Firearm system

Abstract

An adapter for an M240 machine gun to position the trigger housing assembly distally forward as well as an extended trigger housing assembly for an M240 machine gun and an M240 machine gun with the trigger housing assembly positioned distally forward from the proximal end of the receiver.

Claims

1. An M240 machine gun extended trigger housing assembly, comprising: a trigger housing assembly having a proximal end and a distal end and connectable to an M240 machine gun receiver; and a proximal leg extending proximally from the trigger housing assembly and configured to connect to a trigger housing assembly engagement of the M240 machine gun receiver; wherein the extended trigger housing assembly is configured to position the trigger housing assembly with respect to the receiver at a position located more distal than that of a trigger housing assembly of an M240 machine gun as shown in FIG. 1.

2. The extended trigger housing assembly of claim 1 wherein the trigger housing assembly comprises a removable grip.

3. An M240 machine gun comprising: a receiver with a floor, top, proximal end, and distal end; a buttstock connected to the proximal end of the receiver; a barrel connected to the distal end of the receiver; and a trigger housing assembly comprising a grip, the trigger housing assembly attached to the bottom of the receiver and positioned more distal than a trigger housing assembly of an M240 machine gun as shown in FIG. 1.

4. The M240 machine gun of claim 3 wherein the floor of the receiver further comprises an ejection port, trigger opening, and receiver floor wall, wherein the trigger opening is positioned between the receiver floor wall and the ejection port.

5. The M240 machine gun of claim 4 wherein the bottom of the receiver further comprises a mounting hole positioned distal to both the receiver bottom wall and trigger opening and positioned proximal to the ejection port.

6. The M240 machine gun of claim 3 wherein the trigger housing assembly further comprises a proximal leg for engaging a trigger housing assembly engagement on the receiver, the trigger housing assembly engagement located at about the proximal end of the receiver.

7. The M240 machine gun of claim 3 further comprising an operating rod with a sear engagement located distally from the operating rod's rear body portion.

8. The M240 machine gun of claim 3 wherein the butt stock has a length that is shorter than a length of a butt stock of an M240 machine gun as shown in FIG. 1.

9. The M240 machine gun of claim 3 wherein the top of the receiver comprises a cheek rest.

10. The M240 machine gun of claim 3 wherein the receiver comprises a unitary first shell and a unitary second shell that form the receiver.

11. The M240 machine gun of claim 10 wherein the union of the unitary first shell and the unitary second shell form the ejection port and trigger opening with the trigger housing assembly attached in a forward position.

12. The M240 machine gun of claim 10 wherein a proximal end of the grip of the trigger housing assembly is positioned at least about two inches from the proximal end of the receiver.

13. An M240 machine gun, comprising: a receiver with a floor, top, proximal end, and distal end; a buttstock connected to the proximal end of the receiver; a barrel connected to the distal end of the receiver; and a trigger housing assembly comprising a grip, the trigger housing assembly attached to the bottom of the receiver; wherein a proximal end of the grip of the trigger housing assembly is positioned at least about two inches from the proximal end of the receiver.

14. An M240 machine gun comprising the extended trigger housing assembly of claim 1.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is an illustration of a prior art M240 machine gun.

(2) FIG. 2 is an illustration of a prior art bottom portion of a receiver of an M240 machine gun.

(3) FIG. 3 is an illustration of an optional embodiment of an M240 machine gun with adapter to move a trigger housing assembly distally forward.

(4) FIG. 4 is an illustration of an optional embodiment of the adapter for an M240 machine gun.

(5) FIG. 5 is an illustration of an optional embodiment of an M240 machine gun having a trigger assembly with proximal leg.

(6) FIG. 6 is an illustration of an optional embodiment of a trigger assembly with proximal leg for an M240 machine gun.

(7) FIG. 7 is an illustration comparing the M240 machine gun of FIG. 1 to the M240 machine gun of FIG. 5 to the M240 machine gun of FIG. 3.

(8) FIG. 8 is an illustration of a prior art M240LW machine gun.

(9) FIG. 9 is an illustration of an M240LW machine gun with the trigger housing assembly located distally forward.

(10) FIG. 10 is an illustration of an M240LW machine gun with a trigger housing assembly with proximal leg.

(11) FIG. 11 is an illustration comparing the M240LW machine gun of FIG. 8 to the M240LW machine gun of FIG. 10 to the M240 machine gun of FIG. 9.

(12) FIGS. 12a and 12b are illustrations of an operating rod assembly for an M240 machine gun.

(13) FIGS. 13a and 13b are illustrations of an operating rod assembly with the sear engagement located distally forward.

(14) FIGS. 14a and 14b are illustrations of a sight for an M240 machine gun.

(15) FIGS. 15a and 15b are illustrations of a cheek surface for an M240 machine gun.

(16) FIG. 16 is an illustration of a cutaway view of an optional embodiment of the operating rod.

(17) FIG. 17 is an illustration of an optional embodiment of a top rail.

(18) FIG. 18 is an illustration of an optional embodiment of a top rail with a raised rear sight.

(19) FIG. 19 is an illustration of an optional embodiment of a top rail mounted on an optional embodiment of a machine gun.

(20) FIG. 20 is an illustration of an optional embodiment of a handguard attached to a machine gun.

(21) FIG. 21 is an illustration of an optional embodiment of the handguard attached to a machine gun.

(22) FIG. 22 is an illustration of an optional embodiment of the handguard with an optional embodiment of the bipod assembly attached.

(23) FIG. 23 is an illustration of an optional embodiment of the handguard with an optional embodiment of the bipod assembly attached.

(24) FIG. 24 is an illustration of a side perspective view of an optional embodiment of the handguard.

(25) FIG. 25 is an illustration of a front view of an optional embodiment of the handguard.

(26) FIG. 26 is an illustration of the receiver of a machine gun where the receiver communicates with an optional embodiment of the handguard.

(27) FIG. 27 is an illustration of a close up view of an optional embodiment of the handguard attached to a machine gun.

(28) FIG. 28 is an illustration of a close up view of an optional embodiment of the handguard attached to a machine gun.

(29) FIG. 29 is an illustration of an exploded view of the machine gun without barrel with an optional embodiment of the handguard and an optional embodiment of a bipod assembly.

(30) FIG. 30 is an illustration of an optional embodiment of the handguard with the receiver of a machine gun.

(31) FIG. 31 is an illustration of a cross-sectional view of an optional embodiment of the handguard attached to a machine gun.

(32) FIG. 32 is an illustration of an optional embodiment of a bipod assembly.

(33) Reference will now be made in detail to optional embodiments of the invention, examples of which are illustrated in accompanying drawings. Whenever possible, the same reference numbers are used in the drawings and in the description referring to the same or like parts.

DETAILED DESCRIPTION

(34) While the making and using of various embodiments are discussed in detail below, it should be appreciated that the present invention provides many applicable inventive concepts that can be embodied in a wide variety of specific contexts. The specific embodiments discussed herein are merely illustrative of specific ways to make and use the invention and do not delimit the scope of the invention.

(35) Where the various figures may describe embodiments sharing various common elements and features with other embodiments, similar elements and features are given the same reference numerals and redundant description thereof may be omitted below. Generally, different, but similar reference numbers (e.g. 42 and 142) will be used to show that some parts are replaced. Numerals that indicate proximal and distal will generally stay the same even though they might be for different locations on different elements.

(36) Conditional language used herein, such as, among others, “can,” “might,” “may,” “e.g.,” and the like, unless specifically stated otherwise, or otherwise understood within the context as used, is generally intended to convey that certain embodiments include, while other embodiments do not include, certain features, elements and/or states. Thus, such conditional language is not generally intended to imply that features, elements and/or states are in any way required for one or more embodiments or that one or more embodiments necessarily include logic for deciding, with or without author input or prompting, whether these features, elements and/or states are included or are to be performed in any particular embodiment.

(37) To the extent that the term “includes” or “including” is used in the specification or the claims, it is intended to be inclusive in a manner similar to the term “comprising” as that term is interpreted when employed as a transitional word in a claim. Furthermore, to the extent that the term “or” is employed (e.g., A or B) it is intended to mean “A or B or both.” Furthermore, to the extent the term “connect” is used in the specification or claims, it is intended to mean not only “directly connected to,” but also “indirectly connected to” such as connected through another component or multiple components.

(38) To facilitate the understanding of the embodiments described herein, a number of terms are defined below. The terms defined herein have meanings as commonly understood by a person of ordinary skill in the areas relevant to the embodiments described herein. Terms such as “a,” “an,” and “the” are not intended to refer to only a singular entity, but rather include the general class of which a specific example may be used for illustration. The terminology herein is used to describe specific embodiments of the invention, but their usage does not delimit the invention, except as set forth in the claims.

(39) Referring to FIG. 1, there is an illustration of a prior art M240 machine gun designated by numeral 10. Generally, such firearm is manufactured by Fabrique Nationale. The M240 machine gun 10 includes butt stock 12, barrel 14, muzzle 16 and receiver 18. Generally, distal end of receiver 18 is designated by numeral 20 and proximal end of receiver 18 is designated by numeral 22. Trigger housing assembly 24 includes grip 25 and trigger 32. Receiver 18 of machine gun 10 includes receiver floor 42. Alternatively, the term “bottom” may be used interchangeably with “floor” and mean the same. Receiver floor 42 of receiver 18 includes trigger assembly engagement 26 and mounting point 28. Generally, the prior art M240 machine gun 10 is understood to have a conventional box-like receiver assembled from separate parts, with overlapping plate edges that are riveted together.

(40) Receiver floor 42 further includes ejection port 30 for fired brass to be expended from the firearm. Generally, the M240 machine gun 10 has a butt stock length designated by numeral 36. Butt stock length 36 is a length of distance from the proximal end of the butt stock to the distal end of the butt stock where it connects to the proximal end of receiver 18. The length of pull of the M240 machine gun 10 is designated by numeral 38 and is generally understood to be the distance from trigger 32 to the proximal end of butt stock 12. The overall length of the firearm is indicated by numeral 40.

(41) Referring now to FIG. 2, there is an illustration of a M240 machine gun's receiver floor, previously designated by numeral 42. This is generally riveted to receiver 18 of the FN variety prior art M240 machine gun designated by numeral 10 and illustrated in FIG. 1. Receiver floor 42 includes distal end 44 and proximal end 46. As previously described, receiver floor 42 also includes first trigger assembly engagement 26 and mount point 28. Between first trigger assembly engagement 26 and mount point 28, trigger opening 48 is positioned so that trigger 32 of trigger housing assembly 24 may pass there between in connecting with the fire control components within the receiver (not shown). Between trigger opening 48 and ejection port 30, there is receiver floor wall 34. In embodiments of the prior art FN M240 machine gun as illustrated in FIG. 1, receiver floor 42 positions the trigger housing assembly 24 so that the end of grip 25 is about even with proximal end 22 of receiver 18. Generally, trigger opening 48 is located toward the proximal end of receiver floor 42 and ejection port 30 is located toward the distal end of receiver floor 42 with receiver floor wall 34 positioned there between.

(42) Referring to FIG. 3, there is an optional embodiment of applicant's invention designated by numeral 110. More specifically, FIG. 3 illustrates an M240 machine gun having adapter 142 in place of receiver floor 42. M240 machine gun 110 includes butt stock 112, barrel 14, muzzle 16 and receiver 18 (since the receiver includes many of the same features as in FIG. 1, absent the receiver floor, the receiver in FIG. 3 is still indicated by the numeral 18). Receiver 18 includes distal end 20 and proximal end 22. In having bottom adapter 142, new M240 machine gun 110 with receiver 18 includes adapter 142 with adapter floor wall 134 between the proximal end 22 of receiver 18 and trigger housing assembly engagement 126. Furthermore, adapter 142 includes trigger housing assembly engagement 126 so that trigger housing assembly 24 can be attached to new M240 machine gun 110 via the engagement in conjunction with trigger opening 148. Trigger assembly 24 further includes grip 25 and trigger 32. In front of trigger assembly 24 is ejection port 130. Otherwise stated, ejection port 130, through which spent brass is sent, is located between distal end 20 and trigger housing assembly 24 of receiver 18. The use of adapter 142 does not require the relocation of the ejection port. Furthermore, the mounting point is indicated by numeral 128.

(43) Advantageously, trigger housing assembly 24 is moved distally forward when compared to the prior art M240 machine gun as appears in FIG. 1. In some optional embodiments, trigger housing assembly is moved inches forward, some optional embodiments have the trigger housing assembly moved greater than two inches distally. In some further optional embodiments, the trigger housing assembly may be moved greater than three inches distally. In yet more optional embodiments, the trigger housing assembly may be moved about 3.3 inches distally. Otherwise stated, trigger housing assembly 24 can be considered to be roughly in about the middle of adapter 142. Further advantageous is that a conventional trigger housing assembly can be utilized in this new location. In some optional embodiments, the overall length 140 of the new M240 machine gun designated by numeral 110 may be shorter than the overall length 40 of the traditional M240 machine gun designated by numeral 10 and illustrated in FIG. 1.

(44) By having trigger assembly 24 moved forward, butt stock length 136 of butt stock 112 may be shorter than butt stock length 36 of butt stock 12 of the prior art M240 machine gun 10 while achieving a sufficient length of pull. This is illustrated by comparing butt stock length 36 of FIG. 1 to that of butt stock length 136 of FIG. 3. However, length of pull 138 of the new M240 machine gun of FIG. 3 may be substantially similar to that of length of pull 38 of the prior art M240 machine gun of FIG. 1 as trigger assembly 24 of M240 machine gun 110 has moved forward with the firearm having a shorter butt stock 112. The overall length 140 of the M240 machine gun as embodied in FIG. 3 may also be shorter than that of overall length 40 of FIG. 1.

(45) Additionally, the M240 machine gun as designated by numeral 110 in FIG. 3 may have an improved balance as trigger assembly 24 with grip 25 is moved forward thus helping further distribute the weight of the firearm. Optionally, in further optional embodiments, butt stock 112 may be of an adjustable design so that a customizable length of pull may be realized. In some optional embodiments, buttstock 112 may include an internal piston or hydraulic design that assists in the function of M240 machine gun 110.

(46) Referring now to FIG. 4 there is an illustration of adapter 142 which is utilized to move trigger assembly 24 forward as seen in FIG. 3. Generally, adapter 142 is understood to replace receiver floor plate 42 of a traditional M240 machine gun. Most conventional M240 machine guns have a riveted box receiver design and thus the existing receiver floor plate 42 can be removed and adapter 142 riveted in place instead. In other optional embodiments, adapter 142 may be attached in different manners to the receiver.

(47) Generally, adapter 142 includes distal end 44 and proximal end 46. Adapter floor wall 134 is proximally located to trigger opening 148 and thus also adjacent to about proximal end 46 of adapter 142. Trigger opening 148 is understood as being between adapter floor wall 134 and ejection port 130 of adapter 142. As previously mentioned, bottom plate adapter 142 can also include trigger assembly engagement 126 and mounting point 128. Trigger opening 148 is thus positioned between trigger assembly engagement 126 and mounting point 128 if included, with ejection port 130 distal to trigger opening 148.

(48) In yet further optional embodiments, the adapter may be formed of a variety of different metals including various forms of steel and the like. In yet further optional embodiments it is possible that adapter 142 could be formed of various other alloys and metals including aluminum and further could also possibly be formed of different composite materials. Further possibilities include the formation of adapter from plastic materials.

(49) Referring now to FIG. 5, there is an additional optional embodiment of M240 machine gun 110. In comparing and contrasting the new M240 machine gun 110 of FIG. 5 with the FN M240 machine gun as illustrated in FIG. 1, the butt stocks and trigger housing assemblies are different (as well as some internals). Here, as detailed in the illustration of FIG. 5, trigger 132 is also moved distally, similarly to the M240 machine gun as illustrated in FIG. 3, however, adapter 142 is not utilized. Rather, extended trigger housing assembly 124 is used to facilitate the distal relocation of trigger 132. Notably, in such embodiments, the receiver floor plate 42 may remain as it is in FIG. 1 (as well as receiver 18), as extended trigger housing 124 may fit to the original receiver floor of an M240 machine gun.

(50) Extended trigger housing assembly 124 includes proximal leg 150. With proximal leg 150 of extended trigger housing assembly 124, extended trigger housing assembly 124 can engage trigger housing assembly engagement 26 to be secured to receiver 18 of new M240 machine gun 110. Proximal leg 150 provides the necessary length and linkage so that grip 125 and trigger 132 can be moved distally forward so that butt stock 112 has a shorter butt stock length 136. Thus, overall length 140 of M240 machine gun 110 as depicted in FIG. 5 may be shorter than the prior art as depicted in FIG. 1. Advantageously, length of pull 138 may be generally maintained due to extended trigger housing assembly 124 positioning grip 125 and trigger 132 distally forward. In optional embodiments, trigger 132 connects to fire components of the M-240 machine gun through a linkage or the like so that the original opening for the trigger for the machine gun could be used. However, in further optional embodiments, a new trigger opening may be formed in the existing receiver so that the trigger assembly could engage with the fire components in that manner. Furthermore, such extended trigger housing assemblies 124 may facilitate a removable grip 125 that may also be compatible with AR15/M16 style grips.

(51) In yet further optional embodiments, another slightly different extended trigger housing assembly 124 is illustrated in FIG. 6 which may be formed of a variety of materials including a variety of metals, alloys and the like as well as composites and/or plastics. In optional embodiments, extended trigger housing assembly 124 with proximal leg 150 may be generally formed or milled of one entire piece of material. In yet further optional embodiments, extended trigger housing assembly 124 may be extruded, milled, cast or formed in a variety of other different manners. Additionally, extended trigger housing assembly 124 may be of a unitary piece or alternatively may be formed of a variety of different pieces combined together. As previously discussed, extended trigger housing assembly 124 may include grip 125, trigger 132, with proximal leg 150 engaging trigger housing assembly engagement 26.

(52) Referring now to FIG. 7, there is a comparison of the original prior art FN M240 machine gun as designated by numeral 10 with the two previously described embodiments of the new M240 machine gun designated by numeral 110. This comparison illustration shows the shorter overall length using either the adapter or extended trigger assembly housing which further advantageously provides greater balance to the firearm.

(53) Referring now to FIG. 8, there is an illustration of a M240LW machine gun as designed by Barrett Firearms Manufacturing. Generally the M240LW is a M240 variant which uses a unitary first shell and a unitary second shell to create the receiver for the firearm. Such firearm is described in U.S. Pat. No. 7,937,877, issued to Christopher Gene Barrett and entitled “Light Weight Firearm and Method of Manufacturing.” U.S. Pat. No. 7,937,877 is incorporated by reference in its entirety with respect to FIGS. 8-11 to the extent that language from the reference does not conflict with the present disclosure. Generally, the M240LW is designated by numeral 210 and can incorporate conventional trigger housing assembly 24 having grip 25 and trigger 32, the trigger housing assembly attaching to receiver 218 via trigger assembly engagement 226. The ejection port is indicated by numeral 230. Generally, conventional butt stock 12 can also be used with the M240LW. Such M240LW machine gun also has butt stock length 236, length of pull 238 and overall length 240. As with the other embodiments, the proximal end is indicated by numeral 22 and the distal end is indicated by numeral 20.

(54) Referring now to FIG. 9, there is a new embodiment which incorporates trigger housing assembly 24, with grip 25 and trigger 32, in a forward position. However, rather than using adapter 142 and incorporating it into an existing receiver as done with the embodiment in FIG. 2, the new machine gun designated by the numeral 310 may include the necessary arrangement for the forward position of trigger housing assembly 24 as part of the shells that form receiver 318.

(55) Generally, the trigger housing assembly engagement 326 of receiver 318 is positioned more distally than that of receiver 218. The trigger opening (not shown) may be located between trigger housing assembly engagement 326 and mounting point 328, with receiver floor wall 334 proximal to trigger housing assembly engagement 326. Otherwise stated, in order from proximal end 22 of receiver 318 are receiver floor wall 334, trigger housing assembly engagement 326, trigger opening (not visible), and ejection port 330, then the distal end 20. Optionally butt stock 112 may be used with such an embodiment of the machine gun.

(56) Generally, the benefits of machine gun 310 of FIG. 9 are similar to those as previously described for M240 machine gun 110 of FIG. 2, but with additional improvements. As the M240LW machine gun variant is already lighter than the traditional M240 machine gun, the additional decrease in length of machine gun 310 with a clamshell design provides for even greater maneuverability than the M240 machine gun 110 of FIG. 2.

(57) Referring now to FIG. 10, there is an embodiment of variant of the M240LW machine gun 310 with extended trigger assembly 124. In this optional embodiment of machine gun 310, the receiver is identified by numeral 218 and is generally the same as that of M240LW machine gun 210 as provided in FIG. 8. Here, extended trigger housing assembly 124 includes proximal leg 150 and attaches to trigger housing engagement 226 via the proximal leg 150. Furthermore, as provided previously, extended trigger housing assembly 124 includes grip 125 and trigger 132. Similar to the M240LW as indicated in FIG. 8, the receiver is about the same as indicated by numeral 218. In further optional embodiments, grip 125 may be removable from extended trigger housing assembly 124. In some other optional embodiments, extended trigger housing assembly 124 may be compatible with grips that will fit a standard AR15/M16 type firearm. Ultimately, grip 125 and trigger 132 are positioned distally forward toward distal end 20 and away from proximal end 22 as occurred with conventional M240 machine guns.

(58) Referring now to FIG. 11, there is a comparison of the original Barrett M240LW machine gun as designated by numeral 210 with the two previously described embodiments of the new machine guns designated by numeral 310. This comparison illustration shows the shorter overall length using either the adapter or extended trigger assembly housing which further advantageously provides greater balance to the firearm.

(59) Referring now to FIGS. 12a and 12b, there is an embodiment of an operating rod assembly for a M240 machine gun as illustrated in FIG. 1, the operating rod assembly designated by numeral 52. Generally, operating rod assembly 52 includes sear engagement 54 on the underside of rear section 56 of operating rod assembly 52. As trigger housing assembly 24 is located near the proximal end of receiver 18 of the conventional M240 machine gun, trigger housing assembly 24 is appropriately positioned so as to properly position the sear (not shown) to communicate with sear engagement 54 on the underside of rear section 56 of operating rod assembly 52.

(60) Referring now to FIGS. 13a and 13b, there is an embodiment of a new operating rod assembly for a new M240 machine gun as described in the present disclosure. For example, for embodiments such as but not limited to those disclosed within FIG. 2 and FIG. 9, operating rod assembly 152 may be utilized. Specifically, operating rod assembly 152 may include forward sear engagement 154 rather than the traditional sear engagement 54 as located on the underside of rear section 56. As such, forward sear engagement 154 is positioned to interact with the sear per the forward position of trigger housing assembly 24. FIG. 16 provides a cross-sectional view illustrating operating rod assembly 152 with sear engagement 154 engaging the sear of the M240 machine gun. More specifically, in optional embodiments, sear 155 can engage sear engagement 154 in a more distal location on operating rod assembly 152 in comparison to prior art M240 machine guns. Generally, with the new operating rod assembly 152, the sear surface and ramp surface is located greater than two inches distally toward the muzzle when compared to the prior art operating rod assembly as depicted in FIGS. 12a and 12b. In some optional embodiments, the sear engagement is moved about 3.3 inches closer distally toward the muzzle in comparison.

(61) Referring now to FIGS. 14a and 14b, there is an embodiment of a rear sight that may be used with a M240 machine gun, the rear sight designated by the numeral 58. In optional embodiments, rear sight 58 may be attached to the upper receiver of M240 machine gun 10 as illustrated in FIG. 1. Additionally, other various embodiments of a rear sight may be used such as those for the M240LW as illustrated in FIG. 8. However, in some optional embodiments, a user may find it useful to have an area for a check rest on the receiver wherein the butt stock is shortened, for example in FIGS. 3, 5, 9, and 10. One embodiment of such receiver cheek rest is illustrated in FIGS. 15a and 15b and indicated by numeral 60. Such embodiment may provide a comfortable position for a user especially where the trigger housing assembly is in the forward position thereby causing the receiver of the firearm to be in a more rearward position toward the user's shoulder and face. In embodiments of the M240LW wherein unitary shells are utilized, optional embodiments of the cheek rest can be added to the shells upon formation of the receiver, or optionally, the cheek rest may be formed from the union of the shells.

(62) Referring now to FIGS. 17-19, there are illustrations of top cover 362. Top cover 362, in optional embodiments may be understood to be a top cover with an auxiliary Picatinny rail with an embedded rear sight. Generally, top cover 362 relocates the rear sight and incorporates it toward the rear of Picatinny section 364 so that the rear sight is ergonomically in a favorable position. In comparison to the prior art, the rear sigh is moved distally forward so it will not disturb the cheek weld of the user. FIG. 17 illustrates the rear sight in the lower position while FIG. 18 depicts the rear sight in a raised position to illustrate how it may be used and adjusted for distance elevation. FIG. 19 illustrates top cover 362 in place on an optional embodiment of a 240LW machine gun. As one can see, the rear sight of top cover 362 is moved distally forward thus providing space for a cheek weld for a user.

(63) Furthermore as used herein, shortened butt stock 112 is often shown with various embodiments of the invention. Such is not mean to be limiting, but rather illustrate one possible embodiment of a shortened butt stock. In some optional embodiments, the shortened butt stock is shortened to a length just to contain the hydraulic buffer system. In yet other optional embodiments, a collapsible stock may be used with the firearm. Even with differing types of stocks being used with optional embodiments of the M240 machine gun, the trigger housing assembly may still be positioned in a forward position to provide for greater ease in using such firearm.

(64) As such, the adapters or extended trigger assemblies in various embodiments allow for the use of a shorter butt stock on an M240 machine gun, including the M240LW machine gun, as the grip and trigger are moved distally forward. Additionally, new M240 machine guns may be manufactured per the embodiments described herein. Thus, significant weight savings may be realized as well as better balance and usability of the weapon platform. As a shorter butt stock can be used with the grip placed distally forward, a user may be able to maneuver the machine gun in an improved fashion.

(65) As used herein, “forward position” refers to a position located more distally than the prior art M240 machine gun as illustrated in FIG. 1, for example. Some may understand this to mean the trigger housing assembly is located about adjacent to the ejection port or alternatively at about the central area of the main portion of the receiver. In some further optional embodiments, the trigger housing assembly may be moved distally on the receiver so that it is at least about two inches from the proximal end of the receiver.

(66) Various accessories may also is be used with embodiments of the machine gun as described herein, including both a handguard and a mount. As disclosed in FIGS. 20 through 32, handguard 250 and/or bipod 262 can be used with either of the previously disclosed receivers manufactured by Barrett Firearms Manufacturing, such receivers being previously designated with the numerals 218 and 318. For purposes of clarity of this disclosure, handguard 250 is describe in relation to receiver 218 and machine gun 210 though may be used with receiver 318 and machine gun 310 or other variants. Furthermore, it is understood that other receiver designs may work similarly with optional embodiments of handguard 250. Thus, as used herein, handguard 250 has distal end 252 and proximal end 254 and may attach to attaches to receiver 218 of machine gun 210. Optionally, bipod 262 may attach to handguard 250 so as to provide support to a user.

(67) Generally bipod 262 may include first leg 264 and second leg 266 attached to main bipod body 268 as illustrated in FIG. 21, the bipod legs 264 and 266 being rotatably connected to bipod body 268 so that the user may orient the bipod legs into the orientation the user may such desire. Thus, as illustrated in FIG. 20, bipod legs 264 and 266 may be oriented in a downward position to provide support when firing the machine gun 210 or alternatively may be folded or rotated in a variety of orientations to suit the user's desires.

(68) Referring now to FIG. 22, there is an illustration of handguard 250 and bipod 262 separate from machine gun 210 with first leg 264 and second leg 266 folded back along the sides of handguard 250. As used throughout this disclosure, handguard 250 has first handguard side 256, second handguard side 258 and bottom handguard side 260. Generally first side 256 is understood to be the left side of the firearm from the point of view of the user when firing the firearm whereas second side 258 is understood to be the right side of the handguard as understood from point of view of the user firing the firearm. Bottom side 260 is generally understood to go about the bottom area of the firearm and thus connect first side 256 and second side 258. In optional embodiments where handguard 250 includes a design in which the handguard is more circular or oval in shape, generally the left side of the handguard would be understood to be first side 256 whereas the right side of the handguard would be understood to be second side 258 despite the handguard having a generally round design. When bipod 262 is attached to handguard 250, bipod 262 generally attaches to the distal end 252 of handguard 250.

(69) Referring now to FIG. 23, there is a cross-sectional view of handguard 250 with bipod 262 attached. The cross-sectional view is taken through about the middle of bottom side 260 of handguard 250. Here in FIG. 23 one can also see interior surface 270 of handguard 250. FIG. 23 also includes first side 256 of handguard 250 and illustrates first leg 264 of bipod 262 while providing a view of pintle 274 of bipod body 268 of bipod 262 engaged within pintle mount 276 at distal end 252 of handguard 250. Through use of pintle 274 on bipod body 268 of bipod 262 that engages pintle mount 276 of handguard 250, bipod 262 may be removably attachable to handguard 250. Advantageously, through such engagement, pressure that may be exerted by bipod 262 upon machine gun 210 with handguard 250 is exerted upon handguard 250 rather than the pressure being applied to the gas block of the machine gun. Thus, the use of handguard 250 with bipod 262 may result in less deviation in the direction of fire when using a bipod as handguard 250 engages receiver 218 of machine gun 210 rather than the gas assembly.

(70) Referring now to FIG. 24, there is an illustration of handguard 250 without bipod 262 and also additionally without machine gun 210. This illustration provides a view of interior surface 270, exterior surface 272 as well as pintle mount 276, proximal handguard end 254, distal handguard end 252 and second side 258 of handguard 250. Additionally, interface system 278 is visible and can be seen on both first handguard side 256 and second handguard side 258. Generally, interface system 278 and optional embodiments may be included on either first side 256, second side 258 and/or bottom side 260 and may be used to affix accessories to the handguard. Such accessories may vary from lights to grips to laser indicators and the like among other various firearm accessory components. In optional embodiments, interface system 278 may embody a KeyMod style of interface as is illustrated throughout this application. Other interface systems may also be used including the Picatinny style rail style interface, also known as MIL-STD-1913 rail, and other style of mounting systems that are used within the firearm industry. In optional embodiments, interface system 278 may be present on multiple sides of handguard 250 as is illustrated throughout the various figures of this disclosure. Yet in further optional embodiments, interface system 278 may be absent from handguard 250. Despite having no interface system, handguard 250 could still in optional embodiments provide for connection to a bipod as pintle mount 276 could still be present. In yet further optional embodiments, pintle mount 276 may or may not be present as some uses of machine gun 210 may not require or be designed for use with bipod 262.

(71) Referring now to FIG. 25, there is a view of handguard 250 from distal end 252 of handguard 250. Here one can see pintle mount 276 as well as first handguard side 256, second handguard side 258 and bottom handguard side 260 as well as exterior surface 272 and interior surface 270. Additionally from such viewpoint one can also see bosses 280 on interior surface 270 of handguard 250. Bosses 280 may optionally be present to engage slots 282 on receiver 218 of machine gun 210. As used herein, boss refers to a raised portion that may generally fit to a corresponding slot or recess. Furthermore as used herein, slot generally refers to a recessed opening, valley, or indentation for which a boss may fit there within. The use of one or more bosses 280 on handguard 250 to correspond to one or more slots 282 on receiver 218 of machine gun 210 provides for a mechanically strong joint.

(72) In optional embodiments, two bosses may be included, one on first side 256 of handguard 250 and another boss 280 on the second side 258 of handguard 250, which both correspond to slots 282 on receiver 218 of handguard 250. While the general optional embodiments describe two bosses 280, further embodiments may include a greater or lesser amount of bosses depending upon the specific design of the receiver. In some optional embodiments bosses 280 may be absent with the handguard 250 attaching with other means.

(73) FIG. 26 illustrates receiver 218 with a slot 282 that can engage boss 280 on the interior surface 270 of second side 258 of handguard 250. Additionally visible on FIG. 26 are mounting points 284 which correspond to attachment point 286 on handguard 250. As illustrated in some of the subsequent drawings, mounting points 284 of receiver 218 generally align with attachment points 286 of handguard 250 so that handguard 250 may be secured to receiver 218 of machine gun 210. In yet further optional embodiments, attachment hardware 288 may be used to engage both mounting point 284 and attachment point 286 and thus attach handguard 250 to machine gun 210. In optional embodiments, attachment hardware 288 may be a variety of different screws including screws having a size of #10-32. In some optional embodiments, attachment hardware may include a variety of different screws including torque screws as well as screws that may be engaged by Allen wrenches, various screwdrivers or the like.

(74) As illustrated throughout various figures of the optional embodiment of handguard 250, three attachment points 286 may be positioned at about proximal end 254 of handguard 250 on both first side 256 of handguard 250 and second side 258 of handguard 250. In such optional embodiments, receiver 218 may have at least about six mounting points 284 that can correspond to six attachment points 286 of handguard 250. FIG. 27 illustrates an optional embodiment of handguard 250 installed on receiver 218 of machine gun 210 with attachment hardware 288 in place.

(75) FIGS. 29 and 30 illustrate exploded views to further indicate how one or more bosses 280 of handguard 250 align with one or more slots 282 of receiver 218 as well as how mounting points 284 can correspond with attachment points 286 for attachment hardware 288. Such illustrations are provided with the barrel removed from machine gun 210 to provide greater clarity in explaining the engagement of handguard 250 to receiver 18. FIG. 15 is a cutaway view through a mounting point 284 and attachment point 286 with attachment hardware 288 in place in this optional embodiment. Additionally, through this illustration one can see how bosses 280 of handguard 250 engage slots 282 of receiver 218. In further optional embodiments lesser or greater numbers of attachment points, mounting points, and/or attachment hardware may be utilized.

(76) Now referring to FIG. 32, there is an illustration of bipod 262 as discussed earlier. Pintle 274 is positioned on bipod body 268 with first leg 264 and second leg 266 also affixed to bipod body 268. With bipod 262 removed from handguard 250, one can see bipod bosses 290 adjacent to pintle 274. In use, bipod bosses 290 may be used to limit the rotation of bipod 262 relative to handguard 250 when attached to handguard 250. This may provide for greater stability in operation of machine gun 210. In yet further optional embodiments, bipod 262 may not include bipod bosses 290 so as to provide for greater rotational freedom if such is desired. Yet in further optional embodiments, lesser or more bosses 290 may be present depending upon the corresponding structure of distal end 252 of handguard 250.

(77) As such, the handguard as described in various optional embodiments provides for greater usability and improvement upon the M240 variant machine guns. As handguard 250 affixes to the receiver of a machine gun, force upon handguard 250 advantageously delivers such force to the receiver as opposed to delivering it to the barrel assembly or gas assembly. Generally, this results in less deviation in the actual impact of shots fired from the machine gun relative to the intended point of aim. Furthermore, the use of interface systems allows for a variety of useful accessories to be used with such a firearm.

(78) Further advantages that may be realized are that the barrel may be changed in some optional embodiments without requiring the removal of the handguard. In further optional embodiments not illustrated, the handguard may span across the top of the barrel in addition to spanning below the gas assembly and barrel.

(79) Generally, the handguard may be constructed of a variety of different materials. One such option includes the handguard being formed or extruded from various different types of aluminum including 5000, 6000, or 7,000 series aluminum which may optionally include, without limitation, tempered aluminum alloys, examples of which may be 6061-T6, 7075-T651, or 7050-T7651. In further optional embodiments, other materials may be utilized which can include different types of heat treatable alloys or stainless steels such as 17-4PH. In other embodiments, the handguard could be formed from a weldment or cast or alternatively from various alloys ranging from magnesium to titanium alloy or possibly even composite materials.

(80) This written description uses examples to disclose the invention and also to enable any person skilled in the art to practice the invention, including making and using any devices or systems and performing any incorporated methods. The patentable scope of the invention is defined by the claims, and may include other examples that occur to those skilled in the art. Such other examples are intended to be within the scope of the claims if they have structural elements that do not differ from the literal language of the claims, or if they include equivalent structural elements with insubstantial differences from the literal languages of the claims.

(81) It will be understood that the particular embodiments described herein are shown by way of illustration and not as limitations of the invention. The principal features of this invention may be employed in various embodiments without departing from the scope of the invention. Those of ordinary skill in the art will recognize numerous equivalents to the specific procedures described herein. Such equivalents are considered to be within the scope of this invention and are covered by the claims.

(82) All of the products and/or methods disclosed and claimed herein may be made and/or executed without undue experimentation in light of the present disclosure. While the products and methods of this invention have been described in terms of the embodiments included herein, it will be apparent to those of ordinary skill in the art that variations may be applied to the products and/or methods and in the steps or in the sequence of steps of the method described herein without departing from the concept, spirit, and scope of the invention. All such similar substitutes and modifications apparent to those skilled in the art are deemed to be within the spirit, scope, and concept of the invention as defined by the appended claims. Thus, although there have been described particular embodiments of the present invention of a new and useful Firearm System, it is not intended that such references be construed as limitations upon the scope of this invention except as set forth in the following claims.