Embodiments of the present disclosure relate to a cartridge extractor for firearms, such as a cartridge extractor used on a bolt of an AR15/M4 type firearm system. Embodiments of the present disclosure also relate to a modified barrel extension to accept the disclosed extractor.
Firearms such as the AR15/M4 firearm system use a rotating bolt with seven lugs. The bolt has an extractor connected thereby by a pivoting connection to “extract” the fired cartridge case from the chamber of the firearm after the cartridge has been fired.
Conventional AR15/M4 type extractors work well but are limited in design due to limited operating space of an established and defined platform. Conventional AR15/M4 type extractors provide adequate service life when used in the original firearm which the conventional extractors were designed for: the M16 rifle. The M16 rifle has a twenty inch barrel and uses a rifle length gas system, which allows most of the pressure in the barrel and chamber to drop to a level that allows the extractor to easily extract the fired case from the chamber. The desire for M16 type rifles with shorter barrels to increase manipulation inside of vehicles, helicopters and buildings led to the development of the 14.5″ barreled M4 carbine and the 10.5″ barreled Mark 18 Colt Commando. These two firearms use a shorter “carbine” length gas system which pressurizes the gas system sooner and faster than the longer rifle length system, resulting in a greater pressure “spike”.
When the operating system pressurizes earlier, the bolt carrier begins to move rearward unlocking the bolt before the chamber pressure has dropped to an appropriate level. When the bolt carrier begins moving before chamber pressure drops to an adequate level, the extractor attempts to extract the fired case while the fired case is still under pressure in the chamber. Conventional extractors are not designed to extract pressurized cartridge cases. The repeated extracting of fired cases under pressure overworks the extractor and leads to early extractor failure. Extractors typically break in the same place, the top of the extractor's claw, where most of the force is applied when a cartridge is extracted from the chamber.
Another issue created when the extractor extracts a fired cartridge case while the cartridge case is still under pressure is that the extractor will pull off of or snap back off of the rim of the case, leaving the fired case in the chamber and thus causing the firearm to malfunction. When this happens, the extractor may occasionally rip off a portion of the cartridge case rim, requiring a cleaning rod to be inserted into the muzzle of the barrel to force out the fired case. When a cartridge fails to be extracted, the firearm becomes disabled and cannot be used, thus creating a critical issue for military and law enforcement officers who may be in a life threatening situation. Moreover, each time the extractor snaps off the rim of the case without extracting the case, undue stress is put on the claw portion of the extractor, contributing to early extractor failure. Attempts to solve these issues have led to extractors with stronger springs, and to some barrels with pins installed in the barrel extension to prevent the extractor from pulling off of the cartridge case rim during extraction. However, these attempts have provided only moderate improvements.
What is needed is an improved cartridge extractor for firearms.
The present disclosure generally relates to extractors for extracting cartridges from firearms, as well as bolts including the extractors, and barrels or barrel extensions configured to receive the bolts and extractors. The extractor includes a support brace having a width of 0.095 inches or greater. A barrel extension includes a shortened lug to accommodate an extractor having a support brace with a width of 0.095 inches or greater.
In one aspect, a cartridge extractor for a firearm comprises a body having a curved outer surface and a curved inner surface; a bevel formed at one end of the body on the curved inner surface; a support brace positioned proximate to the bevel, the support brace formed on the curved outer surface, the support brace having a width of 0.095 inches or greater.
In another aspect, a bolt for a firearm comprises bolt body; and a cartridge extractor disposed in a recess formed in the bolt body. The cartridge extractor comprises a body having a curved outer surface and a curved inner surface; a bevel formed at one end of the body on the curved inner surface; a support brace positioned proximate to the bevel, the support brace formed on the curved outer surface, the support brace having a width of 0.095 inches or greater.
In another aspect, a barrel extension for a barrel comprises a body having a central opening therein; and a plurality of lugs extending from a radially inward surface of the body, wherein one lug of the plurality of lugs is located about −120 degrees from a center line of a two feed ramps, and wherein the one lug has a radial length less than a radial length of remaining lugs of the plurality of lugs.
So that the manner in which the above recited features of the present disclosure can be understood in detail, a more particular description of the disclosure, briefly summarized above, may be had by reference to embodiments, some of which are illustrated in the appended drawings. It is to be noted, however, that the appended drawings illustrate only exemplary embodiments and are therefore not to be considered limiting of scope, as the disclosure may admit to other equally effective embodiments.
To facilitate understanding, identical reference numerals have been used, where possible, to designate identical elements that are common to the figures. It is contemplated that elements and features of one embodiment may be beneficially incorporated in other embodiments without further recitation.
The present disclosure generally relates to extractors for extracting cartridges from firearms, as well as bolts including the extractors, and barrels or barrel extensions configured to receive the bolts and extractors. The extractor includes a support brace having a width of 0.095 inches or greater. A barrel extension includes a shortened lug to accommodate an extractor having a support brace with a width of 0.095 inches or greater.
The extractor 100 sits in a recess formed in a side of the bolt and is retained therein with a cross pin through an opening 101 formed in an extension 154 on the inner surface 151 of the extractor 100. The cross pin holds the extractor 100 in place in the bolt and also defines a pivot point about which the extractor 100 pivots when the firearm cycles.
The bolt 205 includes a bolt body 290 having a plurality of lugs 208 (seven are shown) disposed therearound in spaced intervals. The bolt body 290 also includes a recess 209 into which the extractor 100 is positioned. In one example, the support brace 106 of the extractor 100 is a raised ridge extending axially along a portion of the outer surface 152 of the extractor. The support brace 106 has a width of 0.086 inches. The support brace 106 on the back of the extractor 100 provides support to strengthen the extractor claw 103 (shown in
During operation, when the bolt 205 is released from a locked open position, the bolt 205 moves forward and strips or picks up a cartridge from a magazine. The cartridge moves forward and is guided into the chamber by feed ramps located on the barrel extension 211. As the cartridge enters the chamber, the bolt 205 continues pushing the cartridge forward. As the cartridge becomes seated in the chamber and stops moving forward, a radially-inward bevel 102 (shown in
The support brace 106 on the back of the extractor 100 passes through one of the bolt lug recesses 210 (eight are shown) formed in the barrel extension 211, as the firearm cycles. The barrel extension 211 includes a body 291 having a central opening 292 formed therein. Extension lugs 216 extend radially inward from an inner surface of the body 291. Adjacent extension lugs 216 define the bolt lug recesses 210.
When the bolt 205 closes and locks into the barrel extension 211, the bolt 205 rotates counter clockwise 22.5 degrees. Once the bolt 205 comes to rest in a completely locked position, the bolt extractor 100 rests adjacent a barrel extension lug 216 located at the two o'clock position (when viewed from the rear). The extension lug 216 in the two o'clock position on a conventional barrel extension 211 is unused by a conventional bolt 205, and no forces are applied to the extensions lug 216 in the two o'clock position by the conventional bolt 205.
In disclosed examples, it is contemplated that support braces disclosed herein have a width of 0.095 inches or greater, such as 0.098 inches or greater, or within a range of 0.098 inches to 0.180 inches.
It is contemplated that support braces disclosed herein, and barrel extensions corresponding thereto, are applicable to bolts and extractors disclosed in U.S. Pat. No. 8,695,260, such as extractors shown and described with respect to
Benefits of the present disclosure include a strengthened extractor claw. The strengthened extractor claw is supported by a supported brace having an increased mass due to an increased width. Increasing the width of the existing extractor brace increases the mass in the area where the extractors most often fail. The disclosed extractor is stronger than conventional extractors, and is adaptable to the currently issued M16A4/M4 carbine and similar firearms.
While the foregoing is directed to embodiments of the present disclosure, other and further embodiments of the disclosure may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.
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Author unknown, 7.62×51mm NATO, found Mar. 31, 2018, Internet document published by Wikipedia, 1-13, found here: https://en.wikipedia.org/wiki/7.62%C3%9751mm_NATO (Year: 2018). |