may be man portable. Examples of man portable large caliber weapons that are not included in this definition of small caliber weapons includes grenade launchers such as the M203, a 40 mm under barrel grenade launcher; rifle grenades such as the 22 mm M7 which was fitted on the end of the barrel of a rifle; and rocket-propelled grenades that use a rocket motor to fire rockets equipped with explosive warheads. For purpose of this application, projectile means a bullet adapted to be fired out of a firearm barrel which is propelled by pressure, such as created by the ignition of a propellant in the firearm barrel with the bullet filling the bore of the barrel. “Projectile” does not include rockets.
The planned purpose for the projectile incorporating a shaped charged explosive is to provide the foot soldier limited capacity to penetrate objects that the soldier's primary weapon cannot penetrate while not requiring the soldier to carry extra weaponry. The disclosed projectile only includes a small shaped charge, so the penetration capacity of the disclosed projectile is limited, particularly when compared to larger caliber shaped charges (generally, the penetration depth of a shaped charge is a function of the diameter of the shaped charge). However, increased penetration capacity, even limited, is of potential value. For example, the disclosed projectile may be useful against lightly armored vehicles, body armor, and some obstacles that may be used as cover, for example, cinderblocks. The disclosed projectile is similar in size to standard cartridges, so an individual could carry a small number of the disclosed projectiles without sacrificing significant capacity of regular ammunition. Alternate applications include High Explosive or Fragmentation loadings of the projectile.
Referring to
Booster charge 108 is optionally included when necessary to ignite main charge 150. Main charge 150 may be constructed of a comparatively insensitive high explosive that requires a relatively large amount of heat or pressure to detonate, in particular, more heat or pressure than could reasonably be expected from detonator 104. In one example, main charge 150 is a plastic explosive that would not reliably be detonated by detonator 104. Booster charge 108 may be comparatively more sensitive to detonation, and, in particular, be sufficiently sensitive to detonation to be detonated by detonator 104. In one example, booster charge 108 is gunpowder.
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Front section 110 and rear section 130 are removably coupled together to facilitate positioning main charge 150, liner 170 and striker inside internal cavities 118 and 138 in jacket 102. While the illustrated embodiment utilizes a threaded connection between front section 110 and rear section 130, it should be understood that other structures to removably couple front section 110 and rear section 130 may be utilized. For example, connection portions 114 and 134 may define an interference fit, where front section 110 and rear section 130 are pressed together and then held together by friction. In yet another example, front section 110 and rear section 130 may be bonded together utilizing an adhesive or other material joining methods. Furthermore, the coupling between front section 110 and rear section 130 does not need to be removable. Once assembled, front section 110 and rear section 130 may be permanently coupled together.
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Projectile 100 is arranged to be fired in a forward direction such that front side 112 and striker 180 are the first surfaces of projectile 100 to impact a target. As illustrated in
Projectile 100 includes several structural features that work as safety mechanisms to reduce or prevent detonation of projectile 100 in situations besides when projectile 100 impacts a sufficiently rigid structure after being fired. Opening 120, through which striker 180 extends, includes conical profile 122 having conic angle OA. Conic angle OA may be substantially the same as conic angle SA on striker 190, with opening 120 sized such that striker 180 abut opening 120 and cannot translate past opening 120 without opening 120 and/or flutes 194 on striker 180 deforming. This construction helps prevent unintended detonation of detonator 104 or 106 in situations where striker 190 is impacted with less force, such might be encountered were projectile 100 to be dropped from height onto striker 190.
Similarly, conic angle PA in main charge 150 may be substantially the same as conic angle SA on striker 190, with passageway 160 sized such that striker abuts passageway 160 and cannot move through passageway 160 without deforming main charge 150 (and enlarging passageway 160). As described above, main charge 150 may be constructed of a plastic explosive, which can be deformed with sufficient force. Main charge 150 is restrained from deforming because it is enclosed in jacket 102. Thus, for striker 190 to move through main charge 150, main charge 150 and possibly jacket 102, have to deform. This construction may also help reduce or prevent unintended detonation of detonator 104 or 106 in situations where striker 190 is impacted with less force than generated from impact after firing from a firearm. In addition, the act of firing projectile 100 may generate significant reward momentum on striker 190, which would move striker 190 rearwardly if it is not sufficiently restrained. However, when projectile 100 is within a barrel of a firearm, jacket 102 is axially restrained from deforming, which also restrained main charge 150 from deforming axially. The illustrated construction may prevent detonations within a firearm barrel (due to striker 190 impacting detonator 104 or 108 against rear wall 133), which is an important safety consideration.
While a mating conical profile is disclosed, other geometries of striker 190 and/or passageway 160 may be used to achieve a similar effect. Any variable geometry of either striker 190, passageway 160 or both that resists longitudinal movement of striker 190 in a rearward direction through main charge 150 could be used. For example, a portion of striker 190 in passageway 160 could have an enlarged portion that would require deformation of main charge 150 for striker 190 to move rearward.
Referring now to
Base 218 serves to separate propellant charge 216 from sabot 220 and projectile 100 and provides a seal that prevents gases from detonating propellant charge 216 from flowing around sabot 220 and projectile 100 rather than propelling them down the barrel of the firearm.
Sabot 220 consists of several pieces that surround projectile 100 in hull 210. When shotgun shell 200 is fired, sabot 220 carries projectile 100 down the barrel of the firearm. When the sabot reaches the end of the barrel, the still air pulls sabot 220 apart and away from projectile 100, allowing projectile to continue in flight, unimpeded by sabot 220. Sabot 220 may be made of a lightweight material (compared to projectile 100) such as plastic. Sabot 220 allows the outer diameter of projectile 100 to be smaller than the bore of the shotgun, which can reduce the weight of projectile 100 and affects the amount of propellant charge 216 that is required to fire projectile 100.
Different shotgun barrels fail when too much propellant is used, so sabot 220 allows the weight of projectile 100 to be matched with the capacity of a particular shotgun. Sabot 220 also permits shotgun shell 200 to be used in shotguns having rifled barrels. However, it should be understood that sabot 220 is optional. The outer diameter of projectile 100 could be sized to fill the internal diameter of hull 210 (and the bore of the shotgun barrel) and might optionally include rifling features.
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While the claimed subject matter has been illustrated and described in detail in the drawings and foregoing description, the same is to be considered as illustrative and not restrictive in character. All changes and modifications that come within the spirit of the disclosure are desired to be protected by the claims.
This application claims priority to and the benefit of U.S. provisional patent application, Ser. No. 62/181,926, filed on Jun. 19, 2015, which is incorporated by reference herein as if fully set forth at length.
Number | Date | Country | |
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62181926 | Jun 2015 | US |