Patent Grant
8756845
The invention relates generally to semi-automatic firearms and more specifically to a device and method for converting a semi-automatic firearm with a -detachable magazine to a semi-automatic firearm with a fixed magazine.
Semi-automatic firearms have been known for a long time. The first semi-automatic rifle was introduced in 1885. The M-16 automatic rifle has been used by the military for years. A civilian version of the M-16 is known as the AR-15 and is a semi-automatic rifle. The AR-15 has been manufactured and sold to civilians for many years. Standard AR-15 semi-automatic rifles are manufactured and distributed with detachable magazines. A detachable magazine allows a user to fire the gun multiple times until all bullets in the magazine have been fired. When the magazine is depleted, the user pushes a magazine release button. This releases the magazine from the rifle. The user may then insert a new magazine and resume firing. When used herein, the phrase “semi-automatic rifle” is intended to include the AR-15s previously and currently being manufactured.
Semi-automatic firearms, particularly those with detachable magazines, are coming under heightened regulation and restriction. A bill is currently pending before the U.S. Congress known as the “Assault Weapons Ban of 2013.” The bill states that “It shall be unlawful for a person to import, sell, manufacture, transfer, or possess, in or affecting interstate or foreign commerce, a semiautomatic assault weapon.” The bill defines a “semiautomatic assault weapon as:
“(A) A semiautomatic rifle that has the capacity to accept a detachable magazine and any 1 of the following: (i) A pistol grip. (ii) A forward grip. (iii) A folding, telescoping, or detachable stock. (iv) A grenade launcher or rocket launcher. (v) A barrel shroud. (vi) A threaded barrel.
(B) A semiautomatic rifle that has a fixed magazine with the capacity to accept more than 10 rounds, except for an attached tubular device designed to accept, and capable of operating only with, .22 caliber rimfire ammunition. Sec. 2(a)(1).”
The bill further defines a “detachable magazine” as “an ammunition feeding device that can be removed from a firearm without disassembly of the firearm action.” The bill also defines a “fixed magazine” as “an ammunition feeding device that is permanently fixed to the firearm in such a manner that it cannot be removed without disassembly of the firearm.”
As such, the planned legislation would ban all semi-automatic rifles that can accept a detachable magazine, all semi-automatic rifles that have a fixed magazine that accept more than ten rounds, and any part, combination of parts, component, device, attachment, or accessory that is designed or functions to accelerate the rate of fire of a semiautomatic rifle.
The standard semi-automatic rifle is manufactured and sold with a detachable magazine. Users can replace a magazine in the standard semi-automatic rifles without disassembling the firearm action. Such semi-automatic rifles are likely to face increased restriction and regulation. What is needed is a device and method for easily converting a semi-automatic rifle with a detachable magazine to a semi-automatic rifle with a fixed magazine.
The present invention is a device and method for converting a semi-automatic rifle with a detachable magazine into a semi-automatic rifle with a fixed magazine. The device more specifically relates to a device which becomes an integral part of a semi-automatic rifle whereby a magazine catch is positioned such that a magazine can only be released when the upper receiver is removed from the lower receiver.
It is an object of the invention to provide a device whereby a semi-automatic firearm with a detachable magazine can be converted to a semi-automatic firearm with a fixed magazine.
It is another object of the invention to provide an accessory which provides a connection between a firearm and its magazine whereby the magazine can only be removed when the firearm action is in a disassembled state. With the invention installed on a firearm, the firearm will no longer accept a detachable magazine. The firearm can only accept a fixed magazine when the firearm action is disassembled.
It is a purpose of the invention to slow the rate of fire of semi-automatic firearms. The invention is a permanent fixture added to a semi-automatic firearm that cannot be readily removed from the firearm. When installed on a semi-automatic firearm, the firearm will no longer accept detachable magazines. When installed on a semi-automatic firearm, a magazine may only be withdrawn and replaced when the upper receiver is removed from the lower receiver and the firearm action is disassembled. In addition, the invention is intended to be utilized only with semi-automatic firearms utilizing magazines of no more than ten rounds.
It is an object of the invention to provide improved elements and arrangements thereof in an apparatus for the purposes described which is inexpensive, dependable, and effective in accomplishing its intended purposes.
A standard OEM semi-automatic rifle contains a magazine catch assembly. A standard magazine catch assembly is comprised of a magazine catch, a spring, and magazine release button. The magazine catch consists of two ends which occur at a substantially right angle. One end is a threaded screw. The other end is a substantially flat member. When installed in a semi-automatic rifle, the spring is placed over the threaded screw end of the magazine catch. The screw is then inserted through the lower receiver and threaded through the magazine catch button on the opposite side of the lower receiver. The opposite end of the magazine catch rests within a recess in the magazine well receiver. When a magazine is placed in the magazine well the magazine catch slides into a recess in the magazine. The catch holds the magazine in place while the firearm is in use. To release the magazine, a user pushes the magazine release button. When the magazine release button is depressed the magazine catch is lifted from the recess in the magazine and the magazine freely slides out of the magazine well.
The invention is a device which is installed as a permanent component of the firearm. The invention is a permanent fixture added to a semi-automatic firearm by removing the standard OEM magazine catch assembly and installing the invention. To remove the magazine catch assembly a person can depress the magazine release button. The user can then rotate the free end of the magazine catch in a counterclockwise motion. This motion unthreads the magazine catch from the magazine release button. Once the magazine catch is completely unthreaded, all parts of the factory installed assembly can be removed from the lower receiver.
In accordance with one aspect of the present invention, a firearm is provided comprising a lower receiver, a magazine catch bar, and an upper tension bar. The magazine catch bar is securely attached to the lower receiver and fits within a recess in the magazine well of the lower receiver. The upper tension bar applies a pressure against the upper receiver of the firearm, sufficient to render the magazine catch bar immovable when the upper receiver and lower receiver of the firearm are firmly attached in a closed position. The magazine catch bar freely moves when the upper receiver and the lower receiver of the firearm are apart and in an open position, permitting the magazine catch bar to lift from the magazine side-locking recess sufficiently to permit a magazine to be removed from the magazine well of the lower receiver when the upper receiver and the lower receiver of the firearm are apart and in an open position. The upper tension bar may contain a set screw permitting a user to adjust the pressure at the point of contact between the upper tension bar and the upper receiver. The upper tension bar and magazine catch bar are attached to the lower receiver by means of a screw which passes through the lower receiver. The upper tension bar and magazine catch bar are positioned on separate sides of the lower receiver.
In accordance with another aspect of the present invention a firearm subassembly is provided comprising a magazine catch, a magazine catch pivot, a screw and a screw spacer. The magazine catch is comprised of two extended members, a magazine catch bar and an upper tension bar. The upper tension bar applies a pressure against the upper receiver of the firearm, sufficient to render the magazine catch bar immovable when the upper receiver and lower receiver of the firearm are firmly attached in a closed position. The magazine catch bar freely moves when the upper receiver and the lower receiver of the firearm are apart and in an open position, permitting the magazine catch bar to lift from the magazine side-locking recess sufficiently to permit a magazine to be removed from the magazine well of the lower receiver when the upper receiver and the lower receiver of the firearm are apart and in an open position. The upper tension bar may contain a set screw permitting a user to adjust the pressure at the point of contact between the upper tension bar and the upper receiver. The magazine catch pivot is securely attached to the lower receiver of the firearm by means of a screw extending through the lower receiver of the firearm. The magazine catch pivot fits inside a recess within the magazine catch and is securely attached to the magazine catch. The magazine catch pivot can be of any shape. The recess in the magazine catch can be of any shape to receive the shape of the magazine catch pivot. The subassembly also comprises a screw spacer fitting within the recess for the magazine release button of the lower receiver.
In accordance with another aspect of the invention, a method is provided for converting a firearm with a detachable magazine into a firearm with a fixed magazine comprising the steps of removing the factory installed magazine release assembly by depressing the magazine release by depressing the magazine release button to a sufficient depth to permit the factory installed magazine catch bar to extend beyond the magazine well of the lower receiver, rotating the factory installed magazine catch bar in a counterclockwise fashion until the factory installed magazine catch bar is unthreaded from the factory installed screw end of the magazine release button, and removing all parts of the factory installed magazine release button assembly, installing a magazine catch bar onto the lower receiver of the firearm where the magazine catch bar rests within the magazine side-locking recess, and installing an upper tension bar onto the lower receiver of the firearm where the upper tension bar extends towards and contacts the upper receiver. In this method the upper tension bar applies a pressure against the upper receiver of the firearm pressure sufficient to render the magazine catch bar immovable when the upper receiver and lower receiver of the firearm are firmly attached in a closed position. In this method the magazine catch bar freely moves when the upper receiver and the lower receiver of the firearm are apart and in an open position, permitting the magazine catch bar to lift from the magazine side-locking recess sufficient to permit a magazine to be removed from the magazine well of the lower receiver when the upper receiver and the lower receiver of the firearm are apart and in an open position. The method may be one where the magazine catch bar and upper tension bar are two separate extended members of one magazine catch. The method may further comprise attaching a magazine catch pivot securely to the lower receiver of the by means of a screw extending through the lower receiver of the firearm. The magazine catch pivot may be of any shape. The method may further comprise fitting the magazine catch pivot inside a recess within the magazine catch and securely attaching the magazine catch pivot to the magazine catch. The recess in the magazine catch may be of any shape to receive the magazine catch pivot. The method may further comprise fitting a screw spacer within the recess for the magazine release button on the lower receiver, the screw spacer containing a central hole allowing a screw to pass through, passing a screw through the screw spacer, and securely threading the screw into the magazine catch pivot.
Since the basic firearm is of a well-known type, only those parts of the firearm essential to an understanding of the invention will be described in detail. Although the present invention will be described with reference to the exemplary embodiments shown in the drawings, it should be understood that the present invention can be embodied in many alternate forms or embodiments. In addition, any suitable size, shape or type of elements or materials could be used.
Referring to
As shown in
As shown in
In this embodiment the device 10 operates by the force applied by the magazine catch bar spring 150. The magazine catch bar spring 150 pushes the magazine catch bar 120 outward and away from the firearm 100. This outward movement is transferred through the screw 130 to the upper tension bar 110. The outward movement of the magazine catch bar 120 causes the upper tension bar 110 to move inward toward the firearm 100. When the upper receiver 20 and the lower receiver 30 are placed together, the upper tension bar 110 applies pressure against the upper receiver 20, due to the force exerted by the magazine catch bar spring 150. The upper receiver 20 prevents any inward movement by the upper tension bar 110. Because the upper tension bar 110 cannot move inward toward the firearm 100, the magazine catch bar 120 remains resting within the recess in the magazine well receiver 45. The magazine catch bar 120 thus remains in full contact with the magazine 40 and prevents the magazine 40 from being removed from the magazine well receiver 45. This device 10 prevents the magazine 40 from being removed from the firearm 100 when the upper receiver 20 and lower receiver 30 are closed and pinned together. Thus, the device 10 changes the firearm 100 into one with a fixed magazine.
In this embodiment, the upper tension bar 110 applies an inward pressure against the upper receiver 20 because of the force applied by the magazine catch bar spring 150. In this embodiment of the invention, to remove the magazine 40 a user must remove the rear takedown pin 50. The removal of the rear takedown pin 50 allows the upper receiver 20 to pivot away from the lower receiver 30 at the pivot pin point 60. This action is called “scissoring.” When the lower receiver 30 and upper receiver 20 are scissored open, the upper tension bar 110 is no longer in contact with the upper receiver 20. When the upper receiver 20 is removed from the lower receiver 30 the upper tension bar 110 is no longer in contacting the upper receiver 20. The tip of the upper tension bar 110 may then freely move inward. The force applied by the magazine catch bar spring 150 pushes the magazine catch bar 120 outward and away from the lower receiver 30. Because there is no resistance between the upper tension bar 110 and upper receiver 20, the upper tension bar 110 moves inward toward the firearm 100. The inward movement of the upper tension bar 110 allows the magazine catch bar spring 150 to push the magazine catch bar 120 outward and away from the firearm 100. The outward movement of the magazine catch bar 120 removes the contact between the magazine catch bar 120 and the magazine 40. With the resistance between the magazine catch bar 120 and the magazine 40 removed, the magazine 40 is free to slide out of the magazine well receiver 45. A user may then insert a new magazine 40 into the magazine well receiver 45. The user then reattaches the upper receiver 20 to the lower receiver 30 and inserts the rear takedown pin 50. The device 10 is once more in its original position where the upper tension bar 110 contacts the upper receiver 20 and the magazine catch bar 120 passes through the recess in the magazine well receiver 45 and contacts the magazine 40. Once closed, the magazine 40 is now a fixed magazine and may not be removed from the firearm 100 while the upper receiver 20 is attached to the lower receiver 30. Once closed, the firearm 100 may be utilized to be fired.
The magazine catch pivot 160 has two ends. One end of the magazine catch pivot 160 is shaped to fit within the lateral recess 125 of the magazine catch 115. The opposite end of the magazine catch pivot 160 contains a threaded receptor for the screw 130. The screw 130 is placed through a screw spacer 170 and then extended through the lower receiver 30 such that the screw spacer 170 is located on the side of the lower receiver 30 where the factory installed magazine release button was located. The free end of the screw 130 is threaded through the magazine catch pivot 160 on the opposite side of the lower receiver 30.
The device 10 operates such that when the upper receiver 20 and the lower receiver 30 are placed together, the upper tension bar 110 applies pressure against the upper receiver 20, flexing the upper tension bar 110 outward. This outward pressure on the upper tension bar 110 causes the magazine catch 115 to pivot at the junction between the magazine catch 115 and the magazine catch pivot 160. This pivoting motion is transferred to the magazine catch bar 120 such that the magazine catch bar 120 applies an inward pressure through the recess in the magazine well receiver 45 and applies an inward pressure against the recess in the magazine 40. This inward pressure prevents the magazine 40 from being removed from the firearm 100 when the upper receiver 20 and lower receiver 30 are closed and pinned together. Thus, the device 10 changes the firearm 100 into one with a fixed magazine.
In this embodiment of the invention, to remove the magazine 40 a user must remove the rear takedown pin 50. The removal of the rear takedown pin 50 allows the upper receiver 20 to pivot away from the lower receiver 30 at the pivot pin point 60. When the lower receiver 30 and upper receiver 20 are scissored open, the upper tension bar 110 is no longer in contact with the upper receiver 20. Without resistance of movement from the upper receiver 20, the upper tension bar 110 may not pivot inward toward the firearm 100. This pivoting inward of the upper tension bar 110 allows the magazine catch bar 120 to pivot outward from the firearm 100. The outward movement of the magazine catch bar 120 removes the contact between the magazine catch bar 120 and the magazine 40. With the resistance between the magazine catch bar 120 and the magazine 40 removed, the magazine 40 is free to slide out of the magazine well receiver 45. A user may then insert a new magazine 40 into the magazine well receiver 45. The user then reattaches the upper receiver 20 to the lower receiver 30 and inserts the rear takedown pin 50. Once closed, the firearm 100 may be utilized to be fired.
| Number | Name | Date | Kind |
|---|---|---|---|
| 4429479 | Johnson | Feb 1984 | A |
| 4615134 | Beretta | Oct 1986 | A |
| 5517897 | Perrine | May 1996 | A |
| 5519954 | Garrett | May 1996 | A |
| 6070352 | Daigle | Jun 2000 | A |
| 7219462 | Finn | May 2007 | B2 |
| 7661219 | Knight et al. | Feb 2010 | B1 |
| 7921587 | Mayberry | Apr 2011 | B2 |
| 8327749 | Underwood | Dec 2012 | B2 |
| 8418390 | Wright | Apr 2013 | B1 |
| 20050183310 | Finn | Aug 2005 | A1 |
| 20060123683 | Garrett et al. | Jun 2006 | A1 |
| 20100281736 | Mayberry et al. | Nov 2010 | A1 |
| 20100307042 | Jarboe et al. | Dec 2010 | A1 |
| 20110056107 | Underwood | Mar 2011 | A1 |
| 20110271827 | Larson et al. | Nov 2011 | A1 |
| 20110277365 | Barletta | Nov 2011 | A1 |
| 20120159828 | Jarboe et al. | Jun 2012 | A1 |
| 20120174451 | Overstreet et al. | Jul 2012 | A1 |
| 20120180354 | Sullivan et al. | Jul 2012 | A1 |
| 20120198742 | Troy et al. | Aug 2012 | A1 |
| 20120297656 | Langevin et al. | Nov 2012 | A1 |
| 20130014418 | Dextraze et al. | Jan 2013 | A1 |
| 20130152442 | Underwood | Jun 2013 | A1 |
| 20130227869 | Thordsen | Sep 2013 | A1 |
| 20130269231 | Pietrzyk | Oct 2013 | A1 |
| 20130326924 | Jarboe et al. | Dec 2013 | A1 |
| 20140013640 | Munson | Jan 2014 | A1 |
| 20140053444 | Garrett | Feb 2014 | A1 |
| 20140075814 | Larson et al. | Mar 2014 | A1 |
| Number | Date | Country | |
|---|---|---|---|
| 20130269232 A1 | Oct 2013 | US |
