A portion of the disclosure of this patent document contains material that is subject to copyright protection. The copyright owner has no objection to the facsimile reproduction by anyone of the patent disclosure, as it appears in the Patent and Trademark Office patent files or records, but otherwise reserves all copyright rights whatsoever.
The present invention relates to firearms, and, more specifically, magazines for firearms.
Ammunition magazines, and, more particularly, drum magazines, are well known in the art of firearms. An open end, which is the feed portion or feed end, is the portion that interfaces directly with a weapon and is generally attached by way of a feed tower to a drum body. The drum body stores loaded cartridges in a generally spiraled or winding configuration for movement towards the feed tower and feed end. Inside the drum body of some designs, a torsional spring and follower assembly are implemented to guide loaded cartridges towards the feed portion. In use, when one cartridge is expended, the compressed spring releases and pushes the follower and associated ammunition through the winding track and towards the feed end, and the next cartridge is thereby readied. To allow for loading of a drum magazine onto a weapon designed for accepting a stick-type, box magazine, the follower assembly and feed described above provide a kinetic chain for translating torsional force into a linear force when cartridges are moved from the drum body to the feed tower.
In other designs, a compression spring, as opposed to a torsional spring, guides loaded cartridges through a curved track towards a feed portion. In these designs, the track is necessarily limited to a large radius of curvature, resulting in a bulky magazine, as well as an exacerbation of frictional forces due to non-optimal cartridge stacking, and reduction in reliability.
In still other designs, winding of the spring is necessary after loading, meaning the user carries a significant burden with respect to loading and storage. For example, in some designs, after loading, the user must remember to use a main winding key to wind a spring, such as about ten turns, even noting the number of turns as well as remember to not over-wind the spring. Yet, if the user under-winds the spring, the cartridges may not feed correctly, requiring further winding by the user, potentially while in the field. Further, if the user plans to place a loaded drum magazine in storage, the user must remember to wind the spring only partially to prevent setting, and then again remember to fully wind just prior to use. These are just a few examples of the challenges faced by users of these designs.
Prior drum magazines have been manufactured in many different configurations and of different materials. As one example, in currently-available feed towers and drum magazine assemblies, as the magazine approaches the maximum loading capacity, the friction of the cartridges inside the drum does not allow for the spring force to resist the natural tendency of the first cartridge to nose-dive, thus adversely affecting chambering reliability. This diving of the distal tip of a first cartridge may be particularly exacerbated when frictional forces between other cartridges in the magazine and the magazine itself are excessive; that is, the relative strength of the torsional spring relative to the cartridge to be loaded is further reduced. In other examples, friction between the drum magazine and the loaded cartridges can cause jamming or delayed responses as the cartridges are moved through the drum magazine, thus reducing the reliability of the magazine and weapon and adversely affecting the feed rate responsiveness—i.e. the response rate of feeding to the rate of fire.
In still other examples, currently available drum magazines require the use of a “third hand” for loading. Specifically, two hands are required to actually load the magazine, meaning the user must prop the magazine against a wall, table, surface, other firm object, or the user's body, using the user's torso, elbow, leg, etc., to have both hands available for loading. In still other examples, inserting a loaded magazine into a weapon having a closed bolt may cause damage to the cartridges, or prevent the magazine from being inserted correctly, thereby causing misfeeds and/or complete loss or dropping of the magazine from the weapon.
As another example, currently-available magazines exhibit an excessive tolerance in the spacing between the front and rear portions. Although the excessive tolerance is sometimes unintentional, it is often necessary in currently-available designs. For example, and using the .223 Remington cartridge as just one example, manufacturers of currently-available designs must allow for an overall variance in the cartridge length of 0.095 inches, or 2.413 millimeters, which results in less than ideal cartridge travel within the magazine, including excessive friction and indirectly causing excessive noise and rattling while in the field.
Moreover, when a weapon using currently-available designs is fired, the recoil causes the loaded cartridges to hit the front of the magazine. Over time, the front of the magazine begins to develop small craters in the same localized spots. These craters tend to exacerbate the friction between the cartridges and the track, because cartridges must not only overcome inherent friction in the system as designed, but also dig each and every bullet tip of each cartridge out of a corresponding crater. The craters may be even further exacerbated by the use of relatively hard tips, such as in enhanced penetrating or armor-piercing ammunition, as well as the excessive tolerance described above.
Although present magazines and feed towers are functional to varying degrees and reliability, it is desirable to provide a device and/or method with improved reliability, as well as other new and innovative features.
Exemplary embodiments of the present invention that are shown in the drawings are summarized below. These and other embodiments are more fully described in the Detailed Description section. It is to be understood, however, that there is no intention to limit the invention to the forms described in this Summary of the Invention or in the Detailed Description. One skilled in the art can recognize that there are numerous modifications, equivalents and alternative constructions that fall within the spirit and scope of the invention as expressed in the claims.
In one example, a magazine assembly for a firearm has a magazine housing defining a track, and a follower assembly. The exemplary magazine housing is configured to constrain a cartridge as the cartridge is moved within the magazine assembly such that majority of a proximal surface area of the cartridge does not contact the magazine housing, and a distal tip of the cartridge does not contact the magazine housing.
In another example, a method of constraining a cartridge in a magazine assembly for a firearm includes constraining the cartridge such that (a) a majority of a proximal surface area of the cartridge does not contact a magazine housing; and (b) a distal tip of the cartridge does not contact the magazine housing.
As previously stated, the above-described embodiments and implementations are for illustration purposes only. Numerous other embodiments, implementations, and details of the invention are easily recognized by those of skill in the art from the following descriptions and claims.
Various objects and advantages and a more complete understanding of the present invention are apparent and more readily appreciated by reference to the following detailed description and to the appended claims when taken in conjunction with the accompanying drawings wherein:
Referring now to the drawings, where like or similar elements are designated with identical reference numerals throughout the several views, and referring in particular to
For the purpose of this document, the terms “front” and “distal” shall refer to a side or direction associated with a direction of intended fire; for example, in
As should be apparent from
In some embodiments, the drum magazine assembly 1 may be configured to hold 50 to 100 or more cartridges, such as in a single-stack design having a generally spiraled stack configuration inside the drum body 302. It should also be understood that the maximum loading capacity of the drum magazine assembly 1 is dependent on the caliber of ammunition used. For larger sized cartridges, for example, and without limitation, the drum magazine assembly 1 may be configured to hold as little as 35 cartridges at maximum loading capacity. In still other embodiments, the drum magazine assembly 1 may be configured to hold as little as 10 cartridges at maximum loading capacity. These capacities should be considered exemplary only.
Returning to
For the purpose of this disclosure, the terms “spiral” and “generally spiraled”, when used in reference to the stack configuration and/or the winding of the spiral track 303 illustrated in
The various components of the drum magazine assembly 1 may be manufactured of suitable polymeric materials, high-strength synthetic materials, composites, ceramics, various metals including aluminum, stainless steel or alloys, or any other material suitable for the intended use with a firearm, and the components may have one or more surface finishes suitable to minimizing friction between certain moving parts, which will be discussed in further detail below, as well as an external profile suitable for handling.
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Also shown in
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Nonetheless, the front cover assembly 10 may be included to provide an advancing mechanism, which may include a lever 104, an arm 106, and a pawl 108 assembly configured to enable a user to retract a spring 301 while loading cartridges. More specifically, an advancing mechanism or process may include the components and steps required to extend or rotate a lever 104 to increase a moment arm, turn a wheel 20, load cartridges, and release a lever 104 while returning. Rotating the lever 104 also adds the advantage that one can hold the lever 104, and thus reduce spring pressure, while loading cartridges. The arm return spring 110 may be provided to ensure the arm 106 is returned to and/or remains biased towards a starting position after each advancing motion. The advancing mechanism may be configured to advance the wheel 20 such that one or more cartridges may be loaded after advancing the wheel 20. With the advancing mechanism, the magazine can be more easily loaded without having to release spring tension due to the loading process. Therefore, the spring 301 does not have to be wound after loading, thus improving cartridge feed consistency, weapon reliability, and safety. The spring 301 is also configured such that an outermost end is fixed relative to the drum body 302, while the innermost end rotates. It should also be understood that for the purpose of this document, the term “advance” may include both linear and rotational movement. For example, advancing a wheel includes rotating the wheel, while advancing a follower assembly may include causing a follower assembly to travel in a generally spiraled path such as through a spiral track or in a generally straight path, such as through a feed tower.
Continuing with
The lever 104 itself may have a grip 1041 attached to a pivot body 1044; the lever 104 may also have an advancement lock feature having a clearance groove 1042 in the pivot body 1044, and/or a lever lock 1043. The pivot body 1044 is configured to rotate about axis D, shown in
The advancement lock feature, including the groove 1042 and locking ridge 1021, may be provided to increase reliability in the use of the magazine. Specifically, when the lever 104 is in the biased closed position, as in
As can be further seen in
Turning briefly to
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As seen in
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The abutment 304 may be configured to provide an abutment for the respective cases of the cartridges as they travel through the spiral track 303, as seen in
Continuing with
Moreover, in some embodiments, the length and angle of the outer chamfer 304a may change between an innermost portion of the spiral track 303 and an outermost portion of the spiral track 303. Similarly, the length and angle of the inner chamfer 304b may change between an innermost portion of the spiral track 303 and an outermost portion of the spiral track 303. This change in length and angle of the respective chamfers 304a, 304b may assist in maintaining the focal point P of the cartridges at about the same distance D as the cartridges travel through the drum magazine assembly 1, and, in turn, reduce friction as the cartridges travel.
Continuing with
As seen in
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In some embodiments, one or more of the follower dummy rollers 404 may rotate relative to the respective follower dummies 405, which may also rotate relative to the spiral track 303. That is, a front portion of a dummy cartridge 410 may rotate relative to a rear portion of a dummy cartridge 410. Similarly, a front portion of a leading dummy cartridge 412 may rotate relative to a rear portion of a leading dummy cartridge 412. Allowing the front and rear portions of dummy cartridges 410, 412 to rotate relative to each other as they pass through the spiral track 303 further minimizes the frictional forces between the follower assembly 40 and the drum body assembly 30.
The follower assembly 40 may include a sufficient number of dummy cartridges 410 so as to ensure that, when fully extended, the feed tower assembly 70 is approximately filled with the dummy cartridges 410 including the first dummy cartridge 412. Filling the feed tower assembly 70 with the dummy cartridges 410 allows the torsional spring 301 to apply a linear force on the cartridge stack through the feed tower, eliminating the need for a mechanical pusher arm. As will be understood by those skilled in the art, the overall purpose of the follower assembly 40 is to maintain loaded cartridges or the first dummy cartridge 412 biased towards a feed lip of the feed tower assembly 70. Each crank action of the lever 104 causes the follower assembly 40 to retract enough to allow at least one cartridge to be loaded. However, the follower assembly 40 may retract enough to allow two or more cartridges to be loaded. Particularly when the follower assembly 40 is near a fully extended position, more cartridges may be loaded after a single advancing motion. When the follower assembly 40 is or moves closer to a fully retracted position, fewer cartridges may be inserted. Upon release of the lever 104, the follower assembly 40 resumes the bias towards the feed lip.
In the present disclosure, and as seen in
To achieve this independent rotation, all spring force is carried by the stacked follower links 408 in a kinetic chain, to allow independent rotation of the dummy cartridges 410, thereby minimizing sliding friction. It should be noted that the first dummy cartridge 412 may be keyed to not rotate, so as to enable a bolt catch function to be provided, which will be discussed in subsequent portions of this disclosure. Naturally, if a bolt catch function is not desired, the first dummy cartridge 412 may be configured to rotate just like the remaining dummy cartridges. It is also noted that it is not a requirement that the entire first dummy cartridge 412 not rotate. That is, the leading follower dummy 407 may be configured to rotate relative to the leading follower dummy roller 406, so as to minimize friction while still retaining a bolt catch function. The last dummy cartridge 410, that is, the dummy cartridge 410 closest to the spindle 403 when the follower assembly is installed in the magazine assembly 1, is configured to allow the inner spindle slider 401 to move along an axis of the dummy cartridge 410, or the follower dummy roller 404, so as to compensate for changes in the position of the dummy cartridges 410 relative to the plane define by axes B-C or a rear portion of the drum magazine assembly 1, illustrated in
Continuing with
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Operation of the gate tab 7051 and gate lock 7052 can be better understood with reference to
In
In
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In
The feed tower 701 may also include a cartridge guide mount, and, as is depicted in
The feed tower 701 may further include a recess 7014. The recess 7014, illustrated most clearly in
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The track 8013 is configured to guide one or more cartridges along a travel path between the end portion 8011 and the feed opening 8012. The track 8013 is further configured to cause a first cartridge 8014 of the one or more cartridges to define a focal axis E. The track 8013 also serves to position one of a first dummy cartridge, such as a leading follower dummy 407, and another cartridge 8015 of the one or more cartridges such that a central axis F of the one of a first dummy cartridge and another cartridge 8015 of the one or more cartridges does not converge with the focal axis E and is not parallel to the focal axis E.
The track 8013 may comprise an align element 8016 and a diverge element 8017, the align element 8016 configured to align a first cartridge to a focal axis E, the diverge element 8017 configured to cause a central axis F of one of a second cartridge and a dummy cartridge to diverge from the focal axis E. The align element 8016 may be a first distance from the feed opening 8012 and the diverge element 8017 may be a second distance from the feed opening 8012, the first distance less than the second distance.
It should be noted that, although the feed mechanism 801 is depicted in
Although the preceding discussion has focused on the problem of preventing cartridges from being fed in a nose-down position from a drum magazine, it should be understood that the feed mechanism 801 may also be suited for straight stick type magazines used with tapered cartridges. The feed mechanism 801 may also assist in feeding heavy cartridges or highly unbalanced cartridges, both of which exacerbate problematic friction and/or imbalanced spring forces.
Cartridges and/or systems that tend to feed in a base-down orientation may also benefit from the use of an embodiment of the feed mechanism 801. That is, because a fully-engaged base is desirable, if the base (or cartridge case head) is positioned too low relative to the bolt, the bolt will not strip the cartridge from the magazine. Therefore, a reverse version of the embodiment shown in
The feed mechanism 801 or feed tower 701 may include a first side portion and a second side portion coupled together to define a track therebetween. In the embodiment shown in
Turning now to
The method 2000 may be practiced with one or more of the embodiments described with reference to
Bracing a drum magazine 2002 may include bracing a drum magazine using a user's hand, torso, or other nearby object to maintain the drum magazine in a desired position and orientation.
Opening a lever 2004 may include rotating a lever about a distal point of an advancing mechanism or arm, so as to increase a moment arm to be applied to a spring for advancement. Opening a lever 2004 may also include opening a lever using a hand which is also used for bracing the drum magazine. Opening a lever 2004 may also include causing a lever, operatively coupled to a pawl, to engage a wheel in a manner previously described with reference to
Rotating the arm 2006 may include applying a force on the lever to cause the arm to rotate about a central axis.
Loading at least one cartridge 2008 includes placing at least one cartridge in the magazine while the arm is held in an advanced or rotated state. Loading at least one cartridge 2008 may include loading a plurality of cartridges into a magazine assembly for a weapon, which may be a drum magazine assembly 1 such as that described with reference to
The method 2000 may also include holding the arm in an advanced or rotated state relative to a start position by applying a force to a lever using a hand, the hand being the same hand used for bracing the drum magazine.
Returning the arm 2010 includes allowing a biasing spring force to return the arm to a start position. Closing the lever 2012 includes allowing a biasing force to rotate the lever relative to the arm. Closing the lever 2012 may also include causing a pawl, operatively coupled to the lever, to disengage from a wheel.
The method 2000 may optionally include blocking arm advancement 2014. Blocking arm advancement 2014 may include causing an advancement lock feature to prevent advancement of the arm if the lever is not rotated. Blocking arm advancement 2014 may be achieved using, for example, the advancement lock feature having a groove 1042 and lever lock 1043 previously described in this document with reference to
The method 2000 may also include constraining a cartridge 2009. Constraining a cartridge 2009 includes preventing the bullet tip and/or a majority of the back end of the cartridge from sliding against any portion of the magazine assembly. Constraining a cartridge 2009 may be accomplished using a spiral track 303 configured like the one previously discussed with reference to
Turning now to
Loading a magazine 2102 includes installing a magazine assembly, having a feed mechanism, into a weapon. Loading a magazine 2102 may include installing a magazine assembly into a weapon having a closed bolt. Loading a magazine 2102 may include causing a closed bolt to push a first cartridge from a start position to a displaced position, and against a second cartridge or a leading follower dummy. Loading a magazine 2102 may further include preventing a third cartridge or a second follower dummy from retracting into the magazine assembly while the first cartridge is in the displaced position. Loading a magazine 2102 may also include causing the second cartridge or a leading follower dummy to move against a cartridge guide, thus causing the cartridge guide to retract away from a direct line of travel of cartridges in a feed tower. Loading a magazine 2102 may also include allowing the first cartridge to return from the displaced position to the start position. The feed tower 701, cartridge guide 702, and leading follower dummy 407 may be configured and function like those previously discussed with reference to
Blocking a lever 2104 includes causing the weapon to block the lever at a lever lock on the lever, thereby preventing the lever from being opened. Blocking a lever 2104 may be achieved using, for example, a lever 104 as described with reference to any one of
Firing the weapon 2106 may include allowing loaded cartridges to advance through a magazine and/or a feed mechanism as described with reference to any one of the preceding figures.
The method 2100 may also include engaging a bolt catch 2108. Engaging a bolt catch 2108 includes causing a bolt catch engagement feature, such as a tab 4061 on a leading portion of a follower assembly, to engage a bolt catch on a weapon after a final cartridge is fired, thus simplifying loading of a subsequent loaded magazine. Engaging a bolt catch 2108 may be achieved using components similar to those discussed with reference to
The method 2100 may further include disengaging the magazine 2110 from a weapon, and may be achieved using any means, components, or actions known to those skilled in the art.
Turning now to
The method 2200 may include causing the focal axis to extend distally above or below the central axis. The method 2200 may also include causing a central axis of one of a second dummy cartridge and a third cartridge to substantially converge with the focal axis, and/or mounting the feed mechanism to a firearm magazine and/or into a weapon.
The method 2200 may also include movably mounting at least one of a cartridge gate and a cartridge guide to the feed mechanism and/or causing a spring feeding force on a first end portion of a first cartridge to be greater than a spring feeding force on a second end portion of the first cartridge. In some embodiments, movably mounting may comprise pivotally mounting. In some embodiments, movably mounting may comprise translatably mounting.
Turning now to
Continuing with
Relatedly, if the follower assembly 2340 is selected so as to allow forces from the spring 301 to transfer to a rear portion of the cartridge, the cartridge is more likely to dive or spin about the pitch axis during feeding even without a front portion of the cartridge deforming. Applicants have therefore determined that an angle β of between about 0 degrees and 15 degrees in some embodiments, or between about 0 degrees and about 7 degrees, between about 5 degrees and about 7 degrees, or 7 degrees may be suitable for ensuring enough force is placed on the front portion of the leading cartridge to prevent diving without inadvertently causing the leading cartridge to deform, thereby maximizing the feeding reliability.
Other factors that affect the selection of the angle α include is the limitations of the firearm itself, and the geometry into which the firearm forces the magazine 2300. That is, angling the tower assembly 2300 is, in some embodiments, a solution for correcting divergent geometry, and may be a primary design factor over other design factors such as the number and type of cartridges, friction, deformation of cartridges, etc.
Turning now to
In some embodiments, the retaining clips 60 may be configured to allow for disassembly by a user using a basic tool that is typically expected to be available to a user in the field. The basic tool may in some embodiments be a flathead screwdriver, a knife, or, in some cases, a cartridge tip itself.
In some embodiments, the follower assembly 2340 may be provided with a spindle 2343 (see
Turning now to
In contrast to the feed tower 701 or feed mechanism 801, the feed tower assembly 2370 may exclude a timed cartridge alignment. That is, the feed tower body 2379 may be configured to guide the cartridges in a linear or straight path through the feed tower body 2379, without the jog seen in feed tower 701 or feed mechanism 801. Said another way, the feed tower body 2379 may be configured to maintain the focal axes of cartridges therein substantially in a single plane when the cartridges are between the tower entry 2380 and the tower exit 2381 (see
Continuing with
With specific reference to
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A number of embodiments disclosed herein are listed below. Group I embodiments define an arm, lever, pawl assembly, a system, and a method. Group II embodiments define a follower assembly, a system, and a method. Group III embodiments define a cartridge guide, a system, and a method. Group IV embodiments focus on a timed cartridge alignment. Group V embodiments focus on constraining cartridge tips.
Group I embodiments include the following:
Embodiment 1: a drum magazine assembly for a firearm, the drum magazine assembly comprising: a drum assembly comprising a wheel; a spindle assembly; a feed tower assembly; and an advancing mechanism to advance the wheel such that one or more cartridges of ammunition may be loaded after advancing the wheel, the advancing mechanism comprising an arm, a pawl, and a lever, wherein: the arm is configured to pivot about a first pivot axis to drive the pawl about the first pivot axis, the first pivot axis defined by the spindle assembly; the pawl is configured to pivot about a second pivot axis between a free position and an engage position, the second pivot axis defined by a distal section of the arm; the pawl is further configured to selectively engage the wheel when the pawl is in the engage position; the lever is configured to pivot the pawl about the second pivot axis; the lever is further configured to move relative to the second pivot axis between a closed position and an open position.
Embodiment 2: the drum magazine assembly of embodiment 1, wherein: the lever is configured to bias the pawl towards the free position when the lever is in the closed position; and the lever is configured to bias the pawl towards the engage position when the lever is in the open position.
Embodiment 3: the drum magazine assembly of embodiment 1, wherein: the lever comprises a pawl pin and spring to bias the pawl towards the free position when the lever is in the closed position, and to bias the pawl towards the engage position when the lever is in an open position.
Embodiment 4: the drum magazine assembly of embodiment 1, wherein: the lever comprises an advancement lock to prevent the pawl from engaging the wheel when the lever is in the closed position.
Embodiment 5: the drum magazine assembly of embodiment 4, wherein: the advancement lock comprises configured clearance groove to provide a clearance to selectively allow advancement of the wheel when the lever is in the open position.
Embodiment 6: the drum magazine assembly of embodiment 5, wherein: the lever comprises a lever lock configured to prevent the lever from being moved from the closed position to the open position when the drum magazine assembly is installed in a weapon.
Embodiment 7: the drum magazine assembly of embodiment 1, further comprising: an arm return spring configured to return the arm to a start position after an advancing motion.
Embodiment 8: the drum magazine assembly of embodiment 1, wherein: the advancing mechanism is configured to advance the wheel such that two or more cartridges of ammunition may be loaded after advancing the wheel.
Embodiment 9: an advancing mechanism for a drum magazine assembly, the advancing mechanism comprising an arm, a pawl, and a lever, wherein: the advancing mechanism is configured to advance a wheel of a drum magazine assembly such at least one cartridge of ammunition may be loaded after advancing the wheel; the arm is configured to pivot about a first pivot axis, the first pivot axis defined by a spindle of a drum magazine assembly, the arm further configured to drive the pawl; the pawl is configured to pivot about a second pivot axis between a free position and an engage position, the second pivot axis defined by a distal section of the arm, to selectively engage a wheel of a drum magazine assembly when the pawl is in the engage position; the lever is configured to pivot the pawl about the second pivot axis, the lever further configured to move relative to the second pivot axis between a closed position and an open position.
Embodiment 10: the advancing mechanism of embodiment 9, wherein: the lever biases the pawl towards the free position when the lever is in the closed position; and the lever biases the pawl towards the engage position when the lever is in an open position.
Embodiment 11: the advancing mechanism of embodiment 10, wherein: the lever comprises a pawl pin and spring to bias the pawl towards the free position when the lever is in the closed position, and to bias the pawl towards the engage position when the lever is in an open position.
Embodiment 12: the advancing mechanism of embodiment 9, wherein: the advancing mechanism is configured to advance a wheel of a drum magazine assembly such that two or more cartridges of ammunition may be loaded after advancing the wheel.
Embodiment 13: the advancing mechanism of embodiment 9, wherein: the lever comprises an advancement lock to prevent the lever from driving the wheel when the lever is in the closed position.
Embodiment 14: the advancing mechanism of embodiment 13, wherein: the advancement lock comprises a clearance groove to provide a clearance for allowing the lever to advance when the lever is in the open position.
Embodiment 15: the advancing mechanism of embodiment 9, wherein: the lever comprises a lever lock configured to prevent the lever from being moved from the closed position to the open position when the advancing mechanism is installed in a drum magazine assembly installed in a weapon.
Embodiment 16: the advancing mechanism of embodiment 9, wherein: the advancing mechanism is configured to advance a wheel having teeth arranged about a distal circumference of the wheel.
Embodiment 17: the advancing mechanism of embodiment 16, further comprising: an arm return spring configured to return the arm to a start position after an advancing motion in the drum magazine assembly.
Embodiment 18: a method of loading a drum magazine assembly, comprising: advancing a wheel about a first pivot axis, wherein advancing comprises moving a lever relative to a second pivot axis from a closed position to an open position; causing the lever to pivot a pawl about the second pivot axis and selectively engage the wheel; causing the lever to engage an arm to drive the pawl and wheel about the first pivot axis; retracting a follower assembly; and inserting one or more cartridges of ammunition into the drum magazine assembly.
Embodiment 19: the method of embodiment 18, further comprising: engaging a lever lock to prevent an advancing motion.
Embodiment 20: the method of embodiment 18, further comprising: bracing the drum magazine assembly; wherein advancing and bracing are performed using a single hand.
Group II embodiments include the following:
Embodiment 1: a drum magazine assembly comprising: a follower assembly; a drum body; a spring assembly; and a feed tower assembly; wherein the follower assembly is configured to bias cartridges towards an exit of the feed tower assembly; and the follower assembly comprises a plurality of dummy cartridges, the plurality of dummy cartridges comprising a leading dummy cartridge and a last dummy cartridge, and a plurality of links comprising a leading link and a last link; and wherein the last dummy cartridge is configured to rotate relative to the last link and the leading link, and the leading dummy cartridge comprises a bolt catch engagement feature.
Embodiment 2: the drum magazine assembly of embodiment 1, further comprising: at least one middle dummy cartridge configured to rotate relative to the last link and the leading link.
Embodiment 3: the drum magazine assembly of embodiment 1, wherein: the follower assembly comprises an extended configuration and a retracted configuration; and the drum body, is configured to maintain a focal point of the plurality of dummy cartridges substantially converged at a predetermined focal distance from the follower assembly when the follower assembly is in the extended configuration.
Embodiment 4: the drum magazine assembly of embodiment 1, wherein: the follower assembly comprises an extended configuration and a retracted configuration; and the drum body and the feed tower assembly are configured to maintain a focal point of the plurality of dummy cartridges substantially converged at a predetermined focal distance from the drum body when the follower assembly is in the retracted configuration and the extended configuration.
Embodiment 5: the drum magazine assembly of embodiment 1; wherein an outermost portion of the spring is fixed relative to the drum body; and an innermost portion of the spring is free to rotate relative to the drum body.
Embodiment 6: a follower assembly for a firearm drum magazine, the follower assembly comprising: a plurality of dummy cartridges comprising a leading dummy cartridge and a last dummy cartridge; and a plurality of links comprising a leading link and a last link; wherein the last dummy cartridge is configured to rotate relative to the last link and the leading link.
Embodiment 7: the follower assembly of embodiment 6, further comprising: at least one middle dummy cartridge configured to rotate relative to the last link and the leading link.
Embodiment 8: the follower assembly of embodiment 7, wherein: the middle dummy cartridge and the last dummy cartridge are configured to rotate relative to each other and the leading dummy cartridge.
Embodiment 9: the follower assembly of embodiment 6, wherein: the leading dummy cartridge is configured to not rotate relative to the leading link.
Embodiment 10: the follower assembly of embodiment 6, wherein: the follower assembly comprises an extended configuration and a retracted configuration; and the plurality of links is configured to maintain a focal point of the plurality of dummy cartridges converged at a predetermined focal distance from the follower assembly when the follower assembly is in the extended configuration.
Embodiment 11: the follower assembly of embodiment 10, wherein: the plurality of links is configured to maintain the focal point of the plurality of dummy cartridges substantially converged at the predetermined focal distance from the follower assembly when the follower assembly is in the retracted configuration.
Embodiment 12: the follower assembly of embodiment 6, wherein: the plurality of links is configured to maintain a predetermined separation distance between the first dummy cartridge and the last dummy cartridge.
Embodiment 13: the follower assembly of embodiment 6, wherein: the plurality of links forms a kinematic chain independent of the plurality of dummy cartridges.
Embodiment 14: the follower assembly of embodiment 6, wherein: a portion of the leading dummy cartridge extends through at least a portion of a passage in the leading link.
Embodiment 15: the follower assembly of embodiment 14, further comprising: at least one middle dummy cartridge configured to rotate relative to the last link and the leading link; and wherein: a portion of the middle dummy cartridge extends through at least a portion of a passage in the leading link, and a portion of the middle dummy cartridge extends through at least a portion of a passage in the last link.
Embodiment 16: the follower assembly of embodiment 15, wherein: a portion of the last dummy cartridge extends through at least a portion of a passage in the last link.
Embodiment 17: the follower assembly of embodiment 6, wherein: the follower assembly comprises a spindle configured to drive at least one of the links and not to abut the plurality of dummy cartridges when the follower assembly is in the retracted configuration.
Embodiment 18: the follower assembly of embodiment 6, wherein: the leading dummy cartridge comprises a bolt catch engagement feature.
Embodiment 19: a method of controlling the movement of a cartridge in a drum magazine assembly, the method comprising: causing a follower assembly to bias the cartridge towards an exit in the drum magazine assembly, the follower assembly comprising a plurality of dummy cartridges having a leading dummy cartridge and a last dummy cartridge; moving the follower assembly from a retracted configuration within a drum body of the drum magazine assembly to an extended configuration within a drum body of the drum magazine assembly while allowing the last dummy cartridge to rotate relative to a body of the drum magazine assembly.
Embodiment 20: the method of embodiment 19; further comprising: causing a follower assembly to bias the cartridge towards an exit in the drum magazine assembly, the follower assembly comprising at least one middle dummy cartridge; and moving the follower assembly from the retracted configuration to the extended configuration while allowing the middle dummy cartridge to rotate relative to the body of the drum magazine assembly.
Embodiment 21: the method of embodiment 19; further comprising: maintaining a focal point of the plurality of dummy cartridges substantially converged at a predetermined focal distance from the drum magazine assembly when the follower assembly is moved between the retracted configuration and the extended configuration.
Embodiment 22: the method of embodiment 19; further comprising: expending a cartridge from the drum magazine assembly; and engaging a bolt catch.
Embodiment 23: the method of embodiment 19; further comprising: forming a kinematic chain independent of the plurality of dummy cartridges, and transferring a spring force from a spring to a loaded cartridge through the kinematic chain.
Embodiment 24: the method of embodiment 20; further comprising: forming a kinematic chain independent of the middle dummy cartridge and the last dummy cartridge, and transferring a spring force from a spring to a bolt catch engagement feature through the kinematic chain.
The method of embodiment 19; further comprising: causing a follower assembly to bias the loaded cartridge towards an exit in the drum magazine assembly, the follower assembly comprising at least one middle dummy cartridge coupled to the leading dummy cartridge by a link; and moving the follower assembly from the retracted configuration to the extended configuration while allowing the middle dummy cartridge to rotate relative to the link.
Group III embodiments include the following:
Embodiment 1: a feed mechanism for a firearm magazine, comprising: a feed housing having a track configured to constrain a cartridge in a first travel path as the cartridge is moved through the feed housing, an exit through which a cartridge may be chambered in a firearm; wherein the feed mechanism is configured to constrain the focal point of a cartridge approximately converged at a first point a predetermined distance from the feed tower assembly as the cartridge is moved along the first travel path.
Embodiment 2: the feed mechanism of embodiment 1; comprising: a guide, the guide having a wall position and a retracted position relative to the feed tower; wherein the guide is configured to guide cartridges as they move along the track towards the exit when the guide is in the wall position; the guide is further configured to move into the retracted position when a retract force is applied to the guide, the retracted position providing a track recess.
Embodiment 3: the feed mechanism of embodiment 2, wherein: the guide is biased towards the wall position.
Embodiment 4: the feed mechanism of embodiment 2, wherein: the guide is configured to move to the retracted position when a first cartridge is forcibly moved from a chamber-ready position into the feed tower assembly, and to seat one of a second cartridge and a dummy cartridge, until the first cartridge is returned to the chamber-ready position.
Embodiment 5: the feed mechanism of embodiment 2, wherein: the guide is biased towards the wall position.
Embodiment 6: the feed mechanism of embodiment 2, wherein: the guide comprises a bend configured to bias a cartridge towards a feed lip in the feed tower as the cartridge travels through the track towards the exit.
Embodiment 7: the feed mechanism of embodiment 1, further comprising: a gate, the gate having a rest position and a load position, the gate configured to prevent a cartridge from unintentionally escaping the exit of the feed tower when the gate is in the rest position, the gate further configured to move into the load position when a load force is applied.
Embodiment 8: the feed mechanism of embodiment 7, wherein the gate is configured to move into the load position when a cartridge is being inserted into the feed tower through the exit.
Embodiment 9: the feed mechanism of embodiment 7, wherein the gate is further configured to engage a firearm when the feed mechanism is installed in a firearm, and to maintain the rest position until the feed mechanism is removed from the firearm.
Embodiment 10: the feed mechanism of embodiment 9, wherein the gate comprises a gate lock to engage a firearm when the feed mechanism is installed in a firearm.
Embodiment 11: the feed mechanism of embodiment 7, wherein: the gate is biased towards the rest position.
Embodiment 12: the feed mechanism of embodiment 1, further comprising: a gate-guide mount for at least one of a gate and a guide.
Embodiment 13: the feed mechanism of embodiment 1, wherein: the track is configured to constrain a second cartridge in a second travel path as the second cartridge is moved through the feed mechanism; and the feed mechanism is configured to cause the focal point of the second cartridge to diverge from the focal point of a first cartridge as the second cartridge is moved along the second travel path.
Embodiment 14: the feed mechanism of embodiment 1, further comprising: engagement ribs for interfacing with a drum body of a drum magazine and one of a front cover and a rear cover of the drum magazine; wherein the engagement ribs do not interface with the other of a front cover and a rear cover of the drum magazine.
Embodiment 15: a firearm magazine assembly comprising: a feed tower assembly, the feed tower assembly comprising a feed tower having a track configured to constrain a cartridge in a first travel path as the cartridge is moved through the feed tower, an exit through which a cartridge may be chambered in a firearm, and a mounting portion; and a body assembly having a track configured to constrain a cartridge in a second travel path as the cartridge is moved through the body assembly; wherein the body assembly is configured to constrain the focal point of a cartridge substantially at a single point as the cartridge is moved along the second travel path; and the track in the feed tower is configured to constrain a focal axis of the cartridge in a single plane as the cartridge is moved along the first travel path.
Embodiment 16: the firearm magazine assembly of embodiment 15, wherein: the feed tower is configured to cause the focal point of a cartridge to diverge from the plane as the cartridge is moved along a third travel path within the feed tower.
Embodiment 17: a method of using a feed mechanism for a firearm magazine, the method comprising: installing a feed mechanism having a first cartridge in a chamber-ready position into a firearm having a closed bolt; and seating one of a second cartridge and a dummy cartridge.
Embodiment 18: the method of embodiment 17, further comprising: retracting the bolt; returning the first cartridge to the chamber-ready position; and returning the one of the second cartridge and the dummy cartridge to the track.
Embodiment 19: the method of embodiment 17; comprising: using a gate to prevent a loaded cartridge from unintentionally escaping the exit of the feed mechanism; and applying a load force to the gate, to move the gate from a feed position into a load position.
Embodiment 20: the method of embodiment 17; comprising: applying a spring force on a cartridge as the cartridge is moved into a chamber-ready position, wherein the spring force on the frontward portion of the cartridge is equal to or greater than the spring force on the rearward portion of the cartridge.
Embodiment 21: the method of embodiment 17; comprising: causing the feed mechanism to lockingly engage a drum body of a drum magazine; causing the feed mechanism to lockingly engage one of a front cover and a rear cover of the drum magazine; and preventing the feed mechanism from lockingly engaging with the other of a front cover and a rear cover of the drum magazine.
Group IV Embodiments include the following:
Embodiment 1: a feed mechanism for a firearm, the feed mechanism comprising: a feed opening; a track configured to guide one or more cartridges along a travel path towards the feed opening, the track comprising a timed cartridge alignment element to cause a first of the one or more cartridges to define a focal axis, and to position one of a first dummy cartridge and another of the one or more cartridges such that a central axis of the one of a first dummy cartridge and another of the one or more cartridges does not converge with the focal axis and is not parallel to the focal axis.
Embodiment 2: the feed mechanism of embodiment 1, wherein: the timed cartridge alignment element is configured to cause the focal axis to extend distally above the central axis.
Embodiment 3: the feed mechanism of embodiment 1, wherein: the timed cartridge alignment element is configured to cause the focal axis to extend distally below the central axis.
Embodiment 4: the feed mechanism of embodiment 1, wherein: the timed cartridge alignment element is configured to cause a central axis of one of a second dummy cartridge and a third cartridge to converge with the focal axis.
Embodiment 5: the feed mechanism of embodiment 4, wherein: the track comprises a concave curve configured to cause a central axis of one of a second dummy cartridge and a third cartridge to converge with the focal axis.
Embodiment 6: the feed mechanism of embodiment 1, wherein: the timed cartridge alignment element comprises an align element and a diverge element, the align element configured to align a first cartridge to a focal axis, the diverge element configured to cause a central axis of one of a second cartridge and a dummy cartridge to diverge from the focal axis.
Embodiment 7: the feed mechanism of embodiment 6, wherein: the align element is a first distance from the feed opening and the diverge element is a second distance from the feed opening, the first distance less than the second distance.
Embodiment 8: the feed mechanism of embodiment 7, further comprising: a first side portion; and a second side portion; wherein the first side portion comprises the align element and the second side portion comprises the diverge element.
Embodiment 9: the feed mechanism of embodiment 8; wherein: the first side portion and the second side portion are coupled together to define the track therebetween.
Embodiment 10: the feed mechanism of embodiment 1, wherein the end portion comprises a mounting portion configured for mounting the feed mechanism to a firearm magazine.
Embodiment 11: the feed mechanism of embodiment 1, wherein the feed mechanism is a stick type magazine.
Embodiment 12: the feed mechanism of embodiment 11, wherein the feed mechanism is configured to house cartridges having a caliber of 7 millimeters or greater.
Embodiment 13: the feed mechanism of embodiment 1, further comprising: a mount for movably mounting at least one of a cartridge gate and a cartridge guide.
Embodiment 14: the feed mechanism of embodiment 13, wherein: the track comprises a recess, the recess configured to be selectively blocked by a cartridge guide.
Embodiment 15: a method of using a feed mechanism for a firearm, the method comprising: guiding one or more cartridges along a travel path between an end portion and a feed opening of the feed mechanism; causing a first of the one or more cartridges to define a focal axis; positioning one of a first dummy cartridge and another of the one or more cartridges such that a central axis of the one of a first dummy cartridge and another of the one or more cartridges does not converge with the focal axis and is not parallel to the focal axis.
Embodiment 16: the method of embodiment 15, further comprising: causing the focal axis to extend distally above the central axis.
Embodiment 17: the method of embodiment 15, further comprising: causing the focal axis to extend distally below the central axis.
Embodiment 18: The method of embodiment 15, further comprising: causing a central axis of one of a second dummy cartridge and a third cartridge to substantially converge with the focal axis.
Embodiment 19: the method of embodiment 15, further comprising: mounting the feed mechanism to a drum magazine.
Embodiment 20: the method of embodiment 15, further comprising: movably mounting at least one of a cartridge gate and a cartridge guide to the feed mechanism.
Group V embodiments include the following:
Embodiment 1: a magazine assembly for a firearm, comprising: a magazine housing defining a track; and a follower assembly; wherein the magazine housing is configured to constrain a cartridge as the cartridge is moved within the magazine assembly such that majority of a proximal surface area of the cartridge does not contact the magazine housing, and a distal tip of the cartridge does not contact the magazine housing.
Embodiment 2: the magazine assembly of embodiment 1, wherein: the magazine is a drum magazine; and the magazine housing comprises a drum body and a rear cover.
Embodiment 3: the magazine assembly of embodiment 2, wherein: the drum body and the rear cover are coupled together to define a track therebetween, and to constrain a cartridge therebetween.
Embodiment 4: the magazine assembly of embodiment 1, further comprising: a track ridge for abutting a proximal surface of a loaded cartridge.
Embodiment 5: the magazine assembly of embodiment 4, wherein: the track ridge is configured to abut a minority of a proximal surface area of the loaded cartridge.
Embodiment 6: the magazine assembly of embodiment 1, wherein: the magazine housing comprises a proximal abutting side for constraining a focal point of the cartridge.
Embodiment 7: the magazine assembly of embodiment 1, wherein: the magazine housing comprises a distal abutment to abut a case of a loaded cartridge.
Embodiment 8: the magazine assembly of embodiment 7, wherein: the distal abutment is configured to prevent a tip of the cartridge from striking the magazine housing.
Embodiment 9: the magazine assembly of embodiment 8, wherein: the distal abutment is configured to constrain a focal point of the cartridge.
Embodiment 10: the magazine assembly of embodiment 1, further comprising: a viewing window.
Embodiment 11: the magazine assembly of embodiment 10, further comprising: at least one of a transparent cover over the viewing window and a semi-transparent cover over the viewing window.
Embodiment 12: the magazine assembly of embodiment 1, wherein: at least a portion of the magazine housing comprises at least one of a transparent material and a semi-transparent material.
Embodiment 13: the magazine assembly of embodiment 1, further comprising: a spiral track, the spiral track winding about a central axis at a discontinuously increasing rate.
Embodiment 14: the magazine assembly of embodiment 1, further comprising: a spiral track, the spiral track winding about a central axis at a continuously increasing rate.
Embodiment 15: the magazine assembly of embodiment 1, further comprising: a spiral track; wherein the spiral track has portions winding about a central axis at a discontinuously increasing rate; and the spiral track has portions winding about the central axis at a constant radius.
Embodiment 16: a method of constraining a cartridge in a magazine assembly for a firearm, comprising: constraining the cartridge such that: a majority of a proximal surface area of the cartridge does not contact a magazine housing; and a distal tip of the cartridge does not contact the magazine housing.
Embodiment 17: the method of embodiment 16, further comprising: constraining the cartridge in a magazine having a housing defining a track.
Embodiment 18: the method of embodiment 16, further comprising: causing a track ridge to abut a proximal surface of the cartridge.
Embodiment 19: the magazine method of embodiment 18, further comprising: supporting a minority of a proximal surface area of the cartridge.
Embodiment 20: the method of embodiment 18, further comprising: constraining a focal point of the cartridge by abutting a case of the cartridge.
Embodiment 21: the method of embodiment 16, further comprising: abutting a distal portion of a case of the cartridge.
Each of the various elements disclosed herein may be achieved in a variety of manners. This disclosure should be understood to encompass each such variation, be it a variation of an embodiment of any apparatus embodiment, a method or process embodiment, or even merely a variation of any element of these. Particularly, it should be understood that the words for each element may be expressed by equivalent apparatus terms or method terms—even if only the function or result is the same. Such equivalent, broader, or even more generic terms should be considered to be encompassed in the description of each element or action. Such terms can be substituted where desired to make explicit the implicitly broad coverage to which this invention is entitled.
As but one example, it should be understood that all action may be expressed as a means for taking that action or as an element which causes that action. Similarly, each physical element disclosed should be understood to encompass a disclosure of the action which that physical element facilitates. Regarding this last aspect, the disclosure of a “lock mechanism” should be understood to encompass disclosure of the act of “locking”—whether explicitly discussed or not—and, conversely, were there only disclosure of the act of “locking”, such a disclosure should be understood to encompass disclosure of a “lock mechanism”. Such changes and alternative terms are to be understood to be explicitly included in the description.
In conclusion, the present disclosure illustrates, among other things, a system and method for using a drum magazine assembly. Those skilled in the art can readily recognize that numerous variations and substitutions may be made in any embodiment, its use and its configuration to achieve substantially the same results as achieved by the embodiments described herein. Many variations, modifications and alternative constructions fall within the scope and spirit of the claims, which define the invention.
This application is a continuation of U.S. patent application Ser. No. 17/369,608 filed Jul. 7, 2021 and entitled “DRUM MAGAZINE ASSEMBLY AND METHODS,” pending, which is a continuation of U.S. patent application Ser. No. 16/811,835 filed Mar. 6, 2020 and entitled “DRUM MAGAZINE ASSEMBLY AND METHODS,” and issued as U.S. Pat. No. 11,085,718 on Aug. 10, 2021, which is a continuation of U.S. patent application Ser. No. 16/200,978 filed Nov. 27, 2018 and entitled “DRUM MAGAZINE ASSEMBLY AND METHODS” and issued as U.S. Pat. No. 10,677,550 on Jun. 9, 2020, which is a continuation of U.S. patent application Ser. No. 15/354,492 filed Nov. 17, 2016 entitled “DRUM MAGAZINE ASSEMBLY AND METHODS” and issued as U.S. Pat. No. 10,184,741 on Jan. 22, 2019, which is a continuation of U.S. patent application Ser. No. 14/882,151 filed Oct. 13, 2015 entitled “DRUM MAGAZINE ASSEMBLY AND METHODS” and issued as U.S. Pat. No. 9,528,784 on Dec. 27, 2016, which claims priority to U.S. Provisional Application No. 62/063,546 filed Oct. 14, 2014 and entitled “DRUM MAGAZINE ASSEMBLY AND METHODS,” the entire disclosures of which are hereby incorporated by reference for all proper purposes.
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20230304758 A1 | Sep 2023 | US |
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62063546 | Oct 2014 | US |
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Parent | 17369608 | Jul 2021 | US |
Child | 18143585 | US | |
Parent | 16811835 | Mar 2020 | US |
Child | 17369608 | US | |
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Child | 16811835 | US | |
Parent | 14882151 | Oct 2015 | US |
Child | 15354492 | US |
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Parent | 15354492 | Nov 2016 | US |
Child | 16200978 | US |