Round of rifle ammuniton and method for making same
A round of gun ammunition including a projectile adapted to be propelled from the gun at a subsonic velocity. The round includes a case containing a quantity of gun powder therein, but not filling the case. A projectile projects into the body portion of a case to a location proximate the gun powder. A disc having a circumference substantially matching the inner circumference of the body portion of the case at the level of the gun powder within the case is interposed between the gun powder and the proximal end of the projectile within the case to provide a barrier against movement of gun powder toward the open end of the case. In one embodiment, a further disc is interposed between the disc and the proximal end of the projectile to filter out gun powder particles which may escape past the barrier disc. A method for the manufacture of the round of gun ammunition is disclosed.
This application claims the benefit of provisional application Ser. No. 60/174,797, filed Jan. 6, 2000, entitled: ROUND OF RIFLE AMMUNITION AND METHOD FOR MAKING SAME.
BACKGROUND OF INVENTIONThis invention relates to rifle ammunition of 50 caliber or less, particularly to ammunition for rifles and wherein the projectile thereof is propelled from the rifle barrel at a subsonic velocity, and to methods for the manufacture of rifle ammunition.
In certain shooting situations, it is desirable that the projectile fired from a rifle travel at less than supersonic velocity. This shooting situation commonly occurs in the course of military and law enforcement activities, such as in sniper fire or other activity where it is desired that the location of the shooter not be detectable by reason of the sound associated with the firing of the rifle and the path of travel of the projectile.
Rifle ammunition heretofore intended to provide for subsonic velocity of the projectile thereof upon firing of the ammunition commonly has been manufactured by simply reducing the quantity of gun powder loaded into the case of each round of the ammunition. This procedure leaves a very substantial portion of the interior volume of the case void of either powder and/or projectile. The gun powder within the case, therefore, is free to flow into one or the other end of the case, depending upon whether the rifle being used is aimed upwardly from the horizontal or downwardly from the horizontal. When the powder shifts to the leading end of the case (adjacent the projectile and away from the primer in the closed end of the case), the flame generated upon the firing pin striking the primer must pass through a void space between the primer and the powder. This situation creates at least two undesirable factors, namely: (a) delay in ignition of the powder and/or (b) poor exposure of the powder to the flame pattern. The first of these factors can be so serious as to cause the shooter to believe that he has experienced a misfire, or to cause the shooter to pull his sight off the target. The second of these factors may result in insufficient ignition of the powder and a burn pattern which causes inconsistent propulsion of the projectile from the rifle, hence inability of the shooter to hit a desired target. When the powder shifts toward the primer-containing closed end of the case, these factors are generally reversed, causing supersonic velocity of the projectile and other deleterious results.
When firing ammunition from a rifle operated in either the automatic or semi-automatic firing mode, and wherein the bolt of the rifle is gas-operated off the gases generated by the burning gun powder within the case, successful consistent operation of the bolt is dependent upon the maintenance of a minimum gas pressure within the barrel of the rifle behind the projectile as it moves along the barrel and past the gas port leading from the barrel to the bolt-actuating mechanism. Failure to develop and maintain this minimum gas pressure results in failure of the bolt to operate. Known prior art rifle ammunition which is represented to be capable of firing a projectile at a subsonic velocity is known for its inability to consistently develop the required minimum gas pressure for operation of the bolt, hence is normally not suitable for use in rifles having gas-operated bolts.
It is therefore an object of the present invention to provide a round of rifle ammunition which consistently (from round to round) propels its projectile from the rifle at less than supersonic velocity.
It is another object to provide a “subsonic” round of rifle ammunition which, when fired in a rifle having a gas-operated bolt, consistently (from round to round) successfully operates the bolt of the rifle.
It is another object to provide a round of ammunition suitable for firing from a rifle having a gas-operated bolt wherein the projectile for the round is propelled from the rifle at a subsonic velocity and wherein the gas pressure developed within the rifle barrel and the bolt-actuating mechanism consistently performs the bolt actuation from round to round of the ammunition.
It is another object to provide a method for the manufacture of a round of rifle ammunition suitable for use in a rifle having a gas-operated bolt and wherein the rifle is operated in an automatic or semi-automatic mode and the projectile of the round exits the rifle barrel at a subsonic velocity.
Other objects and advantages of the present invention will be recognized from the present specification, including the claims and the drawings appended hereto.
BRIEF DESCRIPTION OF THE DRAWINGS
In accordance with one aspect of the present invention there is provided a round of rifle ammunition, particularly for use in rifles having a gas-operated bolt and capable of being fired in the automatic or semi-automatic mode. The ammunition of the present invention is structured to propel the projectile of a round of the ammunition from the rifle at less than supersonic velocity, consistently from round to round of the ammunition. Further, each round of the ammunition, when fired, develops and sustains within the rifle, not less than that minimum gas pressure which consistently successfully operates the bolt of the rifle when the rifle is fired in the automatic or semi-automatic mode.
In accordance with one feature of the present invention, gun powder is deployed and positionally stabilized within that end of the case of each round of ammunition adjacent the primer, irrespective of the positional attitude of the rifle at the time of firing. Moreover, such positionally stabilized gun powder is substantially free of void spaces which might introduce random excursions in the ignition, burn rate, etc. of the gun powder sufficient to adversely affect either the velocity of the projectile fired from the rifle or the build-up and sustainment of sufficient gas pressure for consistent successful operation of the gas-operated bolt of the rifle.
Another aspect of the present invention relates to the ability to use a tapered projectile with its enhanced flight characteristics, hence accuracy of delivery of the projectile to a target, when fired at a subsonic velocity. This tapered projectile further develops less surface friction, hence less heat, as it travels through the rifle barrel, thereby reducing the buildup of barrel heat during sustained firing cycles.
Further, the tapered projectile has been found to produce less wear and fouling of the internal bore of the barrel. The ammunition of the present invention has been found to be suitable for firing in a standard military M16M4 rifle (5.56 mm) having a 14.5 inches long barrel of seven twist.
DETAILED DESCRIPTION OF INVENTION In
As noted, the charge of gun powder 38 is disposed within the case adjacent the trailing end of the case to a level 52 located within the body portion of the case. In accordance with one aspect of the present invention, this charge of gun powder occupies materially less than the interior volume of the case, in one embodiment only about 50% of the interior volume of the case. This volume of slow-burning gun powder assures that there will be sufficient gas pressure built up to propel a projectile 40, disposed in and closing the leading end of the case, from a rifle at a subsonic velocity while simultaneously generating and sustaining that minimum gas pressure within the rifle as will operate the bolt of the rifle. The choice of the particular gun powder to be employed in a given caliber round of ammunition, the volume of the chosen gun powder, its burn rate, etc. have heretofore been thought by those skilled in the art to require relative small charges of a fast-burning powder, such as a pistol powder. To the contrary, the present inventor employs a gun powder which is industry rated as being a very slow burning powder. As noted, irrespective of the gun powder type actually used, the present invention addresses the problem of keeping the powder charge positionally stable within the case and adjacent the trailing end of the case, preferably with few or no void spaces within the volume of powder. To this end, the present inventor has found that a powder charge which does not fully fill the interior volume of the case can be held as a coherent charge within the case and adjacent the trailing end of the case, hence adjacent the primer, by means of a disc 50 which is inserted through the open end of the case proximate th level 52 of the gun powder in the case. This disc is self-supporting and of a circumference which substantially matches the internal circumference of the case at the location of the top surface 52 of the powder charge held in the case. The disc 50 is overlaid upon the top surface of the powder within the case and preferably has its circumference in frictional engagement with the inner wall of the case. Thereafter, the proximal end 56 of the elongated projectile 40 is inserted into the case through the open leading end of the case. In the depicted embodiment, the proximal end 56 of the projectile is flat and defines a flat surface 58 which is oriented substantially normal to the length dimension of the projectile. In a preferred embodiment, this flat proximal end of the projectile extends to a location which is contiguous to and preferably contacting, but not pressing against the top surface 60 of the disc or is disposed spaced apart from the top surface of the disc by a short distance, 0.1 inch for example, but not farther away from the disc than by a distance greater than about one-half the diameter of the disc.
The disc 50, being of a diameter greater than the internal diameter of the necked-down portion of the case, must be sufficiently flexible as permits the disc to be folded to the extent necessary for it to pass through the necked-down portion of the case, and sufficiently resilient to substantially resume its flat disc geometry once it is inside the body portion of the case. One suitable disc for use in the present invention comprises a disc die-cut from common “target stock” paper used in the manufacture of rifle targets. “100 yard target stock” purchased from Hohen Sales of Wright City, Mo. has been found to be a suitable paper. This paper is about 0.014 inch thick and has a basis weight less than a postal card stock, for example. The disc may be die cut from a sheet of the paper. Such die-cutting of the disc results is compression of the thickness of the paper around the circumferential margin of the cut disc, to a thickness of about 0.010 inch, hence a stiffening of the disc within such circumferential margin.
This stiffening has been found to be useful in the ability of the disc to resist that deformation thereof which might lead to the escape of powder particles from the powder charge and into that portion of the interior volume of the case which is on the leading end side of the disc when the disc is disposed within the case in engagement with the top surface of the powder charge. It is contemplated that other paper stock may be employed, as well as other materials of construction for the disc. In any event, it is of importance that the disc be rapidly disintegrated in the presence of the burning of the powder charge so that no material unburned portion of the disc will pass into the gas transfer system employed in connection with the operation of the bolt of the rifle.
The round of ammunition depicted in
The ability to employ a longer-than-normal projectile within the case of a given caliber round of ammunition provides the ability to employ heavier-than-normal projectiles. This ability to employ a heavy projectile, along with a “reduced” volume of slow burning gun powder for a given caliber round of ammunition permits one to build up, and sustain, the required gas pressure within the rifle as is necessary to operate the bolt of the rifle when it is fired in the automatic or semi-automatic mode, in particular. Of course, single shot firing of an automatic or semi-automatic rifle is also possible and the ammunition of the present invention will also operate the gas-operated bolt of the rifle during such single shot firing.
In the prior art, it has been taught that if one desires to manufacture a round of ammunition for a rifle of a given caliber wherein the projectile of the round is propelled from the rifle at less than supersonic velocity, reduction of the volume of the gun powder used, and employing a fast burning gun powder, will serve this purpose, keeping all other components of the round unchanged from the supersonic version of the given caliber round. Aside from the problems stated hereinabove relative to the movement of the gun powder within the case as a function of the position of the rifle at the time of its firing (aimed up or down or horizontal), these prior art efforts have failed to provide for consistent buildup of the required gas pressure within the rifle for operation of its gas-operated bolt. This problem in the prior art lead to the conventional wisdom that subsonic ammunition requires a fast burning powder. The present inventor has found that the round of ammunition provided by the present invention can be made to function with slow burning powder. One suitable gun powder is Hodgdon H50BMG. The relatively high density (such as tungsten powder) of the projectile employed by the present inventor offers such initial resistance, and/or friction and drag within the barrel of the rifle that the present inventor has found that a slow burning powder may be employed without causing the slow burning powder to propel the projectile from the rifle barrel at a supersonic velocity. This combination also functions to build up within the rifle barrel the desired gas pressure for consistently operating the bolt of the rifle, still without the projectile being propelled from the barrel at a supersonic velocity.
In a specific example, rounds of 5.56 mm ammunition were manufactured employing a commercial case for this caliber ammunition. Twelve grains of Hodgdon H50BMG gun powder was loaded into the case which had been fitted with a conventional primer. A die-cut disc of “target stock” paper of about 0.014 inch thickness was introduced into the case and overlaid on the exposed top surface of the powder change. The disc was compressed about its circumferential margins to about 0.010 inch thickness. A 150 grain powder-based projectile, 1.24 inches in length, was introduced into the case to a depth such that the overall length of the round (from the outermost tip of the projectile to the bottom end of the case) was not greater than 2.260 inches, this length being the standard length of a round of 5.56 mm ammunition which is intended to be fed from a magazine into the firing chamber of a rifle which accepts this ammunition. In one embodiment, once the projectile was positioned within the case, the necked-down portion of the case was crimped, i.e. cannelured, to retain the projectile in the case preparatory to firing. In this embodiment, the flat proximal face of the projectile was disposed within less than 0.10 inch of the top surface of the disc. These rounds were fired from a standard M16M4 military rifle having a barrel length of 14.5 inches and a 1 in 7 twist. Five shot firing patterns provided a standard deviation in projectile velocity of less than 15 fps with no round producing a supersonic firing. In fact, firing of five hundred rounds of the present ammunition did not result in a single supersonic excursion. These rounds also consistently operated the gas-operated bolt of he rifle in both automatic and semi-automatic modes. Moreover, the accuracy with which these rounds struck a target placed 100 yards out was surprisingly better than anticipated. For example, five shot firing patterns consistently resulted in groupings of 2½ inches with an extreme spread not greater than 4 inches at 100 yards.
In one alternative embodiment, the projectile employed in the present invention may be tapered in that the diameter of the projectile from the ogive to the flat end of the projectile increases. In one embodiment, the taper, along the length of the projectile, on a 5.56 mm round ranged from between a diameter of 0.22420 and 0.22430 inch at the proximal end of the projectile to between about 0.22390 and 0.22400 at the location of the transition of the body portion of the case into the necked-down portion of the case. Preferably, this tapered projectile is provided with at least one cannelure 70 within that portion of the length of the projectile which resides within the necked-down portion of the case. The indentations of the cannelure, in one embodiment, may be about 0.040 inch in depth. The frictional engagement between the radially inwardly bulging edge of the cannelure depression provides sufficient friction to hold the projectile suspended within the case without interfering with the performance of the round of ammunition when fired.
Referring to
In a still further alternative embodiment, (see
Whereas the present invention has been described in specific terms and examples, one skilled in the art will recognize alternatives. For example, whereas each of the discs 50 and 80 have been described as having opposite planar parallel sides, it will be recognized that one or more of the sides of the discs may suitably be concave or convex as the case may be.
Claims
1. A round of gun ammunition including a projectile adapted to be propelled from the gun along a trajectory to a target at a subsonic velocity comprising
- (a) an elongated generally cup-shaped case having a body portion, a partially closed trailing end which houses a primer, and a necked-down portion adjacent an open leading end thereof,
- (b) a quantity of gun powder disposed within and incompletely filling said body portion of said case,
- (c) an elongated projectile having distal and proximal opposite ends residing in said necked down portion of said case with said distal end thereof projecting outside said leading end of said case and with said proximal end therefor extending inwardly of said case, said proximal end of said projectile including a generally planar face disposed substantially perpendicular to the length of said elongated projectile, said proximal end of said projectile terminating inside said body portion of said case with its face disposed proximate said quantity of powder,
- (d) a disc formed of readily flammable material, having first and second opposite and generally parallel faces and being of a circumference essentially equal to the inner circumference of said body portion of said case at the location of the level of said quantity of gun powder, disposed within said case between said quantity of powder and said face of said proximal end of said projectile, said disc defining a barrier against the flow of said gun powder past said disc.
2. The round of gun ammunition of claim 1 and including a further disc, having distal and proximal opposite faces, disposed within said body portion of said case and between said disc and said adjacent face of said proximal end of said projectile, said further disc being of a fibrous material having a plurality of tortuous passageways defined through the thickness thereof which serve to filter and capture within said disc individual particles of gun powder which may escape past the barrier defined by said disc.
3. The round of gun ammunition of claim 1 wherein said disc is resiliently flexible.
4. The round of gun ammunition of claim 1 wherein said disc comprises paper stock.
5. The round of gun ammunition of claim 4 wherein said disc is of a first thickness centrally thereof and of a second and lesser thickness in the circumferential margin thereof.
6. The round of gun ammunition of claim 5 wherein said first thickness centrally of said disc is about 0.14 inch and said second and lesser thickness in the circumferential margin thereof is about 0.10 inch thick.
7. The round of gun ammunition of claim 3 wherein said further disc comprises natural non-woven fibers.
8. The round of gun ammunition of claim 7 wherein the weight of said disc is between about 0. 10 and about 0. 16 grains.
9. The round of gun ammunition of claim 2 wherein said distal face of said further disc is disposed contiguous said disc and said proximal face of said further disc is proximate said proximal face of said proximal end of said projectile disposed within said body portion of said case.
10. The round of gun ammunition of claim 1 wherein said gun powder is fast burning.
11. The round of gun ammunition of claim 1 wherein said projectile includes a body portion intermediate its distal and proximal ends, said distal end of said projectile defines an ogive, and said projectile is tapered from a first and minimum diameter at its proximal end to a second and greater diameter adjacent the transition of said body portion of said projectile to said ogive of said projectile.
12. The round of gun ammunition of claim 11 wherein the difference between said first and second diameters of said tapered projectile is about 0.00030 inch.
13. The round of gun ammunition of claim 12 wherein said round is suitable for firing from a gun of 5.56 mm caliber.
14. The round of gun ammunition of claim 1 and including a separator interposed between said disc and said proximal face of said proximal end of said projectile.
15. A method for the manufacture of gun ammunition including a projectile adapted to be propelled from the gun along a trajectory to a target at a subsonic velocity comprising the steps of
- (a) loading a gun ammunition case having an open end with a quantity of gun powder to a level less than the volumetric capacity of said case,
- (b) inserting into said open end of said case an elongated projectile having distal and proximal opposite ends, said distal end of said projectile projecting from said open end of said case and said proximal end of said projectile projecting inwardly of said case and terminating proximate said gun powder disposed within said case,
- (c) disposing a disc within said case and intermediate said gun powder and said proximal end of said projectile, said disc having a circumference approximately equal to the internal diameter of said case at the location of the level of said gun powder within said case and which functions as a barrier against the movement of gun powders therepast.
16. The method of claim 15 and including the step of interposing a further disc within said case intermediate said disc and said proximal end of said projectile, said further disc being of a disparate material from said disc.
17. The method of claim 16 wherein said disc is resiliently flexible.
18. The method of claim 16 wherein said disc comprises wet-laid cellulosic fibers.
19. The method of claim 18 wherein said disc comprises paper.
20. The method of claim 16 wherein said disc is of a first thickness generally centrally thereof and of a second, and lesser, thickness at the circumferential margin thereof, said circumferential margin being of a density greater than the density of said disc generally centrally thereof.
21. The method of claim 16 wherein said further disc comprises air-laid natural fibers.
22. The method of claim 21 wherein said natural fibers comprise cotton fibers.
23. The method of claim 16 wherein said case includes a substantially closed end adapted to receive a primer, an opposite open end, and a body portion intermediate said closed and open ends of said case, said case including a necked-down portion intermediate said body portion and said open end including the further steps of disposing a portion of said projectile between its opposite ends within said necked-down portion of said case, and anchoring said projectile within said stepped-down portion against movement relative to said necked-down portion.
24. The method of claim 16 and including the step of interposing a separator between said disc and said proximal face of said proximal end of said projectile within said case.
Type: Application
Filed: Jan 5, 2001
Publication Date: Apr 20, 2006
Inventor: Harold Beal (Rockford, TN)
Application Number: 09/755,703
International Classification: F42B 5/02 (20060101);