Hydraulic cylinder projectile and method of making the same

Ammunition and explosives – Projectiles – Dumdum or mushrooming

Reexamination Certificate

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C102S507000, C102S511000, C102S514000

Reexamination Certificate

active

06675718

ABSTRACT:

The present invention relates to a projectile that expands upon impact with a target, and more particularly, is concerned with a projectile containing a hydraulic cylinder and ram for enhancing radial expansion of the projectile upon its impact with a target. The present invention is further concerned with a method of making such a projectile.
BACKGROUND OF THE INVENTION
When hunting with a firearm, it is usually desirable that the projectile expand radially upon impact. Expansion of the projectile maximizes tissue damage, resulting in a more expeditious and humane kill.
Projectiles that radially expand upon impact with a target are known in the art. Many are comprised of a soft deformable material, such as lead, so they undergo some axial compression and radial expansion upon impact. Others are specifically designed to produce radial expansion. One approach taken in the prior art is to include a cavity in the leading end of the projectile, a so-called “hollow point.” Another approach includes a cavity in the leading end of the projectile, with a tip or piston in the cavity which is driven into the cavity by the impact with the target, causing radial expansion.
A third approach also includes a cavity. The cavity is filled with a substance or liquid that causes radial expansion. U.S. Pat. No. 5,349,907, Petrovich et al., teaches a projectile with a fluid filled cavity and a shaft disposed in the cavity aft of the fluid. Upon impact, the shaft is driven into the fluid, and compressive pressure on the fluid causes radial expansion. U.S. Pat. No. 3,429,263, Snyder et al., teaches a projectile with a paint-filled cavity that is used for marking targets at a distance. The Snyder patent claims radial expansion of the projectile due to compressive pressure on the paint upon impact.
Rousseau, in U.S. Pat. No. 1,715,788, discloses a hollow point projectile with a cavity, that when filled with fluid by impact with soft tissue, causes radial expansion of the projectile. U.S. Pat. No. 1,512,026, Holden et al., teaches a projectile with a fluid-filled tip attached to the leading end. Upon impact with a target, the compressive pressure on the fluid in the tip is conveyed by a depression in the core of the projectile, or by a jacket that surrounds the core, and causes radial expansion of the projectile.
The present inventor sells a lead projectile with a fluid-filled cavity and a steel, ball-shaped ram at one end of the cavity nearest the projectile's tip. The projectile is made by forming the cavity in the projectile, filling the cavity with fluid, placing a ball on top of the fluid, and spin welding the projectile tip over the ball.
Prior art projectiles with fluid-filled cavities achieve radial expansion upon impact. However, the Petrovich, Snyder and Holden projectiles and the inventor's product each require special manufacture at increased cost. The Rousseau projectile achieves radial expansion only on impact with soft, fluid-rich tissue, a drawback if the projectile strikes boney or thin tissue. These inventions lack a structure and method to mass produce an insert that will create a projectile with consistent expansion properties.
Additionally, projectiles fired from muzzle-loading firearms move at lower velocity than projectiles fired from modern rifles. A projectile specifically prepared for radial expansion at low velocity is of particular interest when hunting with these firearms. The inventor tested the disclosed invention and compared its expansion characteristics to those of other designs. These tests have shown that the disclosed invention has significantly greater radial expansion properties, especially at the low velocities imposed by muzzle-loaded firearms. None of the above-described patents disclose a projectile designed to maximize radial expansion at low velocity and simplicity and low-cost manufacture.
A need exists, particularly in muzzle-loading and other low velocity applications, for a radially expanding projectile, adaptable to a wide variety of calibers and other variations, that is inexpensive to manufacture. The disclosed invention meets these needs with a new design.
SUMMARY OF THE INVENTION
It is one object of the present invention to provide a projectile that expands radially upon impact with a target. It is another object of the present invention to provide a projectile that expands radially upon impact with a target, especially when fired at low velocity. It is another object of the present invention to provide an inexpensive method of manufacture for such projectiles. It is another object of the present invention to provide a method of manufacture for a radially expanding hydraulic cylinder projectile that is adapted to a wide variety of calibers and other variations among projectiles.
In accordance with these objectives, the present invention provides a hydraulic cylinder projectile and a method of making the hydraulic cylinder projectile. According to the present invention, an hydraulic cylinder is formed. Preferably, the hydraulic cylinder is formed of a soft material, such as lead. The hydraulic cylinder can be mass produced by a conventional press or by molding. The hydraulic cylinder is closed at one end and open at the other end.
A compression ram element, preferably a solid spherical body, such as a steel ball bearing or BB, is disposed inside the closed end of the hydraulic cylinder. A quantity of substantially incompressible liquid, preferably food-grade lubricant, is then placed within the hydraulic cylinder. Food-grade lubricant is preferred because it will not contaminate the meat of the target animal. The food-grade lubricant can be pumped into the cylinder. The resulting insert structure is a hydraulic cylinder and ram. The insert is placed in a projectile body, with the closed end and compression ram elementat the leading end of the projectile.
The projectile, which is usually made of a soft deformable material, such as lead, is formed with a central, axial bore, opening at its leading end. The insert extends from the leading end of the projectile rearward through the projectile body such that the forward portion of the projectile body laterally surrounds the hydraulic cylinder. Thus, even while projectiles may be of various calibers or shapes, a common insert can be mass produced and used.
Upon impact of the leading end of the hydraulic cylinder projectile with a target, the compression ram element is slowed by the impact, relatively more than the rearward base portion of the projectile. The compression ram element is axially forced into the hydraulic cylinder, exerting a compressive pressure on the liquid. Since the liquid is substantially incompressible, the compressive pressure on the liquid causes a radial expansion of the hydraulic cylinder, and a corresponding radial expansion of the forward portion of the projectile body. This radial expansion creates a larger area of destructive impact; that is, a larger hole. A larger hole substantially increases the chances of killing or significantly wounding the target.
The particular axial length of the central bore of a given projectile body, and the length of the corresponding hydraulic cylinder, substantially determine, and may be selected to control, the degree of radial expansion of the projectile. The axial length of the central bore and the hydraulic cylinder also may be chosen so the rearward base portion of the projectile body has quantity of mass great enough to produce both the desired radial expansion of the forward portion of the projectile, and also the desired degree of penetration of the target.
In contrast to the existing art, the present invention encloses fluid in a separate cylinder and is distinct from the inventions of Petrovich and Snyder, which dispose fluid directly in a cavity in the projectile. The present invention is also distinct from the inventor's product. The present invention allows a variety of calibers and projectile shapes, and is more economical to manufacture, because the hydraulic cylinder insert is standardized. The present invention is

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