Adjustable firearm handguard mounting system

Abstract

An adjustable firearm handguard mounting system configured to facilitate setting the rotation of the handguard relative to a barrel nut and then clamping the handguard to the barrel nut using non-parallel screws.

Claims

1. A device for attaching a handguard to a barrel nut comprising: a. a generally cylindrical barrel nut wherein said barrel nut comprises an interior configured to cooperatively couple with a firearm and b. a handguard: (i) said handguard comprising a length-wise barrel nut opening configured to cooperatively interface with said barrel nut having an interior diameter configured to slip-fit over said barrel nut, and (ii) said handguard further comprising a length-wise clamping gap in the circumference of the handguard in at least a portion of the handguard which is configured to slip-fit over said barrel nut.

2) The device of claim one wherein: a. said barrel nut further comprises at least one groove in the outer surface and b. said handguard further comprises at least one clamping hole: (i) said hole comprising a threaded portion originating at the exterior of the handguard on one side of said length-wise gap, (ii) said hole passing through the length-wise gap, and (iii) said hole comprising a threaded portion extending into the handguard on the opposing side of the length-wise gap wherein said hole is configured to align with said groove in the outer surface of said barrel nut and wherein said clamping hole is configured such that a screw passing through the clamping hole passes through said groove in the outer surface of said barrel nut.

3) The device of claim two wherein: a. said generally cylindrical barrel nut further comprises a textured portion of the circumference and b. wherein said handguard further comprises at least one threaded rotation adjustment hole originating at the exterior of said handguard and terminating in the interior of said handguard in the portion of said handguard which is configured to slip-fit over said barrel nut.

4) The device of claim three wherein: a. said barrel nut further comprises more than one groove in the outer surface, and b. said handguard further comprises more than one clamping hole.

5) The device of claim four wherein: a first clamping hole is not parallel to a second clamping hole.

6) The device of claim five wherein: said handguard further comprises more than one threaded rotation adjustment hole.

7) The device of claim six wherein: said one or more threaded rotation adjustment holes in said handguard are not radial to said barrel nut opening.

8) The device of claim seven wherein: a. said textured portion of said circumference of said barrel nut consists of parallel depressions spaced to match the thread pitch of said threaded rotation adjustment hole(s), and b. said threaded rotation adjustment hole(s) in said handguard is configured such that the threads of a screw inserted into said threaded rotation adjustment hole(s) cooperatively interface with the textured portion of said circumference of said barrel nut

9) The device of claim six wherein: said barrel nut further comprises one or more radial holes.

10) The device of claim nine wherein: said barrel nut further comprises a flattened surface on the exterior of the barrel nut around each said radial hole.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

[0010] FIG. 1 shows the barrel nut of the invention. Shown are two grooves configured to cooperatively interact with clamping screws. Between the grooves are a series of radial holes having a flattened surface on the exterior of the barrel nut around each said radial hole. To the right of the right-most groove is textured portion of the circumference configured to interact with rotation adjustment screws.

DETAILED DESCRIPTION OF THE INVENTION

[0011] The invention is a novel apparatus for attaching a handguard to a barrel nut. The barrel nut is configured with radial holes which reduce weight and provide an attachment interface used when tightening and loosening the nut. The barrel nut also contains texturing around a portion of the outer circumference of the nut. The texturing is spaced from the end of the nut such that when a rotation adjustment screw is threaded into the handguard, the screw contacts the texturing. The handguard is configured with at least one threaded hole configured to accept a screw to set the rotation of the handguard relative to the nut (and an upper receiver onto which the barrel nut is attached). When the handguard is attached to the barrel nut, at least one rotation adjustment screw is threaded into the threaded hole in the handguard until the desired amount of contact with the texturing on the barrel nut is achieved. In a preferred embodiment, there are two threaded holes (and rotation adjustment screws) which are neither parallel nor orthogonal.

[0012] The nut is also configured to contain at least one groove. The groove(s) is spaced such that when one or more clamping screws is threaded into the handguard, the clamping screw(s) pass through the groove(s). In a preferred embodiment, the nut contains two grooves and the handguard is configured to accept two non-parallel clamping screws. The mass of the handguard is minimized, and no additional parts are required, by configuring the handguard to accept non-parallel clamping screws.

[0013] The handguard is configured with a length-wise gap positioned to overlap with the barrel nut. The handguard is also configured with at least one hole on one side of the gap aligned with a threaded hole on the opposite side of the gap. The hole(s) is/are configured to accept a clamping screw. When the clamping screw(s) is/are tightened, the inner diameter of the handguard is reduced providing a friction fit between the handguard and barrel nut. In a preferred embodiment, there are two clamping screws. In a preferred embodiment, the gap does not extend beyond the portion of the handgard which overlaps with the barrel nut.

[0014] The features of the apparatus are designed for the barrel to be inserted into the upper receiver, the barren nut threaded onto the upper receiver, and the barrel nut then be tightened onto the upper receiver using a tool which interfaces with the radial holes in the barrel nut. The handguard is then slid over the barrel nut. The handguard is aligned as desired and the rotation adjustment screws are tightened. The clamping screws are then inserted into the handguard and tightened. Frictional force between the inside of the handguard and the outside of the barrel nut, in conjunction with mechanical locking between rotation adjustment screws and texturing on the barrel nut, prevent the handguard from rotating on the barrel nut.

SEQUENCE LISTING

[0015] Not Applicable