The present invention generally relates to a weapon and more particularly relates to a machine gun assembly and an interlock element for use with a machine gun assembly.
Machine gun assemblies include a barrel for guiding and controlling the direction of a round after it has been expelled from its cartridge as the machine gun assembly is discharged. The barrel includes a chamber for receiving a cartridge prior to discharging the weapon and for housing the cartridge during, and subsequent to, the discharge of the weapon. The barrel further includes a bore which guides the round as it travels through the barrel. The barrel is attached to a barrel extension which, in turn, is mounted to a receiver of the machine gun assembly. The barrel extension includes a slot in which a bolt sub-assembly is mounted. The barrel extension is configured to move with respect to the receiver so it can reciprocate as the machine gun assembly is fired and then recoils, and the bolt sub-assembly is configured to move both together with the barrel extension as the barrel extension moves, and also to move with respect to the barrel extension to permit the loading of unexpended cartridges and the expulsion of expended cartridges. A trigger bar is mounted to the receiver and remains stationary with respect to the receiver. Accordingly, as the barrel extension and the bolt move with respect to the receiver, they also move with respect to the trigger bar.
When the barrel extension and the bolt are in their respective forward positions, the trigger bar comes to rest over a sear. The sear is part of the bolt sub-assembly and is configured to control the release of the firing pin (which is also part of the bolt sub-assembly). When the trigger bar depresses downwardly onto the sear, the sear releases the firing pin which, under the force of a spring, moves rapidly into engagement with the primer of the cartridge. This causes the propellant inside of the cartridge to combust and rapidly expand, thereby expelling the round into the bore, down the barrel, out of the machine gun assembly, and down range.
Modern machine gun assemblies include a barrel that can be quickly released from, and re-engaged with, the barrel extension. In some known examples, such quick release engagement is accomplished through the use of quick release threads. Quick release threads are threads which do not wrap completely around the circumference of the barrel or the barrel extension, but rather, only extend partially around the circumference. The use of quick release threads permit the barrel to be disengaged from, and re-engaged with, the barrel extension by rotating the barrel through only a portion of a rotation (e.g., by turning the barrel sixty or ninety degrees).
In some instances, it has been observed that operators who use the quick release mechanism to disassemble the barrel from the barrel extension may incorrectly re-assemble the machine gun assembly by forgetting to partially rotate the barrel, thereby failing to cause re-engagement between the quick release threads of the barrel and the quick release threads of the barrel extension. Because conventional machine gun assemblies have no means of preventing the weapon from being fired while the barrel is not properly engaged with the barrel extension, the failure to correctly engage the barrel with the barrel extension can lead to undesirable circumstances.
Accordingly, it is desirable to provide a machine gun assembly that is inhibited from being discharged while the barrel is not properly engaged with the barrel extension. In addition, it is desirable to provide an interlock element that can be used to render a machine gun assembly non-dischargeable when the barrel is not properly engaged with the barrel extension. Furthermore, other desirable features and characteristics of the present invention will become apparent from the subsequent detailed description and the appended claims, taken in conjunction with the accompanying drawings and the foregoing technical field and background.
A machine gun assembly and an interlock element for use with a machine gun assembly are disclosed herein.
In a first, non-limiting embodiment, the machine gun assembly includes, but is not limited to a receiver. The machine gun assembly further includes, but is not limited to, a barrel extension mounted to the receiver and configured to move between a forward position and a retracted position with respect to the receiver. The barrel extension is biased towards the forward position and is configured for quick-release engagement with a barrel. The machine gun assembly further includes, but is not limited to, an interlock element that is mounted to the receiver and that is configured to move between a blocking position and a clear position. The interlock element is biased towards the blocking position. The interlock element has a blocking portion that is positioned to obstruct movement of the barrel extension to the forward position when the interlock element is in the blocking position. The blocking portion is positioned to permit movement of the barrel extension to the forward position when the interlock element is in the clear position. The interlock element is configured to move to the blocking position when the barrel disengages from the barrel extension and the interlock element is configured to move to the clear position when the barrel engages the barrel extension.
In another non-limiting embodiment, the machine gun assembly includes, but is not limited to, a receiver. The machine gun assembly further includes, but is not limited to, a barrel extension that is mounted to the receiver and that is configured to move between a forward position and a retracted position with respect to the receiver. The barrel extension is biased towards the forward position and has a set of female quick release threads. The machine gun assembly further includes, but is not limited to, a bolt sub-assembly that is mounted to the barrel extension and that is configured to move together with the barrel extension. The bolt sub-assembly includes a firing pin that is configured to engage a cartridge and a sear that is configured to control the firing pin. The machine gun assembly further includes, but is not limited to, a barrel that is configured to be selectively engaged with, and disengaged from, the barrel extension. The barrel has a chamber, a bore, and a set of male quick release threads that are engaged with the female set of quick release threads when the barrel is engaged with the barrel extension. The machine gun assembly further includes, but is not limited to, a trigger bar that is positioned above and adjacent to the bolt and is configured to remain stationary with respect to the receiver. The trigger bar is disposed in a firing window with respect to the sear when the barrel extension is in the forward position. The trigger bar is disposed outside of the firing window when the barrel extension is out of the forward position. The machine gun assembly still further includes, but is not limited to, an interlock element that is mounted to the receiver and that is configured to move between a blocking position and a clear position. The interlock element is biased towards the blocking position. The interlock element has a blocking portion positioned to obstruct movement of the barrel extension to the forward position when the interlock element is in the blocking position. The interlock element also has allowances for the blocking portion to be positioned to permit movement of the barrel extension to the forward position when the interlock element is in the clear position. The interlock element is configured to move to the blocking position when the barrel disengages from the barrel extension. The interlock element is configured to move to the clear position when the male quick release threads are correctly engaged with the female quick release threads.
In another non-limiting embodiment, the interlock element may be used with the machine gun assemblies described above. The interlock element includes a supporting portion that is configured for attachment to the receiver. The supporting portion is configured to move between a blocking position and a clear position. The interlock element further includes, but is not limited to, a blocking portion. The blocking portion is associated with the supporting portion and is configured to obstruct movement of the barrel extension to the forward position when the interlock element is in the blocking position while the supporting portion is attached to the receiver. The blocking portion is configured to permit movement of the barrel extension to the forward position when the interlock element is in the clear position while the supporting portion is attached to the receiver.
The present invention will hereinafter be described in conjunction with the following drawing figures, wherein like numerals denote like elements, and
The following detailed description is merely exemplary in nature and is not intended to limit the invention or the application and uses of the invention. Furthermore, there is no intention to be bound by any theory presented in the preceding background or the following detailed description.
An improved machine gun assembly is disclosed herein. In a non-limiting example, the machine gun assembly of the present disclosure includes an interlock element that is configured to inhibit movement of the barrel extension to its forward position unless the barrel is correctly engaged with the barrel extension. As used herein, the term “forward position” when describing the position of the barrel extension refers to the forward limit of its forward travel with respect to the receiver. In order to remove the barrel from the barrel extension, the barrel extension must first be retracted or moved backwards from its forward position. This protocol inhibits unwanted disengagement of the barrel from the barrel extension while the weapon is being discharged. In a scenario where the barrel has not been properly engaged in the barrel extension, the barrel extension moves backwards from its forward position, the interlock element moves to a blocking position under the urging of a biasing element. While the interlock element is in the blocking position, it acts as an obstruction that inhibits the barrel extension from returning to its forward position. With the barrel extension held out of its forward position, the bolt sub-assembly (which travels with the barrel extension as the barrel extension moves back and forth) is held outside of the firing window (i.e., the position where the trigger bar is able to engage the sear). With the trigger bar held outside of the firing window, the machine gun assembly cannot be fired.
As the barrel is correctly engaged with the barrel extension, the barrel engages the interlock element and causes the interlock element to move to a clear position. When the interlock element moves to the clear position, the obstruction of the barrel extension is removed. The barrel extension, which is biased towards the forward position, will then automatically return to its forward position. As the barrel extension moves to the forward position, the bolt sub-assembly travels with it and moves into the firing window. With the bolt sub-assembly disposed in the firing window, the trigger bar is able to engage the sear and actuate a firing cycle of the machine gun assembly.
A greater understanding of the embodiments of machine gun assembly and of the interlock for use with a machine gun assembly may be obtained through a review of the illustrations accompanying this application together with a review of the detailed description that follows.
Barrel 22 is supported by a barrel support 28. Barrel support 28 is coupled with receiver 26 and comprises a tubular structure that envelops barrel 22 while barrel 22 is engaged with barrel extension 24. Among other things, barrel support 28 guides the movement of barrel 22 towards barrel extension 24 as a user attempts to re-engage barrel 22 with barrel extension 24 after barrel 22 has been disassembled from machine gun assembly 20.
An interlock element 30 is mounted to an underside of receiver 26. Interlock element 30 is configured to pivot between a blocking position (as best seen in
If an operator wanted to remove barrel 22 from machine gun assembly 20 for cleaning, maintenance, replacement, inspection, or any other purpose, the operator would first have to move barrel extension 24 backward from its forward position, in the direction indicated by arrow 34. Once barrel extension 24 has been moved backward from its forward position, the operator may then rotate barrel 22 in the direction indicated by arrow 36 to remove barrel 22 from machine gun assembly 20. Once these two actions have occurred, interlock element 30 will automatically move to the blocking position under the urging of spring 32 and will inhibit barrel extension 24 from returning to its forward position. This will be described in greater detail below.
An outer portion of barrel 22 includes quick release threads 46. Quick release threads 46 are configured to engage a set of quick release threads on barrel extension 24 (see
Also illustrated in
When a downward force is applied to sear 58, sear 58 and back end 56 of firing pin extension 54 come out of latched engagement and firing pin 50 is free to move towards its firing position under the force of spring 52. When firing pin 50 reaches the firing position, the tip of firing pin 50 will protrude beyond the end of bolt sub-assembly 48.
In
As illustrated in
In the illustrated embodiment, the lower surface of trigger bar 62 also includes a ramped portion 68 where the lower surface transitions from aft portion 66 to forward portion 64. This ramped portion is also capable of depressing sear 58. Accordingly, whenever sear 58 is positioned under either forward portion 64 or ramped portion 68, trigger bar 62 is disposed within a firing window and whenever sear 58 is disposed under aft portion 66, trigger bar 62 is disposed outside of the firing window. From this discussion, it can be understood that if the movement of barrel extension 24 towards its forward position is obstructed, then movement of bolt sub-assembly 48 is also obstructed and furthermore, if such movement of bolt sub-assembly 48 is obstructed while trigger bar 62 is disposed outside of the firing window, then machine gun assembly 20 is inhibited from being discharged.
As illustrated in
With continuing reference to
As illustrated in
As interlock element 70 pivots to the clear position, blocking portion 72 retracts from its engagement with barrel extension 24. Once interlock element 70 has reached the clear position, blocking portion 72 comes completely out of engagement with barrel extension 24 and barrel extension 24 is left free to move towards its forward position under the urging of a spring or other biasing means (not shown).
With barrel 22 rotated into engagement with barrel extension 24, ramped portion 86 cams barrel engaging portion downward, causing interlock element 70 to pivot to the clear position. Barrel extension 24 has moved into its forward position and has brought bolt sub-assembly 48 with it. As bolt sub-assembly 48 moves forward, it comes into close proximity with chamber 44, and thereby is positioned to permit firing pin 50 to initiate a firing cycle of a cartridge when a cartridge is disposed within chamber 44.
While at least one exemplary embodiment has been presented in the foregoing detailed description of the invention, it should be appreciated that a vast number of variations exist. It should also be appreciated that the exemplary embodiment or exemplary embodiments are only examples, and are not intended to limit the scope, applicability, or configuration of the invention in any way. Rather, the foregoing detailed description will provide those skilled in the art with a convenient road map for implementing an exemplary embodiment of the invention. It being understood that various changes may be made in the function and arrangement of elements described in an exemplary embodiment without departing from the scope of the invention as set forth in the appended claims.
This application claims the benefit of U.S. Provisional Application No. 61/699,512 which was filed on Sep. 11, 2012, which is hereby incorporated herein by reference in its entirety.
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Number | Date | Country | |
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61699512 | Sep 2012 | US |