This invention relates generally to the field of firearm cleaning kits, and more particularly to a modular kit case adapted for releasable securement to a base cleaning kit case.
Proper cleaning of a firearm after use is essential to ensuring the firearm retains its accuracy, safety, and reliability. With each firing, the breech and bore of a firearm accumulate residue such as powder, priming compound, and copper fragments from ammunition casings. In addition, environmental elements such dirt, snow, and moisture can accumulate in the bore, causing further fouling. Fouling and debris may also accumulate in the firearm's action due to its design, or improper maintenance. Failure to remove the residue and debris results in a decrease in the firearm's accuracy and reliability, and may even pose a safety hazard to the operator. Therefore, proper cleaning is one of the most important elements of firearm ownership.
Civilians who shoot and clean firearms often fashion their own tools to aide in the cleaning process. However, these homemade cleaning tools are generally not portable or lightweight. When cleaning a firearm, components or cleaning tools may be set aside during the cleaning process and, due to their small size, may be misplaced or lost. Therefore, civilians have a need for a lightweight and compact firearm cleaning kit that stores cleaning tools and provides additional storage capability.
Military personnel need to be able to clean their weapons in the field, preferably immediately after shooting so that their firearm is ready for use at all times. An important aspect of the cleaning process is that the cleaning kit be compact and lightweight, organized, and able to store firearm components or spare tools and cleaning supplies. Therefore, military personnel also need for a lightweight and compact firearm cleaning kit that stores cleaning tools and provides additional storage capability for the cleaning of military weapons.
To answer the need for portable, compact, and lightweight storage cases for firearm cleaning materials and tools, many different types of firearm cleaning kits have been designed for military and consumer use. Specialized, compact cleaning kits have been custom-designed to store the precise tools and components needed to thoroughly clean a particular firearm. For example, firearm cleaning tool kits have been designed to store specific cleaning tools such as brushes, picks, scrapers, and rods.
As the complexity of firearms increases, and additional accessories such as advanced optics become more commonplace, there is a need for specialized implements to complement the firearms and accessories. This need for specialized implements is compounded when the user has several firearms at their disposal, as may be the case for a soldier in an infantry squad. As specialized implements are continually added to a cleaning kit, the compactness of the kit suffers. Further, multiple firearms may require multiple cleaning kits. One solution is to scavenge cleaning implements and cram them into an existing or home-made case, but this approach is not favored due to the likelihood of losing implements or, worse, packing the wrong implements.
Disclosed herein is a firearm cleaning kit that alleviates the problems noted in the art. In one aspect, the firearm cleaning kit includes a case comprising a first side and a second side joined along a fold line, and a fastener for joining together the first and second side of the case. A tool-holding insert is secured to an interior region of the case. The tool-holding insert includes a plurality of tool cavities and a first firearm cleaning implement removably secured in one of the tool cavities. The first firearm cleaning implement is adapted for cleaning a first type of firearm. The firearm cleaning kit further includes a cable reel adapted to store a coiled flexible cable cleaning rod.
In one embodiment, the cable reel includes a circular flat base on which the coiled flexible cable cleaning rod rests, and a plurality of capture elements disposed around the outer perimeter of the base. The capture elements each include a capture cavity to secure the coiled flexible cable cleaning rod.
The capture element may include a back spine extending transversely from the base, and a cap portion extending transversely from the spine.
In another aspect of the invention, a firearm cleaning kit includes a case comprising a first side and a second side joined along a fold line, and a fastener for joining together the first and second side of the case. The firearm cleaning kit further includes a tool-holding insert secured to an interior region of the case. The tool-holding insert includes a plurality of tool cavities and a first firearm cleaning implement removably secured in one of the tool cavities. The firearm cleaning kit further includes a hardened implement protective shell sized to fully surround and enclose by friction fit at least a portion of a second firearm cleaning implement.
In one embodiment, the second firearm cleaning implement is a brush having a plurality of bristles, and the protective shell fully surrounds and encloses the bristles by friction fit.
The implement protective shell may be formed of hardened plastic.
In another aspect of the invention, a firearm cleaning kit includes a base cleaning kit, at least one module attachment element affixed to an exterior portion of the base cleaning kit, and a first modular kit case adapted for storing at least one specialized cleaning implement. The base cleaning kit is adapted to store cleaning implements for a first class of firearm. The base cleaning kit includes a case having a first side and a second side joined along a fold line, a fastener for joining together the first and second side of the case, a tool insert secured to an interior region of the case, and a first firearm cleaning tool secured within the tool insert. The first modular kit case is sized smaller than the base cleaning kit, and includes a first external fastening element adapted for releasable securement to the at least one module attachment element of the base cleaning kit. The specialized cleaning implement not included in the base cleaning kit.
In one embodiment, the firearm cleaning kit further includes a second modular kit case different from the first modular kit case. The second modular kit case includes a second external fastening element adapted for releasable securement to a second module attachment element on the base cleaning kit.
The second external fastening element may be identical to the first external fastening element of the first modular kit case.
In another embodiment, the specialized cleaning implement of the first modular kit case is adapted for a second class of firearm.
In another embodiment, the specialized cleaning implement of the first modular kit case comprises a cleaner for optical surfaces of a firearm.
In another embodiment, the first modular kit case is a drop pouch.
The features described herein can be better understood with reference to the drawings described below. The drawings are not necessarily to scale, emphasis instead generally being placed upon illustrating the principles of the invention. In the drawings, like numerals are used to indicate like parts throughout the various views.
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The kit 1000 further includes a fastener 1010 to secure the first side 1004 to the second side 1006 when the case 1002 is in the closed position. The fastener 1010 in the disclosed embodiment is a zipper, configured to zip along three sides of the case 1002. Other fastener configurations are possible. For example, the fastener 1010 may be one or more snaps, hook and loop strips such as VELCRO® brand fasteners, or ties. The fastener 1010 in the preferred embodiment is a silent zipper due to its strength, ease of use, and quiet operation.
The firearm cleaning kit 1000 may further include a length of material formed into a closed loop, hereinafter referred to as loop 1012. The loop 1012 is affixed to the case 1002 at a fixed end 1014, leaving a free end 1016 distal to the fixed end. The width of the material is substantially greater than the material thickness, so as to aide in forming a storage compartment, as will be discussed below. In the disclosed embodiment, the material is elastic, approximately 0.75 inches in width, and approximately 0.045 inches thick. The length of the material is such that when doubled over to form the loop, the loop nests into the case 1002. The loop 1012 may be fixed to the case 1002 at any convenient location. In the disclosed example, the loop 1012 is affixed to an interior region of the case 1002. However, the loop 1012 may alternatively be affixed to the fold line 1008, or the exterior of the case.
A divider piece 1018 has a single slot therethrough. The slot width is slightly greater than the width of the elastic material. In the disclosed embodiment, the width of the slot is approximately 0.80 inches. The slot height is dimensioned to be no more than twice the thickness of material. In the disclosed embodiment, the height of the slot is approximately 0.08 inches.
The divider piece 1018, coupled with a portion of the loop 1012, forms an adjustable storage compartment 1020.
The firearm cleaning kit 1000 further includes at least one tool-holding insert 1022 secured to the interior of the case 1002 by an attachment element 1024. In one example, the attachment element 1024 is secured to the fold line 1008. The attachment element 1024 may permanently secure the tool-holding insert 1022 to the case 1002 or, as disclosed herein, the attachment element 1024 may provide a means to release the tool-holding insert 1022 from the case.
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The flexible back plate 1028 includes a raised wall 1038 defining a enclosure 1040. The raised wall 1038 is shaped to ensconce and protect the particular type of cleaning tool being stored. For example, the cleaning tool 1034 may be a scraper. The raised wall 1038 will form a generally rectangular shape, as illustrated. In other examples, the cleaning tool 1034 may be a right-angle pick, and the raised wall 1038 will form an L-shaped enclosure 1040. The possible shapes of the raised wall 1038 are as varied as the types of tools being stored, as will be described in more detail below.
To provide flexibility, the tool-holding insert 1022 may comprise a rubber compound such as a thermoplastic elastomer (TPE). Depending upon the choice of material, the tool-holding insert 1022 may be injection molded to form a unitary, one-piece construction. The raised wall 1038 and tool tip enclosure 1040 are aligned with the tool base cavity 1030 to provide a unitary holding structure. In one embodiment, the raised wall 1038 is formed integral with tool base cavity 1030. In another embodiment, a relief 1042 may be provided between the raised wall 1038 and the tool base cavity 1030. The relief 1042 allows the flexible back plate 1028 to deflect a greater degree during replacement and removal of tools.
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A detachable portion 1080 of the attachment element 1024 includes a cylindrical element 1082 joined to the tool-holding insert 1022 by a stem 1084. The cylindrical element 1082 includes a raised detent 1086 on the cylindrical surface. To secure the tool-holding insert 1022 to the case 1002, the stem 1084 of the cylindrical element 1082 is aligned with the slot 1076 on the fixed portion 1068 of the attachment element 1024, which also aligns the raised detent 1086 with the engagement recess 1078. The cylindrical element 1082 slideably engages the bore 1072 until the raised detent 1086 snaps into the engagement recess 1078.
The disclosed arrangement is only one example of an attachment element 1024. In other arrangements, the attachment element 1024 may comprise snaps, VELCRO® brand fasteners, or the like. In other embodiments, the case 1002 may not include the attachment element 1024, such when the tool-holding insert 1022 is permanently fixed to the case 1002, for example by sewing.
Referring now to
Standard-issue or off-the-shelf gun cleaning kits include a wide variety of cleaning tools and implements to accommodate as many types of guns as possible. For example, a manufacturer may offer a military gun cleaning kit that is compact, lightweight, and is designed to clean and maintain all 5.56 MM, 7.62 MM, 9 MM, 0.40 caliber, 0.45 caliber, 0.50 caliber, and 12 gauge weapon systems. By serving the needs of many different types of gun owners with a single product offering, the manufacturer of the gun cleaning kit is able to utilize economies of scale and keep manufacturing costs low. In turn, the retail price for the cleaning kit is quite affordable. However, a one-kit-fits-all approach inevitably results in some of the implements going unused. In a compact kit, unused implements occupy valuable space that may otherwise be used for other useful implements.
To this end, gun cleaning kit manufacturers have offered products that are tailored to a specific class of firearms, such as 5.56 MM military variants. A cleaning kit for this class may be specifically designed to clean the C7, C8, M16, M249 SAW, M4, Mod 46, and HK 416 firearms, for example. Although a cleaning kit designed for a class of firearms can be useful and may be advantageous for certain applications, it suffers from drawbacks. For example, the kit may not include implements to clean and scrape hard to reach places such as the locking lugs, the slides, the bolt face, and rails. Or, the kit may not include implements to clean and maintain the optical gunsights.
A growing percentage of current military weapons include advanced optical gunsights. For example, the M16 rifle and M4 carbine are often outfitted with a M68 Close Combat Optic (CCO), a red dot laser sight mounted on the tactical rail. Designed for use at close quarters of less than 100 yards, the M68 is a non-magnified, both-eyes-open aiming solution which provides rapid target acquisition and allows accurate aiming in low-light conditions. For long-range sighting, the M16 and M4 may be outfitted with the Advanced Combat Optical Gunsight (ACOG), a telescopic sight that provides fixed power magnification levels from 1.5× to 16×, depending on model. Additionally, the M240 machine gun, or squad automatic weapon (SAW) in wide usage by infantry soldiers, may be outfitted with a M145 Machine Gun Optic, which is a small arms scope of 3.4× magnification mounted on the tactical rail.
All of the above-described optical gunsights, as well as infrared night vision equipment, rangefinders, binoculars, cameras, and eyewear perform best when cleaned of dust, fingerprints, dirt, and water spots. Therefore, a gun cleaning kit ideally should include implements that provide quick and accurate cleaning while protecting the delicate optical surfaces. Some gun cleaning kit manufacturers offer additional cleaning kits for optics, but these kits must be carried separately, often occupying valuable space on the MOLLE attachment. Some gun cleaning kits include optics cleaners stored within the kit case, but due to space limitations the optics cleaners may not be optimized for the particular optics being used.
In addition to cleaning optics, the exterior surfaces of a firearm may need periodic cleaning. For example, in geographic locations that are prone to environmental sand and dust, firearm owners must periodically wipe down the exterior surfaces of their firearms to prevent the fine-grain sand and dust from interfering with the firearm's internal components. A common implement used for this purpose is a 3-inch stiff bristle paint brush. Although a household paint brush can be useful for exterior cleaning, the brush is too large to fit within the interior of most cleaning kits and therefore must be carried separately. Any implement carried separately is prone to being lost or forgotten.
As can be appreciated, as firearm accessories become more specialized and the geographical field of operation becomes more specific, a gun cleaning kit may require a large number of specific cleaning implements for optimum care. However, manufacturing and carrying inventory on a large number of model-specific gun cleaning kits is less economical and therefore increases the retail price, and in some markets the price increase is prohibitively expensive.
To address this dilemma, the inventor of the present disclosure has devised a modular gun cleaning kit that attaches to a base cleaning kit. The base cleaning kit may provide standard cleaning implements, and the modular attachment may provide storage for specialized cleaning implements. For example, the cleaning implements in the modular attachment may be adapted for specific firearms, specific firearm accessories such as optics, specific geographical or climatological environments, or specific missions. In this manner, any number of specialized, modular cleaning kits may be provided with common attachment features to the base cleaning kit case.
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The modular kit case 2094 may be formed of fabric or hard-shell, and includes a backing portion 2096 with an external fastening element 2098 adapted for securement with the module attachment element 2092 of the case 2002. In the disclosed embodiment, the fastening element 2098 includes a strap of stiff fabric sewn to the backing portion 2096. The stiff strap may be quickly and accurately inserted through the two loops of the module attachment element 2092, then snapped into place as illustrated. Other examples of securement are contemplated without departing from the scope of the invention, but a design factor may be that the attachment and detachment operate quietly. Therefore, in some applications, hook and loop fasteners are not desirable.
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The modular kit case 2094 further includes a protective cover 2110 to protect the cleaning implements stored within the inside storage area 2100. In one embodiment, the protective cover 2110 comprises a tri-fold flap. That is, a first flap 2110a joined at the base of the backing portion 2096 folds upwards, and a second flap 2110b joined at the top of the backing portion 2096 folds downwards and overlaps the first flap 2110a. A cover attachment 2112, such as a side release buckle, secures the first flap 2110a to the second flap 2110b. Additional implement storage space may be utilized on the inside portions of the protective cover 2110. For example, the inside of the second flap 2110b may include a pouch 2114 for storing cleaning patches.
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One illustrative example of an implement protective shell 2116 is shown in
The protective shell 2116 may be secured to a mounting board 2124 that provides support for the protective shell and cleaning implement stored therein. The mounting board 2124 may be formed of a stiff yet flexible polymeric material, for example, to provide a small degree of flexibility. In other examples, the mounting board 2124 may be formed of a hardened material.
Another illustrative example of an implement protective shell 3116 is shown in
The protective shell 3116 secures and protects the base portion of a cleaning implement, but may expose the top portion to potential damage. Therefore, in some embodiments, the modular kit case 3094 may include a flexible flap 3126 for protecting the exposed portion of the cleaning implement. The flap 3126 may be formed of a thin, fiber-reinforced rubber compound, for example, to withstand wear and tear over time. The flap 3126 may be secured on one end to the side of the modular kit case 3094, or to the mounting board 3124, if present.
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The second side 6006 of case 6002 may include additional nylon mesh pockets 6060, and a tool-holding insert 6022. In the illustrated embodiment, the insert 6022 is permanently secured to the interior of the case 6002 (e.g., stitched), but the insert 6022 could also be secured by an attachment element, such as that described with reference to
One noted problem with some firearm cleaning kits is that the flexible cable cleaning rod, such as that depicted in
In one embodiment of the present invention, the cable reel 6138 is formed integrally with the tool-holding insert 6022. As noted, the insert 6022 can be formed of molded plastic or the like, and the cable reel 6138 can be molded integrally to the insert 6022.
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One of the advantages of the firearm cleaning kit disclosed herein is that a base cleaning kit may be combined with a specialized, modular cleaning kit. The base cleaning kit may be a standard-issue or off-the-shelf cleaning kit, and the modular kit may comprise personalized implements, specialized implements, or both. The modular kit may be quickly exchanged for other modular cleaning kits that attach to the same base cleaning kit. In this manner, the user may swap out modular elements depending on a particular mission or weapon. This is particularly advantageous in a military environment, wherein an infantry squad (for example) may have a number of specialized weapons available to its soldiers. Specialized, modular cleaning kits may be assembled in advance and simply attached to the base cleaning kit for whichever soldier is using the specialized weapon or accessory, thereby saving mission preparation time. Allowing unique customization without having to carry two or more full cleaning kits decreases the overall weight of the cleaning kit. Minimizing weight is an important factor for soldiers tasked with patrol operations, since they must pack and carry a three-day supply of food, ammo, etc.
The above-described features and advantages are not limited to military use. Hunters and law enforcement officers may also benefit from a specialized, modular cleaning kit that attaches to a standard kit. Allowing unique customization without having to carry two or more full cleaning kits simplifies preparation and reduces the risk of losing or forgetting implements.
While the present invention has been described with reference to a number of specific embodiments, it will be understood that the true spirit and scope of the invention should be determined only with respect to claims that can be supported by the present specification. Further, while in numerous cases herein wherein systems and apparatuses and methods are described as having a certain number of elements it will be understood that such systems, apparatuses and methods can be practiced with fewer than the mentioned certain number of elements. Also, while a number of particular embodiments have been described, it will be understood that features and aspects that have been described with reference to each particular embodiment can be used with each remaining particularly described embodiment.
Reference is made to and this application claims priority from and the benefit of U.S. Provisional Application Ser. No. 61/515,653, filed Aug. 5, 2011, entitled “MODULAR FIREARM CLEANING KIT CASE,” which application is incorporated herein in its entirety by reference. This is a continuation of the invention described in U.S. patent application Ser. No. 13/566,504, filed Aug. 3, 2012 by the same inventors herein, titled “MODULAR FIREARM CLEANING KIT CASE.” The invention described in U.S. patent application Ser. No. 13/566,504 is assigned to the assignee hereof.
Number | Date | Country | |
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61515653 | Aug 2011 | US |
Number | Date | Country | |
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Parent | 13566504 | Aug 2012 | US |
Child | 14144027 | US |