This disclosure related generally to firearms, and, more particularly to, machine guns having detachable barrels, a latch to facilitate the attachment and removal of a barrel, and a foldable carrying handle mounted near the latch.
Positional terms such as “rear” or “top”, “right” or “left” are used in this patent with reference to a weapon positioned in a shooting position, That is, with reference to a weapon positioned to shoot “forward” (i.e., away from the shooter), in a generally horizontal plane.
Conventional light weight machine guns often have a carrying handle that is mounted near the rear end of the barrel, (i.e., in proximity to the gun's center of gravity). The handle can be moved between a rest position and a working position. In the rest position, the carrying handle is folded down and rests against the jacket of the machine gun. In its working position, the carrying handle protrudes upwards from the machine gun and is positioned to serve for transporting the gun.
In general, such machine guns should be as light as possible and be able to handle long rounds and a high overall number of shots. Each shot fired produces heat and the gun barrel may become over-heated during use. To address this issue, these machine guns usually have devices that allow one to quickly exchange one barrel for another.
Such devices are usually designed as latches that snap into place. After the latch is opened, the barrel can be removed, for example, with asbestos-clad gloves or by means of a heat-insulated manual handle (see CH 116,607). Subsequently, a new barrel is inserted, and the latch is closed again. In its closed position, the latch should be firmly locked and hold the barrel in its proper position during the next round of firing.
There are several disadvantages with the above described prior art design. First, if the asbestos-clad gloves are not within easy reach or if there is a failure, the machine gun operator may inadvertently use his free hand to remove the hot barrel and injure himself. Second, in the excitement of a fight, it is easy to forget about the need to always carefully check and make sure that the latch is properly locked. If the latch is not properly locked, it could unexpectedly open, thereby permitting the barrel to fall out of the gun. One could conceive of a separate safety catch that would only allow the gun to fire when the latch has properly snapped into place. However, such a safety catch would disable the weapon if the barrel becomes loose and, at any rate, would be very complicated and, thus prone to failure.
It would also be possible to equip the snap-in latch with a secondary latch. However, such a secondary latch would require additional operations to exchange a barrel and, thus, delay and complicate the exchange process.
Detachable barrels on machine guns with carrying handles are known in the prior art. For example, U.S. Pat. No. 2,131,716 illustrates a device for removal and/or insertion of a barrel that can be provided in addition to a carrying handle on a machine gun. However, the actuation of the device shown in U.S. Pat. No. 2,131,716 is independent from the position of the carrying handle and/or can only occur when the carrying handle is in position B (see FIG. 2 of U.S. Pat. No. 2,131,716).
A transversally arranged eccentric rod used to hold a barrel of an automatic firearm in a detachable connection is known from U.S. Pat. No. 2,423,854.
To enable the removal of the barrel 1, the weapon of
The machine gun of
When removing a hot barrel 1, the user actuates the barrel-exchange latch mechanism 3, grabs the barrel 1 with an insulated glove, (e.g., an asbestos-clad glove), and pulls the barrel 1, along with the bipod 9, forward in the direction of firing. In this process, the gas piston device 5 is separated into two parts, with one part remaining on barrel 1 and the other part remaining on the machine gun.
As shown in
The upper part of the rear end 11 includes a recess 13. A transversally extending eccentric bar 15 is mounted in the gun jacket 41 near the recess 13. The eccentric bar 15 is rotatable. In the position illustrated in
A handling device 14 (e.g., a lever) is located on the end of the eccentric bar 15 and shown in
A slider 17 is located within a cavity defined in the housing 41 above the eccentric bar 15. The slider 17 is longitudinally movable and is pushed to the back by a spring 19. The slider 17 includes a slider block 43 on the bottom and a slider lug 23, which extends the slider 17 towards the front. The slider lug 23 can emerge from the housing/jacket 41. In the illustrated example, the slider lug 23 is formed in one piece with the slider block 43. A transversally extending recess 21, which opens forward, is disposed in the upper side of the eccentric bar 15.
In the position shown in
When a new barrel is so inserted, it rotates the eccentric bar 15 counter-clockwise against the force of the spring 19. When the new barrel is sufficiently inserted, the eccentric bar 15 snaps back into the position shown in
Further toward the front, the barrel 1 has a gas borehole (not shown) that extends radially from the bottom and connects to a gas channel 33 located within a gas discharge element 35. An axial gas discharge element 37 is attached in a well known fashion to the open end of the radial gas discharge element 35. The angular gas channel 33 continues to the rear in this gas discharge element 37. The gas discharge channel 33 ends in a plug-in block 39 which is structured as a piston. This plug-in block 39 is detachably inserted from the front into a gas cylinder 27. The gas cylinder 27 includes a movable gas piston 29. This piston 29 transfers its backward movement to a rod assembly 31 which, in turn, transfers its movement to a closure mechanism (not numbered) to initiate unlocking of the bolt head of the breech. The bolt head and breech mechanism are partially shown in
To release the eccentric bar 15 from the recess 13 in the rear end 11 of the barrel 1, the lever 14 coupled to the eccentric bar 15 is used to rotate the eccentric bar 15 counter-clockwise. After the eccentric bar 15 exits the recess 13, the barrel 1 can be pulled forward and out of the machine gun. Concurrently, the plug-in block 39 of the gas piston device 5 is pulled out of the gas cylinder 27. The illustrated gas cylinder 27 may be implemented as an expendable part that can be exchanged at any time.
As shown in
When the carrying handle 7 is rotated up to the position shown in
To limit the range through which eccentric bar 15 can turn, a check plate 47 is mounted in a recess 51 in the jacket 41. This check plate 47 is sized to allow the eccentric bar 15 to turn only between its two end positions in the shortest path and prevents the eccentric bar 15 from turning beyond these end positions.
The check plate 47 is associated with two snap-in devices 49 in the recess 51 of the jacket 41. These snap-in devices 49 may be implemented by, for example, spring-mounted snap-in balls. The snap-in devices 49 stop the check plate 47 and, thus, limit the rotation of the eccentric bar 15 in each of its two end positions.
From the foregoing, persons of ordinary skill in the art will appreciate that the illustrated example machine gun has a barrel 1 which can be exchanged as quickly as in conventional firearms, but in a safer and more reliable fashion. To this end, the illustrated example device 3 that permits exchanging of the barrel 1 can only be brought into the release position when the carrying handle 7 is in the carrying position. Furthermore, the illustrated device 3 is simpler, or at least not more complex, than what is known in the art.
In the illustrated example, the eccentric bar 15 cannot extend beyond its end positions or, at least, cannot exceed them substantially. A person of ordinary skill in the art will appreciate that the illustrated example uses a locking piece 25 to prevent the eccentric bar 15 and the carrying handle 7 from unexpectedly moving from one end position towards the other. This locking piece 25 stops the eccentric bar 15 and the carrying handle 7 in an end position. The eccentric bar 15 and the carrying handle 7 can be moved beyond the stopped position through the exertion of additional force. This not only ensures the usability of the machine gun both in the rest and in the ready-to-shoot position, but it also avoids any situation where the eccentric bar 15 is wrongly turned with the barrel 1 removed so that a new barrel 1 cannot be simply inserted.
While the mechanism in the illustrated example prevents the end positions of the eccentric bar 15 from being exceeded, it does not prevent the possibility of the eccentric bar 15 being heavily stressed during a rush operation and possibly damaged as a result. Therefore, the illustrated example utilizes a check plate 47 on the eccentric bar 15 in order to absorb such stress in the end position and, thus, relieve the mechanism of that stress and the potential for damage.
A person of ordinary skill in the art will appreciate that the carrying handle 7 of the illustrated example is also used as a safety device. In particular, the illustrated carrying handle 7 guarantees that the machine gun can only shoot when the inserted barrel 1 is fully locked in place. When the carrying handle 7 is in its ready/carry position, it is not possible to aim the machine gun since the carrying handle 7 is directly in the gun operator's field of view and, therefore, it is difficult to shoot. This decreases the likelihood of a shot being fired from a misassembled weapon.
A person of ordinary skill in the art will further appreciate that the illustrated example helps the gun operator avoid injury during the changing of a hot barrel 1. During the exchange of the barrel 1, the gun operator usually has one hand on the carrying handle 7. In order to exchange the barrel 1, the operator grabs the hot barrel 1 at a heat-insulated handle or using some protective gear, (e.g., an asbestos-clad glove), while his other hand holds the carrying handle 7. As a result, the temptation to assist with the other hand—and injure it, while doing so—is reduced.
In a further example, the machine gun has a carrying handle 7 that can only be brought into its rest position when the device 3 that releasably secures the barrel 1 is in its ready position. However, it is preferred that, during the transfer of the carrying handle 7 from its position of use (i.e., the carry position) to its rest position, the device 3 that releasably secures the barrel 1 is pressed into its ready position. As a result should the aforementioned device 3 become stiff to operate, (e.g., due to some dirt), it can still be brought into its locked position by means of the carrying handle 7 without facing the risk that the barrel 1 is not properly locked in.
In a preferred example, a weapon jacket/housing 41 defines a longitudinal borehole that receives the rear end 11 of the barrel 1. The rear end 11 of the barrel 1 has a transversally extending recess 13. Also, the weapon jacket 41 carries a transversally running eccentric bar 15 that can turn to—with the barrel 1 inserted—engage or disengage in the recess 13. The carrying handle 7 is operatively coupled with the eccentric bar 15 when the eccentric bar 15 is engaged with the recess 13, but is uncoupled from the eccentric bar 15 when the eccentric bar 15 is disengaged from the recess 13.
An operation lever 14 is mounted on the eccentric bar 15, and may be used to turn the eccentric bar 15. The lever 14 must be long enough to ensure that the unlocking of the device 3 that releasably secures the barrel 1 is easily possible, even after an accumulation of dirt and rust. Furthermore, the recess 13 can be fabricated in a simple and inexpensive fashion so that the costs related to an exchangeable barrel 1 are minimized. Should the exchangeable barrel 1 be dirty, the recess 13 can be wiped off, without any extraordinary effort, by hand or with a piece of rag.
In the illustrated example, a slider 17 is pressed into engagement with the eccentric bar 15 by a spring 19. The slider 17 can be pushed back away from the eccentric bar 15 when the carrying handle 7 is in its use/carry position. However, when the carrying handle 7 is in the rest position, it blocks the slider 17 from being pushed back. Thus, due to the slider 17, the eccentric bar 15 is automatically blocked and cannot be released as long as the carrying handle 7 is in its rest position. Therefore, the gun operator can always be sure that the barrel 1 of his machine gun is secured in its proper place by observing the position of the carrying handle 7.
A person of ordinary skill in the art will appreciate that the illustrated example latch can be used, for example, in a delayed recoil repeater gun, whose breech block is locked in the manner of the Swiss assault rifle 57 or the German G3. Furthermore, it is particularly advantageous to use the latch with gas-pressure repeater guns because, during the exchange of the barrel 1, the connection between the barrel 1 and the gas channel 33 must also be separated, which is easy to do because the barrel 1 is inserted into its retaining borehole from the front in the direction of the centerline of the borehole.
A person of ordinary skill in the art will further appreciate that it is especially advantageous for an extension to be mounted on the barrel 1 between its muzzle and its rear end 11. In the illustrated example, the extension comprises a gas borehole in communication with the barrel 1. The gas borehole includes a free end that is offset backwards, and which extends parallel to the barrel 1 and ends in a plug-in block 39. Furthermore, it is advantageous if the machine gun includes a gas channel 33 that is open in the forward direction and that, with the barrel 1 inserted, can be closed by the plug-in block 39. The plug-in block 39 may only loosely be inserted into the gas channel 33. However, it is also possible, and under certain circumstances advantageous, to equip the plug-in block 39 with sealing rings and insert it into the gas channel 33 so that it seals it off, especially in the case of small or weak cartridges, in which the developed gas quantity is relatively small.
Although certain example methods, apparatus and articles of manufacture have been described herein, this patent covers all methods, apparatus and articles of manufacture fairly falling within the scope of the appended claims either literally or under the doctrine of equivalents.
This patent is a continuation of U.S. patent application Ser. No. 11/496,535, which was filed on Jul. 31, 2006, which is a continuation of U.S. application Ser. No. 11/027,935, which was filed on Jan. 3, 2005, which is a continuation of International Patent Application Serial No. PCT/EP2003/005926, which was filed on Jun. 5, 2003, the disclosures of the parent applications are incorporated herein by reference.
Number | Date | Country | |
---|---|---|---|
Parent | 11496535 | Jul 2006 | US |
Child | 12014580 | US | |
Parent | 11027935 | Jan 2005 | US |
Child | 11496535 | US | |
Parent | PCT/EP2003/005926 | Jun 2003 | US |
Child | 11027935 | US |