The disclosure relates to firearm handguard components, an assembly and method for forming the same.
Firearm handguards are known in the art. Improvements to firearm handguards are continuously being sought in order to advance the art.
The disclosure will now be described, by way of example, with reference to the accompanying drawings, in which:
FIG. 1C′-1C″″ are side cross-sectional views of the of the firearm handguard assembly according to line 1C′-1C′ of
One aspect of the disclosure provides a firearm handguard assembly attachable to a receiver of a barrel of a firearm. The firearm handguard assembly includes a barrel nut member, a locking sleeve member, a firearm handguard member and plurality of fasteners. The locking sleeve member is disposed within an axial passage formed by the barrel nut member. A plurality of radial passages of the locking sleeve member are aligned with a plurality of radial passages of the barrel nut member. The firearm handguard member is arranged about the barrel nut member and the locking sleeve member such that the barrel nut member and the locking sleeve member are arranged within an axial passage of the firearm handguard member. A plurality of radial passages of the firearm handguard member are aligned with the plurality of radial passages of the locking sleeve member and the plurality of radial passages of the barrel nut member. The plurality of fasteners extend through the plurality of radial passages of the barrel nut member, the locking sleeve member and the firearm handguard member for joining the firearm handguard member to the barrel nut member and the locking sleeve member.
In some examples, the plurality of fasteners are inserted: firstly through the plurality of radial passages of the firearm handguard member, then secondly through the plurality of radial passages of the barrel nut member and then thirdly through the plurality of radial passages of the locking sleeve member for joining the firearm handguard member to the barrel nut member and the locking sleeve member.
In some implementations, the plurality of radial passages of the locking sleeve member extend through a thickness of the locking sleeve member such that the plurality of radial passages of the locking sleeve member are in fluid communication with an axial passage that extends through the length of the locking sleeve member.
In some instances, the plurality of radial passages of the firearm handguard member extend through a thickness of the firearm handguard member such that the plurality of radial passages of the firearm handguard member are in fluid communication with an axial passage that extends through the length of the firearm handguard member.
In some examples, the plurality of radial passages of the barrel nut member includes a first radial passage, a second radial passage, a third radial passage and a fourth radial passage. The first radial passage and the second radial passage are arranged in an opposing relationship to thereby define the substantially tube-shaped body to include a first substantially circumferential passage. The third radial passage and the fourth radial passage are arranged in an opposing relationship to thereby define the substantially tube-shaped body to include a second substantially circumferential passage. The first substantially circumferential passage and the second substantially circumferential passage are spaced apart by a first spaced-apart distance.
In some implementations, the plurality of radial passages of the locking sleeve member include six radial passages defined by: a first pair of radial passages defined by a first radial passage and a second radial passage, a second pair of radial passages defined by a third radial passage and a fourth radial passage, and a third pair of radial passages defined by a fifth radial passage and a sixth radial passage, wherein each passage of the first, second and third pairs of passages of the locking sleeve member are spaced apart by a second spaced-apart distance. The second spaced-apart distance is approximately equal to the first spaced-apart distance.
In some instances, each of the first pair of radial passages of the locking sleeve member and the third pair of radial passages of the locking sleeve member are offset by approximately 90° from the second pair of radial passages of the locking sleeve member.
In some examples, the first pair of radial passages of the locking sleeve member are arranged at a 3 o'clock position of the locking sleeve member. The second pair of radial passages of the locking sleeve member are arranged at a 6 o'clock position of the locking sleeve member. The third pair of radial passages of the locking sleeve member are arranged at a 9 o'clock position of the locking sleeve member.
In some implementations, the plurality of radial passages of the firearm handguard member include six radial passages defined by: a first pair of radial passages defined by a first radial passage and a second radial passage, a second pair of radial passages defined by a third radial passage and a fourth radial passage, and a third pair of radial passages defined by a fifth radial passage and a sixth radial passage. Each passage of the first, second and third pairs of passages of the firearm handguard member are spaced apart by a third spaced-apart distance. The third spaced-apart distance is approximately equal to each of the second spaced-apart distance and the first spaced-apart distance.
In some instances, each of the first pair of radial passages of the firearm handguard member and the third pair of radial passages of the firearm handguard member are offset by approximately 90° from the second pair of radial passages of the firearm handguard member.
In some examples, the first pair of radial passages of the firearm handguard member are arranged at a 3 o'clock position of the firearm handguard member. The second pair of radial passages of the firearm handguard member are arranged at a 6 o'clock position of the firearm handguard member. The third pair of radial passages of the firearm handguard member are arranged at a 9 o'clock position of the firearm handguard member.
In some implementations, the barrel nut member is defined by a substantially tube-shaped body having a distal end surface, a proximal end surface, an inner axial passage surface and an outer side surface.
In some instances, each radial passage of the plurality of radial passages of the barrel nut member defines an arcuate-shaped dimension that extends along slightly less than about 180° of the substantially tube-shaped body.
In some examples, the inner axial passage surface of the barrel nut member includes a threaded surface portion that corresponds to and is threadingly-connectable with a threaded surface of the receiver of the firearm.
In some implementations, the substantially tube-shaped body defines the barrel nut member to include a length including a first length portion extending away from the distal end surface of the substantially tube-shaped body and a second length portion extending away from the proximal end surface of the substantially tube-shaped body. The substantially tube-shaped body defines a thickness of the barrel nut member extending between the inner axial passage surface and the outer side surface. The inner axial passage surface of the barrel nut member defines the axial passage of the barrel nut member that extends through the length of the barrel nut member between the distal end surface of the substantially tube-shaped body and the proximal end surface of the substantially tube-shaped body. The axial passage of the barrel nut member is permitted by a distal axial opening formed by the distal end surface of the substantially tube-shaped body and a proximal axial opening formed by the proximal end surface of the substantially tube-shaped body.
In some instances, the first length portion of the barrel nut member includes the plurality of radial passages of the barrel nut member. The plurality of radial passages extend through the thickness of the barrel nut member such that the plurality of radial passages are in fluid communication with the axial passage that extends through the length of the barrel nut member.
In some examples, the locking sleeve member forms a radial passage that extends along an entire length locking sleeve member.
In some implementations, the radial passage is arranged at a 12 o'clock position of the locking sleeve member.
In some instances, the locking sleeve member is defined by a substantially circumferential lip portion and a substantially tube-shaped body portion connected to the substantially circumferential lip portion. The substantially circumferential lip portion defines a distal end surface of the locking sleeve member. The substantially tube-shaped body portion defines a proximal end surface of the locking sleeve member. Both of the substantially circumferential lip portion and the substantially tube-shaped body portion define an inner axial passage surface of the locking sleeve member. Both of the substantially circumferential lip portion and the substantially tube-shaped body portion define an outer side surface of the locking sleeve member. The substantially circumferential lip portion includes a ledge surface that connects a first portion of the outer side surface that is defined by the substantially circumferential lip portion to a second portion of the outer side surface that is defined by the substantially tube-shaped body portion. The ledge surface demarcates the substantially circumferential lip portion from the substantially tube-shaped body portion.
In some examples, the locking sleeve member includes a length. The substantially circumferential lip portion of the locking sleeve member defines a first length portion of the length of the locking sleeve member that extends away from the distal end surface of the locking sleeve member. The substantially tube-shaped body portion of the locking sleeve member defines a second length portion of the length of the locking sleeve member that extends away from the proximal end surface of the locking sleeve member. The substantially circumferential lip portion defines a first thickness of the locking sleeve member extending between the inner axial passage surface and the outer side surface. The substantially tube-shaped body portion defines a second thickness of the locking sleeve member extending between the inner axial passage surface and the outer side surface. The first thickness of the locking sleeve member is greater than the second thickness of the locking sleeve member.
In some implementations, the inner axial passage surface of the locking sleeve member defines an axial passage that extends through the length of the locking sleeve member between the distal end surface of the locking sleeve member and the proximal end surface of the locking sleeve member. Access to the axial passage of the locking sleeve member is permitted by a distal axial opening formed by the distal end surface of the substantially circumferential lip portion and a proximal axial opening formed by the proximal end surface of the substantially tube-shaped body portion.
In some instances, the firearm handguard member is defined by a substantially tube-shaped body having a distal end surface, a proximal end surface, an inner axial passage surface and an outer side surface. The substantially tube-shaped body of the firearm handguard member defines a length of the firearm handguard member. The length of the firearm handguard member includes a first length portion extending away from the distal end surface of the substantially tube-shaped body and a second length portion extending away from the proximal end surface of the substantially tube-shaped body. The substantially tube-shaped body defines a thickness of the firearm handguard member extending between the inner axial passage surface of the firearm handguard member and the outer side surface of the firearm handguard member. The inner axial passage surface of the firearm handguard member defines an axial passage of the firearm handguard member that extends through the length of the firearm handguard member between the distal end surface of the substantially tube-shaped body and the proximal end surface of the substantially tube-shaped body. Access to the axial passage of the firearm handguard member is permitted by a distal axial opening formed by the distal end surface of the substantially tube-shaped body of the firearm handguard member and a proximal axial opening formed by the proximal end surface of the substantially tube-shaped body of the firearm handguard member.
In some examples, the first length portion of the length of the firearm handguard member includes a plurality of repeating radial passages that extend through the thickness of the firearm handguard member such that the plurality of repeating radial passages are in fluid communication with the axial passage that extends through the length of the firearm handguard member. The plurality of repeating radial passages include, for example, a repeating pattern of circular-shaped passages, elongated first oval-shaped passages and elongated second oval-shaped passages that are greater in length than the elongated, first oval-shaped passages.
In some implementations, the second length portion of the length of the firearm handguard member includes the plurality of radial passages of the firearm handguard member.
In some instances, the outer side surface of the firearm handguard member defines an implement mounting rail member.
In some examples, a “the 12 o'clock position” of the outer side surface of the firearm handguard member includes the implement mounting rail member.
In some implementations, the proximal end surface of the firearm handguard member defines a keyed geometry that mates with a corresponding keyed geometry formed by the receiver of the firearm. In some implementations , the firearm handguard assembly further comprises one or more supplementary implement mounting rail members attached to the outer surface of the firearm handguard member.
In some instances, the one or more supplementary implement mounting rail members is/are arranged upon one or more of a 3 o'clock position, a 6 o'clock position and a 9 o'clock position of the outer surface of the firearm handguard member.
In some examples, each of the plurality of radial passages of the locking sleeve member and the plurality of radial passages of the firearm handguard member are defined by a threaded surface portion that correspond to and is threadingly-connected to an outer threaded surface of each fastener of the plurality of fasteners for securing the firearm handguard member to both of the barrel nut member and the locking sleeve member.
Another aspect of the disclosure provides a method for assembling a firearm handguard assembly upon a firearm including a receiver and a barrel that extends from the receiver. The method includes the steps of: connecting a barrel nut member of the firearm handguard assembly to the receiver of the firearm; connecting a locking sleeve member of the firearm handguard assembly to the barrel nut member; connecting a firearm handguard member of the firearm handguard assembly to the barrel nut member and the locking sleeve member; and joining the firearm handguard member to the locking sleeve member and the barrel nut member with a plurality of fasteners.
In some examples, the connecting the barrel nut member to the receiver of the firearm includes the steps of: axially aligning an axial passage of the barrel nut member with the barrel of the firearm; arranging the barrel within the axial passage of the barrel nut member; guiding the barrel nut member along the barrel of the firearm toward the receiver; and threadingly-engaging a threaded surface portion of the barrel nut member with a threaded surface of the receiver.
In some implementations, the connecting the locking sleeve member to the barrel nut member includes the steps of: axially-aligning an axial passage of the locking sleeve member with the barrel of the firearm; arranging the barrel within the axial passage of the locking sleeve member; guiding the locking sleeve member along the barrel of the firearm toward the receiver; and arranging a portion of the locking sleeve member within an axial passage formed by the barrel nut member.
In some instances, the arranging the portion of the locking sleeve member within the axial passage formed by the barrel nut member includes the steps of: arranging a substantially tube-shaped body portion of the locking sleeve member within the axial passage of the barrel nut member until a ledge surface of a substantially circumferential lip portion extending away from the substantially tube-shaped body portion of the locking sleeve member is disposed adjacent a distal end surface of the barrel nut member.
In some examples, after the arranging the portion of the locking sleeve member within the axial passage formed by the barrel nut member step, further comprising the steps of: aligning a plurality of radial fastener passages formed by the locking sleeve member with a plurality of radial fastener passages formed by the barrel nut member; and extending the plurality of fasteners of the firearm handguard assembly through the aligned plurality of radial fastener passages formed by the locking sleeve member and the plurality of radial fastener passages formed by the barrel nut member for conducting the step of joining the firearm handguard member to the locking sleeve member and the barrel nut member with a plurality of fasteners.
In some implementations, the axially-aligning step further comprises the step of: axially aligning a radial passage formed along an entire length of the locking sleeve member with a 12 o'clock position of the firearm.
In some instances, the connecting the firearm handguard member to the locking sleeve member to the barrel nut member includes the steps of: axially-aligning an axial passage of the firearm handguard member with the barrel of the firearm; arranging the barrel within the axial passage of the firearm handguard member; guiding the firearm handguard member along the barrel of the firearm toward the receiver; and arranging the locking sleeve member and the barrel nut member within the axial passage formed by the firearm handguard member.
In some examples, the arranging the locking sleeve member and the barrel nut member within the axial passage formed by the firearm handguard member continues until a keyed geometry of the firearm handguard member mates with a corresponding keyed geometry formed by the receiver of the firearm.
In some implementations, after the arranging the locking sleeve member and the barrel nut member within the axial passage formed by the firearm handguard member step, further comprising the step of: aligning a plurality of radial fastener passages of the firearm handguard member with a plurality of radial fastener passages formed by the locking sleeve member and a plurality of radial fastener passages formed by the barrel nut member; and extending the plurality of fasteners of the firearm handguard assembly through the aligned plurality of radial fastener passages of the firearm handguard member, the plurality of radial fastener passages formed by the locking sleeve member and the plurality of radial fastener passages formed by the barrel nut member for conducting the step of joining the firearm handguard member to the locking sleeve member and the barrel nut member with a plurality of fasteners.
In some instances, prior to the connecting the barrel nut member of the firearm handguard assembly to the receiver of the firearm step, further comprising the steps of: arranging a shim ring between the barrel lip and barrel nut member; aligning a plurality of radial fastener passages of the firearm handguard member with a plurality of radial fastener passages formed by the locking sleeve member and a plurality of radial fastener passages formed by the barrel nut member; and extending the plurality of fasteners of the firearm handguard assembly through the aligned plurality of radial fastener passages of the firearm handguard member, the plurality of radial fastener passages formed by the locking sleeve member and the plurality of radial fastener passages formed by the barrel nut member for conducting the step of joining the firearm handguard member to the locking sleeve member and the barrel nut member with a plurality of fasteners.
In yet another aspect of the disclosure provides a method for assembling a firearm handguard assembly. The method includes the steps of: connecting a locking sleeve member of the firearm handguard assembly to a barrel nut member of the firearm handguard assembly; connecting a firearm handguard member of the firearm handguard assembly to the barrel nut member and the locking sleeve member; and extending a plurality of fasteners through each of the firearm handguard member, the locking sleeve member and the barrel nut member for joining the firearm handguard member to the locking sleeve member and the barrel nut member.
In some examples, prior to the connecting the locking sleeve member of the firearm handguard assembly to the barrel nut member of the firearm handguard assembly step, further comprising the step of: connecting the barrel nut member of the firearm handguard assembly to a receiver of the firearm.
One aspect of the disclosure provides a component of a firearm handguard assembly. The component of the firearm handguard assembly includes a barrel nut member. The barrel nut member is defined by a substantially tube-shaped body having a distal end surface, a proximal end surface, an inner axial passage surface and an outer side surface. The inner axial passage surface defines an axial passage that extends through a length of the barrel nut member between the distal end surface and the proximal end surface. A plurality of radial passages extend through a thickness of the substantially tube-shaped body. The thickness extends between the inner axial passage surface and the outer side surface. The plurality of radial passages are in fluid communication with the axial passage. The axial passage of the barrel nut member is permitted by a distal axial opening formed by the distal end surface of the substantially tube-shaped body and a proximal axial opening formed by the proximal end surface of the substantially tube-shaped body.
In some examples, the plurality of radial passages of the barrel nut member includes a first radial passage, a second radial passage, a third radial passage and a fourth radial passage.
In some implementations, the first radial passage and the second radial passage are arranged in an opposing relationship to thereby define the substantially tube-shaped body to include a first substantially circumferential passage. The third radial passage and the fourth radial passage are arranged in an opposing relationship to thereby define the substantially tube-shaped body to include a second substantially circumferential passage. The first substantially circumferential passage and the second substantially circumferential passage are spaced apart by a distance.
In some instances, each radial passage of the plurality of radial passages of the barrel nut member defines an arcuate-shaped dimension that extends along slightly less than about 180° of the substantially tube-shaped body.
In some examples, the inner axial passage surface of the barrel nut member includes a threaded surface portion.
In some implementations, the threaded surface portion corresponds to and is threadingly-connectable with a threaded surface of a receiver of the firearm.
In some instances, the length of the barrel nut member includes a first length portion extending away from the distal end surface and a second length portion extending away from the proximal end surface.
In some examples, the first length portion of the barrel nut member includes the plurality of radial passages. The second length portion of the barrel nut member includes the threaded surface portion.
Another aspect of the disclosure provides a component of a firearm handguard assembly. The component of the firearm handguard includes a locking sleeve member. The locking sleeve member includes a substantially circumferential lip portion and a substantially tube-shaped body portion. The substantially tube-shaped body portion is connected to the substantially circumferential lip portion. The substantially circumferential lip portion and the substantially tube-shaped body portion form a radial passage that extends along an entire length locking sleeve member. A plurality of radial passages extend through a thickness of the substantially tube-shaped body portion.
In some examples, the plurality of radial passages include six radial passages defined by: a first pair of radial passages defined by a first radial passage and a second radial passage, a second pair of radial passages defined by a third radial passage and a fourth radial passage, and a third pair of radial passages defined by a fifth radial passage and a sixth radial passage. Each passage of the first, second and third pairs of passages of the locking sleeve member are spaced apart by a distance.
In some implementations, each of the first pair of radial passages and the third pair of radial passages are offset by approximately 90° from the second pair of radial passages.
In some instances, the first pair of radial passages are arranged at a 3 o'clock position of the locking sleeve member. The second pair of radial passages are arranged at a 6 o'clock position of the locking sleeve member. The third pair of radial passages are arranged at a 9 o'clock position of the locking sleeve member.
In some examples, the radial passage is arranged at a 12 o'clock position of the locking sleeve member.
In some implementations, the substantially circumferential lip portion defines a distal end surface of the locking sleeve member. The substantially tube-shaped body portion defines a proximal end surface of the locking sleeve member.
In some instances, both of the substantially circumferential lip portion and the substantially tube-shaped body portion define an inner axial passage surface. Both of the substantially circumferential lip portion and the substantially tube-shaped body portion define an outer side surface. The substantially circumferential lip portion includes a ledge surface that connects a first portion of the outer side surface that is defined by the substantially circumferential lip portion to a second portion of the outer side surface that is defined by the substantially tube-shaped body portion. The ledge surface demarcates the substantially circumferential lip portion from the substantially tube-shaped body portion.
In some examples, the inner axial passage surface of the locking sleeve member defines an axial passage that extends through the length of the locking sleeve member between the distal end surface of the locking sleeve member and the proximal end surface of the locking sleeve member.
In some implementations, access to the axial passage of the locking sleeve member is permitted by a distal axial opening formed by the distal end surface of the substantially circumferential lip portion and a proximal axial opening formed by the proximal end surface of the substantially tube-shaped body portion.
In some instances, a plurality of the radial passages of the locking sleeve member extend through the thickness of the locking sleeve member such that the plurality of radial passages are in fluid communication with the axial passage that extends through the length of the locking sleeve member.
The figures illustrate an exemplary implementation of firearm handguard components, an assembly and method for forming the same. Based on the foregoing, it is to be generally understood that the nomenclature used herein is simply for convenience and the terms used to describe the invention should be given the broadest meaning by one of ordinary skill in the art.
Referring to
When the firearm handguard assembly 10 is attached to the firearm, F, the barrel, B, extends through the axial passage 14 of the firearm handguard assembly 10 in a spaced-apart relationship with respect to a portion of the inner axial passage surface 12 of the firearm handguard assembly 10 (defined by at least, e.g., a firearm handguard member 22 of the firearm handguard assembly 10). Because the barrel, B, is arranged in a spaced-apart relationship with respect to a portion of the inner axial passage surface 12 of the firearm handguard assembly 10, any heat generated by the barrel, B, is permitted to escape to the surrounding atmosphere while also preventing a user from directly touching the barrel, B, which may be at a temperature higher than ambient temperature after the firearm, F, is fired. As a result of the spaced-apart relationship of the barrel, B, of the firearm, F, with respect to a portion of the inner axial passage surface 12 of the firearm handguard assembly 10, the firearm handguard assembly 10 may be referred to as a “free float” firearm handguard assembly 10 due to at least a portion (e.g., the firearm handguard member 22) of the firearm handguard assembly 10 being arranged in a “floating” relationship with respect to the barrel, B, of the firearm, F.
Referring to
Referring also to
Prior to joining the components 18-24 together for forming the firearm handguard assembly 10, one of the components 18-24 may be firstly attached to the firearm, F. As seen in, for example,
Referring to FIGS. 1C′-1C″″, the components 18-24 of the firearm handguard assembly 10 are joined together for forming the firearm handguard assembly 10. Although some implementations of a method for assembling the firearm handguard assembly 10 may include firstly attaching the barrel nut member 18 of the firearm, F, as described above, the handguard assembly 10 may be assembled in the absence of a firearm, F, as shown and described at FIGS. 1C′-1C″″, and, as a result, it should be understood by the skilled artisan that the firearm, F, itself may not be considered to be a component of the firearm handguard assembly 10 nor is the firearm, F, required in order to assemble the firearm handguard assembly 10.
Referring initially to FIGS. 1C′-1C″, a method for assembling the firearm handguard assembly 10 is described. Firstly, the locking sleeve member 20 may be disposed within an axial passage 38 of the barrel nut member 18. Referring to FIG. 1C″, upon disposing the locking sleeve member 20 within the axial passage 38 of the barrel nut member 18, a plurality of radial passages 72 of the locking sleeve member 20 are aligned with a plurality of radial passages 42 of the barrel nut member 18.
Referring to FIGS. 1C″-1C′″, the firearm handguard member 22 is arranged about the barrel nut member 18 and the locking sleeve member 20 such that the barrel nut member 18 and the locking sleeve member 20 are arranged within an axial passage 82 of the firearm handguard member 22. Referring to FIG. 1C′″, upon arranging the firearm handguard member 22 about the locking sleeve member 20 and the barrel nut member 18, a plurality of radial passages 88 of the firearm handguard member 22 are aligned with the plurality of radial passages 72 of the locking sleeve member 20 and the plurality of radial passages 42 of the barrel nut member 18.
Referring to FIGS. 1C′″, the plurality of fasteners 24 may then be aligned with the aligned plurality of radial passages 42, 72, 88 of the barrel nut member 18, the locking sleeve member 20 and the firearm handguard member 22. Referring to FIG. 1C″″, the plurality of fasteners 24 may be inserted: (1) firstly through the plurality of radial passages 88 of the firearm handguard member 22, then (2) secondly through the plurality of radial passages 42 of the barrel nut member 18 and then (3) thirdly through the plurality of radial passages 72 of the locking sleeve member 20 for joining the firearm handguard member 22 to the barrel nut member 18 and the locking sleeve member 20. Once the plurality of fasteners 24 join the firearm handguard member 22 to the barrel nut member 18 and the locking sleeve member 20, the firearm handguard assembly 10 may be said to be assembled.
Referring to
Referring to
The inner axial passage surface 34 defines an axial passage 38 that extends through the length, L18, of the barrel nut member 18 along a central axis, A-A, between the distal end surface 32a of the substantially tube-shaped body 30 and the proximal end surface 32b of the substantially tube-shaped body 30. Access to the axial passage 38 of the barrel nut member 18 is permitted by a distal axial opening 40a formed by the distal end surface 32a of the substantially tube-shaped body 30 and a proximal axial opening 40b formed by the proximal end surface 32b of the substantially tube-shaped body 30.
Referring to
In an implementation, as seen in
The first arcuate-shaped radial passage 42a and the second arcuate-shaped radial passage 42b may be arranged in an opposing relationship to thereby define the substantially tube-shaped body 30 to include a first substantially circumferential passage 50. The third arcuate-shaped radial passage 42c and the fourth arcuate-shaped radial passage 42d may be arranged in an opposing relationship to thereby define the substantially tube-shaped body 30 to include a second substantially circumferential passage 52. The first and second substantially circumferential passages 50, 52 may be spaced apart by a distance, D18.
Referring to
Referring to
Both of the substantially circumferential lip portion 54 and the substantially tube-shaped body portion 56 define an inner axial passage surface 60 of the locking sleeve member 20. Both of the substantially circumferential lip portion 54 and the substantially tube-shaped body portion 56 define an outer side surface 62 of the locking sleeve member 20.
Referring to
Referring to
With continued reference to
The inner axial passage surface 60 defines an axial passage 66 that extends through the length, L20, of the locking sleeve member 20 along a central axis, A-A, between the distal end surface 58a of the locking sleeve member 20 and the proximal end surface 58b of the locking sleeve member 20. Access to the axial passage 66 of the locking sleeve member 20 is permitted by a distal axial opening 68a formed by the distal end surface 58a of the substantially circumferential lip portion 54 and a proximal axial opening 68b formed by the proximal end surface 58b of the substantially tube-shaped body portion 56.
Referring to
As seen in
Referring to
In an implementation, the radial passage 70 that extends along length, L20, of the locking sleeve member 20 may be said to be arranged at “the 12 o'clock position” of the locking sleeve member 20. In an implementation, the first pair of radial passages 72′ may be said to be arranged at “the 9 o'clock position” of the locking sleeve member 20. In an implementation, the second pair of radial passages 72″ may be said to be arranged at “the 6 o'clock position” of the locking sleeve member 20. In an implementation, the third pair of radial passages 72′″ may be said to be arranged at “the 3 o'clock position” of the locking sleeve member 20. Accordingly, in an embodiment, each of the radial passage 70 and first, second, third pairs of radial passages 72′-72′″ may be offset by approximately about 90°.
As seen in, for example,
Referring to
The substantially tube-shaped body 74 may define the firearm handguard member 22 to include a length, L22 (see, e.g.,
The inner axial passage surface 78 defines an axial passage 82 that extends through the length, L22, of the firearm handguard member 22 along a central axis, A-A, between the distal end surface 76a of the substantially tube-shaped body 74 and the proximal end surface 76b of the substantially tube-shaped body 74. Access to the axial passage 82 of the firearm handguard member 22 is permitted by a distal axial opening 84a formed by the distal end surface 76a of the substantially tube-shaped body 74 and a proximal axial opening 84b formed by the proximal end surface 76b of the substantially tube-shaped body 74.
The first length portion, L22-1, of the length, L22, of the firearm handguard member 22 may include a first plurality of radial passages 86. The plurality of radial passages 86 may extend through the thickness, T22, of the firearm handguard member 22 such that the plurality of radial passages 86 are in fluid communication with the axial passage 82 that extends through the length, L22, of the firearm handguard member 22. In an implementation, the plurality of radial passages 86 may include, for example: a repeating pattern of circular-shaped passages 86a and elongated, first oval-shaped passages 86b. In an implementation, the plurality of radial passages 86 may also include, for example, a plurality of elongated, second oval-shaped passages 86c that are greater in length than the elongated, first oval-shaped passages 86b.
The second length portion, L22-2, of the length, L22, of the firearm handguard member 22 may include a second plurality of radial passages 88. The second plurality of radial passages 88 may extend through the thickness, T22, of the firearm handguard member 22 such that the second plurality of radial passages 88 are in fluid communication with the axial passage 82 that extends through the length, L22, of the firearm handguard member 22.
Referring to
In an implementation, the first pair of radial passages 88′ may be said to be arranged at “the 9 o'clock position” of the firearm handguard member 22. In an implementation, the second pair of radial passages 88″ may be said to be arranged at “the 6 o'clock position” of the firearm handguard member 22. In an implementation, the third pair of radial passages 88′″ may be said to be arranged at “the 3 o'clock position” of the firearm handguard member 22. Accordingly, in an embodiment, each of the first pair of radial passages 88′ and the third pair of radial passages 88′″ may be offset from the second pair of radial passages 88″ by approximately about 90°.
Each radial passage 88a-88f of the second plurality of radial passages 88 is defined by a counter-sunk surface portion 88c (see, e.g.,
In an implementation, the “the 12 o'clock position” outer side surface 80 of the firearm handguard member 22 may generally define an implement mounting rail member 90. The implement mounting rail member 90 is formed integrally with the substantially tube-shaped body 74 of the firearm handguard member 22. The implement mounting rail member 90 may include any desirable geometry such as, for example, a “Picatinny” style implement mounting rail. The geometry of the implement mounting rail member 90 is substantially similar to an implement mounting rail member, IR (see, e.g.,
If additional implement mounting rails are desired, the one or more supplementary implement mounting rail members 28 may be joined to the outer side surface 80 of the firearm handguard member 22 at “the 3 o'clock,” “the 6 o'clock” and “the 9 o'clock” positions of the firearm handguard member 22. Attachment of the one or more supplementary implement mounting rail members 28 may be conducted as seen in
Referring to
Referring to
The stem portion 96 includes an outer threaded surface 96T. The stem portion 96 is defined by a length, L96. The length, L96, of the stem portion 96 is at least approximately equal to about a sum of: the thickness, T18, of the barrel nut member 18, the second thickness, T20-2, formed by the substantially tube-shaped body portion 56 of the locking sleeve member 20, and the thickness, T22, of the firearm handguard member 22.
As described above, the outer threaded surface 96T of the stem portion 96 of the fasteners 24a-24f threadingly-cooperate with the threaded surface 72T of each radial passage 72a-72f of the plurality of radial passages 72 of the locking sleeve member 20 and is passed through each radial passage 88a-88f of the second plurality of radial passages 88 of the firearm handguard member 22 for securing the firearm handguard member 22 to both of the barrel nut member 18 and the locking sleeve member 20.
Referring to
Referring to
As described above, the inner axial passage surface 34 of the second length portion, L18-2, of the barrel nut member 18 includes a threaded surface portion 34T. When the proximal end surface 32b of the substantially tube-shaped body 30 of the barrel nut member 18 is arranged adjacent the receiver, R, the barrel nut member 18 is rotated relative to the receiver, R, such that the threaded surface portion 34T of the barrel nut member 18 will cooperate with the threaded surface, RT, of the receiver, R, in order to threadingly-attach the barrel nut member 18 to the receiver, R, as seen in
Referring to
As the locking sleeve member 20 is continued to be guided along the barrel, B, and about the “12 o'clock” position of the firearm, F, the substantially tube-shaped body portion 56 of the locking sleeve member 20 is eventually arranged within the axial passage 38 of the barrel nut member 18 (as seen in
Referring to
As the firearm handguard member 22 is continued to be guided along the barrel, B, of the firearm, F, the key-shaped geometry 92 defined by the proximal end surface 76b of the firearm handguard member 22 eventually is received by and mates with the corresponding key-shaped geometry, RK, of the firearm, F. When the key-shaped geometry 92 of the firearm handguard member 22 is received by and mates with the corresponding key-shaped geometry, RK, of the firearm, F, the firearm handguard member 22 is arranged about the locking sleeve member 20 and the barrel nut member 18 such that the locking sleeve member 20 and the barrel nut member 18 are arranged within the axial passage 82 of the firearm handguard member 22. Upon arranging the firearm handguard member 22 about the locking sleeve member 20 and the barrel nut member 18, the plurality of radial passages 88 of the firearm handguard member 22 are aligned with the plurality of radial passages 72 of the locking sleeve member 20 and the plurality of radial passages 42 of the barrel nut member 18.
Referring to
Once the plurality of fasteners 24 joins the firearm handguard member 22 to the locking sleeve member 20 and the barrel nut member 18, the firearm handguard assembly 10 may said to be assembled upon the firearm, F. As seen in FIG. 1C″″, the barrel, B, is shown in phantom extending through the firearm handguard assembly 10 such that at least, for example, the inner surface 78 of the handguard member 22 is arranged in a spaced-apart, “free floating” relationship with respect to an exterior surface of the barrel, B.
In some implementations, if the radial passage 72a-72f of the plurality of radial passages 72 of the locking sleeve member 20 and the radial passage 88a-88f of the second plurality of radial passages 88 of the firearm handguard member 22 are not aligned with one another after connecting the firearm handguard member 22 to barrel nut member 18 and the locking sleeve member 20 as seen in
Referring to
Referring to
Attachment of the firearm handguard assembly 10 to the firearm, F, as described above at
A number of implementations have been described. Nevertheless, it will be understood that various modifications may be made without departing from the spirit and scope of the disclosure. Accordingly, other implementations are within the scope of the following claims. For example, the actions recited in the claims can be performed in a different order and still achieve desirable results.
This U.S. Patent Application claims priority to U.S. Provisional Application: 61/676,756 filed on Jul. 27, 2012, the disclosure of which is considered part of the disclosure of this application and is hereby incorporated by reference in its entirety.
Number | Date | Country | |
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61676756 | Jul 2012 | US |