US20120255979A1

US20120255979A1 - Universal holder for a firearm

Info

Publication number: US20120255979A1
Application number: US13/066,269
Authority: US
Inventors: Justin C. Sitz
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-04-11
Filing date: 2011-04-11
Publication date: 2012-10-11
Also published as: WO2012141763A1

Abstract

Holders usable to secure a firearm include a body having a first portion with a fastener for attachment to a surface, and a second portion having a member usable for insertion into the barrel of a firearm, to stabilize the firearm against movement relative to the body. Friction between the firearm and the body of the holder can be created through use of a tension member positioned between the firearm and holder and/or by angling the insertable member toward the body of the holder, which can further stabilize the firearm against undesired movement.

Description

FIELD

Embodiments of the present disclosure relate, generally, to holders (e.g., holsters) for firearms, and related methods, and more specifically, to holders for pistols, handguns, and/or similar firearms that can utilize a member for insertion into a barrel of a firearm, and friction between the firearm and the holder, to stabilize the firearm without requiring additional structural components, thereby minimizing bulk and enabling the firearm to be secured and/or carried in a variety of orientations.

BRIEF DESCRIPTION OF THE DRAWINGS

In the detailed description of various embodiments usable within the scope of the present disclosure, presented below, reference is made to the accompanying drawings, in which:

FIG. 1A depicts a side view of an embodiment of a gun holder usable within the scope of the present disclosure.

FIG. 1B depicts a front view of the gun holder of FIG. 1A.

FIG. 1C depicts a rear view of the gun holder of FIGS. 1A and 1B.

FIG. 1D depicts a bottom view of the gun holder of FIGS. 1A-1C.

FIG. 2A depicts a firearm positioned for engagement with the gun holder of FIGS. 1A-1D.

FIG. 2B depicts the firearm of FIG. 2A engaged with the gun holder of FIGS. 1A-1D.

FIG. 3A depicts a front view of an embodiment of an adjustable gun holder usable within the scope of the present disclosure.

FIG. 3B depicts a side view of the gun holder of FIG. 3A

FIG. 3C depicts a front view of the gun holder of FIGS. 3A and 3B disposed an adjusted position.

FIG. 3D depicts a top view of the gun holder of FIGS. 3A through 3C engaged with a firearm.

FIG. 3E depicts a side view of the holder and firearm of FIG. 3D.

FIG. 3F depicts a view of the holder and firearm of FIGS. 3D and 3E in an adjusted position for accommodating a non-vertical carrying angle.

FIG. 3G depicts an alternate embodiment of the holder of FIGS. 3A through 3C, that includes a telescoping portion for adjusting the length thereof.

FIG. 4A depicts a diagram of an embodiment of an adjustable portion of the gun holder of FIGS. 3A-3C.

FIG. 4B depicts a diagram of an alternate embodiment of an adjustable portion of the gun holder of FIGS. 3A-3C.

FIG. 4C depicts a detail view of the adjustable portion of FIG. 4B.

FIGS. 5A through 5F depicts diagrams of various embodiments of rotatably adjustable portions of a gun holder.

FIG. 6A depicts a front view of an alternate embodiment of a gun holder having a rotatably adjustable portion.

FIG. 6B depicts a side view of the gun holder of FIG. 6A.

FIG. 7 depicts a diagram of an alternate embodiment of a gun holder having a fixed, non-vertical carrying angle.

FIG. 8 depicts a diagrammatic side view of an embodiment of a gun holder usable within the scope of the present disclosure, having an insertable member angled toward the body of the holder.

FIG. 9 depicts a diagrammatic side view of an alternate embodiment of a gun holder usable within the scope of the present disclosure, having a generally flat insertable member.

FIG. 10 depicts a diagrammatic side view of an alternate embodiment of a gun holder usable within the scope of the present disclosure, having a member that contacts a side of the firearm opposite the body of the holder to provide tension and/or friction.

FIG. 11 depicts a diagrammatic view of an embodiment of a gun holder engaged with a firearm, the gun holder having a configuration that covers the trigger guard of the firearm.

FIG. 12 depicts a diagrammatic view of an embodiment of a gun holder engaged with a firearm, the gun holder having a configuration that covers the trigger guard of the firearm and provides additional stability to a side surface of the firearm.

FIG. 13 depicts a diagrammatic view of an embodiment of a gun holder engaged with a firearm, the gun holder having a protruding portion that covers the trigger guard of the firearm.

FIG. 14 depicts a diagrammatic view of an embodiment of an insertable member for insertion into a firearm barrel that is adjustable to accommodate barrels having different diameters through use of compressible portions of the member.

FIG. 15 depicts a diagrammatic view of an embodiment of an insertable member for insertion into a firearm barrel that is adjustable to accommodate barrels having different diameters through use of interchangeable external spacing members.

FIG. 16A depicts a diagrammatic side view of an embodiment of an insertable member for insertion into a firearm barrel that is adjustable to accommodate barrels having different diameters through expansion and compression of the member using spaces therein.

FIG. 16B depicts a top view of the insertable member of FIG. 16A.

FIG. 17 depicts a diagrammatic side view of an embodiment of a holder having an insertable member that provides an adjustable degree of tension to an engaged firearm.

FIG. 18 depicts a diagrammatic side view of an embodiment of a holder having an attached portion usable to hold a spare magazine and/or clip.

One or more embodiments are described below with reference to the listed Figures.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Before describing selected embodiments of the present invention in detail, it is to be understood that the present invention is not limited to the particular embodiments described herein. The disclosure and description herein is illustrative and explanatory of one or more presently preferred embodiments of the invention and variations thereof, and it will be appreciated by those skilled in the art that various changes in the design, organization, order of operation, means of operation, equipment structures and location, methodology, and use of mechanical equivalents may be made without departing from the spirit of the invention.
As well, it should be understood the drawings are intended illustrate and plainly disclose presently preferred embodiments of the invention to one of skill in the art, but are not intended to be manufacturing level drawings or renditions of final products and may include simplified conceptual views as desired for easier and quicker understanding or explanation of the invention. As well, the relative size and arrangement of the components may differ from that shown and still operate within the spirit of the invention as described throughout the present application.
Moreover, it will be understood that various directions such as “upper”, “lower”, “bottom”, “top”, “left”, “right”, and so forth are made only with respect to explanation in conjunction with the drawings, and that the components may be oriented differently, for instance, during transportation and manufacturing as well as operation. Because many varying and different embodiments may be made within the scope of the inventive concept(s) herein taught, and because many modifications may be made in the embodiments described herein, it is to be understood that the details herein are to be interpreted as illustrative and non-limiting.
Embodiments usable within the scope of the present disclosure relate to holders (e.g., holsters) for securing firearms (e.g., pistols and/or handguns) when worn or carried by a user and/or for securing firearms to a surface, such as the underside of a table or counter or the interior of a vehicle. While conventional holsters are sized and designed specifically to contain a single firearm, can vary in size and shape depending on the numerous external features and customizations unique to every gun, and are often only able to be acquired weeks or months after acquiring a firearm, embodiments of the present invention can be usable as a “universal” holster, able to secure multiple firearms in a variety of orientations. As such, embodiments of the present firearm holder can be worn ambidextrously, on either side of a user's body, can selectively be worn internal of or external to a user's belt and/or pants or other lower body garment, and provide a minimum of bulk, thereby creating only a minimal profile or picture, facilitating concealment of a weapon. Conversely, it is often difficult to acquire a left-handed or ambidextrous conventional holster, and conventional holsters are typically bulky due to the structure necessary to secure a firearm.
Referring now to FIGS. 1A through 1D, an embodiment of a firearm holder (10) usable within the scope of the present disclosure is shown. Specifically, FIG. 1A depicts a side view of the holder (10), FIG. 1B depicts a front view thereof, FIG. 1C depicts a rear view thereof, and FIG. 1D depicts a bottom view.
The holder (10) is shown having a body that includes a first, generally vertical portion (12) having a fastener, depicted as a clip (14) positioned thereon, and a second, generally horizontal portion (16), having an insertable member, shown as a pin (18) extending therefrom, in a generally vertical direction. A tension and/or compressible member (20) is shown attached to and/or extending from the vertical portion (12). In use, the depicted holder (10) can be worn by a user, such as by securing the clip (14) over the user's belt and/or waistband, while a firearm (e.g., a pistol and/or handgun) is secured by inserting the pin (18) into the barrel thereof, to prevent unintended lateral movement of the firearm. When the pin (18) is inserted into the barrel, the firearm contacts and/or compresses the compressible member (20), creating friction between the compressible member (20) and the firearm, preventing unintended vertical movement of the firearm.
While FIGS. 1A-1D depict the holder (10) having a generally vertical portion (12) of a fixed length, formed as an integral, one-piece member with the clip (14) and the generally horizontal portion (16), it should be understood that in various embodiments, the generally vertical portion (12) can be positioned at any angle relative to the generally horizontal portion (16) and/or the clip (14), such as to accommodate firearms having certain dimensions, external features, or accessories, and that any portion of the holder (10) can be formed integrally with or separately from any other portion, e.g., to facilitate replacement of parts and/or interchangeability of portions to accommodate differing firearms. Further, while the generally vertical portion (12) is shown having a fixed length, and is depicted secured to the generally horizontal portion (16) at a generally fixed, perpendicular angle, parallel to the pin (18), in various embodiments, the generally vertical portion (12), the generally horizontal portion (16), or combinations thereof, can have adjustable lengths and/or the lateral and axial angles therebetween can be adjustable. Additionally, while the generally vertical portion (12) is shown as a generally flat, smooth member, in various embodiments, the generally vertical portion (12) could include one or more indentations corresponding to external features of a firearm to facilitate engagement and retention thereof. For example, the generally vertical portion (12) could include a molded piece of plastic, rubber, or similar material, having a shape corresponding to the exterior of a specific firearm, to facilitate engagement therewith. Alternatively, the generally vertical portion (12) could include an indentation and/or laterally displaced portion usable to accommodate the cylinder of a revolver or similar external feature. In other embodiments, the generally vertical portion (12) could include a channel and/or similar female portion sized to engage a rail or similar protrusion of the firearm.
The depicted clip (14) is sized to accommodate both a user's belt and the waistband of a user's pants or similar lower body garment, due to the enlarged space between a back portion (22) of the clip (14) and the vertical portion (12) of the holder (10), to provide a secure engagement and enable the user to wear the holder (10) and a firearm inside of a pair of pants or other lower body garment. In this embodiment, a crimped portion (24) of the clip (14) can securely grip on or beneath a user's belt and/or waistband to provide sufficient friction and/or an engagement that exceeds the strength of the friction created between the compressible member (20) and a firearm, thus enabling the firearm to be removed from the holder (10) (e.g., by lifting or pulling) without disengaging the clip (14) from the user's garments. While FIGS. 1A-1D depict a single clip (14), it should be understood that embodiments having multiple clips and/or other types of fasteners are also usable, e.g., when it is desirable to secure the holder (10) in differing orientations. Additionally, while FIGS. 1A-1D depict a generally fixed clip (14), it should be understood that in an embodiment, the clip (14) could be adjustable for providing a varying amount of tension and/or grip for securing to an article of clothing and/or a surface.
It should be noted that while FIGS. 1A-1D depict the clip (14) having a back portion (22) to accommodate both a belt and a waistband of a user, and a crimped portion (24) for preventing unintended removal of the holder (10) from a user's clothing, any manner of clip or other fastener, or any manner of adhesive or mounting apparatus (e.g., brackets, clips, clamps, clasps, rivets, nails, screws, bolts, pins, Velcro™ or similar hook-and-loop fasteners, reusable or permanent adhesives, or any similar fastener) can be used to secure the holder (10) to any portion of a user's body or any article of clothing, or any desired surface remote from a user's body, such as the underside of a table or bar, the interior of a vehicle, or other similar locations. For example, a holder having two or more parts could include a removable clip, such that the body of the holder could be interchangeably attached to a clip for carrying by a user, or a plate and/or mounting bracket secured to a table or similar surface.
The depicted pin (18) is shown having a generally cylindrical lower section (26), sized to fit closely within the barrel of a desired caliber of firearm, and a tapered end (28), angled to facilitate insertion of the pin (18) into the barrel. Specifically, the narrower diameter of the tapered end (28) enables a greater tolerance for error when initially positioning the firearm over the pin (18), such that contact between the tapered edge of the pin (18) and the inner diameter of the firearm barrel guides the firearm into a suitable lateral position to enable insertion of the cylindrical lower section (26) therein. The taper of the pin (18) also facilitates insertion of the pin into a barrel when the pin is angled (see, e.g., FIG. 8), which would be difficult or impossible were the end of the pin to lack a taper. In various embodiments, the taper of the pin (18) can be graduated to enable the depicted holder (10) to be universally useable with any firearm by accommodating firearm barrels having a variety of inner diameters (e.g., through partial or full insertion of the pin therein). In further embodiments, the pin (18) can be adjustable, e.g., by adjusting the angle and/or spacing between the pin (18) and the generally vertical portion (12) and/or by adjusting the effective diameter of the pin (18).
While FIGS. 1A-1D depict a pin (18) having a generally cylindrical lower section (26) and a tapered end (28), it should be noted that holders usable within the scope of the present disclosure can include any type of insertable member having any shape, including pins and/or rods having cylindrical, conical, frustroconical, domed, or other polygonal portions. Further, in an embodiment, the insertable member of the holder can include a generally flat portion extending from the body thereof, having a single dimension (e.g., width) corresponding to the inner diameter of a barrel of a firearm. In other embodiments, a generally flat insertable member could be curved and/or twisted, to provide multiple points of contact between the insertable member and the inner diameter of a firearm barrel, while facilitating ease of manufacture and minimizing cost through use of a generally flat member.
Additionally, while FIGS. 1A-1D depict the pin (18) secured to the generally horizontal portion (14) using a bolt (30) and a washer (32), it should be understood that any type of temporary or permanent fastener or similar engagement can be used. For example, the pin (18) could be removable from the holder (10) to enable interchangeability and replacement of the pin (18) with an alternate pin having a differing length, width, or shape, for accommodating firearms having differing dimensions and/or features, or the pin (18) could be selectively placeable within one of a plurality of orifices to enable the spacing between the pin (18) and the generally vertical portion (12) to be varied to accommodate differing firearms. Alternatively, the pin (18) could be integral with the holder (10). For example, the body of the holder (10) could be formed from a single, generally flat sheet of material that can be cut, folded, and/or otherwise bent or manipulated to define two body portions angled with respect to one another, one of which includes an insertable member extending therefrom. Generally, the holder (10) can be made from any generally durable and/or rigid material, sufficient to retain the weight of a firearm thereon. In an embodiment, the holder can be made from generally transparent materials (e.g., transparent plastic), to facilitate concealment of a weapon by reducing visibility of the holder.
Further, while FIGS. 1A-1D depict a generally compressible tension member (20) (e.g., made from felt, rubber, plastic, and/or another compressible material) positioned on the generally vertical portion (12) of the holder (10) for creating friction between the holder (10) and a firearm, it various embodiments, the tension member (20) could include one or more frictional and/or textured surfaces (e.g., made from rubber, metal, wood, plastic, and/or other similar materials), one or more magnets, one or more protruding compressible or non-compressible members, or any other feature usable to generate friction between a firearm and the holder (10). It should be noted that while the tension member (20) is shown protruding outward from the generally vertical portion (12), tension members such as magnets and/or frictional surfaces, could be flush with the generally vertical portion (12), recessed into the generally vertical portion (12), or even placed on the opposing side of the generally vertical portion (12) (e.g., when utilizing one or more magnets to create friction between a firearm and the holder). It should also be noted that in various embodiments, the tension member (20) could be adjustable. For example, the tension member (20) could be interchangeable with members having varying thickness to provide a desired quantity of tension, or alternatively, the tension member (20) could be moveable, e.g., in a horizontal direction, such as through use of a screw or similar fastener disposed on the opposing side of the generally vertical portion (12) that biases the tension member (20) outward toward a firearm. In other embodiments, the holder (10) could lack a tension member, and friction could be created directly between the firearm and the holder (10). For example, the pin (18) or other insertable member could be angled inward, toward the generally vertical portion (12) of the holder (10), such that when the pin (18) is inserted into the barrel of a firearm, the angle of the pin biases and/or urges the firearm against the holder (10) to create friction therebetween. In other embodiments, the pin (18), itself, could function as a tension member, e.g., through use of magnets within the pin (18) and/or within the generally horizontal portion (16).
Referring now to FIGS. 2A and 2B, the holder (10) of FIGS. 1A through 1D is shown engaging a firearm (34). Specifically, FIG. 2A depicts the firearm (34) in a position for engagement with the holder (10) by insertion of the pin (18) within the barrel (36) thereof (e.g., while holstering a firearm or removing a firearm from the holder). FIG. 2B depicts the holster (10) engaged with the firearm (34).
During insertion or removal, the pin (18) passes into the barrel (36) of the firearm (34) and can fit closely therein, the pin (18) being sized to accommodate firearms having a certain caliber. While the external features of a firearm can vary significantly, each firearm of a certain caliber will possess a barrel having a generally identical inner diameter to that of other firearms of the same caliber. Once the pin (18) is inserted into the barrel (36), the end of the barrel (36) rests against the generally horizontal portion (16), while the tension member (20) contacts a side of the firearm (34). All other portions of the firearm (34) can remain generally unrestricted and uninhibited due to the lack of additional structure in the depicted holder (10), facilitating easy access, while minimizing bulk and enhancing the ability to conceal the firearm (34) and holder (10). While FIGS. 2A and 2B depict a pin (18) that fits closely within the firearm (34), it should be noted that in other embodiments, a pin (18) having a diameter somewhat smaller than that of the barrel of the firearm (34) can provide adequate stability, enabling the holder (10) to accommodate a variety of firearm calibers.
Thus, the depicted holder (10) can be used universally, to secure any firearm having a barrel with an inner diameter able to accommodate the pin (18), independent of any exterior dimensions, features, and/or accessories the firearm may possess. Further, in various embodiments, the pin (18) can be adjustable and/or replaceable to accommodate firearms of differing calibers, and as described previously, the generally vertical portion (12) and/or the generally horizontal portion (14) can be movable and/or adjustable to accommodate firearms of varying lengths and/or to adjust the carrying height or angle (e.g., cant) of a firearm when secured in the holder (10).
When the firearm (34) is engaged with the holder (10), e.g., as shown in FIG. 2B, contact between the interior of the barrel (36) and the pin (18) can stabilize the firearm (34) (e.g., prevent unintended lateral movement of the firearm (34) when carried), while contact between the tension member (20) and the firearm (34) can generate friction sufficient to prevent undesired movement of the firearm (34) (e.g., vertical movement that could disengage the firearm (34) from the holder (10)).
Referring now to FIGS. 3A through 3C, an alternate embodiment of a gun holder (10) is shown, in which the carry height and the carry angle of a firearm secured thereto is adjustable. Specifically, FIG. 3A depicts a front view of the holder (10), FIG. 3B depicts a side view thereof, and FIG. 3C depicts a front view of the holder (10) disposed in an adjusted position for accommodating a differing carry angle.
The holder (10) is shown having a generally vertical portion (12) from which a clip (14), having a generally flat portion (22) and a crimped portion (24), as described previously, extends, and a generally horizontal portion (16) to which a pin (18), having a cylindrical portion (26) and a tapered end (28), is secured in a generally vertical direction, using a screw (44).
In the depicted embodiment, the generally vertical portion (12) is shown having three separable pieces: an upper section (13) from which the clip (14) extends, a central section (15) movably attached to the upper section (13), and a lower section (17) rotatably and/or pivotably attached to the central section (15). The upper and central sections (13, 15) are each shown having multiple, vertically spaced orifices (38) (e.g., holes) disposed therethrough, for receiving fasteners (40) (e.g., rods, rivets, pins, bolts, screws, and/or other similar members), thus enabling the vertical position of the central and lower sections (15, 17), and all parts of the holder (10) secured thereto, to be adjusted relative to the upper section (13) and clip (14). To lengthen or shorten the height of the holder (10), such as when it is desirable to adjust the carrying height of a firearm relative to a user's belt and/or waistband, corresponding orifices (38) within the upper and central sections (13, 15) can be aligned, and fasteners (40) can be secured therethrough, to secure the upper and central sections (13, 15) in a desired position relative to one another, thus providing a desired spacing between the generally horizontal portion (16) of the holder (10), where the tip of a firearm would generally rest when secured, and the upper end of the clip (14), which would typically rest atop a user's belt and/or waistband.
It should be understood that while FIGS. 3A-3C depict a generally vertical portion (12) that is adjustable through selective manipulation of a pin-in-hole engagement, other means of providing a desired spacing between the clip (14) and the pin (18) and/or generally horizontal portion (16) are also usable, such as Velcro™ or similar hook-and-loop fasteners, adhesives, sliding and/or telescoping members, or other adjustable features. For example, FIG. 3G depicts a holder (10) having a generally vertical portion (12) that includes a hollow upper section (13) from which a clip (14) extends, and a lower section (15) that telescopes into and from the hollow upper section (13) to adjust the vertical length of the holder (10). Pins or similar fasteners can be used to secure the upper and lower sections (13, 15) relative to one another, or alternatively, a locking mechanism (e.g., a button-actuated or similar assembly) can be used to selectively retain the lower section (13) in a fixed position relative to the upper section (15).
Additionally, while FIGS. 3A-3C depict corresponding sets of two horizontally aligned orifices (38), vertically spaced from adjacent sets of orifices, it should be understood that any configuration of orifices or similar fasteners and/or other means of engagement are usable.
Further, in various embodiments, movable members of the generally vertical portion (12) can include protruding features (e.g., teeth or brackets that engage corresponding slots), used independently or in combination with other fasteners, to enable precise adjustment of the length of the generally vertical portion (12). For example, FIG. 4A shows a diagram of an embodiment in which the upper and central sections (13, 15) of the generally vertical portion (12) have teeth (46) on the opposing surfaces thereof. In use, the teeth (46) provide additional friction and stability between the sections (13, 15), and enable small, precise adjustments in length to be made by moving one of the engaged sections relative to the other, such that one or a small number of the opposing sets of teeth (46) pass over one another, e.g., similar to the teeth of a ratchet. In addition to the teeth (46), pins or similar fasteners, such as those shown in FIGS. 3A-3C can be used to secure the upper and central sections (13, 15) in selected positions relative to one another.
FIG. 4B shows a diagram of an alternate embodiment in which the upper section (13) of the generally vertical portion includes a plurality of slots (48), grooves, and/or similar orifices, while the central section (15) includes a series of protrusions (50) complementary to the slots (48). Engagement and/or adjustment between the upper and central sections (13, 15) can be achieved by snapping or otherwise positioning the protrusions (50) into corresponding slots (48). For example, FIG. 4C depicts a detail view of an embodiment in which the protrusions (50) include generally round members with a narrow base, while the slots (48) include generally round orifices with a narrow opening, such that the protrusions (50) can be snap-fit into the slots (48).
Returning to FIGS. 3A-3C, as described previously, the lower section (17) of the generally vertical portion (12) is rotatably and/or pivotably connected to the central section (15), for enabling the relative angle between the generally horizontal portion (16) and/or the pin (18) and the generally vertical portion (12) to be adjusted, thereby adjusting the carrying angle (e.g., cant) of a firearm secured to the holder (10). Specifically, a faster (42) (e.g., a pin, rivet, bolt, rod, etc.) is shown extending through a central portion of the lower section (17), engaging the lower section (17) with the central section (15) in such a manner that the lower section (17) is pivotable and/or rotatable about the fastener (42).
For example, FIGS. 3A and 3B depict the lower section (17) of the generally vertical portion (12) positioned such that the pin (18) extends in a generally vertical direction, parallel to the clip (14), while FIG. 3C depicts the lower section (17) rotated about the fastener (42), such that the pin (18) extends at an angle relative to the clip (14).
It should be understood that the desired angular relationship between the pin (18) and other portions of the holder (10) can be maintained and/or restricted through a variety of methods, including friction between the central and lower sections (15, 17), or various engagements therebetween. For example, FIGS. 5A-5F depict diagrammatic views of various embodiments of engagements between sections of the holder (10) that permit relative rotation therebetween.
FIG. 5A depicts a first cam (52) and a second cam (54), engageable together and rotatably movable about the fastener (42). While two cams (52, 54) are shown, it should be understood that the depicted cams (52, 54) can be representative of two sections of the holder (10) (e.g., the lower and central sections (17, 15)), attached to two sections of the holder, formed within two sections of the holder, or combinations thereof. Thus, the engagement depicted within FIG. 5A could be usable to directly engage the lower and central sections (17, 15) of the holder (10) to one another, and it should be understood that separate cam members are shown independent of the holder (10) for illustrative purposes.
Specifically, the first cam (52) is shown having a protrusion (56) (e.g., a pin, post, rod, rivet, bolt, set screw, or similar member) extending therefrom, which is selectively engageable within one of a plurality of corresponding orifices (58) within the second cam (54). Thus, either or both of the first and second cams (52, 54) can be rotated relative to the other to achieve a selected angle therebetween. The pin (18) can be attached to either of the cams (52, 54), such that the angle of the pin (18) relative to the clip (14) and/or other portions of the holder (10) can be adjusted through rotation of one or both of the cams (52, 54).
Similarly, FIG. 5B depicts a first cam (52) and a second cam (54) rotatably movable about the fastener (42), with the first cam (52) having a protrusion (56) extending therefrom. In the depicted embodiment, the second cam (54) is shown having an arcuate slot (60) formed therein, for enabling free movement of the protrusion (56) within the slot (60), while restricting movement of the protrusion (56) beyond the slot (60). Friction between the first and second cams (52, 54) is usable to retain the cams (52, 54) in a desired position, to thereby select and/or adjust the angle of the pin (18) relative to the clip (14) and/or other portions of the holder (10).
FIG. 5C depicts an embodiment of an engagement that includes a first cam (52) secured to a second cam (54) at a selected rotatable position by selectively securing two set screws (62) or similar fasteners through a desired pair of corresponding orifices (58) within the second cam (54). While the depicted engagement omits a central fastener about which the cams (52, 54) are rotatably movable, disengagement and engagement of the set screws (62) can allow selective rotational positioning of the cams (52, 54) relative to one another. While FIG. 5C depicts two set screws (62) configured for engagement within corresponding orifices (58) on opposing sides of the second cam (54), it should be understood that any number fasteners extending from either cam (52, 54) can be engaged within any number and/or orientation of orifices disposed within the opposing cam. The angle of the pin (18) relative to the clip (14) and/or other portions of the holder (10) can thereby be adjusted through selective positioning of the cams (52, 54) relative to one another.
FIG. 5D depicts an embodiment of an engagement in which a pin (56) or similar protrusion extending from a first cam (52) can selectively engage a plurality of notches, grooves, and/or orifices (66) disposed in a second cam (54). Each of the notches, grooves, and/or orifices (66) are positioned within an arcuate groove and/or depression (64) that restricts movement of the pin (56). Similar to the engagements shown in FIGS. 5A and 5B, the first and second cams (52, 54) are secured to one another using a centrally located pin (42) or similar fastener, about which one or both of the cams (52, 54) can be rotatably moved relative to the other. The cams (52, 54) can be secured in a selected angular relationship relative to one another through engagement between the pin (56) and a selected orifice (66), friction between the cams (52, 54), or combinations thereof, while rotational movement of the cams (52, 54) can be restricted through contact between the pin (56) and the ends of the depression (64) within which the orifices (66) are positioned. Similar to the engagements described previously, the angle of the pin (18) relative to the clip (14) and/or other portions of the holder (10) can thereby be adjusted.
FIG. 5E depicts an embodiment of a rotatable engagement in which a single cam (52) (from which the pin (18) can extend) includes a plurality of teeth (70) along the exterior thereof A worm drive member (68) or similar adjacent portion of the holder (10) can include corresponding grooves and/or depressions (72) for engaging the teeth (70), enabling the relative angle of the cam (52) (and the pin (18) extending therefrom) to be modified through manipulation of the cam (52) and/or the worm drive member (68) such that the teeth (70) are moved through contact with the depressions (72).
FIG. 5F depicts another embodiment of a rotatable engagement between a first cam (52) and a second cam (54), in which the cams (52, 54) are connected by a centrally located pin (42) or similar fastener, to enable either or both of the cams (52, 54) to be rotated relative to one another. The first cam (52) is shown including a series of protrusions (74) disposed about its circumference, that extend into complementary recessions and/or depressions (76) disposed about the circumference of the second cam (54) such that rotation of one or both cams (52, 54) causes each of the protrusions (74) to engage a differing depression (76), while the pin (18) which can extend from either of the cams (52, 54) is positioned at a differing angle relative to the remainder of the holder (10) as either or both of the cams (52, 54) are rotated.
Referring now to FIGS. 3D through 3F, the gun holder (10) of FIGS. 3A through 3C is shown, engaged with a firearm (34) (e.g., a handgun or pistol). As described previously, engagement between the holder (10) and a selected firearm (34) can include insertion of the pin (18) into the barrel of the firearm (34) to prevent unintended movement (e.g., lateral movement) of the firearm relative to the holder (10), while the tip of the barrel rests against the generally horizontal portion (16). When the firearm (34) is engaged with the holder (10) in such a manner, a compressible and/or tension member (20) positioned on the generally vertical portion (12) can contact a side surface of the firearm (34) to generate friction, thereby minimizing unintended movement (e.g., vertical movement) that could remove the firearm (34) from the holder (10).
As described previously, a pin (42) and/or other type of fastener is usable to allow pivotable and/or rotational movement between upper and lower section of the generally vertical portion (12) of the holder (10), such that the relative angle between the pin (18), generally horizontal portion (16), and consequently, the firearm (34), can be selectively adjusted relative to the generally vertical portion (12) and the clip (14), thereby enabling the firearm (34) to be carried at a desired angle relative to a user wearing the holder (10) via the clip (14). For example, FIGS. 3A and 3B depict a generally axial (e.g., parallel) relationship between the firearm (34) and the clip (14), while FIG. 3C depicts the holder (10) after selective rotation about the pin (42), such that a desired angle between the firearm (34) and clip (14) is provided.
Referring now to FIGS. 6A and 6B, an alternate embodiment of a gun holder (10) usable within the scope of the present disclosure is shown, in which the angle of the pin (18) relative to other portions of the holder (10) is rotatably adjustable. Specifically, FIG. 6A depicts a front view of the embodied holder (10), while FIG. 6B depicts a side view thereof
The depicted holder (10) is shown having a generally vertical portion (12), to which a rotatable member (78) is secured using a pin (80) or similar fastener. An insertable member (18) (e.g., a pin, rod, or similar protrusion) extends from the rotatable member (78) for insertion into the barrel of a firearm. The rotatable member (78) can be adjusted, as desired, through rotation about the pin (80), such that the insertable member (18) extends in a selected direction, to provide a desired angular relationship between a firearm secured thereon and the generally vertical portion (12).
It should be understood that while the generally vertical portion (12) is shown lacking a clip or similar fastening portion, as depicted in previous embodiments, any manner of clip or similar securing member can be integral with or separately attached to the generally vertical portion (12) to enable a user to wear the depicted holder (10). Alternatively, a bracket, adhesive, hook-and-loop fastening medium (e.g., Velcro™), or any other type of fastener or fastening medium can be used to secure the holder (10) to a surface (e.g., a portion of a vehicle or article of furniture). Further, it should be understood that in various embodiments, the generally vertical portion (12) itself could be directly secured to a user or surface using any of the above-referenced or any similar means of attachment.
Referring now to FIG. 7, an alternate embodiment of a gun holder (10) is shown, in which the generally vertical portion (12) extends at a preselected, fixed angle relative to the pin (18) and the generally horizontal portion (16). In use, a clip (not shown) or similar fastener can be engaged to a user and/or a surface, such that the pin (18) extends at an angle relative to the clip and generally vertical portion (12), determined by the angle at which the generally vertical portion (12) extends from the generally horizontal portion (16).
Referring now to FIG. 8, an embodiment of a gun holder (10) usable within the scope of the present disclosure is shown. The depicted embodiment includes a generally vertical portion (12) from which a clip (14) having a back portion (22) and a crimped portion (24) extends, and a generally horizontal portion (16) from which a pin (18) sized for insertion into the barrel of a firearm extends.
Of note, the depicted pin (18) is shown extending from the generally horizontal portion (16) at an acute angle (82) toward the generally vertical portion (12). The angle (82) of the pin (18) can urge and/or bias a firearm engaged thereron toward the generally vertical portion (12), creating friction between the firearm and the holder (10) to resist unintended movement of the firearm. Thus, the angled pin (18) of the depicted embodiment is usable in place of a compressible and/or tension member, such as that shown in FIGS. 1A through 1D, or in addition thereto for providing additional friction. The pin (18), the generally horizontal portion (16), and/or the generally vertical portion (12) can be made from a rigid, yet bendable material, such as plastic, wood, metal, rubber, one or more polymers, composites, or combinations thereof, such that when it is desirable to insert the pin (18) into a firearm barrel and/or remove the firearm from the holder (10), the pin (18) and/or other portions of the holder (10) can be bent slightly to facilitate insertion thereof The tapered end (28) of the pin can facilitate insertion of the pin (18) into the barrel of a firearm when disposed at an angle. It is noted that a generally cylindrical pin, lacking a taper at its end, would require precise positioning and bending when inserted into a firearm due to the close fit between the inner diameter of the barrel and the exterior of the pin. Further, in various embodiments, the taper of the pin (18) can enable the holder (10) to be universally useable with any firearm by accommodating firearm barrels having a variety of inner diameters (e.g., through partial or full insertion of a pin having a graduated diameter therein).
Referring now to FIG. 9, an embodiment of a gun holder (10) is shown that includes a body formed from a single contiguous, generally flat member. For example, to facilitate efficient and/or inexpensive production, a generally flat sheet of material can be cut and bent to form the depicted holder (10), such that the clip (14), generally vertical portion (12), generally horizontal portion (16), and insertable member (18) are integral and continuous with one another. It should be noted that in the depicted embodiment, while the insertable member (18) is shown being generally flat along a single dimension, the transverse dimension (e.g., width) of the insertable member (18) can be sized to fit closely with the barrel of a firearm to stabilize the firearm, in the manner described previously. Further, while FIG. 9 depicts a generally straight insertable member (18), in various embodiments, the insertable member (18) could be curved and/or otherwise bent such that the front and rear, flat faces of the insertable member (18) will contact the inner diameter of a firearm barrel at one or more points to provide additional stability. Alternatively and/or additionally, the insertable member (18) could be provided with a twisted and/or spiraled shape, such that multiple points along the circumference of the inner diameter of a firearm barrel are contacted by the insertable member (18). In further embodiments, a generally flat insertable member (18) could have a cut formed therein (e.g., a longitudinal cut), such that a second, generally flat member could be secured therein, at an angle thereto, to provide the insertable member (18) with an additional dimension for contacting the interior of a firearm barrel. Further, while FIG. 9 depicts a single-piece, generally flat embodiment of a gun holder (10), it should be noted that any generally flat portions of the holder (10) can be removable and/or otherwise separate from any other portions, used in combination with any flat or non-flat portions, and can be adjustable relative to any other portion, using one or more of the configurations described previously, or any similar configuration.
Referring now to FIG. 10, an embodiment of a gun holder (10) is shown that includes a generally vertical portion (12) and a generally horizontal portion (16) from which a pin (18) extends, as described above. Additionally, FIG. 10 depicts an external structural member (84), shown as a curved, bowed, and/or bendable piece of material protruding from the generally horizontal portion (16), that contacts a side surface of a firearm when engaged by inserting the pin (18) therein. The external structural member (84) can be used in addition to or in place of a compressible and/or tension member, such as that shown in FIGS. 1A through 1D, and in addition to or in place of an angled pin, such as that shown in FIG. 8. In addition to stabilizing a firearm through direct contact, the external structural member (84) can also provide tension, such as by urging a firearm against the generally vertical portion (12), to create friction between the firearm and the generally vertical portion (12) and/or the external structural member (84) to further prevent undesired movement of the firearm. In an embodiment, the length and/or width of the external structural member (84) can be limited, such that the handle and three sides of a secured firearm remain readily accessible, to facilitate rapid removal of the firearm from the holder (10). While FIG. 10 does not depict a clip or similar fastener engaged with the generally vertical portion (12), as described previously, a removable clip and/or other means for attachment to a user and/or a surface can be engaged with the holder (10), as needed.
It should be noted that while FIG. 10 depicts a single external structural member (84) disposed opposite the generally vertical portion (12), in various embodiments, additional structural members could be provided elsewhere along the sides of the holder (10) (e.g., attached to the generally vertical portion (12), the generally horizontal portion (16), or elsewhere on the holder (10)), such as perpendicular to the generally vertical portion (12) (e.g., to contact the top and bottom of a firearm engaged with the holder (10)) and/or at various positions along the length of the generally vertical portion (12). For example, one or more external structural members could be provided at differing heights, e.g., near the top of the holder (10), for stabilizing a secured firearm while a user rolls or performs other physical movements. In other embodiments, the holder (10) can include protruding members configured to contact a user rather than the firearm, such as a protrusion extending from the generally vertical portion (12) to provide a space between the holder (10) and a firearm secured thereon and a user, e.g., to prevent uncomfortable contact between the firearm and the user's body. For example, an additional structural member may include an additional clip or similar fastener, to enable the holder (10) be attached in differing orientations. In still other embodiments, the tension provided by the one or more external structural members may render the pin (18) unnecessary, and as such, the pin (18) may be omitted.
In various embodiments, the gun holder can include one or more additional structural members and/or a configuration that will at least partially cover a trigger guard of a firearm, and/or provide additional stability when the firearm is secured.
For example, FIG. 11 depicts a diagrammatic view of an embodiment of a gun holder (10) engaged with a firearm (34) via insertion of a pin (18) into the barrel thereof. The depicted embodiment includes a protrusion and/or extension (88), extending from the generally vertical portion (12), thus spacing the pin (18) and generally horizontal portion (14) of the holder (10) a desired lateral distance from the generally vertical portion (12), such that when the firearm (34) is engaged with the holder (10), the generally vertical portion (12) covers the trigger guard (86) of the firearm (34). In various embodiments, the spacing between pin (18) and the generally vertical portion (12) can be modified, e.g., through engagement of the pin (18) within selected orifices through the generally horizontal portion (16), or similar means of engagement, enabling the holder (10) to accommodate firearms having differing external dimensions and/or features, and to enable the trigger guard of the firearm to be covered, if desired.
FIG. 12 depicts an embodiment of a gun holder (10) engaged with a firearm (34) via insertion of a pin (18) into the barrel thereof. The depicted embodiment includes a generally vertical portion (12) that extends at an angle relative to the generally horizontal portion (16) and the pin (18), both to affect the carrying angle of the firearm (34), and to cover the trigger guard (86) thereof. The depicted embodiment further includes an additional structural member (90) that extends adjacent to the generally vertical portion (12), for providing additional stability to the firearm (34) when carried.
FIG. 13 depicts an embodiment of a gun holder (10) engaged with a firearm (34) via insertion of a pin (18) into the barrel thereof The depicted embodiment includes a protrusion and/or extension (92), extending from the generally vertical portion (12), to cover the trigger guard (86) of the firearm (34) (e.g., to prevent accidental discharge).
While FIGS. 11 through 13 depict certain embodiments of holders that include portions usable to cover and/or otherwise protect the trigger guard of a firearm, it should be understood that these particular embodiments are exemplary, and that any portion of the gun holder can be shaped to cover any portion of a secured firearm to add stability and/or protect the trigger guard thereof, and that any portion of the gun holder can include any additional protrusion, extension, and/or other structure that covers any desired portion of a firearm.
Embodiments of gun holders usable within the scope of the present disclosure can also include adjustable pins, for engaging firearms having differing lengths, calibers, and/or external features.
For example, FIG. 14 depicts a diagrammatic view of a pin (18) having five sections that can be threaded, force-fit, snap-fit, or otherwise engaged to one another. Specifically, the pin (18) is shown having a tapered tip portion (96), a central portion (98), and a lower portion (100), which can be formed from generally rigid materials (e.g., plastic, metal, wood, composite, polymer, other similar materials, or combinations thereof). An upper compressible portion (102) is positioned between the tip and central portions (96, 98), while a lower compressible portion (104) is positioned between the central and lower portions (98, 100). The compressible portions (102, 104) can be made from any generally compressible material, such as rubber or various polymers. To provide a desired outer diameter to the pin (18) for engaging a barrel of a firearm having a certain inner diameter, a screw (106) or similar fastener can be threaded or otherwise engaged through a bore extending through one or more of the sections of the pin (18). As the screw (106) is tightened, the rigid portions (96, 98, 100) of the pin (18) are urged closer together, compressing the compressible portions (102, 104) therebetween. Compression of the compressible portions (102, 104) causes the compressible portions (102, 104) to expand outward to a desired outer diameter, such that the compressible portions (102, 104) can snugly fit within a barrel of a firearm having an inner diameter that exceeds the outer diameter of the rigid portions (96, 98, 100).
FIG. 15 depicts a diagrammatic view of a pin (18) having a generally rigid body (108) with upper and lower recessions (110, 112) (e.g., grooves, channels, slots, etc.) formed therein. The recessions (110, 112) are usable to accommodate O-rings (not shown) or similar compressible and/or rigid sealing or spacing members. In use, sealing members can be positioned within the recessions (110, 112) to provide the pin (18) with a desired outer diameter corresponding to an inner diameter of a barrel of a firearm.
FIGS. 16A and 16B depicts a diagrammatic side view and top view, respectively, of a pin (18) having two longitudinal cuts (114, 116) (e.g., slots) formed therein, generally perpendicular to one another. The cuts (114, 116) provide the body of the pin (18) with a degree of flexibility for adjusting the diameter thereof. In use, a screw (106) or similar fastener can be threaded or otherwise engaged with a bore in the lower end of the pin (18), to cause expansion of the upper end thereof in an outward direction (118).
FIG. 17 depicts a diagrammatic side view of an embodiment of a holder (10) having a pin (18) that can provide an adjustable degree of tension to a secured firearm. Specifically, the holder (10) is shown having a hinge (120), securable in a fixed position using fasteners (122, 124). Through manipulation of the hinge (120), the angle of the pin (18) relative to the generally vertical portion (12) can be adjusted, allowing a variable degree of tension to be provided to a secured firearm by angling the pin in an inward direction (126).
Referring now to FIG. 18, a diagrammatic side view of an embodiment of a holder (10) is shown, engaged with a firearm (34) through insertion of a pin (18) into the barrel thereof. The depicted holder (10) is shown having an attached magazine and/or clip holder (128), adjacent thereto, to enable a user to simultaneously carry additional ammunition when carrying a firearm. The magazine holder (128) is shown having three side supports (132, 134, 138) that are bowed, curved, and/or tensioned inward to grip a magazine (130) therein. It should be noted that due to the movable and/or tension-based nature of the side supports (132, 134, 138), the magazine holder (128) can function as a “universal” holder able to hold magazines of various sizes, while conventional holders for retaining clips and/or magazines must often be tailored to accommodate a specific magazine. It should further be noted that while FIG. 18 depicts three supports (132, 134, 138) on three sides of the magazine (130), any configuration of supports usable to tension and/or otherwise resist removal and/or unintended movement of the magazine (130) is usable. Further, in an embodiment, an insertable member (e.g., similar to the pin (18)) can be inserted into a corresponding orifice of the magazine (130), or alternatively, a horizontal member can be engaged with a lower portion of the magazine (130), e.g., in the place where the lowest bullet within the magazine (130) would be positioned.
Thus, embodiments described herein relate to holders for firearms, and related methods, usable as “universal” holders for securing multiple firearms in a variety of orientations. While generally, embodiments of holders usable within the scope of the present disclosure can include a member for insertion into a barrel of a firearm, used in combination with a tension member (e.g., magnets, frictional surfaces, and/or compressible members) to create friction between the firearm and the holder, or in the absence of a tension member when the insertable member is angled toward the body of the holder to create this friction directly, other embodiments can include additional structural members for protecting the trigger guard of the firearm and/or providing additional stability. Further embodiments can include features that enable adjustment of the length and/or angular relationship of any portions of the holder, the diameter of the insertable member, and/or the tension provided by the holder to the firearm.
While various embodiments usable within the scope of the present disclosure have been described with emphasis, it should be understood that within the scope of the appended claims, the present invention can be practiced other than as specifically described herein.

Claims

1. A holder for a firearm having a barrel, the holder comprising:

a body having

a first portion comprising

a fastener for attachment to a surface, and

a second portion comprising

an insertable member for insertion into the barrel of the firearm to stabilize movement of the firearm against relative to the body,

wherein the insertable member extends at an angle toward the first portion and biases the firearm against the body to create friction between the firearm and the body for preventing unintended movement of the firearm relative to the body.

2. The holder of claim 1, wherein the body further comprises a protruding portion that extends over a trigger guard of the firearm.

3. The holder of claim 1, wherein the fastener comprises a clip adapted to attach to at least one article of clothing worn by a user.

4. The holder of claim 1, wherein the fastener engages the surface with an engagement having a strength that exceeds the friction between the firearm and the body for enabling removal of the firearm from the body without removing the body from the surface.

5. The holder of claim 1, wherein the insertable member comprises a tapered end for facilitating insertion into the barrel of the firearm.

6. The holder of claim 1, wherein the insertable member comprises a cylindrical shape, a conical shape, a frustroconical shape, a domed shape, or combinations thereof.

7. The holder of claim 1, wherein the insertable member comprises a generally flat shape having a width corresponding to an inner diameter of the barrel of the firearm.

8. The holder of claim 1, wherein the first portion contacts a single side of the firearm and is adapted to engage the firearm in a plurality of orientations, and wherein the fastener is adapted to engage at least one article of clothing worn by a user in multiple orientations depending on an orientation of the firearm.

9. The holder of claim 1, wherein the first portion comprises a first member and a second member axially movable relative to the first member for adjusting a length of the body to accommodate a corresponding length or external feature of the firearm.

10. The holder of claim 1, wherein the second portion is pivotable relative to the first potion for accommodating a carrying angle for the firearm.

11. The holder of claim 1, wherein the insertable member comprises a first dimension corresponding to a first inner diameter of a first barrel and is removable from the body and replaceable with an additional insertable member comprising a second diameter corresponding to a second inner diameter of a second barrel.

12. The holder of claim 1, wherein the insertable member comprises an adjustable length, an adjustable width, or combinations thereof, for accommodating firearm barrels of various sizes.

13. The holder of claim 1, wherein the insertable member comprises at least one removable spacing member disposed in association therewith for accommodating firearm barrels of various diameters.

14. A holder for a firearm, the holder comprising:

a body having

a first portion comprising

a fastener for attachment to a surface and

a tension member positioned thereon, and

a second portion comprising

an insertable member for insertion into a barrel of the firearm to stabilize the firearm against lateral movement relative to the body,

wherein the tension member contacts the firearm and creates friction between the firearm and the tension member for preventing unintended movement of the firearm relative to the body.

15. The holder of claim 14, wherein the body further comprises a protruding portion that extends over a trigger guard of the firearm.

16. The holder of claim 14, wherein the fastener comprises a clip adapted to attach to at least one article of clothing worn by a user.

17. The holder of claim 14, wherein the fastener engages the surface with an engagement having a strength that exceeds the friction between the firearm and the body for enabling removal of the firearm from the body without removing the body from the surface.

18. The holder of claim 14, wherein the insertable member comprises a tapered end for facilitating insertion into the barrel of the firearm.

19. The holder of claim 14, wherein the insertable member comprises a cylindrical shape, a conical shape, a frustroconical shape, a domed shape, or combinations thereof.

20. The holder of claim 14, wherein the insertable member comprises a generally flat shape having a width corresponding to an inner diameter of the barrel of the firearm.

21. The holder of claim 14, wherein the first portion contacts a single side of the firearm and is adapted to engage the firearm in a plurality of orientations, and wherein the fastener is adapted to engage at least one article of clothing worn by a user in multiple orientations depending on an orientation of the firearm.

22. The holder of claim 14, wherein the first portion comprises a first member and a second member axially movable relative to the first member for adjusting a length of the body to accommodate a corresponding length or external feature of the firearm.

23. The holder of claim 14, wherein the second portion is pivotable relative to the first potion for accommodating a carrying angle for the firearm.

24. The holder of claim 14, wherein the insertable member comprises a first dimension corresponding to a first inner diameter of a first barrel and is removable from the body and replaceable with an additional insertable member comprising a second diameter corresponding to a second inner diameter of a second barrel.

25. The holder of claim 14, wherein the insertable member comprises an adjustable length, an adjustable width, or combinations thereof, for accommodating firearm barrels of various sizes.

26. The holder of claim 14, wherein the insertable member comprises at least one removable spacing member disposed in association therewith for accommodating firearm barrels of various diameters.

27. A method for securing a firearm comprising the steps of:

attaching a first portion of a holder to a surface;

inserting an insertable member extending from a second portion of the holder into a barrel of a firearm, wherein contact between the insertable member and the barrel stabilizes the firearm against lateral movement relative to the holder; and

contacting the firearm with the holder to generate friction between the firearm and the holder, wherein the friction stabilizes the firearm against unintended vertical movement relative to the holder.

28. The method of claim 27, wherein attaching the first portion of the holder to the surface comprises engaging a fastener to at least one article of clothing of a user.

29. The method of claim 28, wherein engaging the fastener to said at least one article of clothing of the user comprises engaging a clip to a belt, a waistband of a garment, or combinations thereof such that the firearm is positioned in an interior of the belt, the waistband, or combinations thereof.

30. The method of claim 27, wherein the insertable member extends at an angle toward the first portion, and wherein contacting the firearm with the holder to generate the friction comprises biasing the firearm against the body using the insertable member to create the friction.

31. The method of claim 27, wherein the first portion comprises a tension member positioned thereon, and wherein contacting the firearm with the holder to generate the friction comprises contacting the firearm with the tension member to create the friction.

32. A method for securing a firearm with respect to clothing on a person, a structure, or combinations thereof, the firearm comprising a mass and a barrel having a length, the method comprising the steps of:

attaching a holster to the clothing, the structure, or combinations thereof;

securing the firearm to the holster using the barrel of the firearm for preventing movement of the firearm relative to the holster;

applying a tension between the firearm and the holster, generating friction between the firearm and the holster, or combinations thereof; and

adjusting at least one of the tension or the friction with respect to the mass of the firearm, the length of the barrel, the other of the tension or the friction, or combinations thereof,

such that the firearm is stabilized in the holster with respect to the clothing, the structure, or combinations thereof and the firearm is readily removable from the holster upon demand.