This invention relates generally to a universal receiving apparatus for collecting/depositing spent ammunition shells/casings making it easier to clean up your brass.
There is an economic benefit to reloading spent shell casings from shot bullets. By individually assembling the components of a firearm cartridge (including the case/hull, primer, powder, and bullet) within an already used shell, the regular shooter financially benefits from such resourcefulness.
Another benefit to reloading spent shell casings is the ability to customize the performance of ammunition. By building cartridges that precisely fit a firearm's chamber with bullets seated as close to the lands as needed, a shooter can induce maximum accuracy performance.
The current state of shell collectors comprises of three types of brass collectors. The first type is a bulkiest option which operates similar to a sweeper cleaner. The user rolls the brass collector over the shells that are then captured by a rolling bristle. Due to the size and cost of such apparatus, such collector is inefficient for the solo firearm user. The second type of collector is a compact version of the sweeper-style apparatus. Nonetheless, this version is still too bulky for the solo firearm user. The third type is the most compact collector is a bag or some other collection means that reversible attaches to a firearm. The drawbacks of such apparatus is that it has multiple attachment points, requiring both hands for assembly. Further, such device adds weight to the firearm and wears on the firearm's surface, it is also difficult to show the range master your chamber is clear during a cease fire.
Accordingly, there is a need in the arms for a lightweight and portable bag collector that is easily adaptable to any firearm without adding excessive weight. This and other features are described in the current application.
Embodiments of the invention as described herein relate to a versatile shell casing receiver for receiving and holding spent or fired shell casings. According to embodiments of the current invention, a shell casing receiver comprising of a horseshoe member and an arm member wherein said arm member extends from a crown segment of said horseshoe member so that there is an inlet between said horseshoe member and said arm member.
According to embodiments of the current invention, the arm member extends over the crown of the horseshoe member. Specifically, the arm member substantially follows the curvature of the horseshoe member.
According to embodiments of the current invention, the terminal ends of the horseshoe member are bulb shape. In some embodiments, one or more bulbous ends are hollow. In alternate embodiments, one or more bulbous ends are solid. In even further embodiments, one bulbous end is hollow while the other bulbous end is solid.
According to alternate embodiments of the current invention, the terminal ends of the horse member are triangular or substantially triangular. Specifically, the apex of each triangular (or substantially triangular) end are faced towards each other. In some embodiments, one or both of the triangular ends are indented at a base end.
According to alternate embodiments of the current invention, the shell casing receiver is also comprised of a mounting member. The mounting member extends from the crown segment of horseshoe member towards the center of the arch. In some embodiments, the bottom end of the mounting member is flat. In some embodiments, the mounting member extends from a rear end of the inner edge of the horseshoe member so that the rear side of the she casing receiver is planar.
According to embodiments of the current invention, the terminal end of an arm member is configured with a hook extension.
A shell casing collection kit is also claimed. The shell casing collection kit comprises a (i) shell casing receiver with a horseshoe member and an arm member and (ii) a sleeve. The shell casing receiver includes a horseshoe member and an arm member. The arm member can either be projected from the crown of the horseshoe member or the hauch of the horseshoe member. The extension of the arm member from the horseshoe member creates an inlet between the two members. The sleeve is adapted to be received within the inlet.
In the preferred embodiment, a universal apparatus that is adapted to receive ejected shell casings from a firearm comprising of two members is disclosed. The shell casing receiver is a horseshoe-shaped member with an extending arm member. In one embodiment, the arm member protrudes from the crown portion of the horseshoe member and generally follows the curvature of the crown portion of the horseshoe member. Alternate embodiments include an arm member that is projected from other portions of the horseshoe member. The relative position of arm member from the horseshoe member creates a gap or inlet between the members. The horseshoe member provides sufficient flexibility to hug a platform of a firearm, thereby adapting to any position on any firearm. The arm member allows the user to employ a collection device, such a bag or the user's head-wear to capture/deposit the spent shells. The shell casing receiver ends with terminal ends that serve as fasteners.
In embodiments of the current invention, the horseshoe member is generally a continuous piece with indistinct portions. A lateral sides of the horseshoe member are referred to as the hauch(es). On one end, the hauch extends into a terminal end of the horseshoe member; on the other end, the haunch extends into the crown of the horseshoe member. The highest point of the crown is the apex.
In the preferred embodiment, the arm member extends out from the area where the hauch becomes the crown portion of the horseshoe member and unfurls over the crown so there is an inlet between the two members. In alternate embodiments, the arm member extends from the hauch. Specifically, in the alternate embodiments, there are two projections from the inner edge of the hauch—one projection protracts into the crown of the horseshoe member while the other projection protracts into the arm member.
According to embodiments of the current invention, a catching device is affixed to a firearm by means of the arm member. The curvature of the arm member facilitates the threading of a catching device onto the shell casing receiver. Meanwhile the terminal end of the arm member functions to secure the catching device in place. Embodiments of the current invention include one of many ends on the arm member. In the preferred embodiment, the terminal end of the arm member interrupts the curvature and projects outwards. In other embodiments, the arm member projects at an angle less than ninety (90) degrees.
Furthermore, embodiments of the current invention include arm members that that extend in either the right direction or the left direction. This allows the user to mount a catching device on either side of the firearm rendering the current invention suitable for both right-handedness and left-handedness.
The terminal ends of the horseshoe member are designed as fasteners to bolster the current invention's ability to secure latch onto a receiving party. In general, the ends comprise of projecting elements that reinforce the clamping ability of the current invention. In one embodiment, the terminal ends are bulbous in shape. The bulges reduce the distance between each end thereby functioning as a barrier to restrict the current invention's ability to snap off the firearm. Alternate embodiments include ends with sharp projections that are triangular in configuration.
Once the horseshoe member is secured, the arm member functions as a clip to secure a catching device. The inlet created between the arm member and the horseshoe member is able to receive any pliable material that functions as net for catching the ejected shells. Further, the narrow and curved nature of the inlet prevents the pliable material from sliding out.
Embodiments of the current invention function to snap onto any type of receptive part, including but not limited to the scope, red dot site, and the rails. Notably, the current invention is is adaptable to any and all rail system types such as the dovetail rail, the Picatinny rail, M-lock system, and KeyMod system
According to the preferred embodiment of the current invention, the shell casing receiver may be comprised of plastic material. Alternative embodiments may comprise of metal and/or a hybrid material comprising of metal and plastic.
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According to embodiments of the shell casing collection kit, the sleeve is a tube. One side of the tube is a clip side that is threaded through and latches onto the shell casing receiver. The opposite side is the stiffener side that is configured to hold the collected shell casings. In detail, the sleeve is long panel, where at least one end of the panel is folded over and affixed at the side seams to yield a pocket on the clip side. In some embodiments, the arm member if fully received within the pocket. In alternate embodiments, the pocket comprises of one or more slits through which the arm member project out of the pocket. The stiffener side hangs over the shell casing receiver and is also configured with a pocket to store the collected casing. In some embodiments, the pocket on the stiffener side is folded over so that the bottom portion is continuous while the side seams are fastened together by thread, glue, or any other adhesive material. In alternate embodiments, the pocket on the stiffener side is formed by fastening a separate piece.
According to an alternate embodiment of the sleeve component, each sleeve may be reversible closed with a sealing means such as zippers and/or buttons. Furthermore, the sleeve may be customizable to allow for customized images (e.g. via silk screen process, embroidery).
In the preferred embodiment, the sleeve is comprised of heavy weight fabrics such as upholstery fabric, canvas, and denim. However, alternate embodiments include lightweight materials such as nylon (in solid and mesh form).
It will be readily apparent that the shell casing receiver is easily and quickly snapped onto (and off) of a firearm yet still firmly and securely positions itself without the need for additional hardware or accessories. The shell casing receiver can be slightly modified to affix to any type of base or firearm component, and is of simple construction. This renders the current invention relatively inexpensive to manufacture.
This application claims the benefit of U.S. Provisional Patent Application No. 62/794,925 filed Jan. 21, 2019, which is hereby incorporated by reference in its entirety.
Number | Name | Date | Kind |
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D361506 | Rumpel | Aug 1995 | S |
D564347 | Limber | Mar 2008 | S |
7562484 | Kim | Jul 2009 | B2 |
8650794 | Swan | Feb 2014 | B2 |
8839546 | Taylor | Sep 2014 | B2 |
Entry |
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“Deck Clips | Adams Maufacturing”, https://www.adamsmfg.com/products/christmas-hardware-accessories/light-clips/deck-clips (Year: 2018). |
Number | Date | Country | |
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20200232736 A1 | Jul 2020 | US |
Number | Date | Country | |
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62794925 | Jan 2019 | US |