Abstract
A modular handguard device configured to be slidably mated to an outer surface of an existing or affixed handguard. The handguard of the present invention may be configured to mate with any handguard to provide an extension of the handguard for purposes including mitigation of detectable heat signature, operator safety and increased reconfigurability of firearms for mission specific needs.
Claims
1. A modular handguard for attachment to a fixed handguard comprising: an outer form comprising an inner surface configured to be disposed over an outer surface of an affixed handguard; an inner form comprising an outer surface and a hollow form, said inner form further comprising a first end offset from a first end of said outer form; said outer surface of said inner form being coincident with said inner surface of said outer form; said first end of said inner form having an offset from said first end of said outer form.
2. The modular handguard of claim 1, wherein said inner form is inset from said outer form along a longitudinal axis.
3. The modular handguard of claim 2, wherein said inner form is inset from said outer form a distance of 2.54 cm (1.0 in).
4. The modular handguard of claim 1, wherein said inner form further comprises a mechanical stop.
5. The modular handguard of claim 1 further comprising apertures through an outer surface of said outer form.
6. The modular handguard of claim 5 further comprising threaded apertures through said outer surface of said outer form.
7. The modular handguard of claim 1, wherein said outer form further comprises slide features coincident with said inner surface of said outer form and said slide features are configured to mechanically engage with said affixed handguard.
8. The modular handguard of claim 1, wherein said inner form further comprises an attachment feature.
9. The modular handguard of claim 8, wherein said attachment feature is coincident with said mechanical stop and said attachment feature is configured to abut an attachment feature of said affixed handguard, wherein said attachment feature of said modular handguard and said attachment feature of said affixed handguard are contiguous.
10. The modular handguard of claim 1, wherein said modular handguard is manufactured from a polymeric material having a melting point above 200° C. (392° F.).
11. A modular handguard comprising: an inner form having an inner surface and an outer surface, said outer surface of said inner form having similar cross-sectional profile to an affixed handguard; an outer form having an inner surface and an outer surface with the profile of said inner surface of said outer form matching said cross-sectional profile of said outer surface of said inner form; said inner form having a length parallel with a longitudinal axis, said length of said inner form being shorter than a length of said outer form parallel with said longitudinal axis; an attachment feature affixed to said inner form parallel to said longitudinal axis; said inner form and said outer form parallel said longitudinal axis with a first end of said inner form being offset from a first end of said outer form; a mechanical stop coincident with said first end of said inner form; slide features coincident with said inner surface of said outer form; mechanical interlock features; and said slide features extending from said first end of said outer form to said first end of said inner form; wherein said inner surface of said outer form is configured to be slidably mated with an outer surface of said affixed handguard, and said mechanical stop is configured to abut a first end of said affixed handguard, wherein said attachment feature of said modular handguard and said attachment feature of said affixed are being contiguous.
Description
BRIEF DESCRIPTION OF FIGURES
[0017] FIG. 1—A perspective view of certain embodiments of a modular handguard
[0018] FIG. 2A—A cross-sectional view of certain embodiments of a modular handguard
[0019] FIG. 2B—A cross-sectional view of certain embodiments of an affixed handguard
[0020] FIG. 3A—A perspective view of certain embodiments of a modular handguard prior to assembly with an affixed handguard
[0021] FIG. 3B—A perspective view of certain embodiments of a modular handguard prior to assembly with an affixed handguard
[0022] FIG. 3C—A perspective view of certain embodiments of a modular handguard assembled with an affixed handguard
[0023] FIG. 4A—A view of a second end of certain embodiments of a modular handguard
[0024] FIG. 4B—A side view of certain embodiments of a modular handguard
[0025] FIG. 4C—A view of a first end of certain embodiments of a modular handguard
DETAILED DESCRIPTION
[0026] Certain embodiments of the invention comprise a modular handguard configured to be disposed over a barrel or suppressor component at a distal end of a barrel. Such embodiments of the modular handguard are configured to mate with an affixed handguard. The modular handguard mitigates accidental contact with distal surfaces of a firearm having elevated temperature such as a barrel or suppressor affixed to the firearm.
[0027] It will be appreciated that an affixed handguard may comprise an existing handguard comprising aluminum or steel, or a heat mitigating handguard as disclosed in U.S. application Ser. No. 14/932,924, Heat Mitigating Handguards for Rifles and Method of Manufacture Thereof, to Garst (“the '924 Application”), incorporated by reference in its entirety.
[0028] Certain embodiments comprise a modular handguard comprising a heat mitigating material composition with a low heat transfer coefficient. Certain embodiments of the present invention are manufactured from materials and heat mitigating strategies as disclosed by the '924 Application. Certain embodiments of the present invention may comprise ceramic, polymeric or other materials with a low heat transfer coefficient.
[0029] In certain embodiments of the present invention, as shown in FIG. 1, a modular handguard 100 has a hollow form and further comprises an outer form 110 having a first end 111 axially offset from a first end 121 of an inner form 120. The outer form 110 further comprises an opening 112. The outer form 110, spans the entire length of the modular handguard 100, while the inner form 120 is shorter than the outer form 110. This results in an offset between the inner form 120 and an outer form 110, such that the first end 121 of the inner form is inset from the first end 101 of the modular handguard. The outer form 110 further comprises an outer surface 115 and an inner surface 118. The inner form 120 further comprises an outer surface 125, coincident with the inner surface 118 of the outer form.
[0030] Shown in FIG. 2A and FIG. 2B, a modular handguard 100 has an inner form 120 of substantially similar cross-sectional profile as an attached handguard 200. An outer profile dimension 1130 of the inner form 120 (FIG. 2A) is substantially similar to an outer profile dimension 2130 of an affixed handguard 200 (FIG. 2B). The inner surface 118 of the outer form, referenced in FIG. 1, is configured to slidably mate with the outer surface 205 of the attached handguard, referenced in FIG. 2B. This slidable mating is typically performed with an engineering fit. It will be appreciated that an engineering fit may comprise a running fit, locational clearance fit, RC fit, or other engineering fits such as those specified by ANSI B4.1 (Standard Tolerance Limits and Fits). It will be further appreciated that other engineering fits or assembly strategies known to those skilled in the art may be used while maintaining the inventive spirit of the present invention.
[0031] In certain embodiments of the present invention, as shown in FIG. 1, an outer form 110 is offset along a longitudinal axis 105, from an inner form 120. As a result, the inner form 120 is inset from a first end 101 of the modular handguard. This inset provides a surface orthogonal to the longitudinal axis 105 of the modular handguard 100 inset from the first end 101 of the modular handguard. This orthogonal surface serves as a mechanical stop 130. The mechanical stop 130, inset from the first end 101 of the modular handguard 100, provides an abutting surface for an affixed handguard 200 (FIG. 3A-3C) when mated with the modular handguard 100.
[0032] Certain embodiments of the present invention, as seen in FIG. 3A-3C, comprise a modular handguard 100 further comprising a plurality of slide features 140 for interfacing with grooves 220 of an affixed handguard 200. Slide features 140 provide rotational constraint of the modular handguard 100 about the longitudinal axis 105 when mated to an affixed handguard 200. It will be appreciated that slide features 140 may comprise other engagement features known to those skilled in the art to provide slidable engagement. It will be further appreciated that the mating of a modular handguard is not limited to a slidable mating and may utilize other mating features known to those skilled in the art.
[0033] Referring to FIG. 3A and FIG. 3B, certain embodiments comprise a modular handguard having apertures 160 through an outer surface 115 of the modular handguard 100. These apertures 160 are provided for increased ventilation to the modular handguard 100 and a firearm to which the modular handguard 100 is affixed. Such apertures 160 may also be used for fixation purposes by inserting fastening hardware through an aperture 160 to affix an object to the modular handguard 100. The modular handguard 100 may further comprise threaded apertures 165 for attachment of accessories or peripheral devices using threaded fasteners. It may be desired for a modular handguard 100 to have apertures 160 and threaded apertures 165 configured to match the apertures 160 and threaded apertures 165 of an affixed handguard, as shown in FIG. 3A. However, some embodiments seen in, FIG. 3B, have apertures 160 and threaded apertures 165 which differ in configuration from that of the affixed handguard 200. Threaded apertures 165 may further comprise mechanical interface features such as counter-bores or countersinks. The use of such mechanical interface features may be used to provide increased fixation of a modular handguard 100 to an affixed handguard 200. The use of such mechanical interface features may also be used to provide increased fixation of accessories or peripheral devices to the modular handguard 100.
[0034] As shown in FIG. 3A and FIG. 3B, an inner surface 118 of the outer form 110 of the modular handguard 100 is configured to slidably interface with the outer surface 210 of an affixed handguard 200. In such embodiments, the cross-sectional profile of the internal surface 118 of the outer form 110 of the modular handguard 100, mimics the cross-sectional profile of the outer surface 210 of the affixed handguard. Furthermore, the slide features 140 mate with grooves 220 in the outer surface 210 of the affixed handguard 200. This configuration allows the modular handguard 100 to slide over the outer surface 210 of the affixed handguard. The mating of a modular handguard 100 with an affixed handguard 200 provides an extension of the affixed handguard 200. It will be appreciated that a modular handguard 100 may be configured so the attachment feature 150 of the modular handguard mates with the attachment feature 250 of the affixed handguard so the attachment feature 150 of the modular handguard and the attachment feature 250 of the affixed handguard are contiguous.
[0035] While it will be appreciated that the inner surface 118 of the outer form, referenced in FIG. 3B, is configured to slidably mate with the outer surface 205 of an attached handguard, it will be further appreciated that the outer surface 115 of the outer form need not mimic the outer surface 205 of the affixed handguard. The outer surface 115 of the outer form and the outer surface 125 of the inner form may be configured independently of an affixed handguard 200. In certain embodiments, the outer surface 115 of the outer form and the outer surface 125 of the inner form comprise profile shapes and features designed to promote increased airflow for cooling purposes or redirection of muzzle blast away from an operator and the firearm.
[0036] After slidable mating, certain embodiments of the invention (seen in FIG. 3C) may be constrained to prevent unintentional disassembly. The constraining of a modular handguard 100 to an affixed handguard 200 may be accomplished with threaded fasteners engaged through an aperture 160 or threaded aperture 165. When threaded fasteners are threaded through the threaded apertures 165, the threaded fasteners may be advanced until they contact the outer surface 210 of the affixed handguard 200. In certain embodiments, threaded fasteners are passed through apertures 160 to engage threaded apertures 165 in the affixed handguard. It will be appreciated that other methods of fixation may be used to constrain a modular handguard 100 to a fixed handguard 200. Certain methods of fixation may be used to affix a modular handguard 100 to an affixed handguard 200, which allow an operator to more easily remove a modular handguard 100 from an affixed handguard 200. Other methods of fixation may be used to affix a modular handguard 100 to an affixed handguard 200, which provides a more permanent attachment of the modular handguard 100 to an affixed handguard 200.
[0037] Certain embodiments of the present invention, shown in FIG. 4A, comprise modular handguard 100 having an overall height 1000 of 6.77 cm (2.667 in) having a profile of a multi-faceted form, such as an octagon, and an attachment feature 150. Such embodiments further comprise an overall width 1010 of 6.1 cm (2.4 in). The modular handguard 100, further comprises a hollow form with a substantially circular profile having a radius 1040 of 2.4 cm (0.95 in). Furthermore, such embodiments comprise a first facet width 1030 of 1.98 cm (0.779 in) and a second facet width 1020 of 2.4 cm (0.932 in). It will be appreciated that a modular handguard 100 may comprise other profiles, such as those consistent with the profile of an attached handguard.
[0038] Certain embodiments of the present invention, shown in FIG. 4B, comprise a handguard having an overall height 1000 of 6.78 cm (2.667 in) and overall length 1070 of 12.7 cm (5.0 in). Other embodiments comprise an overall length 1070 of 22.9 cm (9.0 in). It will be appreciated that the overall length 1070 of the modular handguard may be of any length, but preferably of a length that extends the handguard no further than the muzzle-end of a barrel. It will be further appreciated that the muzzle-end of a barrel may be extended with the addition of a suppressor or other devices which may affix to the muzzle end of a barrel. Such embodiments have an inner form 120 offset from an outer form 110 at an offset length 1080 of 2.54 cm (1.0 in). It will be appreciated that the offset length 1080 may vary.
[0039] Certain embodiments as shown in FIG. 4B, have apertures 160 and threaded apertures 165 through an outer surface 115 of the modular handguard. In certain embodiments, the aperture distance 1110 between a first and second aperture 160 is 2.54 cm (1.0 in). The distance between threaded apertures 165 and an adjacent aperture 160 is 1.23 cm (0.485 in).
[0040] Certain embodiments, as shown in FIG. 4C, comprise an octagonal profile with an outer form 110 having an internal width 1130 of 5.50 cm (2.164 in), and a facet width 1180 of 1.78 cm (0.7 in). Such embodiments further comprise slide features 140 having a tapered form with a top width 1160 of 0.295 cm (0.116 in), a height 1190 of 0.24 cm (0.094 in), and a base fillet radius 1170 of 11 mm (0.042 in). Such embodiments have an opposing slide feature spacing 1150 of 5.16 cm (2.03 in) and opposing facet distance 1130 of 5.50 cm (2.164 in). It will be appreciated that such embodiments are configured to slidably mate with an affixed handguard. The above disclosed dimensions may vary dependent upon the affixed handguard for which the modular handguard 100 is configured to engage with.
[0041] While various embodiments of the present invention have been described in detail, it is apparent that modifications and alterations of those embodiments will occur to those skilled in the art. However, it is to be expressly understood that such modifications and alterations are within the scope and spirit of the present invention. Further, the inventions described herein are capable of other embodiments and of being practiced or of being carried out in various ways. In addition, it is to be understood that the phraseology and terminology used herein is for the purposes of description and should not be regarded as limiting. The use of “including,” “comprising,” “having,” or “adding” and variations thereof herein are meant to encompass the items listed thereafter and equivalents thereof, as well as, additional items
