The present invention relates to a modular key-slot accessory mounting system for a firearm.
Firearms such as the AR15, M16, M4 are known to include a handguard mounted to the upper receiver and extending around a portion of the barrel. The handguard can be grasped by the operator. It is known to mount accessories such as flashlights, scopes, and handgrips to the handguard and for this purpose several mounting systems are well known in the industry.
One known accessory mounting system is disclosed in U.S. Pat. No. 8,925,236 to Mayberry et al. This system includes a handguard with slots having uniform width and a length between first and second ends. A T-nut of the accessory to be mounted to this system includes a major dimension and a minor dimension. The major dimension is wider than the width of the slot but shorter than the length of the slot and the minor dimension is not as wide as the width of the slot. To mount the accessory to the handguard, the T-nut is turned to align the major dimension with the length of the slot. After the head of the T-nut has been inserted into the slot and is clear, the T-nut is turned so the major dimension extends across (e.g., perpendicular to) the slot. The accessory is then slid in the slot until a recoil lug adjacent the T-nut engages the first end of the slot and another recoil lug engages the second end of the slot. The T-nut is then tightened to clamp the accessory to the handguard with the head of the T-nut extending across the elongated opening.
Another known system is illustrated in U.S. Pat. No. 9,377,274 to Kincel. This system includes a handguard with keyhole-shaped slots. Each keyhole-shaped slot (referred to as a “void 210” in the patent) has a circular entry aperture (“first region 215”) and an elongated opening (“second region 220”) extending away from the entry aperture to a distal end. An accessory to be mounted to this system includes fastener (“coupling member 225”) including a head that passes through the entry aperture but is wider than the elongated opening. To mount the accessory this system, the heads of first and second fasteners are inserted into the entry apertures of adjacent keyhole-shaped slots and slide into the elongated openings. The fasteners are then tightened to clamp the accessory to the handguard with the head of the fasteners T-nut extending across the elongated opening.
In one embodiment, the invention provides an attachment system for securing accessories to a firearm having a barrel. The attachment system includes a handguard extending along a portion of the barrel, and a plurality of slots in the handguard for receiving attachments. Each slot defines an elongated opening extending between first and second opposite ends. The elongated opening has a first width, and an entry opening interrupting the elongated opening between the first and second ends. The entry opening includes a second width larger than the first width. The second width is larger than a major dimension of a fastener head of an accessory to be secured to the attachment system and the first width is smaller than the major dimension such that the fastener head is insertable into the slot through the entry opening, movable in the slot toward either of the first and second ends, and securable to the handguard by tightening the fastener head against the handguard.
In another embodiment, the invention provides an attachment system for securing an accessory to a firearm. The attachment system includes a rail with a plurality of slots, each slot defining an elongated opening extending between first and second opposite ends. The elongated opening has a first width and an entry opening interrupting the elongated opening between the first and second ends. The entry opening has a second width larger than the first width. The attachment system also includes a fastener having a fastener head defining a major dimension. The major dimension is larger than the first width and smaller than the second width such that the fastener head is insertable into the slot through the entry opening, movable in the slot toward either of the first and second ends, and securable to the rail by tightening the fastener head against the rail.
Other aspects of the invention will become apparent by consideration of the detailed description and accompanying drawings.
Before any embodiments of the invention are explained in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the following drawings. The invention is capable of other embodiments and of being practiced or of being carried out in various ways.
With reference to
Referring to
With continued reference to
With reference to
Referring to
The illustrated accessory mount 22 further includes a center recoil lug 84 and first and second split recoil lugs 86, 88 that at least partially surround or embrace the first and second threaded bores 76, 80. The recoil lugs 84, 86, 88 project from a bottom side 94 of the accessory mount 22. The recoil lugs 84, 86, 88 are engageable with the slot 28 to transmit at least a portion of recoil forces that occur when firing the firearm 2 directly to the accessory mount 22 (rather than through the first and second fasteners 48, 52). Thus, the recoil lugs 84, 86, 88 may advantageously reduce wear on the fasteners 48, 52 and prolong their useful life. In addition, the recoil lugs 84, 86, 88 advantageously inhibit the accessory mount 22 from shifting along the rail 24 due to recoil. In some embodiments, one or more of the recoil lugs 84, 86, 88 may be omitted. The engagement of the recoil lugs 84, 86, 88 on the ends 36, 40 of the slots 28 also reduces exposure of the fasteners 48, 52 to vibratory forces that might jiggle the fasteners 48, 52 loose during operation of the firearm 2.
In operation, an operator uses the attachment system 20 to couple the accessory mount 22 to the rail 24 by first aligning the heads 56 of the first and second fasteners 48, 52 with the entry openings 44 of two adjacent slots 28 (
The attachment system 220 includes a rail 224 and first and second fasteners 248, 252. Each of the fasteners 248, 252 of the attachment system 220 is a fastener assembly including a head or nut 256 and a threaded member 260 that is in threaded engagement with the nut 256. Each of the threaded members 260 includes a drive region 272 provided at an end of the threaded member 260 opposite the nut 256 (
With reference to
Referring to
As seen in
In operation, an operator uses the attachment system 220 to couple the accessory mount 222 to the rail 224 by first aligning the nuts 256 of the first and second fasteners 248, 252 with the entry openings 244 of two adjacent slots 228 (
The fasteners 448, 452 of the attachment system 420 each include a threaded member 460 and a generally T-shaped nut 456 having a stem portion 475 and a flange portion 477. The flange portion 477 defines a major dimension D3 and a minor dimension D4 that is less that the major dimension D3 (
Referring to
The illustrated accessory mount 422 further includes a center recoil lug 484 and first and second split recoil lugs 486, 488 that at least partially surround the first and second recesses 481, 483. The recoil lugs 484, 486, 488 project from the bottom side 494 of the accessory mount 422 and are engageable with the slot 428 to transmit at least a portion of recoil forces that occur when firing the firearm 2 directly to the accessory mount 422 (rather than through the first and second fasteners 448, 452). The split recoil lugs 486, 488 of the accessory mount 422 are shorter than the split recoil lugs 286, 288 of the accessory mount 222. In the illustrated embodiment, the center recoil lug 484 and the split recoil lugs 486, 488 project the same distance from the bottom side 494 of the accessory mount 422. (
In operation, an operator uses the attachment system 420 to couple the accessory mount 422 to the rail 424 by first aligning the nuts 456 of the first and second fasteners 448, 452 with the entry openings 444 of two adjacent slots 428 (
Referring to
The shoulder sling mount 16a also includes a central aperture 693. The central aperture 693 of the shoulder sling mount 16a is configured to receive a swivel fitting (not shown), which in turn can be connected to a shoulder strap, thus providing a swiveling connection between the shoulder strap and the shoulder sling mount 16a.
In operation, an operator uses the attachment system 620 to couple the shoulder sling mount 16a to the rail 624 by first aligning the nuts 656 of the first and second fasteners 648, 652 with a single slot 628, with the nuts 656 in the first orientation (
The configuration of the rail 624 and slot 628 is particularly advantageous when used in connection with the shoulder sling mount 16a. The entry opening 644 in the center of the slot 628 aligns with the central aperture 693 of the shoulder sling mount 16a when the shoulder sling mount 16a is coupled to the rail 624 as described above. This allows portions of the swivel fitting to extend into the entry opening 644, in turn allowing for a reduction in the overall thickness of the shoulder sling mount 16a.
Thus, the present invention provides an accessory mounting system that includes an elongated opening having first and second ends and an entry aperture between the first and second ends. Because of this configuration, a fastener with a T-nut or circular head can be inserted into the entry aperture and slid toward either of the first and second ends of the elongated opening. If a T-nut is used, it can be inserted already transverse to the elongated opening. Either type of fastener can be tightened against the handguard in the elongated opening without rotating the fastener head.
Various features and advantages of the invention are set forth in the following claims.
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62574002 | Oct 2017 | US |