The present disclosure relates generally to a system and tools for cleaning firearm components including a bolt and bolt carrier, for firearms such as an M4, an M16, and other rifles and carbines, for example.
Carbon and other residue from gunpowder and from firearm discharge reactions accumulate on firearm components over time, with deleterious effects on cleanliness, performance, and longevity of the firearm. Firearm discharge residue accumulates on various firearm components that require disassembly to access and clean. Even then, carbon and other discharge residue tends to be tenuous and difficult to remove. Some firearm components typically need to be scraped with a hard scraping tool to have discharge residue effectively removed, but this must be done without scratching or damaging the firearm components themselves. Various firearm components also have complex shapes that make cleaning discharge residue effectively a challenge. For example, the bolt and bolt carrier of a 5.56 or 7.62 cartridge rifle have complicated shapes, such as the concave shape of the nose of the bolt, that have proven to be persistently difficult to clean effectively. A number of specialized scraping tools have been introduced to clean firearm components, but have had substantial shortcomings.
The discussion above is merely provided for general background information and is not intended to be used as an aid in determining the scope of the claimed subject matter.
Various tools for cleaning bolts and bolt carriers are disclosed herein. In an illustrative embodiment, a firearm bolt cleaning tool includes a tool core defining a plurality of scraper surfaces. The scraper surfaces include a first gas ring scraper surface, a first bolt face scraper surface extending from a terminus of the first gas ring scraper surface, and a first bolt cylinder scraper surface extending from a terminus of the first bolt face scraper surface. The bolt cleaning tool further includes a second gas ring scraper surface positioned opposing the first gas ring scraper surface, and a second bolt face scraper surface extending from a terminus of the second gas ring scraper surface. The second bolt face scraper surface is positioned opposing the first bolt face scraper surface. The bolt cleaning tool further includes a second bolt cylinder scraper surface extending from a terminus of the second bolt face scraper surface. The second bolt cylinder scraper surface is positioned opposing the first bolt cylinder scraper surface. The first gas ring scraper surface and the second gas ring scraper surface are spaced apart from each other at a distance that is less than a diameter of a cylindrical gas sealing ring holding section of the firearm bolt.
In another illustrative embodiment, the first and second gas ring scraper surfaces, the first and second bolt face scraper surfaces, and the first and second bolt cylinder scraper surfaces are shaped to conformingly engage a portion of the firearm bolt in an off-center engagement with the portion of the firearm bolt.
In another illustrative embodiment, the first and second gas ring scraper surfaces, the first and second gas ring scraper surfaces, and the first and second bolt cylinder scraper surfaces are positioned at a first end of the tool core, and a carrier chamber brush is positioned at a second end of the tool core opposite the first end of the tool core. The carrier chamber brush includes a brush head attached to the second end of the tool core, and a plurality of groups of axially extending bristles secured to the brush head.
In another illustrative embodiment, the carrier chamber brush includes an odd number of evenly spaced groups of axially extending bristles.
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.
The handle 103 includes a first side 111, a second side 113, and a hinge 115 that rotationally connects the first side 111 and the second side 113. Handle 103 is shown in
When handle 103 is in its open position, as depicted in
Handle 103 holds tool core 101 in an off-center position. The first side 111 of handle 103 has a minor aperture portion 112, and the second side 113 of handle 103 has a major aperture portion 114, that together form an aperture in handle 103 when handle 103 is in the closed position, as shown in
This off-center engagement of tool core 101 with the bolt face 99 and adjoining gas ring surface 98 of bolt 90, is further depicted in
As noted above,
The second gas ring scraper surface 122 is positioned parallel to the first gas ring scraper surface 121, and the second bolt cylinder scraper surface 126 is positioned parallel to the first bolt cylinder scraper surface 125. The first bolt cylinder scraper surface 125 and the second bolt cylinder scraper surface 126 of the tool core 101 are sized to conformingly engage an off-center section of the cylindrical part of the bolt face 99 of the bolt 90, and are significantly longer than the first gas ring scraper surface 121 and the second gas ring scraper surface 122 of the tool core 101, which are sized to conformingly engage an off-center section of the shorter and wider gas ring surface 98 of the bolt 90. The first bolt cylinder scraper surface 125 and the second bolt cylinder scraper surface 126 are spaced apart from each other at a distance that is less than the diameter of the cylindrical bolt face 99 of the bolt 90, as seen for example in
The first and second gas ring scraper surfaces 121, 122, the first and second bolt face scraper surfaces 123, 124, and the first and second bolt cylinder scraper surfaces 125, 126 are thereby shaped to conformingly engage a portion of bolt 90 in an off-center engagement with the portion of bolt 90. In particular, for example, the first gas ring scraper surface 121 and the second gas ring scraper surface 122 are spaced apart from each other at a distance that is less than the diameter of the gas ring surface 98 of bolt 90. Gas ring surface 98 serves as a gas sealing ring holding section of bolt 90; gas sealing rings (not depicted here) are typically disposed in annular depression 97 in gas ring surface 98, seen in
Forward section 102 of tool core 101 also has a nib 131 extending from an end of the forward section adjacent the second gas ring scraper surface 122, which doesn't conform to the shape of bolt face 99 or adjoining gas ring surface 98 of bolt 90, but provides its own separate, additional uses. The nib 131 may be sized to be able to fit in the loop of a cotter pin, and may be used to hook into the loop of the firing pin retaining pin in a bolt carrier to remove the firing pin retaining pin. The nib 131 may also be used as a pin punch for removing the extractor pin, for example.
Tool core 101 may illustratively be composed of stainless steel, and may be formed using waterjet cutting, for example. In other embodiments, tool core 101 may be composed of any of a variety of other materials, such as aluminum, titanium, various alloys, for example, and may be formed using any of a number of techniques such as laser cutting, computer numerical control (CNC) machining, or other methods, for example. Tool core 101 features mostly rectangular edges, or right-angle edges with curved convex or concave surfaces, which facilitates fabrication relative to more complicated forms.
Tool core 101 provides a number of additional advantages. Tool core 101 is thin enough to allow a degree of flexibility to aid in truly conforming to the surfaces of the gas ring surface 98 and bolt face 99 of bolt 90, instead of being thick enough to be completely rigid and unable to flex to conform to the complex surfaces of bolt 90. This flexible conformity facilitates the edges of the forward section 102 of tool core 101 forming a true scraping edge against the surfaces of bolt 90. The sizing and shaping of tool core 101 that result in the off-center engagement with bolt 90 also ensure that it is the edges of the surfaces of the forward section 102, not the full-on surfaces, that engage the surfaces of bolt 90, which also facilitates a true scraping engagement. The off-center conforming shape also means tool core 101 has a smaller size than if it were sized to conform over the center of the bolt face 99 of the bolt 90. This smaller size, along with the thinness of tool core 101, also makes for a lighter weight, which in turn makes tool core 101 more suitable for field use. This smaller size also enables tool core 101 to fit inside the stock of a rifle to which bolt 90 belongs, such as an M16, while larger bolt scraper tools would not be able to.
As noted above,
Tool core 101 is thereby enabled to achieve a true scraping edge that effectively conforms to the complicated surfaces of the bolt face 99 and cylindrical gas sealing ring holding section 98 of a rifle bolt 90, and that allows a user to effectively scrape a bolt 90 free of carbon and other discharge residue in just a few, quick rotations of a bolt tool 100 in engagement with a bolt 90, and with a bolt tool 100 that is rugged yet very small and lightweight and well-suited to field use.
As best appreciated with reference to
Returning to
Scraper walls 201 and 202 have surfaces and attributes that are analogous in some ways to those of forward section 102 of tool core 101 as described above, such as providing true scraping edges that conform to the contours of the bolt face 99 and cylindrical gas sealing ring holding section 98 of bolt 90, allowing for very rapid and very thorough and effective scraping of these bolt surfaces, so that a user can effectively clean carbon and other debris from these bolt surfaces with a few rotating motions of the bolt tool 200 or an individual scraper wall 201 around the bolt.
In particular, scraper wall 201 has first and second gas ring scraper surfaces 221 and 222 opposing each other for conformingly contacting a gas sealing ring holding section 98, first and second bolt face scraper surfaces 223 and 224 for conformingly contacting the concave portion of a bolt face 99, and first and second bolt cylinder scraper surfaces 225 and 226 for conformingly contacting the cylindrical portion of bolt face 99, all at an off-center position from the central axis of bolt 90, such that right-angle corner edges of each of these surfaces of scraper wall 201 forms a true scraping edge along the contours of the bolt 90. This provides more effective scraping than surfaces sitting face on with the surfaces of the bolt and contacting the surfaces of the bolt across large-scale two-dimensional areas of contact, which prevent a true scraping edge. Scraper wall 202 likewise has first and second opposing gas ring scraper surfaces 231 and 232, first and second opposing bolt face scraper surfaces 233 and 234, and first and second opposing bolt cylinder scraper surfaces 235 and 236 (surface 235 is obscured from view and not labeled in
Carrier interior scraper 300 has five evenly spaced ridges 311 in this illustrative embodiment, and in other embodiments may have three or seven evenly spaced ridges, or may have two or four ridges in an uneven arrangement, for example. Each of these arrangements provides a particular advantage in light of a gas port on the side of the bolt carrier, so that when a carrier interior scraper is used to scrape the interior of a bolt carrier, when one of the ridges crosses the position of the gas port, there is not a diametrically opposite ridge on the opposite side of the carrier interior scraper pushing directly toward the gas port and providing a net off-axis force.
Brush 450 may provide its own advantages for cleaning these interior surfaces by keeping the ends of the bristles fixed together at fixed bristle end 455, so that all the bristles 453 may be kept together at their front end while the brush 450 is being inserted through the interior surfaces of a carrier key or other components, while the bristles 453 themselves are fanned out behind the fixed bristle end 455 to provide scraping action along the sides of these interior surfaces.
Carrier chamber brush 600 has five evenly spaced groups of axially extending bristles 605 in this illustrative embodiment, and in other embodiments may have three or seven evenly spaced groups of bristles, or may have an even number of groups of bristles in an uneven arrangement, for example. For example, referring briefly to
Bolt cleaning tool 662 includes a first arm 667 and an opposing second arm 668. Bolt cleaning tool 662 includes various inner surfaces that conform to the shape and size of the bolt face 743 and adjoining cylindrical section 741 of a bolt 740 in an off-center alignment, with first arm 667 and second arm 668 being placed in contact with bolt 740. These various inner surfaces include first gas ring scraper surface 671 and second gas ring scraper surface 672, first bolt face scraper surface 673, second bolt face scraper surface 674, first bolt cylinder scraper surface 675, and second bolt cylinder scraper surface 676. The second bolt face scraper surface 674 is positioned opposing the first bolt face scraper surface 673. The first gas ring scraper surface 671 extends from a first end of the first bolt face scraper surface 673, and the second gas ring scraper surface 672 extends from a first end of the second bolt face scraper surface 674, such that the second gas ring scraper surface 672 is positioned opposing the first gas ring scraper surface 671. The first bolt cylinder scraper surface 675 extends from a second end of the first bolt face scraper surface 673, and the second bolt cylinder scraper surface 676 extends from a second end of the second bolt face scraper surface 674, such that the second bolt cylinder scraper surface 676 is positioned opposing the first bolt cylinder scraper surface 675.
The second gas ring scraper surface 672 is positioned parallel to the first gas ring scraper surface 671, and the second bolt cylinder scraper surface 676 is positioned parallel to the first bolt cylinder scraper surface 675. The first bolt cylinder scraper surface 675 and the second bolt cylinder scraper surface 676 of the bolt cleaning tool 662 are sized to conformingly engage an off-center section of the cylindrical part of the bolt face 741 of the bolt 740, and are significantly longer than the first gas ring scraper surface 671 and the second gas ring scraper surface 672 of the bolt cleaning tool 662, which are sized to conformingly engage an off-center section of the shorter and wider cylindrical section 743 of the bolt 740. The first bolt cylinder scraper surface 675 and the second bolt cylinder scraper surface 676 are spaced apart from each other at a distance that is less than the diameter of the cylindrical bolt face 741 of the bolt 740, which configures these surfaces of bolt cleaning tool 662 for their off-center conforming contact with bolt face 741, in this illustrative example.
The first and second bolt face scraper surfaces 673, 674, the first and second gas ring scraper surfaces 671, 672, and the first and second bolt cylinder scraper surfaces 675, 676 are thereby shaped to conformingly engage a portion of bolt 740 in an off-center engagement with the portion of bolt 740. In particular, for example, the first gas ring scraper surface 671 and the second gas ring scraper surface 672 are spaced apart from each other at a distance that is less than the diameter of the cylindrical section 743 of bolt 740. Cylindrical section 743 serves as a gas sealing ring holding section of bolt 740; gas sealing rings (not depicted here) are typically disposed in an annular depression in cylindrical section 743, as is familiar to those skilled in this field of art.
Cleaning tool 660 may illustratively be composed of stainless steel, and may be formed using waterjet cutting, for example. In other embodiments, cleaning tool 660 may be composed of any of a variety of other materials, such as aluminum, titanium, various alloys, for example, and may be formed using any of a number of techniques such as laser cutting, computer numerical control (CNC) machining, or other methods, for example. Cleaning tool 660 features mostly rectangular edges, or right-angle edges with curved convex or concave surfaces, which facilitates fabrication relative to more complicated forms.
Cleaning tool 660 provides a number of additional advantages. Bolt cleaning tool 662 is thin enough to allow a degree of flexibility to aid in truly conforming to the surfaces of the cylindrical section 741 and bolt face 743 of bolt 740, instead of being thick enough to be completely rigid and unable to flex to conform to the complex surfaces of bolt 740. This flexible conformity facilitates the edges of the forward section of bolt cleaning tool 662 forming a true scraping edge against the surfaces of bolt 740. The sizing and shaping of bolt cleaning tool 662 that result in the off-center engagement with bolt 740 also ensure that it is the edges of the surfaces of the bolt cleaning tool 662, not the full-on surfaces, that engage the surfaces of bolt 740, which also facilitates a true scraping engagement. The off-center conforming shape also means bolt cleaning tool 662 has a smaller size than if it were sized to conform over the center of the bolt face 743 of the bolt 740. This smaller size, along with the thinness of bolt cleaning tool 662, also makes for a lighter weight, which in turn makes bolt cleaning tool 662 more suitable for field use. This smaller size may also enable bolt cleaning tool 662 to fit inside the stock of a rifle to which bolt 740 belongs, such as an M4 or an M16, while larger bolt scraper tools would not be able to.
Any combination of the various tools described above, potentially along with still other tools and components, may be included together in an integral tool kit, in different embodiments. For example, different embodiments may have an integral casing, such as in the form of an integral combination handle and kit case such as handle 103 of
This may provide for additional advantages such as enabling a user to screw carrier interior scraper 300 or chamber brush 500 into female rod 117 to allow these tools to be inserted into hard-to-reach internal areas of components. Providing a combination of these tools in a single integral tool kit that securely fastens them or provides securely fitting compartments for them may advantageously enable a user to transport all the necessary tools in a field setting, and to clean components such as a bolt and a bolt carrier quickly and effectively in a field setting.
While various embodiments have been particularly shown and described, it will be understood by those skilled in the art that various combinations of the disclosed elements or changes in detail may be made without departing from the scope of the claims. For example, other embodiments may illustratively include a single conforming set of scraping edges rather than two opposing sets of scraping edges, and may be housed with or without an aperture or other form of guide defined by a tool handle. Other variations may also be made within the realm of different embodiments, limited only by the scope of the claims as recited below.
Reference is made to and this application claims priority from and the benefit of U.S. Provisional Application Ser. No. 61/488,539, filed May 20, 2011, entitled “BOLT AND BOLT CARRIER CLEANING SYSTEM AND TOOLS WITH INTEGRATED PULL-THROUGH HANDLE”, and U.S. Provisional Application Ser. No. 61/433,245, filed Jan. 16, 2011, entitled “BOLT AND BOLT CARRIER CLEANING SYSTEM AND TOOLS”, which applications are incorporated herein in their entirety by reference.
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