The present invention relates to removable ammunition magazines for handguns. More particularly, it relates to a magazine that provides increased capacity over a single stack magazine of similar tube length without increasing its external width and compensating for fore/aft size reduction.
Semiautomatic handguns typically use removable ammunition magazines that are insertable into a magazine well formed in the grip of the handgun. These are typically known as “box” magazines and have a tubular body that is substantially rectangular in cross section. A row of ammunition cartridges is aligned within the body and is pushed upwardly by a follower that is biased by a compression spring. The bottom end of the body is closed by a removeable floor plate that retains the spring and provides an end against which the spring bears. At the top end of the body, known as the mouth, an ammunition cartridge is presented and held in position by feed lips. As the slide or bolt face cycles forward, this presented cartridge is stripped from the feed lips and guided into the chamber of the barrel.
The size and shape of these removable handgun magazines vary depending on the model of the handgun, caliber of the ammunition, and number of ammunition cartridges to be held. Some handguns require a specialized magazine that is specific to the handgun's make or model. In other examples, such as the M19111A1, standards have been adopted for a non-proprietary handgun pattern such that ammunition magazines will generally fit and operate in any handgun of that pattern, regardless of the manufacturer.
Some handgun magazines hold rimless cartridges substantially parallel to one another in a single row. These are known as “single stack” magazines. Other magazine designs hold cartridges substantially parallel to each other in an alternating double column. These are known as “double stack” magazines. A double stack magazine will hold more rounds than a single stack magazine of the same length, but is significantly wider. A wider, double stack magazine requires the handgun to have a wider grip, which may be more difficult for a smaller hand to hold and may make the grip of the handgun less concealable under clothing.
The follower in a single stack magazine will typically have a flat top surface that bears against an ammunition cartridge and will be retained by the feed lips when the cartridges have been depleted. A double stack magazine follower is laterally asymmetrical to induce the staggered position of rounds as they are loaded into the magazine. A single round will be centered by the feed lips, even though the force applied by the follower may be off-center because of its laterally asymmetric shape.
The body of most detachable box magazines is made from either metal (such as steel or aluminum), a molded polymer plastic material, or a combination of these materials. Original equipment manufacturer (OEM) magazines made by Glock® for its handguns have a body made from a combination of materials and may be described as either polymer with a full or partial metal liner, or as a metal body with a polymer jacket. This combination of materials has advantageous qualities, but it results in a relatively thick magazine wall. Some aftermarket magazines for Glock® handguns are all or mostly polymer. Magazines for most Glock® handgun models are of the double stack variety. However, Glock® has designed and sold at least one model (e.g., Glock® models 43, 43X, and/or 48) in which the magazine holds cartridges in only a single row (single stack) or in only slightly staggered rows in order to keep the overall thickness of the handgun to a minimum. However, because it does not accept a double stack magazine, the ammunition capacity of these models' single stack magazines is less than that of a double stack magazine of similar length. In the case of the Glock® 43, its OEM “flush fit” magazine has a capacity of 6 rounds, whereas in the case of the Glock® 43X and 48, their OEM “flush fit” magazines have a capacity of 10 rounds.
If a steel magazine is made to fit in the cross-sectional space designed for a polymer magazine (or in the case of Glock® OEM magazines, polymer over steel), the increase in interior side-to-side width can allow increased capacity by going from a single stack to a double stack. However, it leaves too much interior room in the front to back (fore/aft) direction. This increased interior front-to-back space is a problem because the rounds can ride too far forward and make contact with the slide stop. Others have filled such extra space with a shim, attached to either the interior or exterior of the forward wall of the magazine tube. However, this approach requires an additional manual step in the manufacturing process, adding cost and weight.
If a steel magazine is used in a Glock® handgun, the Glock® OEM polymer magazine catch can wear down over time creating reliability issues. This is because the steel of the magazine is much harder than the polymer of the magazine catch. One prior solution to this problem is to substitute an after-market metallic (aluminum, steel, or MIM) magazine catch for the Glock® OEM polymer magazine catch. The drawback to this solution is the necessity of purchasing and installing a metallic after-market magazine catch. It is desirable to use steel magazines in Glock® handguns, without the necessity of purchasing and installing an after-market metallic magazine catch, and without the steel magazine wearing the Glock® OEM polymer magazine catch.
In one aspect, an increased capacity replacement firearm ammunition magazine for a polymer or polymer-over-metal single stack firearm ammunition magazine for a Glock® handgun, comprises a metallic body dimensioned to compatibly replace the single stack magazine for the Glock® handgun, the single stack magazine having a body having exterior dimensions defined by polymer or polymer-over-metal forward, aft, and side walls, the metallic body having exterior dimensions defined by metallic forward, aft, and side walls, an exterior width dimension of the metallic side walls compatibly matching an exterior width dimension of the side walls of the single stack magazine body, the metallic walls being thinner than the walls of the single stack magazine, the thinner metallic walls allowing an at least partially laterally offset arrangement of cartridges in the metallic body, the forward wall of the metallic body including at least one spacer extending along the forward wall, the spacer sized such that a forward-to-aft exterior dimension of the metallic body compatibly matches a forward-to-aft exterior dimension of the single stack magazine body, a length dimension of the metallic body compatibly matches a length dimension of the single stack magazine body, a cut-out in the metallic body adapted to receive a firearm magazine catch therein, the cut-out including an upper edge, and polymer over at least the upper edge of the cut-out.
The Glock® handgun can be a Glock® 43X handgun, the single stack magazine can have an ammunition capacity of ten 9×19 mm cartridges, and the replacement magazine can have an ammunition capacity of fifteen 9×19 mm cartridges.
The spacer can be integrally formed as a part of the forward wall of the metallic body, or the spacer can be integrally formed as a part of the polymer.
The polymer can be overmolded over the upper edge of the cut-out. The metallic body can include at least one through hole above the upper edge of the cut-out, whereby when the polymer is overmolded the polymer flows through the through hole to secure the polymer to inner and outer surfaces of the metallic body and to the upper edge of the cut-out. The metallic body can include left and right cut-outs and polymer overmolded over at least the upper edge of each cut-out, whereby the magazine can function with a firearm having a magazine catch reversible for left-handed or right-handed actuation. The metallic body can include at least one through hole above the upper edge of each cut-out, whereby when the polymer is overmolded the polymer flows through the through holes to secure the polymer to inner and outer surfaces of the metallic body and to the upper edges of the cut-outs. The polymer can extend from the left cut-out, around the forward wall of the metallic body, and to the right cut-out. The spacer can include a recess therein to accommodate the polymer extending around the forward wall of the metallic body.
The polymer can be formed as a resilient clip which snaps into the cut-out and over the upper edge of the cut-out. The metallic body can include left and right cut-outs, and the polymer clip can extend from the left cut-out, around a forward wall of the metallic body, and to the right cut-out, and snap into each cut-out and over the upper edge of each cut-out, whereby the magazine can function with a firearm having a magazine catch reversible for left-handed or right-handed actuation. The spacer can include a recess therein to accommodate the polymer clip extending around the forward wall of the metallic body.
The clip can comprise a front portion and left and right side portions, the front portion including a generally vertical living hinge, each left and right side portion including three resilient and vertically spaced fingers which fit into respective ones of the left and right cut-outs, middle ones of the fingers each including a lip that resiliently snaps around a forward vertical edge of its respective cut out, at least the right portion including an L-shaped structure projecting upwardly from an upper one of the fingers, the L-shaped structure including a generally vertical leg portion and a generally horizontal foot portion and a generally triangular gusset interconnecting the leg and foot portions, and the right cut-out including an upwardly extending notch to accommodate the gusset, whereby when installed the foot portion covers the upper edge of the cut-out and the leg portion overlies an inner surface of the body above the upper edge of the cut-out.
In another aspect, an increased capacity replacement firearm ammunition magazine for a polymer-over-metal single stack firearm ammunition magazine for a Glock® handgun, comprises a metallic tubular body having a forward wall, a rearward wall, a first side wall, and a second opposite side wall, the metallic tubular body walls having a wall thickness and the metallic tubular body having a length, the single stack magazine for the Glock® handgun having a polymer-over-metal tubular body having a forward wall, a rearward wall, a first side wall, and a second opposite side wall, the single stack magazine tubular body walls having a wall thickness and the single stack magazine tubular body having a length, the wall thickness of the metallic tubular body walls being less than the wall thickness of the tubular body walls of the single stack magazine, the length of the metallic tubular body being substantially the same as the length of the single stack magazine tubular body, the forward wall of the metallic tubular body having at least one spacer projecting forwardly therefrom, the metallic tubular body having an internal fore-to-aft dimension spanning between interior surfaces of the forward and rearward walls, an external fore-to-aft dimension spanning between a forward edge of the at least one spacer and an exterior surface of the rearward wall, an internal side-to-side dimension spanning between interior surfaces of the side walls, and an external side-to-side dimension spanning between exterior surfaces of the side walls, the internal fore-to-aft dimension compatibly matching that of the single stack magazine tubular body, the external fore-to-aft dimension compatibly matching that of the single stack magazine tubular body, the external side-to-side dimension compatibly matching that of the single stack magazine tubular body, and the internal side-to-side dimension being greater than that of the single stack magazine tubular body, the metallic tubular body thereby providing an increase in ammunition capacity over and above that of the single stack magazine tubular body of the same external dimensions and length, a cut-out in the metallic tubular body adapted to receive a firearm magazine catch therein, the cut-out including an upper edge, and polymer over at least the upper edge of the cut-out.
In another aspect, the replacement magazine is a replacement for single stack polymer or polymer-over-metal magazines other than those manufactured by Glock®.
In another aspect, an increased capacity replacement firearm ammunition magazine for a polymer-over-metal single stack firearm ammunition magazine, for a Glock® handgun or another manufacturer's handgun, comprises a metallic tubular body having a forward wall, a rearward wall, a first side wall, and a second opposite side wall, the metallic tubular body walls having a wall thickness and the metallic tubular body having a length, the single stack magazine having a polymer-over-metal tubular body having a forward wall, a rearward wall, a first side wall, and a second opposite side wall, the single stack magazine tubular body walls having a wall thickness and the single stack magazine tubular body having a length, the wall thickness of the metallic tubular body walls being less than the wall thickness of the tubular body walls of the single stack magazine, the length of the metallic tubular body being substantially the same as the length of the single stack magazine tubular body, the forward wall of the metallic tubular body having at least one spacer projecting forwardly therefrom, the metallic tubular body having an internal fore-to-aft dimension spanning between interior surfaces of the forward and rearward walls, an external fore-to-aft dimension spanning between a forward edge of the at least one spacer and an exterior surface of the rearward wall, an internal side-to-side dimension spanning between interior surfaces of the side walls, and an external side-to-side dimension spanning between exterior surfaces of the side walls, the internal fore-to-aft dimension compatibly matching that of the single stack magazine tubular body, the external fore-to-aft dimension compatibly matching that of the single stack magazine tubular body, the external side-to-side dimension compatibly matching that of the single stack magazine tubular body, and the internal side-to-side dimension being greater than that of the single stack magazine tubular body, the metallic tubular body thereby providing an increase in ammunition capacity over and above that of the single stack magazine tubular body of the same external dimensions and length, and polymer over at least a portion of the metallic tubular body and forming an edge adapted to be engaged by a magazine catch.
The polymer can form the spacer at least in part.
The single stack magazine can have an ammunition capacity of ten 9×19 mm cartridges, and the replacement magazine can have an ammunition capacity of fifteen 9×19 mm cartridges.
Other aspects, features, benefits, and advantages of the present invention will become apparent to a person of skill in the art from the detailed description of various embodiments with reference to the accompanying drawing figures, all of which comprise part of the disclosure.
Like reference numerals are used to indicate like parts throughout the various drawing figures, wherein:
With reference to the drawing figures, this section describes particular embodiments and their detailed construction and operation. Throughout the specification, reference to “one embodiment,” “an embodiment,” or “some embodiments” means that a particular described feature, structure, or characteristic may be included in at least one embodiment. Thus, appearances of the phrases “in one embodiment,” “in an embodiment,” or “in some embodiments” in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the described features, structures, and characteristics may be combined in any suitable manner in one or more embodiments. In view of the disclosure herein, those skilled in the art will recognize that the various embodiments can be practiced without one or more of the specific details or with other methods, components, materials, or the like. In some instances, well-known structures, materials, or operations are not shown or not described in detail to avoid obscuring aspects of the embodiments. “Forward” indicates the direction of the muzzle and the direction in which projectiles are fired, while “rearward” indicates the opposite direction. “Lateral” or “transverse” indicates a side-to-side direction generally perpendicular to the axis of the barrel. Although firearms may be used in any orientation, “left” and “right” will generally indicate the sides according to the user's orientation, “top” or “up” will be the upward direction when the firearm is gripped in the ordinary manner.
Referring first to
The illustrated embodiment is intended to replace a single stack or only slightly offset or slightly staggered type magazine having thicker walls made of polymer or polymer-over-metal, but with corresponding exterior dimensions so that it may be substituted and function otherwise identically in the same firearm. The illustrated magazine 10 is dimensioned for a Glock® 43X (or 48) handgun, which holds 9×19 mm cartridges (also known as 9 mm Parabellum or 9 mm Luger) and replaces a ten-round polymer-over-metal magazine with one that holds fifteen rounds in the same overall space. The present invention may be adapted to provide increased ammunition capacity replacing a single stack or slightly staggered row polymer or polymer-over-metal magazine for most any caliber or model. In other words, the replacement magazine of the present invention can be a replacement for a single stack polymer or polymer-over-metal magazine other than those manufactured by Glock®.
Referring now also to
In a single stack magazine, the follower has a flat, generally laterally symmetric surface that bears against the cartridge. As shown in
As shown in
Referring now also to
The magazine 10 of the present invention provides increased capacity with a width dimension identical to that of the prior art single stack (or slightly staggered) magazine by utilizing thinner metallic walls that correspond to the exterior dimension of the lower-capacity magazine it replaces and staggering or offsetting all of the cartridges 18 below the upper most round without utilizing a narrowed neck region. The reduction in wall thickness provides the increased interior width needed to accommodate the increased capacity of cartridges, but it creates a problem of too much space in the forward/aft direction. If the cartridges are allowed to shift forward in the magazine tube/body, they will not be positioned to correctly or reliably feed from the lips. If the forward wall is set in to correctly guide the position of the cartridges, then the magazine will fit too loosely in the magazine well of the firearm.
As best seen in
Referring now to
If desired, left and right cut-outs 26 with polymer overmolding/throughmolding at least the upper edge 50 of each cut-out 26 can be provided. In this way the magazine 10 can function with a firearm having a magazine catch that is reversible for left-handed or right-handed actuation. For example, the polymer 56 can extend from the left cut-out 26, around the forward wall 30 of the body 12, to the right cut-out 26. To accommodate the polymer 56 as it extends around the forward wall 30, a recess or relief 58 can be provided in the longitudinal rib or ridge 32 such that the outermost surface of the polymer 56 is essentially flush with the outermost surface of the rib 32. Alternatively, the longitudinal rib or ridge could be formed of polymer material integral with the polymer material that provides the covering for the at least upper edge of the cut-outs 26, thus providing an alternative spacer.
Due to the locations of the cut-outs 26 in the body 12 (essentially at the forward corners), the polymer 52 or 56 can be secured to an inner surface of body 12 and “wrapped around” the upper edge 50 of cut-out 26 with no deleterious effect on the increased capacity of the magazine of the present invention. This for the reason that the location at which the polymer 52 or 56 extends inward from the inner surface of body 12 is at a point where it does not interfere with, or otherwise contact, the cartridges.
Referring now to
More particularly, polymer clip 70 includes a front portion 72 and left and right side portions 74. Front portion 72 can include a generally vertical living hinge 76 to assist the front portion 72 and side portions 74 in wrapping from the left cut-out 26, around the forward wall 30 of the body 12, to the right cut-out 26. To accommodate the polymer 56 as it extends around the forward wall 30, a recess or relief 58 can be provided in the longitudinal rib or ridge 32 such that the outermost surface of the polymer 56 is essentially flush with the outermost surface of the rib 32. Alternatively, the longitudinal rib or ridge could be formed of polymer material integral with the polymer material that provides the covering for the at least upper edge of the cut-outs 26, thus providing an alternative spacer.
Each side portion includes three resilient and vertically spaced fingers 80, 82, 84 which fit into the forward portion of the cut-outs 26. Each middle finger 82 includes a lip or flange 88 that resiliently snaps around the forward vertical edge of its respective cut-out 26 to retain the clip 70 in place. At least the right portion 74 includes an L-shaped structure 90 projecting upwardly from the upper finger 84. In the case of a firearm having a magazine catch that is reversible for left-handed or right-handed actuation, the clip 70 would include the L-shaped structure 90 on the left and right portions 74 of the clip 70.
The L-shaped structure 90 includes a generally vertically leg portion 92 and a generally horizontal foot portion 94. A generally triangular gusset 96 interconnects the leg and foot portions 92, 94. Cut-out 26 includes an upwardly extending notch 100 to accommodate gusset 96. When installed, the foot portion 92 covers the upper edge 50 of cut-out 26 in the body 12, and the leg portion 94 overlies an inner surface of the body 12 above the upper edge 50 of the cut-out 26.
While one or more embodiments of the present invention have been described in detail, it should be apparent that modifications and variations thereto are possible, all of which fall within the true spirit and scope of the invention. Therefore, the foregoing is intended only to be illustrative of the principles of the invention. Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not intended to limit the invention to the exact construction and operation shown and described. The invention resides in each individual feature described herein, alone, and in any and all combinations and subcombinations of any and all of those features. Accordingly, all suitable modifications and equivalents may be included and considered to fall within the scope of the invention, defined by the following claim or claims.
This application claims the priority benefit of U.S. Provisional Patent Application No. 63/368,118 filed Jul. 11, 2022, and is a continuation-in-part of U.S. Nonprovisional patent application Ser. No. 17/084,057 filed Oct. 29, 2020, which claims the priority benefit of U.S. Provisional Patent Application No. 62/927,158 filed Oct. 29, 2019, all of which are hereby incorporated by reference herein as if fully set forth in their entirety.
Number | Date | Country | |
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63368118 | Jul 2022 | US | |
62927158 | Oct 2019 | US |
Number | Date | Country | |
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Parent | 17084057 | Oct 2020 | US |
Child | 18349642 | US |