The following disclosure relates to firearm magazines and, more particularly, to firearm magazine extenders including laterally-interlocking enclosure pieces, which are capable of securely attaching to a wide range of firearm magazines.
The round-carrying capacity of certain firearm magazines can be expanded through user installation of a passive retrofit device commonly referred to as a “magazine extender.” Often, such magazine extenders attach to a firearm magazine by engaging lower tabs or flanges, which project laterally outwardly from opposing bottom peripheral edges of the magazine. Several types of magazine extenders have been developed and are presently commercially available. The design and construction of existing magazine extenders vary depending upon firearm magazine compatibility and other factors. Regardless of its particular design, a magazine extender is ideally capable of remaining securely attached to a firearm magazine until subsequent removal by a user. It is generally critical that inadvertent detachment of the magazine extender is avoided in adverse conditions including when, for example, significant shock (mechanical impact) forces are imparted to the magazine extender during firearm training or real-world usage scenarios. Concurrently, it is desirable for a given firearm magazine extender to possess a relatively straightforward, low part count design facilitating user installation on a chosen firearm magazine.
At least one example of the present invention will hereinafter be described in conjunction with the following figures, wherein like numerals denote like elements, and:
For simplicity and clarity of illustration, descriptions and details of well-known features and techniques may be omitted to avoid unnecessarily obscuring the example and non-limiting embodiments of the invention described in the subsequent Detailed Description. It should further be understood that features or elements appearing in the accompanying figures are not necessarily drawn to scale unless otherwise stated.
The following Detailed Description is merely example in nature and is not intended to limit the invention or the application and uses of the invention. Furthermore, there is no intention to be bound by any theory presented in the preceding Background or the following Detailed Description.
As appearing herein, the term “magazine flange” or, more simply, “flange” broadly encompasses any projection or protruding feature extending from a sidewall or other surface of a firearm magazine, regardless of the particular shape or geometry of the projection or flange. Similarly, the term “retention slot” refers to any groove, depression, cavity, or other opening in which a magazine flange is received to retain or help retain a magazine extender in an installed position on a firearm magazine. As described below, such retention slots may be formed in laterally-flexible sidewalls of an enclosure piece. The descriptor “laterally flexible,” as appearing in the term “laterally-flexible sidewalls” denotes only that each sidewall is not infinitely stiff, but rather is capable of deflecting in at least one lateral direction (e.g., when the magazine extender is subject to mechanical impact or other dislodgment forces) in a manner permitting undesired withdrawal of the magazine flanges from their associated retention slots and, therefore, unintended magazine extender detachment, absent the provision of the below-described laterally-interlocking features of the magazine extender enclosure pieces. Lastly, as further appearing herein, terms of orientation, such as “upper,” “lower,” “bottom,” and “top,” are defined in relation to the magazine extender when in an upright orientation; e.g., the orientation of the magazine extender when inserted into the well of a firearm having a conventional, bottom-loading design, with the firearm leveled such that the firearm barrel extends perpendicular to the direction of gravity.
Overview
A firearm magazine typically includes a tubular magazine body, which terminates in a lower end portion from which two or more magazine tabs or flanges project in opposing lateral directions. Commonly, the magazine flanges project from opposing, laterally-spaced edges of the magazine body in outward directions, with magazine flanges of this type referred to hereafter as “exterior magazine flanges” or, more succinctly, “exterior flanges.” In addition to a tubular magazine body and magazine flanges, a firearm magazine may also include a substantially flat (e.g., stamped metal) piece referred to as a “base plate.” The side edges of the base plate are curled or otherwise shaped to define slots in which the magazine flanges are received when the base plate is slid into engagement with the lower end of the firearm magazine. When so attached, the base plate encloses the lower end portion of the tubular magazine body, while the upper end of the tubular magazine body remains open to enable the reception and discharge of ammunition rounds from the magazine. Prior to attachment of the base plate, a spring follower and a magazine spring are inserted into the open lower end of the tubular magazine body. The spring follower may have generally rectangular planform shape, which is dimensioned to provide a close fitting relationship with the interior chamber or channel of the tubular magazine body. The spring follower travels vertically within the tubular magazine body, while the upper end portion of the tubular magazine body is typically tapered or otherwise partially enclosed to prevent the spring follower from exiting the magazine body through its upper end. The magazine spring, conventionally provided as a wireform compression spring having rectangular coils, is compressed between the spring follower and the base plate. As ammunition rounds are loaded into the magazine channel, the magazine spring further compresses to accommodate the newly-received rounds. The compressed magazine spring exerts an upward force on the spring follower, which urges the magazine rounds to travel upwardly through the open upper end of the firearm magazine and into the chamber of a firearm having a well into which the firearm magazine is inserted.
The round-carrying capacities of many firearm magazines can be expanded through retrofit installation of a magazine extender onto a lower end portion of the firearm magazine. As indicated above, it is generally critical for such firearm magazine extender, once installed on a selected firearm magazine, to remain securely attached to the firearm magazine until subsequent user removal. Attachment schemes for securing a magazine extender to a compatible firearm magazine are thus ideally sufficiently robust to overcome the expansive force exerted by the magazine spring urging magazine extender separation, particularly when the firearm magazine is loaded to capacity and the magazine spring is fully compressed. Unintended magazine extender detachment should also be prevented when significant impact (mechanical shock) forces are imparted to the magazine extender as may occur during firearm training or firearm usage in certain real-world scenarios. Generally, the technical challenges involved in designing a robust attachment interface for securing a magazine extender to a particular firearm magazine are eased when the firearm magazine is fabricated to include exterior (outwardly-projecting) flanges having relatively wide dimensions, as measured along a lateral axis of the firearm magazine; e.g., from left to right when viewing a firearm magazine from a straight on or head-on viewpoint, while the magazine is in an upright orientation. Certain firearm magazines are fabricated to include relatively narrow magazine flanges, however, which renders the task of securely attaching a firearm magazine extender to the firearm magazine increasingly difficult. A still greater technical challenge is encountered when a given firearm magazine extender is desirably attached to a firearm magazine having interior (inwardly-projecting) magazine flanges, which cannot be readily accessed from the exterior of the tubular magazine body. Evidencing this technical challenging, there presently exists relatively few, if any commercially obtainable magazine extenders compatible with firearm magazine extenders having interior magazine flanges. An ongoing industrial demand thus exists for firearm magazine extenders capable of providing structurally-robust, secure attachment to a broad range of firearm magazines, including firearm magazines having interior and/or relatively narrow magazine flanges.
In satisfaction of the above-described industry demand, the following discloses firearm magazine extenders having unique, laterally-interlocking enclosure pieces, which enable magazine extender attachment to a wide range of firearm magazines, including firearm magazines having interior magazine flanges and relatively narrow magazine flanges. Embodiments of the magazine extender include at least first and second enclosure pieces, which are structurally configured for mating assembly onto the lower end portion of a compatible firearm magazine. The first enclosure piece includes retention slots, such as elongated grooves or other depressions, which are size and shaped to receive the magazine flanges when the magazine extender is installed on the firearm magazine. The retention slots are formed in laterally-flexible sidewalls of the first enclosure piece; that is, sidewalls of the first enclosure piece are sufficiently flexible in lateral directions to potentially permit unintended flange-slot withdrawal (e.g., in the presence of mechanical shock forces) absent the laterally-interlocking design of the enclosure pieces. The first enclosure piece further includes a first set of lateral interlock features, which project from the laterally-flexible sidewalls in opposing directions. Similarly, a second enclosure piece includes a second, corresponding set of lateral interlock features, which are placed in engagement with the first set of lateral interlock features when the second enclosure piece is assembled with the first enclosure piece. Interlocking engagement of the lateral interlock features effectively reinforces or bolsters the laterally-flexible sidewalls of the first enclosure piece in a manner reducing the susceptibility of the laterally-flexible to lateral deflection following installation of the magazine extender on a chosen firearm magazine. This, in turn, reduces the likelihood of undesired withdrawal of the magazine flanges from the retention slots, while the firearm magazine remains in its assembled state. Unintentional detachment of the magazine extender from the firearm magazine is consequently precluded, including in instances in which significant impact forces are imparted to the magazine extender, until purposeful disassembly and detachment of the magazine extender by a user. Concurrently, a structurally robust, low part count design is provided facilitating user installation of the magazine extender onto a selected firearm magazine.
By virtue of the above-mentioned laterally-interlocking enclosure piece interface, embodiments of the firearm extender can be adapted for secure attachment to firearm magazine having various structural features, including interior (inwardly-projecting) tabs or magazine flanges. In the latter regard, embodiments of the firearm magazine extender may include an inner enclosure piece bearing the previously-noted laterally-flexible sidewalls and retention slots. Due to the lateral flexibility of the sidewalls, particularly as considered at the uppermost end portions of the sidewalls, the inner enclosure piece is amenable to deflection during press-fit or snap-fit insertion into the open lower end portion of the firearm magazine. Specifically, during user insertion into the firearm magazine, uppermost portions or sections of the laterally-flexible sidewalls deflect inwardly (laterally converge or pinch) to allow passage of uppermost sidewall portions until the retention slots align with the interior flanges. When the first enclosure piece is moved into a position at which the retention slots and the magazine flanges align, the laterally-flexible sidewalls return to their non-deflected design position (deflect outwardly) to receive the magazine flanges into the retention slots; or, stated differently, the uppermost portion of the inner enclosure piece snaps into the lower open end of the firearm magazine as the internal magazine flanges register into the retention slots. Engagement of the interior magazine flanges into the retention slots helps maintain the inner enclosure piece in its desired position against the lower peripheral edge of the magazine; however, due to the propensity of the laterally-flexible sidewalls to splay or pinch inwardly in a manner permitting magazine flanges disengagement from the retention slots, only a relatively tenuous mechanical attachment is provided by this attachment interface considered in isolation. This is addressed through subsequent user attachment of an outer enclosure piece, which is next assembled with the inner enclosure piece such that a portion of the inner enclosure piece is received into the outer enclosure piece. The outer enclosure piece includes a second set of lateral interlock features, which matingly engages the corresponding lateral interlock features of the inner enclosure piece to reinforce or bolster the laterally-flexible sidewalls of the inner enclosure piece, thereby deterring the disengagement of the interior magazine flanges from the retention slots.
The above-mentioned lateral interlock features can assume any form suitable for physically tying or anchoring the laterally-flexible sidewalls of the inner enclosure piece to the adjacent sidewalls of the outer enclosure piece. In effect, the lateral interlock features, along with the other surrounding structure of the inner and outer enclosure pieces, combine to form a dual wall structure when the magazine extender. The dual wall structure possesses a high lateral stiffness, which significantly deters, if not wholly prevents undesired lateral displacement or deflection of the laterally-flexible sidewalls and corresponding disengagement of the magazine flanges from the retention slots. To optimize the effectiveness of this structure, the first set of lateral interlock features is beneficially formed in relatively close proximity to the retention slots; e.g., the first set of lateral interlock features may project outwardly from the laterally-flexible sidewalls of the inner enclosure piece at locations immediately beneath the retention slots in at least some implementations. In embodiments, the first set of lateral interlock features may assume the form of laterally-spaced attachment rails, which are elongated in longitudinal directions and which are imparted with hook-shaped (e.g., L-shaped) cross-sectional geometries opening in a first (e.g., downward) direction. Correspondingly, the second set of lateral interlock features, as formed in the outer enclosure piece, may be realized as elongated lateral-reinforcement rails likewise possessing hook-shaped (e.g., L-shaped) cross-sectional geometries, which open in a second, opposing (e.g., upward) direction. As the outer enclosure piece is assembled onto the inner enclosure piece, the lateral-reinforcement rails slide into mating engagement with the corresponding attachment rails to yield the laterally-interlocking interface bolstering or buffering the laterally-flexible sidewalls of the inner enclosure piece against inward lateral deflection.
Embodiment of the firearm magazine extender are thus capable of securely attaching to a firearm magazine having interior (inwardly-projecting) flanges, while also providing a robust, low part count design streamlining user installation on a selected firearm magazine. This stated, embodiments of the magazine extender are not restricted to usage with firearm magazines having interior flanges. Rather, embodiments of the magazine extender can be readily adapted for usage in conjunction with firearm magazines having exterior (outwardly-projecting) flanges, including exterior flanges having relatively narrow widths. In this latter case, the above-mentioned laterally-flexible sidewalls, retention slots, and attachment rails (or a first set of analogous lateral interlock features) may be formed in the outer enclosure piece of the magazine extender, while the above-described lateral-reinforcement rails (or a second set of analogous lateral interlock features) are formed in the inner enclosure piece. When installed on a selected firearm magazine, the inner enclosure piece may first be positioned in an abutting relationship with a lower portion of firearm magazine; e.g., such that a lower surface of the magazine contacts an upper surface of the lateral-reinforcement rails. The outer enclosure piece is assembled onto the inner enclosure piece such that the inner enclosure piece inserts into or nests within the outer enclosure piece. When the magazine extender is assembled, the lateral-reinforcement rails engage the attachment rails in a laterally-interlocking relationship; e.g., such that the rails effectively hook or clasp together in lateral directions. Absent the laterally-interlocking rail-to-rail interface, the laterally-flexible sidewalls of the outer enclosure piece may be undesirably prone to lateral splay, potentially permitting undesired flange-slot withdrawal and unintended magazine extender detachment. The provision of the interlocking multi-wall structure, as formed between the attachment rails of the outer enclosure piece and the lateral-reinforcement rails of the inner enclosure piece, yields a high stiffness, multi-wall structure deterring lateral deflection of the laterally-flexible sidewalls and disengagement of the magazine flanges from the retention slots. Consequently, the magazine extender is affixed onto the firearm magazine in a highly secure manner, preventing inadvertent detachment of the magazine extender in the presence of mechanical shock forces and despite any potential narrow dimensioning of the external magazine flanges.
Embodiments of the firearm magazine extender include other beneficial structural features and attributes in addition to those noted above. For example, embodiments of the magazine extender may include a base plate having a lower protuberance or “button projection,” which is received into aligning apertures formed in the bottom walls of the enclosure pieces to lock the enclosure pieces in their desired positions when the magazine extender is assembled. A tapered lower end of an extended magazine spring (e.g., a magazine spring having a free length greater than that of an original equipment manufacturer (OEM) spring of the firearm magazine) may engage a contact surface or “spring seat,” which is provided on the base plate opposite the button projection. When installing the magazine extender onto a firearm magazine, a user may initially remove the pre-existing or OEM magazine spring and base plate; substitute these components for the extended magazine spring and base plate; and then subsequently assemble the enclosure pieces around the lower end portion of the firearm magazine, as discussed more fully below. Regardless of the particular type and number of any such additional components further included in the magazine extender, embodiments of the firearm magazine extender provide a structurally robust attachment interface for securely affixing the magazine extender onto the lower end portion of a wide assortment of firearm magazines, including firearm magazines having exterior and interior flanges of varying dimensions. Further emphasizing this point, a first example embodiment of a firearm magazine extender suitable for installation on a firearm magazine having interior (outwardly-projecting) flanges is discussed below in connection with
With initial reference to
In the illustrated embodiment, firearm magazine extender 20 includes an extended magazine spring 30 having an upper end portion (hidden from view) and an opposing, lower end portion 32 (
In addition to extended magazine spring 30 and base plate 34, firearm magazine extender 20 includes first and second enclosure pieces 42, 44, which are assembled around lower end portion 28 of firearm magazine 22. The term “enclosure piece,” as appearing herein, refers to a structural component (whether a unitary body or a structure assembled from multiple parts) cooperating with at least one additional structural component to form an assembly (effectively, an extended housing) enclosing the lower end portion of a firearm magazine when firearm extender 20 is attached thereto. The particular manner in which enclosure pieces 42, 44 structurally engage or mate will vary among embodiments; and, in certain implementations, a portion of a first enclosure piece (herein, an “inner enclosure piece”) may be received into and nest within a second enclosure piece (herein, an “outer enclosure piece”). In the case of magazine extender 20, specifically, enclosure piece 44 is partially received into and nests within enclosure piece 42 when magazine extender 20 is assembled onto firearm magazine 22. For this reason, enclosure piece 44 is more specifically referred to hereafter as “inner enclosure piece 44,” while enclosure piece 42 is referred to as “outer enclosure piece 42.” Inner enclosure piece 44 may also be described as a male housing component, which plugs or matingly inserts into outer enclosure piece 42 (serving as the female housing component). Although not restricted to being provided in this manner, magazine extender 20 will often be sold or otherwise furnished as a multi-part, user-installable kit containing enclosure pieces 42, 44, extended magazine spring 30, and base plate 34. To install magazine extender 20 on lower end portion 28 of firearm magazine 22, a user initially removes the original (OEM) base plate and magazine spring (which will typically be shorter in free length relative to extended magazine spring 30); substitutes extended magazine spring 30 and base plate 34 for these components; and then assembles enclosure pieces 42, 44 onto lower end portion 28 of firearm magazine 22, as described below in connection with
Progressing to
Retention slots 54 and attachment rails 56 are formed in laterally-flexible sidewalls 46. As appearing herein, the term “retention slot” refers to any groove, slot, opening, or depression into which a magazine flange is received to help retain an enclosure piece in place when the magazine extender is installed on a particular firearm magazine. Comparatively, and as previously noted, the term “attachment rail” refers to any projection extending from a laterally-flexible wall of an enclosure piece and enabling physical attachment or interlocking engagement with lateral-reinforcement rail. In the illustrated embodiment, retention slots 54 are realized as elongated grooves or trenches, which are formed in outwardly-facing surfaces of laterally-flexible sidewalls 46. Retention slots 54 are elongated along longitudinal axes substantially perpendicular to the lateral axis of magazine extender 20 (again, corresponding to the X-axis of coordinate legend 40). Retention slots 54 are dimensioned (that is, imparted with heights, depths, and lengths, as taken along the Z-, X-, and Y-axes of coordinate legend 40, respectively) to provide close-fit, mating engagement with interior magazine flanges 58 when magazine extender 20 is assembled. Comparatively, attachment rails 56 project from laterally-flexible sidewalls 46 in opposing lateral directions at locations proximate, such as locations adjacent and beneath, retention slots 54 formed in the upper, outwardly-facing surfaces of laterally-flexible sidewalls 46. Attachment rails 56 serve as a first set of lateral interlock features, which engage with corresponding interlock features extending inwardly from interior surfaces of outer enclosure piece 42 to physically anchor laterally-flexible sidewalls to the adjacent sidewalls of inner enclosure piece 44. A pair of lower longitudinal ribs 59 further projects from laterally-flexible sidewalls 46 at locations immediately beneath attachment rails 56. Finally, as shown most clearly in
In a manner similar to inner enclosure piece 44, outer enclosure piece 42 includes a pair of laterally-spaced sidewalls 62, a leading endwall or front wall 64, and a lower or bottom wall 66. Two lateral-reinforcement rails 68 project inwardly from laterally-spaced sidewalls 62 in opposing lateral directions (e.g., to the left and right in the orientation shown in
A central opening or “bottom-center aperture” 72 is formed through bottom wall 66 of outer enclosure piece 42. Bottom-center aperture 72 formed in outer enclosure piece 42 may have a planform shape and dimensions (e.g., a diameter) substantially matching bottom-center aperture 60 formed in inner enclosure piece 44. When magazine extender 20 is assembled, bottom-center aperture 72 formed in outer enclosure piece 42 is brought into vertical alignment with bottom-center aperture 60 formed in inner enclosure piece 44. As seen in the cross-section of
Referring now to
Inner enclosure piece 44 is produced to permit inward deflection or splaying of laterally-flexible sidewalls 46 supporting press-fit or snap-fit insertion of inner enclosure piece 44 into open lower end portion 28 of firearm magazine 22. The flexibility of laterally-flexible sidewalls 46, and particularly the ability of laterally-flexible sidewalls 46 to readily flex or pinch inwardly toward the centerline of inner enclosure piece 44, enables press-fit or snap-fit engagement of inner enclosure piece 44 with firearm magazine 22. This, in turn, permits interior magazine flanges 58 to register within retention slots 54 of inner enclosure piece 44 despite the internal positioning of flanges 58 within tubular magazine body 24 of firearm magazine 22. As a corollary, however, the flexibility of laterally-flexible sidewalls 46 renders inadvertent detachment of inner enclosure piece 44 undesirably likely, when enclosure piece 44 is considered in isolation. Specifically, due to the flexibility of sidewalls 46, and further due to the potential narrow dimensioning of inwardly-projecting magazine flanges 58, inner enclosure piece 44 may be undesirably prone to detachment from firearm magazine 22 should, for example, dislodgement forces (e.g., shaking or wiggling forces) be applied to inner enclosure piece 44, particularly given the expansive force exerted by magazine spring 30 urging separation of inner enclosure piece (and, more generally, magazine extender 20) and firearm magazine 22. The interlocking relationship between attachment rails 56 and lateral-reinforcement rails 68 significantly deters, if not wholly prevents inward deflection of laterally-flexible sidewalls 46 when outer enclosure piece 42 is mated with inner enclosure piece 44 to preclude unintentional disengagement of interior magazine flanges 58 from retention slots 54, as discussed below.
The manner in which outer enclosure piece 42 is inserted onto inner enclosure piece 44 or otherwise placed in mating engagement with inner enclosure piece 44 is further indicated in
In the example of
There has thus been provided an example embodiment of a firearm magazine extender (namely, firearm magazine extender 20) capable of securely attaching to a firearm magazine having interior flanges, while also providing a structurally robust, low part count design streamlining user installation of the magazine extender on a chosen firearm magazine. By virtue of the above-described laterally-interlocking features or interface formed in the mating enclosure pieces, secure magazine extender attachment to firearm magazines having interior (inwardly-extending) magazine flanges is achieved; e.g., by producing a first (e.g., inner) enclosure piece to include laterally-flexible sidewalls, which are capable of press-fit insertion into a lower open end of the firearm magazine to allow engagement and registration of the interior magazine flanges within the retention slots formed in the sidewalls. Further, mating attachment or assembly of a second (e.g., outer) enclosure piece bolsters the laterally-flexible sidewalls via the above-described lateral-interlock interface to greatly inhibit, if not wholly prevent lateral sidewall deflection and unintentional flange-slot withdrawal following magazine extender installation. Accordingly, embodiments of the above-described magazine extender can securely attach to various firearm magazines having interior flanges in contrast to most, if not all existing magazine extenders presently offered in the commercial marketplace. This notwithstanding, embodiments of the firearm magazine extender are not restricted solely to usage in conjunction with or installation on firearm magazines having interior flanges, however. Rather, further embodiments of the firearm magazine extender can be readily adapted for usage in conjunction with firearm magazines possessing exterior (outwardly-projecting) flanges of varying dimensions and shapes. To further emphasize this point, additional description of an example firearm magazine extender adapted for installation on a firearm magazine having exterior flanges will now be set-forth below in connection with
Turning to
First enclosure piece 94 of firearm magazine extender 90 includes a laterally-spaced pair of laterally-flexible sidewalls 114 in which retention slots 116 are formed. Sidewalls 114 are laterally flexible in the sense that, absent the below-described laterally-interlocking relationship between enclosure pieces 94, 96, sidewalls 114 are capable of deflection or displacement in lateral directions to a degree sufficient to permit the unintended withdrawal of the magazine flanges projecting from firearm magazine 92 (e.g., below-described exterior magazine flanges 122) from retention slots 116; and, therefore, unintended magazine extender detachment. The term “laterally flexible,” as appearing herein, thus does not require laterally-flexible sidewalls 114 (and, more generally, first enclosure piece 94) to be fabricated from any particular material or that sidewalls 114 deflect in any particular manner during attachment onto firearm magazine 92. A first set of lateral interlock features (here, provided in the form of a pair of attachment rails 118) is located proximate or adjacent (e.g., immediately beneath) retention slots 116. Similarly, second enclosure piece 96 includes a second, corresponding set of lateral interlock features (herein, provided as a pair of lateral-reinforcement rails 120), which matingly engage attachment rails 118 in a laterally-interlocking relationship to deter or inhibit lateral deflection of laterally-flexible sidewalls 114 when magazine extender 90 is assembled. In a manner similar to firearm magazine extender 20 described above in connection with
In addition to laterally-flexible sidewalls 114, retention slots 116, and attachment rails 118, outer enclosure piece 96 includes a leading or front endwall 126 and a bottom wall 128. Similarly, inner enclosure piece 94 includes a leading or front endwall 130, sidewalls 132, a bottom wall 134, a trailing or rear interior wall 136, and an enlarged rear portion or trailing facia body 138. As appreciated most readily in
To deter undesired lateral deflection of laterally-flexible sidewalls 114, herein an outward direction such that laterally-flexible sidewalls 114 diverge or “splay-out,” lateral-reinforcement rails 190 engage attachment rails 118 to effectively physically tie laterally-flexible sidewalls 114 to sidewalls 132 of inner enclosure piece 94. As previously indicated, the respective shapes and dimensions of attachment rails 118 and lateral-reinforcement rails 190 can and will differ among embodiments, providing that corresponding sets of rails 118, 120 engage in a lateral-interlocking relationship when magazine extender 90 is assembled onto firearm magazine 92. As shown most clearly in
When firearm magazine extender 90 is properly assembled onto the lower portion of firearm magazine 92, and specifically as outer enclosure piece 94 is slid onto inner enclosure piece 92, lateral-reinforcement rails 120 thus hook into, laterally clasp, or otherwise laterally interlock with attachment rails 118. The interlocking relationship of lateral-reinforcement rails 120 and attachment rails 118 physically tie or anchor laterally-flexible sidewalls 114 of inner enclosure piece 94 to sidewalls 132 of outer enclosure piece 96, taken in lateral directions (again, corresponding to the X-axis of coordinate legend 124). Due to the laterally-interlocking relationship between rails 118, 120, outward deflection or splaying of laterally-flexible walls 114 results in co-deflection of adjacent sidewalls 132 of outer enclosure piece 96. A high lateral stiffness, dual-wall structure is consequently created inhibiting outboard lateral deflection or splay of laterally-flexible sidewalls 114, which may otherwise permit disengagement of external magazine flanges 122 from retention slots 116. In this manner, firearm magazine extender 90 is affixed to firearm magazine 92 in a structurally robust, highly secure manner minimizing the likelihood of inadvertent detachment from firearm magazine 92, even in the presence of mechanical impact (shock) forces or adverse operational conditions. Concurrently, firearm magazine extender 90 is readily manufacturable, possess relatively few components, and can be attached by a user to a selected firearm magazine through a relatively straightforward installation process.
There has thus been provided multiple examples of firearm magazine extenders capable of securely attaching to a broad range of firearm magazines, including firearm magazines having laterally-extending flanges having relatively narrow widths and located on the interior or exterior of the firearm magazine body. Beneficially, embodiments of the magazine extender facilitate user installation through engagement of magazine flanges into retention slots formed in laterally-flexible sidewalls of a first enclosure piece, while precluding the likelihood of flange disengagement from the retention slots through the provision of laterally-interlocking interfaces formed between the first enclosure piece and a second, mating enclosure piece. By virtue of such structural features, user installation is streamlined, while likelihood of unintended detachment of the magazine extender from a firearm magazine is significantly reduced, if not eliminated, even in the unlikely event of the application of significant dislodgement (e.g., mechanical impact) forces to the magazine extender. The disclosed magazine extenders are also amenable to cost effective manufacture due, at least in part, to low part count design and the ability to fabricate the enclosures pieces from a moldable material, such as a thermoplastic containing or lacking fillers, utilizing a relatively straightly forward injection or transfer molding process. This stated, embodiments of the firearm magazine extender are not restricted to fabrication from any particular material or any particular manufacturing technique.
Embodiments of the firearm magazine extender are installable onto a firearm magazine having a lower end portion from which magazine flanges project, whether in inward or outward directions. The firearm magazine extender includes a first enclosure piece, a second enclosure piece, and a laterally-interlocking interface formed between the first and second enclosure pieces. The first enclosure piece includes, in turn, laterally-flexible sidewalls spaced along a lateral axis of the firearm magazine extender, and retention slots formed in the laterally-flexible sidewalls and into which the magazine flanges engage when the first enclosure piece is fit onto the lower end portion of the firearm magazine. The second enclosure piece is configured to matingly engage the first enclosure piece and cooperate therewith to enclose the lower end portion of the firearm magazine. The laterally-interlocking interface inhibits (structurally deters or prevents) deflection of the laterally-flexible sidewalls and disengagement of the magazine flanges from the retention slots when the firearm magazine extender is installed on the firearm magazine. In certain implementations, the laterally-interlocking interface includes: (i) attachment rails projecting from the laterally-flexible sidewalls of the first enclosure piece in opposing lateral directions; and (ii) lateral-reinforcement rails projecting from sidewalls of the second enclosure piece and interlocking with the attachment rails when the firearm magazine extender is installed on the firearm magazine. Additionally, the attachment rails may extend from the laterally-flexible sidewalls at locations adjacent and beneath the retention slots, the lateral-reinforcement rails slidably engage the attachment rails along a longitudinal axis extending substantially perpendicular to the lateral axis, and/or the attachment rails may be located between the lower end portion of the firearm magazine and the lateral-reinforcement rails when the firearm magazine extender is installed on the firearm magazine.
In further embodiments, the firearm magazine extender includes an inner enclosure piece and an outer enclosure piece, which matingly engage to enclose the lower end portion of the firearm magazine when the firearm magazine extender is installed on a firearm magazine having interior (inwardly-extending) magazine flanges. The inner enclosure piece includes laterally-flexible sidewalls spaced along a lateral axis of the firearm magazine extender, retention slots formed in the laterally-flexible sidewalls and into which the magazine flanges engage when the inner enclosure piece is inserted into the lower end portion of the firearm magazine, and a first set of lateral interlock features proximate the retention slots and projecting from the laterally-flexible sidewalls in opposing lateral directions. Comparatively, the outer enclosure piece includes a second set of lateral interlock features interlocking with the first set of lateral interlock features to inhibit inward lateral deflection of the laterally-flexible sidewalls and disengagement of the magazine flanges from the retention slots when the firearm magazine extender is installed on the firearm magazine. In at least some realizations, the first set of lateral interlock features may assume the form of attachment rails projecting from the laterally-flexible sidewalls at locations adjacent and beneath the retention slots. Additionally or alternatively, in embodiments, the second set of lateral interlock features may assume the form of lateral-reinforcement rails shaped, sized, and position to slidably engage the attachment rails along a longitudinal axis substantially perpendicular to the lateral axis. In such embodiments, the attachment rails may be imparted with hook-shaped cross-sectional geometries opening in downward directions, while the lateral-reinforcement rails are imparted with hook-shaped cross-sectional geometries opening in upward directions.
In still further implementations, a firearm magazine extender includes an outer enclosure piece and an inner enclosure piece, which are adapted for mating assembly onto the lower end portion of a firearm magazine having external (outwardly-projecting) magazine flanges. The outer enclosure piece includes laterally-flexible sidewalls spaced along a lateral axis of the firearm magazine extender, retention slots formed in the laterally-flexible sidewalls and into which the magazine flanges engage when the outer enclosure piece is installed on the lower end portion of the firearm magazine, and attachment rails proximate the retention slots and projecting from the laterally-flexible sidewalls in opposing lateral directions. The inner enclosure piece includes lateral-reinforcement rails interlocking with the attachment rails to inhibit outward lateral deflection of the laterally-flexible sidewalls and disengagement of the magazine flanges from the retention slots when the firearm magazine extender is installed on the firearm magazine. In embodiments, the lower end portion of the firearm magazine may contact or abut the inner enclosure piece and the lateral-reinforcement rails when the firearm magazine extender is assembled onto the firearm magazine.
Terms such as “comprise,” “include,” “have,” and variations thereof are utilized herein to denote non-exclusive inclusions. Such terms may thus be utilized in describing processes, articles, apparatuses, and the like that include one or more named steps or elements, but may further include additional unnamed steps or elements. While at least one example embodiment has been presented in the foregoing Detailed Description, it should be appreciated that a vast number of variations exist. It should also be appreciated that the example embodiment or example embodiments are only examples, and are not intended to limit the scope, applicability, or configuration of the invention in any way. Rather, the foregoing Detailed Description will provide those skilled in the art with a convenient road map for implementing an example embodiment of the invention. Various changes may be made in the function and arrangement of elements described in an example embodiment without departing from the scope of the invention as set-forth in the appended Claims.
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