This invention relates generally to small arms and more particularly to a mechanism used to isolate and protect the barrel of a firearm.
The modern firearm, while still relatively simple, has evolved to utilize a great deal of accessories so that the weapon, and its user, are able to address unique situations. No longer is the simple addition of a sighting scope sufficient; the modern weapon requires a mounting surface for such items as: grenade launchers; night scopes; secondary weapons; and a host of other items. Often, these weapons are not equipped with the proper mounts.
Further, the modem weapon is designed to fire at such a rate that the barrel of the weapon becomes extremely hot; thereby creating a hazard for the user. To protect the user, a guard is often mounted around the barrel to keep the user from grasping the barrel. This guard though often becomes hot due to the convection of heat from the barrel through the mounts holding the guard.
To all of this is the added attribute that any mechanism mounted on the firearm be easily removed so that it can be cleaned and repaired when needed.
It is clear there is a need for an improved small arms rail system.
The invention includes an attachment for a firearm having a barrel with a barrel nut mechanism located around an aft portion of said barrel. In this context, the barrel nut mechanism is operated by sliding a retainer slip-ring back, thereby exposing an engagement mechanism configured to accept mating claws. When the retainer slip-ring is released, the claws/engagement mechanism are secured to each other.
Those of ordinary skill in the art recognize that one such barrel nut mechanism is the “barrel nut and slip-ring” found on the M-16 rifle and which is described in MIL-R-63997B (AR) Amendment 4, 31 Jul. 1993, incorporated hereinto by reference.
Within the present discussion, the attachment which is being mounted onto the firearm is a shield to protect the user from contacting the barrel. Those of ordinary skill in the art recognize other attachments which are useful in this context.
The completed shield is positioned around the barrel but is isolated from the barrel to keep heat transfer to a minimum. The shield often has numerous openings to allow ambient air to flow around the barrel and assist in keeping the barrel from overheating.
In the preferred embodiment, the shield is composed of two major parts: an upper portion and a lower portion.
At one end of the upper portion are positioned a first and second claw, forming the attachment mechanism. In the preferred embodiment, the claws are diametrically opposed to each other and are ideally positioned substantially parallel to a horizontal axis of the barrel.
The claws provide a mechanism for attaching the upper portion to the barrel nut mechanism secured to the barrel. The outer slip-ring of the barrel nut mechanism is withdrawn; the claws are positioned; and the slip-ring is engaged so to affix the upper portion (via the claws) to the barrel nut mechanism.
In the preferred embodiment, while the upper portion is secured to the barrel via the barrel nut mechanism, a “rail” secured to the upper side of the upper portion of the shield is connected to the firearm using a MIL standard 1913, also known as a “picatinny rail system”. Once such rail is described in U.S. Pat. No. 6,490,822, entitled “Modular Sleeve” issued on Dec. 10, 2002, to Swan, incorporated hereinto by reference.
Once the top portion of the shield is secured to the weapon, the lower portion is then secured to the upper portion. In the preferred embodiment, the lower portion is first secured to a pivot or swivel connection at a rear end of the upper portion. This swivel connection is created by engaging two notches on the lower portion with two pins on the upper portion (the reverse arrangement is also acceptable).
Once swivelly engaged with pins on the upper portion, the forward section of the lower portion of the barrel handguard is “snapped” engaged with the upper portion of the barrel handguard. This task is accomplished using two spring clips mounted on the lower portion which engage slots on the upper portion of the barrel handguard. In an alternative embodiment, the springs are mounted on the upper portion and the slots are located on the lower portion of the barrel handguard.
Once engaged as outlined above, the shield completely encircles the barrel and is secured to the firearm at the barrel nut and the attachment rail.
The shield of the preferred embodiment also contains a variety of mounting mechanisms permitting other attachments to be secured to the shield; and, the upper rail itself is configured to accept a variety of items including: a sighting scope; laser sights; and a host of other items.
Because of the simplicity of design, the shield is easily removed in the field and requires only a minimum of tools (a screwdriver, a hex key wrench, or a coin for securing the rail to the top of the firearm). This permits the firearm to be easily repaired or cleaned. Further, the firearm is easily “customized” for a specific operation without requiring extensive tooling or labor.
The invention, together with various embodiments thereof will be more fully explained by the accompanying drawings and the following description thereof.
a is a front perspective of the fully assembled shield of the preferred embodiment encircling the barrel.
Barrel 10 has as its forward end 10A with a locking nut 11 at a rearward end. In this illustration, slip-ring 12 has been pulled back on barrel nut 11. This places barrel nut 11 in position to accept claws 13. Claws 13 are located on an upper portion 17 of the shield. Also, note, claws 13 are placed in a diametrically opposed positions so that optimal engagement is 1obtained with barrel nut 11.
Once claws 13 are engaged with barrel nut 11, this places upper rail 16 over receiver rail 14. Receiver rail 14 is part of the upper portion of the firearm's action (not shown for simplicity). Rail 16 is configured with a picatinny to engage with receiver rail 14.
Slip-ring 12 is moved forward to capture claws 13 within barrel nut 11.
Once the operation outlined in
In this manner, upper portion 17A of the shield is secured to the barrel nut 11A and to the receiving rail 14A. This also positions top portion 17A of the shield around barrel 10.
When the top portion 17A of the shield has been secured to the firearm (illustrated in
a is a front perspective of the fully assembled shield of the preferred embodiment encircling the barrel;
Lower portion 35A and upper potion 17A enclose and protect barrel 10. Upper portion 17A is secured to the weapon via barrel nut 11A and top rail 16A. Top rail 16A is secured to the weapons receiver rail (not shown) using side rail 20.
It is clear the present invention provides for a highly improved rail system.