WO2016178883A1 - Stock assembly - Google Patents

Stock assembly Download PDF

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Publication number
WO2016178883A1
WO2016178883A1 PCT/US2016/029612 US2016029612W WO2016178883A1 WO 2016178883 A1 WO2016178883 A1 WO 2016178883A1 US 2016029612 W US2016029612 W US 2016029612W WO 2016178883 A1 WO2016178883 A1 WO 2016178883A1
Authority
WO
WIPO (PCT)
Prior art keywords
socket
assembly
recess
shaped
stock assembly
Prior art date
Application number
PCT/US2016/029612
Other languages
French (fr)
Inventor
Timothy Eric Roberts
Yehezkel Eitan
Brian L. Nakayama
Original Assignee
Magpul Industries Corp.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US14/703,285 external-priority patent/US9488435B1/en
Application filed by Magpul Industries Corp. filed Critical Magpul Industries Corp.
Priority to KR1020177030324A priority Critical patent/KR101920589B1/en
Priority to AU2016257646A priority patent/AU2016257646B2/en
Priority to CA2968586A priority patent/CA2968586C/en
Priority to NZ733720A priority patent/NZ733720A/en
Priority to EP16789774.3A priority patent/EP3237830B1/en
Publication of WO2016178883A1 publication Critical patent/WO2016178883A1/en
Priority to IL253757A priority patent/IL253757B/en

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41CSMALLARMS, e.g. PISTOLS, RIFLES; ACCESSORIES THEREFOR
    • F41C27/00Accessories; Details or attachments not otherwise provided for
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16BDEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
    • F16B37/00Nuts or like thread-engaging members
    • F16B37/12Nuts or like thread-engaging members with thread-engaging surfaces formed by inserted coil-springs, discs, or the like; Independent pieces of wound wire used as nuts; Threaded inserts for holes
    • F16B37/122Threaded inserts, e.g. "rampa bolts"
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16BDEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
    • F16B5/00Joining sheets or plates, e.g. panels, to one another or to strips or bars parallel to them
    • F16B5/02Joining sheets or plates, e.g. panels, to one another or to strips or bars parallel to them by means of fastening members using screw-thread
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41CSMALLARMS, e.g. PISTOLS, RIFLES; ACCESSORIES THEREFOR
    • F41C23/00Butts; Butt plates; Stocks
    • F41C23/02Attachment of slings
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16BDEVICES FOR FASTENING OR SECURING CONSTRUCTIONAL ELEMENTS OR MACHINE PARTS TOGETHER, e.g. NAILS, BOLTS, CIRCLIPS, CLAMPS, CLIPS OR WEDGES; JOINTS OR JOINTING
    • F16B2200/00Constructional details of connections not covered for in other groups of this subclass
    • F16B2200/83Use of a magnetic material
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41CSMALLARMS, e.g. PISTOLS, RIFLES; ACCESSORIES THEREFOR
    • F41C23/00Butts; Butt plates; Stocks
    • F41C23/14Adjustable stock or stock parts, i.e. adaptable to personal requirements, e.g. length, pitch, cast or drop
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41CSMALLARMS, e.g. PISTOLS, RIFLES; ACCESSORIES THEREFOR
    • F41C23/00Butts; Butt plates; Stocks
    • F41C23/22Stocks having space for the storage of objects

Definitions

  • the present invention relates generally to firearms, and more specifically to firearm stock assemblies.
  • Firearms that are designed to be braced by a shoulder generally include a stock to provide this support. It is common in the industry for users to replace the stock with one that is more suitable to the users' needs, such as to give flexibility in adjusting a length of pull. However, currently- available replacement stocks may cause the weapon to be unsuitably inaccurate due to loose tolerance standards and/or may cause the weapon to be heavy, loose and/or weak, and/or have insufficient drop strength.
  • a receiver extension which includes a keyed slot into which another part fits, and a protrusion or rail along the bottom to allow locking positions for stocks that are adjustable in length.
  • a castle nut is required to tighten an end plate and lock the receiver extension to the receiver. It may be difficult to access the receiver in some cases.
  • FIG. 1 Another feature of some currently-available designs is that they comprise three components: a receiver extension, an end cap to an interface, and a screw fastener.
  • the stock assembly may have a receiver extension assembly and a lower stock assembly that is removably and slidingly attached to the receiver extension assembly.
  • the receiver extension assembly may have a receiver extension having a distal end and a proximal end, an outer tube shaped to fit around the receiver extension, and an end plate.
  • the end plate may be shaped to at least partially fit around the receiver extension and to engage a distal end of the outer tube and a proximal end of a receiver to maintain the outer tube in alignment with the receiver.
  • the lower stock assembly comprises a lock box including at least one rail shaped to slidingly engage at least one rail in the outer tube, and at least one pawl biased towards selective engagement with one or more teeth in the outer tube.
  • the receiver extension assembly has a receiver extension including a distal end and a proximal end, an outer tube shaped to fit around the receiver extension, and an end plate.
  • the end plate may be shaped to at least partially fit around the receiver extension and engage a distal end of the outer tube and a proximal end of a receiver to maintain the outer tube in alignment with the receiver.
  • the lower stock assembly may have a compressible lock assembly biased towards an engaged configuration.
  • the lock assembly may have a lock box including at least one rail shaped to slidingly engage at least one rail in the outer tube, and at least one pawl biased towards selective engagement with one or more teeth in the outer tube.
  • the receiver extension assembly has a receiver extension, an outer tube with a plurality of teeth and shaped to fit around the receiver extension, and an end plate shaped to fit around at least a portion of the receiver extension and engage a distal end of the outer tube and a proximal end of a receiver.
  • the lower stock assembly may have an outer body and a lock assembly.
  • the lock assembly may have a lock box shaped to slidingly engage a rail in the outer tube, at least one pawl shaped to selectively engage one of the plurality of teeth, a fore body and an aft body biased away from each other by a first elastic element, a second elastic element shaped and positioned to buffer motion of the lock assembly relative to the outer body, and a release mechanism biased away from the fore body by a third elastic element.
  • an anti-rotational quick disconnect socket for a firearm is provided.
  • the socket can have a proximal end and a distal end, and a first brace extending between the proximal end and the distal end.
  • the proximal end can have a socket entry and a quick disconnect lip.
  • the distal end can have a socket base having a fastening means and a radial region having a first recess.
  • the first brace can be positioned at a first radial position, and the first recess can be positioned at a second radial position, the second radial position can be different from the first radial position.
  • the first recess and the first brace can be shaped to slidingly engage a first protrusion in a socket mounting recess of a firearm wall.
  • the socket can have a second brace extending between the proximal end and the distal end.
  • the socket can have a second recess at a third radial position.
  • the third radial position can be different from the second radial position and the first radial position.
  • the socket can include a second brace extending between the proximal end and the distal end, and a second recess.
  • the first brace, the second brace, and the first recess can be shaped to slidingly engage a first protrusion in a socket mounting recess of a firearm wall.
  • the first brace and the second recess can be shaped to slidingly engage a second protrusion in the socket mounting recess.
  • the second brace can be shaped to slidingly engage the second protrusion.
  • the socket is made of a metallic material.
  • a housing for a firearm can have a wall with a recess shaped therein.
  • the recess can have outer confines and a depth extending from a proximal entry to a distal surface.
  • the recess also can have a first protrusion extending inwardly from the outer confines and having a length that is less than the depth of the outer confines.
  • the proximal entry can be a recess extending to a proximal surface of the first protrusion.
  • the distal surface can be shaped to seat a socket base of a quick disconnect socket and comprises a receiving means.
  • the first protrusion can be shaped to slidingly engage a first brace of the quick disconnect socket and prevent rotation of the quick disconnect socket relative to the first protrusion. [0019] In an aspect, the first protrusion can be further shaped to slidingly engage a first recess in the socket base of the quick disconnect socket and prevent rotation of the quick disconnect socket relative to the first protrusion.
  • the second depth is greater than a depth of engagement between a socket entry of the quick disconnect socket and the recess.
  • the housing can include a second protrusion, wherein the first protrusion can be shaped to slidingly engage a first recess in the quick disconnect socket. Further, the second protrusion can be shaped to slidingly engage a second recess in the quick disconnect socket.
  • the first protrusion can extend from the distal surface for a length towards the proximal entry, and the length can be less than the first depth.
  • the housing can be made of a polymeric material.
  • an anti-rotational quick disconnect socket system for a firearm.
  • the system can have an anti-rotational quick disconnect socket and a recess in a housing of a firearm.
  • the socket can have outer confines having a proximal end, a distal end, and a first brace extending therebetween, the proximal end having a socket entry with a quick disconnect lip.
  • the recess can be shaped to slidingly receive and seat the socket, and can have outer confines and a depth extending from a recess entry to a distal surface.
  • the recess also can have a first protrusion extending inwardly from the outer confines. The first protrusion may be engaged with the first brace to prevent rotation of the socket relative to the recess.
  • the system can have a gap between a proximal surface of the first protrusion and a distal surface of the socket entry.
  • the socket can further include a fastening means in the socket and a fastener receiving means in the recess, whereby the socket can be coupled to the recess.
  • the fastening means and the receiving means comprise a fastener extending through a fastener passage in the socket and a fastener passage in an opposing quick disconnect socket.
  • the opposing quick disconnect socket can be an anti-rotational quick disconnect socket or a conventional quick disconnect socket.
  • a second brace can extend between the proximal end and the distal end of the socket.
  • the first brace and the second brace can be shaped to slidingly engage the first protrusion.
  • the gap can be shaped to receive a detent in a quick detach mounting accessory.
  • the socket can comprise a second brace, a third brace, and a fourth brace, each of the second, third, and fourth braces extending between the proximal end and the distal end of the socket.
  • the recess in the housing of the firearm can include a second protrusion, a third protrusion, and a fourth protrusion.
  • Each of the second, third, and fourth protrusions can extend inwardly from the outer confines of the recess.
  • Each of the first, second, third, and fourth protrusions can be engaged with respective ones of the first, second, third, and fourth braces to prevent rotation of the socket relative to the recess.
  • the system can include a gap between a proximal surface of each of the second, third, and fourth protrusions and the distal surface of the socket entry.
  • FIG. 1 is a perspective view of an exemplary stock assembly illustrating some
  • FIG. 1A is a perspective view of the stock assembly in FIG. 1, in an extended
  • FIG. IB is a perspective view of the stock assembly in FIG. 1, extended and
  • FIG. 1C is a perspective view of the stock assembly in FIG. 1, with a cheek
  • FIG. ID is a side view of the stock assembly in FIG. 1, illustrating an opposing
  • FIG. IE is a perspective view of a panel and door assembly suitable for use with
  • FIG. IF is a rear perspective view of the panel and door assembly illustrated in FIG.
  • FIG. 1G is a detailed view of an exemplary cheek piece
  • FIG. 2 is a perspective view of an exemplary receiver extension and nut
  • FIG. 3 is a rear perspective view of an exemplary receiver extension assembly
  • FIG. 3A is a perspective view of an exemplary adapter tool that may be used to
  • FIG. 4 is a perspective view of an exemplary receiver end plate; [0043] FIG. 4A is a rear perspective view of the end plate in FIG. 4;
  • FIG. 5 is a perspective view of an exemplary lock assembly
  • FIG. 5A is a side view of an exemplary lock assembly attached to an exemplary lock assembly
  • FIG. 5B is a detailed side view illustrating the lock assembly in FIG. 5
  • FIG. 5C is a detailed perspective view illustrating the lock assembly in FIG.
  • FIG. 5D is a side view of the lock assembly in FIG. 5 with some features
  • FIG. 5E is a side view illustrating another side of the lock assembly
  • FIG. 5F is a front view of the lock assembly illustrated in FIG. 5;
  • FIG. 5G is a rear view of the lock assembly illustrated in FIG. 5;
  • FIG. 5H is a top view of the lock assembly illustrated in FIG. 5, with some
  • FIG. 51 is a perspective view illustrating the lock assembly in FIG. 5
  • FIG. 5J is a rear section view illustrating the lock assembly in FIG. 5
  • FIG. 6 is a perspective view of an exemplary lock box
  • FIG. 7 is a perspective view of an exemplary Quick Disconnect (QD) socket
  • FIG. 7A is a side view of a stock body for interfacing with the QD socket in
  • FIG. 7
  • FIG. 7B is a perspective view of the QD socket in FIG. 7 and the stock body in
  • FIG. 7A
  • FIG. 7C is a cross-section view illustrating two opposing QD sockets in a
  • FIG. 7D is a rear perspective view of another exemplary QD socket
  • FIG. 7E is a side view of a stock body for interfacing with the QD socket in FIG.
  • FIG. 7F is a rear perspective view of another exemplary QD socket
  • FIG. 7G is a side view of a stock body for interfacing with the QD socket in FIG [0064]
  • FIG. 7H is a perspective view of another exemplary QD socket;
  • FIG. 71 is a side section view illustrating an exemplary QD socket installed in a wall of an object
  • FIG. 8 is a flowchart of a method of using a firearm.
  • FIG. 9 is a flowchart of a method of making a stock assembly for a firearm.
  • the stock assembly 100 may be a stock assembly 100 that enables a user or manufacturer to easily align and attach the stock assembly 100 and/or components thereof to a firearm.
  • the stock assembly 100 may provide an end user with the ability to adjust the overall length of the stock assembly 100, an improved manner for disassembling a portion or all of the stock assembly, and/or an improved ability to connect accessories (e.g. an improved Quick Disconnect or QD socket).
  • QD socket Quick Disconnect
  • the stock assembly 100 may include a receiver extension assembly 200 having a threaded receiver interface 104, and a lower stock assembly 300.
  • the stock assembly 100 may also include a butt pad 106 substantially opposing the threaded receiver interface 104, a removable cheek piece 108, and an outer stock body 154.
  • a quick disconnect socket, or QD socket 146 may be provided as a feature in the stock assembly 100.
  • a receiver end plate 124 may provide an alignment feature between the stock assembly 100 and a firearm.
  • a grip 140 may provide a user with the ability to adjust the overall length of the stock assembly 100, so that the stock/firearm can be adjusted for different users.
  • the stock assembly 100 may be extendable, and the tube assembly 200 may be removably and slidingly attached to the lower stock assembly 300. That is, the stock assembly 100 may include a receiver extension assembly 200, or tube assembly 200 for short, a distal end of which may be affixed to a firearm, optionally with the cheek piece 108 attached, while the proximal end (e.g. butt pad 106) of the lower stock assembly 300 may be adjustable relative to the distal end of the stock assembly 100, such as relative to the distal end of the tube assembly 200, to adjust an overall length of the stock assembly 100.
  • the lower stock assembly 300 may be removable from the tube assembly 200.
  • the optional cheek piece 108 when assembled, remains in a fixed position relative to the firearm and the tube assembly 200, while the lower stock assembly 300 is translated for adjusting the overall length of the stock assembly 100.
  • a visual aid 102 as illustrated in FIG. IB, may be provided to give the user an indication of the extended length of the stock assembly 100.
  • the stock assembly 100 may be extended up to about 4 (four) inches, possibly in one -half inch increments, or any suitable increment, from a fully collapsed configuration, although this specific example is not limiting, and greater or less than 4 inches of extension are envisioned.
  • the cheek piece 108 may remain attached to the tube assembly
  • the cheek piece 108 does not move with the lower stock assembly 300 when the length is adjusted. In this manner, the tube assembly 200 remains mostly covered, regardless of the length of extension, ensuring that an insulating barrier is provided between the tube assembly 200 and the user.
  • the particular cheek piece 108 does not move, it should be understood that a user could have multiple cheek pieces 108 available, to fit the preferences or needs of different users and/or weapon configurations.
  • the cheek piece 108 may be attached to the outer tube 116 by sliding the cheek piece 108 onto a proximal end of the outer tube 116 of the tube assembly 200 and into place. Thereafter, the lower stock assembly 300 may be attached to the tube assembly 200, generally stated, by sliding the lower stock assembly 300 onto the proximal end of the outer tube 116 and into place. Further details of assembly and/or disassembly procedures will be described in further sections below.
  • the cheek piece may include one or more rails 108a for slidingly engaging one or more upper rails 122 in the outer tube 116 (shown in FIG. 1C), and a detent 108b on an interior surface of the cheek piece at one or more of the proximal region and the distal region of the cheek piece 108 for maintaining the cheek piece 108 in place when attached to the outer tube 116 (shown in FIG. 1C).
  • the cheek piece 108 includes a detent 108b at a proximal region of the cheek piece 108, and, as illustrated in FIG. 3, a recess 114a in the nut 114 may accept the detent 108b.
  • the outer stock body 154 may include a sling interface 193 and/or a storage compartment 121.
  • the storage compartment 121 may be comprised of a first side 129 and a second side 133 assembled to the outer stock body 154.
  • the first and second sides 129, 133 are most clearly illustrated in FIG. IE, and may be shaped to be coupled to each other via one or more fasteners 137 (shown in FIG. IB).
  • the first and second sides 129, 133 may be coupled to the outer stock body 154, for example, by tightening the fastener(s) 137 and causing the first side 129 and the second side 133 to firmly abut opposing recessed walls 145 in the outer stock body 154 to form the storage compartment 121.
  • the storage compartment 121 or first and second sides 129, 133 may be reversible to more comfortably accommodate a right- or left-hand user.
  • the first side 129 and the second side 133 may each include score lines 151.
  • the score lines 151 may be provided to allow a user who desires to have a simple sling mounted higher on the stock 100 than the sling loop 193 would allow, for additional stability and prevention of weapon roll in certain carry methods, to remove a small section of material from the first side 129 and the second side 133. Removal of this material would allow a user the flexibility of threading a sling or other carrying device through the newly-created slot to allow the user to carry the weapon in a more vertical position without removing the storage compartment 121 completely. The user would still have the flexibility to remove the storage compartment 121 completely and carry the firearm in the same manner.
  • first side 129 and the second side 133 may each have a recess (not shown) for allowing a sling or other attachment feature to pass through, either placed by a manufacturer or after removal of material at the score lines 151 by the user.
  • the second side 133 may include a first portion
  • the second portion 133b may include a tab 133c biased, such as by a spring, towards engagement with the outer stock body 154 to cause the second side 133 to engage multiple surfaces in the outer stock body 154.
  • the first side 129 may similarly include a fixed flange portion 129a to allow the user to assemble the first and second sides 129, 133 to the outer stock body 154 (shown in FIG. 1) to form the storage compartment 121.
  • the user may insert the first side 129 into the through passage of the outer stock body 154 at an angle and then pivot the first side 129 to cause both sides of the fixed flange 129a to interface with multiple surfaces in the outer stock body 154.
  • the user may similarly retract the tab 133c to attach the second side 133 to the outer stock body 154, and thereafter may cause the fastener(s) 137 to couple the first side 129 and the second side 133 together such that the first side 129 and the second side 133 are coupled to the outer stock body 154.
  • a receiver extension 110 (shown in FIGs. 2 and 3) may be provided, in which the distal end or distal region of the receiver extension 110 may comprise a threaded receiver interface 104 and a flange or shoulder 105 between the threaded receiver interface 104 and the proximal end 112, while the proximal end 112 of the receiver extension 110 may comprise a threaded nut interface, for receiving a threaded nut 114.
  • the receiver extension 110 may be assembled into a receiver extension assembly 200 by assembling the receiver extension 110, the end plate 124, an outer tube 116, and the threaded nut 114, as illustrated in FIG. 3.
  • the remaining components of the stock assembly 100 may be attached after attaching the tube assembly 200 to the firearm, as will be described in further detail later portions of this document, in a manner that reduces the potential for damage to the receiver extension 110 and/or an error in attachment as compared to other currently-available designs.
  • a nut adapter tool 115 illustrated in FIG. 3A, may be provided to allow a user to interface with the nut 114 using standard tooling.
  • the end plate 124 may include a receiver alignment mechanism 126, a QD socket 127, and an outer tube alignment mechanism 128. That is, the end plate 124 is shaped to align the outer tube 116 to the receiver of a firearm, and may provide a QD interface, suitable for use when the lower stock assembly 300 is not in full abutment with the end plate 124, such as when the lower stock assembly 300 is in any extended position, such as when extended as illustrated in FIG. 1A.
  • the end plate 124 may be slid over the receiver extension 110, then the outer tube 116 may be slid over the receiver extension 110, at which point the end plate 124 is rotated to mate the outer tube alignment mechanism 128 with a corresponding key alignment mechanism 125 (see FIG. 5A) in the outer tube 116 (shown in FIG. 3), such as a tab that extends from a distal end of the outer tube 116.
  • the threaded nut 114 is then screwed on to the proximal end of the receiver extension 110.
  • the tube assembly 200 eliminates the need to attach a proximal end to the assembly, which is required in some currently- available embodiments, thereby providing a lighter weight design and improved firing accuracy while avoiding significant assembly, welding, and/or machining procedures.
  • the construction of the tube assembly 200 using the threaded nut 114 as illustrated allows the receiver extension 110 to serve as the back end of the core weapon mechanism in a manner similar to a carbine type receiver extension while simultaneously retaining the strength of a rifle type receiver extension.
  • Another advantage of constructing the tube assembly 200 in this manner is that it allows the outer tube 116 to be extruded without further assembling an end cap thereon.
  • the receiver extension 110 may be attached to a weapon receiver, such as by threading onto a weapon receiver.
  • the end plate 124 may be placed on the receiver extension 110 and seated against the receiver, and the outer tube 116 may be placed on the receiver extension 110 and keyed into the end plate 124.
  • the threaded nut 114 may then be attached and tightened to lock the tube assembly 200 on the receiver.
  • a cheek piece 108 may be slid over the outer tube 116 and locked into place prior to attaching a lower stock assembly 300.
  • Providing a tube assembly in this manner improves the ease of aligning the tube assembly 200 to the firearm, and also reduces undesirable torsional stresses between the tube assembly 200 and the firearm.
  • the outer tube 116 may have a lower rail 120 or a pair of lower rails 120 for mounting a lock assembly (see e.g. lock assembly 500 in FIG. 5A), and/or an upper rail 122 or a pair of upper rails 122 for mounting a cheek piece 108 (see e.g. FIG. 1). That is, the tube assembly 200 may be configured such that a lock assembly, such as lock assembly 500, may slide onto a first rail, such as lower rail(s) 120. Similarly, the tube assembly 200 may be configured to interface with a rail (see e.g. rail 108a in FIG.
  • cheek piece 108 in a cheek piece and to removably retain the cheek piece 108, by allowing the cheek piece 108 to slide onto the tube assembly 200 using another rail or rails, such as the upper rail(s) 122. It should be understood that the cheek piece 108, while optional, should be assembled to the tube assembly 200 prior to attaching the lower stock assembly 300, and/or that the lower stock assembly 200 should be removed prior to removal of the cheek piece 108.
  • the outer tube 116 may include a plurality of teeth 118, 119 that provide a number of recesses or catches for adjusting the length of the stock assembly 100.
  • the plurality of teeth 118, 119 may include at least one positioning tooth 118 which may be selectively engaged for selecting and/or adjusting an overall length of the stock assembly 110.
  • At least one safe tooth 119 of the plurality of teeth 118, 119 may have a profile that is larger than the profile of the other teeth, that is, the positioning teeth 118, so as to provide an end stop feature.
  • a safe tooth 119 may extend further from a main body of the outer tube 116 than does a positioning tooth 118, to prevent a user from unintentionally removing the lower stock assembly 300 from the tube assembly 200.
  • an override mechanism should be engaged, as will be described in subsequent portions of this document.
  • the proximal end 112 of the receiver extension 110 may include a drive 123.
  • the drive 123 may provide the user with the ability to attach the receiver extension 110 to the firearm, and tighten the receiver extension 110 to a desired torque specification.
  • the drive 123 may be shaped for engagement by a user without using specialized assembly tools and without compromising a maximized torque application.
  • the drive 123 may be a square socket drive, as illustrated, although it should be understood that any suitably-shaped drive is contemplated, including but not limited to, external knurling, ribbing, or polygonal drives such as square, hex, or pentagonal drives, or internal drives such as slotted, Phillips, Torx, spanner, piloted, square, hex, pentagonal, or security drives, or any combinations thereof.
  • the stock assembly 100 may include a lock assembly 500.
  • the lock assembly 500 is what provides the user with the ability to adjust the overall length of the stock assembly 100.
  • the lock assembly 500 may include a lock box 131 that has a first rail 132 and a second rail 134 for slidingly engaging the tube assembly 200, such as at the lower rail(s) 120 (see Fig. 3).
  • the lock assembly 500 may be configured to engage teeth 118, 119 using one or more pawls 136, 138.
  • the lock box 131 may have a first pawl 136 and a second pawl 138 movably or pivotally attached thereto, for engaging one of a plurality of teeth 118, 119 in the tube assembly 200.
  • the outer body 154 may be manufactured of a material having a first hardness, and in some embodiments, the outer body 154 is made substantially of a polymeric material.
  • the outer tube 116 may be manufactured of a metallic material, which may be an aluminum alloy or a steel, such as a carbon steel or a steel alloy.
  • the lock box 131 may be manufactured of a material having a second hardness, and in some embodiments, the lock box 131 is made of a metallic material, which may be an aluminum or a steel, such as a carbon steel or steel alloy.
  • the pawl(s) 136, 138 may be manufactured of a material having a third hardness, and in some embodiments, the pawl(s) 136, 138 are made of a metallic material, which may be a steel, such as a carbon steel or steel alloy. That is, in some embodiments, the lock box 131 and/or the outer tube 116 is made of a material that has a hardness greater than that of the outer body 154, and the pawl(s) 136, 138 are made of a material that has a hardness greater than that of the lock box 131. Selecting the materials as described above results in a stock assembly 100 that is lighter in weight as compared to currently-available designs, yet provides an improved firing accuracy.
  • the lock assembly 500 may be attached to the outer tube
  • the rails 132, 134 may slide over the lower rail(s) 120 in the outer tube 116 as the stock assembly 100 is being assembled or disassembled.
  • the lower stock assembly 300 comprising the lock assembly 500 is a stand-alone assembly, and may be assembled to the tube assembly 200 before or after the tube assembly 200 is attached to a firearm.
  • FIG. 5A illustrates in a side view details of the lock assembly 500 attached to the tube assembly 200 (with the end plate 124 removed).
  • the lock assembly 500 has a fore body 160 and an aft body 162.
  • An elastic element such as a spring 150 between the fore and aft bodies 160, 162 is provided to keep the fore and aft bodies 160, 162 biased towards the surface 156 and the opposing surface 158 in the outer stock body 154, as illustrated in FIG. 5B.
  • the fore and aft bodies 160, 162 may be compressed towards one another to allow the pawl(s) 136, 138 to disengage from the teeth 118, 119, such as when the lower stock assembly 300 is pulled or pushed along the tube assembly 200.
  • an elastic element such as a spring 152, which may be a torsional spring, may be provided to bias the one or more pawls 136, 138 towards engagement with the teeth 118, 119, while another elastic element such as a spring 150, which may be a compression spring, may be provided to bias the fore body 160 and the aft body 162 in an expanded configuration.
  • a spring 152 which may be a torsional spring
  • another elastic element such as a spring 150, which may be a compression spring
  • a variety of elastic elements may be used to achieve the biasing effect.
  • the pawl(s) 136, 138 may include pawl pin(s) 182 shaped to engage a surface(s) 183 in the fore body 160 as the lock assembly 500 is compressed and forcibly cause the pawl(s) 136, 138 to rotate out of engagement with the one or more positioning teeth 118. More specifically, and as is most clearly seen in FIGs. 5B and 5C, as the user causes the fore body 160 to move towards the aft body 162 (by pulling on the grip 140, for example), the surface(s) 183 will abut the pawl pin(s) 182, and force the pawl(s) 136, 138 to pivot out of engagement with the positioning teeth 118. As the pawl(s) 136, 138 pivot out of engagement, they may abut and ride down a ramped surface(s) 172.
  • a surface(s) 174 in the grip 140 may be shaped to abut a stop surface(s) 173 when the lock assembly 500 reaches the first compressed configuration, and to prevent the lock assembly 500 from compressing more than the first compressed configuration.
  • the stop surface(s) 173 may be one or more shoulders in the lock box 131, as illustrated in FIGs. 5D and 5E.
  • the stop surface(s) 173 could be placed in other components of the stock assembly 110, such as the outer stock body 154, the pawl(s) 136, 138, the aft body 162, or any other feature that is or may be modified to be suitable for providing a stop surface.
  • the user may pivot, translate, or compress a release member 142 relative to the grip 140 or fore body 160, to cause the surface(s) 174 to move relative to the stop surface 173 and/or disengage from the stop surface 173.
  • the user may further compress the fore body 160 relative to the aft body 162 and forcibly cause the pawl(s) 136, 138 to pivot further away from the engaged configuration to ensure the pawl(s) 136, 138 disengage from the safe tooth 119 and/or do not engage the safe tooth 119 as the lower stock assembly 300 is translated relative to the tube assembly 200, thus allowing the user to remove the lower stock assembly 300 from the tube assembly 200.
  • the release member 142 may be biased away from the grip 140 by way of spring 143.
  • a first release mechanism 141 includes the grip 140, the spring 150, a pawl pin(s) 182, and the surface(s) 183, shaped and positioned to cause the lock assembly 500 to move into a first compressed configuration.
  • a second release mechanism 147 may include the release member 142, the spring 143, the surface(s) 174, and the stop surface(s) 173, shaped and positioned to bias the lock assembly 500 towards the first compressed configuration, and allow a user to override the bias and cause the lock assembly 500 to move into a second compressed configuration.
  • the release member 142 may remain in a first position relative to the fore body 160 during actuation of the first release mechanism, and the release member 142 may translate, pivot, or otherwise move to a second position relative to the fore body 160 during actuation of the second release mechanism 147.
  • the aft body 162 may include a pin retaining feature 169.
  • the pin retaining feature 169 may be a passage for mounting a pin(s) 167 to retain the pawl(s) 136, 138 pivotally coupled to the aft body 162.
  • the pin retaining feature 169 may be a passage for mounting a pin(s) 167 to retain the pawl(s) 136, 138 pivotally coupled to the aft body 162.
  • the lock box 131 may also include a passage(s) or pin retaining feature(s) 176 to retain the pawl(s) 136, 138 pivotally coupled to the lock box 131, such that the pawl(s) 136, 138 may pivot relative to the aft body 162 and the lock box 131 to disengage from the teeth 118 or the safe tooth 119.
  • the lock assembly may be arranged to require a first extended configuration to allow the user to adjust the length of the stock, and a second extended configuration to allow the user to remove the lower stock assembly from the tube assembly 200. That is, the lock assembly may include an elastic element, in some embodiments a tension spring that biases the lock assembly towards an engaged configuration.
  • the engaged configuration may be a configuration in which a fore body is compressed, instead of extended, relative to an aft body, and one or more pawls 136, 138 in the lock assembly are biased towards engagement with one or more teeth in a tube assembly 200, to lock the lower stock assembly to the tube assembly 200.
  • a grip may be coupled to the fore body or the aft body, to allow the user to override the elastic element to cause one of the fore body and the aft body of the lock assembly to translate relative to the other one of the fore body and the aft body.
  • the grip may allow the user to pull the aft body towards the user while maintaining the fore body in a fixed position, thus causing the lock assembly to move into an extended configuration or a first disengaged configuration.
  • the lock box As the lock box is moved into the first disengaged configuration, one or both of the fore body and aft body may override the bias of one or more pawls to forcibly cause the one or more pawls to pivot into a first disengaged configuration in which the one or more pawls are disengaged from one or more teeth in the tube assembly 200.
  • the first disengaged configuration may allow the user to translate a lower stock assembly relative to a receiver extension assembly or tube assembly 200 to adjust an overall length of a stock assembly.
  • An elastic element may allow a user to override a safety stop to remove the lower stock assembly from the tube assembly 200.
  • the elastic element providing an override mechanism may be a third elastic element such as spring 143, as illustrated in FIG. 5D.
  • the elastic element may bias a release member towards engagement with a stop surface when the lock assembly is in the first disengaged configuration. The user may override the bias of the elastic element and move the release member relative to the stop surface, thereby causing the release member to disengage from the stop surface.
  • spring 150 may be a first elastic element
  • nub 144 may be a second elastic element
  • spring 143 may be a third elastic element
  • spring 152 may be a fourth elastic element, although it should be understood that four elastic elements are not required in all embodiments.
  • the lock box 131 may include a first rail 132 and a second rail 134 having a first profile 132a and a second profile 134a, wherein the first and second profiles 132a, 134a are shaped to limit the lock box 131 to linear movement along the outer tube 116.
  • the lower rail(s) 120 in the outer tube 116 may include a corresponding profile that limits the distance from center that the rail(s) 132, 134 can deflect.
  • a motion limiter between an outer stock body 154 and a lock box 131 and/or tube assembly 200 may be provided.
  • an elastic element or compression mechanism such as a deformable nub 144, and one or more protrusions 148 may be affixed to or part of the aft body 162 such that, when the assembled stock assembly 100 is slammed to the ground, such as by a user attempting to clear a portion of the firearm or dropping the firearm, a limiter in the outer stock body 154, such as a surface 156 compresses the nub 144, and may travel (relative to the lock box 131 and tube assembly 200) until the outer stock body 154 abuts the protrusion(s) 148.
  • the motion limiter may be comprised of the deformable nub 144 and protrusion(s) 148 in the lock box assembly 500 and the surface 156 in the outer body 154.
  • the motion limiter may also provide some additional shock absorption when the firearm is fired.
  • an opposing surface 158 in the outer stock body 154 may provide a wall against which the fore body 160 may be compressed when the lock assembly 500 is biased towards an extended configuration.
  • the lock assembly 500 may be compressible.
  • the lock assembly 500 may have a first compression mechanism that allows for an overall change in length of the lock assembly, and specifically a reduction in distance between the fore body 160 and the aft body 162.
  • a first elastic element or a spring 150 between the fore body 160 and the aft body 162 of the lock assembly 500 may bias the fore body 160 and the aft body 162 away from each other.
  • a user may compress the fore body 160 towards the aft body 162 to overcome the biasing effects of the first elastic element or spring 150, thereby decreasing the overall length of the lock assembly 500 and allowing the pawl(s) 136, 138 to pivot relative to the aft body 162.
  • the aft body 162 may include rails 164a, 166a, seen most clearly in FIGs. 5 and 5H, that align with rails 164, 166 of the lock box 131 and engage the outer stock body 154.
  • FIG. 5D illustrates another side view of the lock assembly 500 with the lock box 131 drawn transparently, to illustrate how the pawl(s) 136, 138 interface with the fore body 160, and specifically the ramped surface(s) 172.
  • the pawl(s) 136, 138 are biased by spring 152 towards engagement with the teeth 118, 119.
  • the lock assembly 500 would therefore remain fixed relative to the tube assembly 200 when in the extended configuration (see e.g. FIG. 5A).
  • the pawl(s) 136, 138 are forcibly rotated a first distance away from engagement with the positioning teeth 118. This may be achieved by causing a surface(s) 183 to abut the pawl pin(s) 182 or other portions of the pawl(s) 136, 138 and force the pawl(s) 136, 138 to move away from engagement with the positioning teeth 118 as the assembly is compressed.
  • the pawl(s) 136, 138 may slide down the ramped surface(s) 172 as the ramped surface(s) 172 is moved proximally with the fore body 160.
  • the surface 174 may abut a stop surface 173, thus preventing the user from compressing the lock assembly 500 beyond the first compressed configuration, unless and until an override mechanism is engaged.
  • the user may adjust the length of the stock assembly 100 by translating the lower stock assembly 300 relative to the tube assembly 200. During this adjustment, the pawl(s) 136, 138 pass over the positioning teeth 118.
  • the user may then engage an override mechanism to allow the lower stock assembly 300 to be removed from the tube assembly 200.
  • the user may additionally depress the release member 142, causing the surface(s) 174 to rotate down or otherwise disengage from the surface(s) 173, thereby allowing the user to compress the lock assembly 500 even further and forcibly causing the pawl(s) 136, 138 to rotate further away from the engaged configuration and disengage from the safe tooth.
  • the lower stock assembly 300 may be removed at this point.
  • the user may compress the release member 142 before or at any time during compressing the lock assembly 500, so that the user may remove the lower stock assembly 300 in a single motion.
  • FIG. 5E illustrates an opposing side view of the lock assembly 500, demonstrating that many components, such as the pawl(s) 136, 138 and other portions of the lock assembly 500 may be mirrored on either side of a center of the lock assembly 500.
  • FIGs. 5F-5H illustrate, respectively, front, rear and top views of the lock assembly 500, with the lock box 131 transparent.
  • the lock assembly 500 is illustrated with a first half 155 of the outer stock body 154 only, to illustrate how the lock assembly 500 may slide relative to the outer stock body 154 (see also FIG. 1A). That is, a recess 139 (see e.g. FIG. 1C) may be provided in the lower stock assembly 300, such that a gap 198 may be remain between the rail(s) 132, 134 and corresponding rail(s) 199 in the first half 155 and/or second half (not illustrated in FIG.
  • the lower stock assembly 300 may deflect if the firearm is slammed or fired, minimizing the potential for damage to the components of the stock assembly 100 and/or providing some additional recoil reduction as the nub 144 is compressed until the protrusion(s) 148 and/or a surface of the lock box 131 makes contact with an outer stock body 154 of the lower stock assembly 300.
  • the size of the gap 198 may complement a desired compression distance of the nub 144 and/or spacing between the protrusion(s) 148 and the surface 156 to provide an evenly distributed stopping force for the outer stock body 154, such as through an evenly distributed stopping force for the first half 155 and/or second half of the outer stock body 154.
  • FIG. 5J a rear section view of the stock assembly is illustrated, demonstrating the interfaces between the lock box 131 and the outer tube 116 and the outer stock body 154, the details of which will be described below.
  • the lock box 131 may have a first rail 132 and a second rail 134 for engaging the lower rail(s) 120 of the outer tube 116, while rails 164, 166 are shaped to engage the outer stock body 154 of the lower stock assembly 300.
  • the pawls 136, 138 may be positioned to be pivotally coupled at passages or pin retaining feature(s) 176 in the lock box 131, as well as a corresponding passage 167 in the aft body 162 (see e.g. FIGs. 5F and 5H).
  • the pawl stop(s) 178 may limit the pawls 136, 138 from rotating beyond a maximum and/or minimum distance by engaging pawl pin(s) 182 in the pawl(s) 136, 138.
  • the lock box 131 may be manufactured of aluminum, so as to provide a strong but light attachment point between the lower stock assembly 300 and the tube assembly 200.
  • the first rail In some embodiments, and with simultaneous reference to FIG. 5J and 6, the first rail
  • the lock box 131 and/or the second rail 134 and/or the corresponding lower rail(s) 120 in the outer tube 116 may be shaped such that the lock box 131 is limited to 1 -dimensional travel when the rail(s) 132, 134 in the lock box 131 are engaged with the lower rail(s) 120 in the outer tube 116.
  • 1-dimensional travel may be achieved by providing an interface between the lock box 131 and the outer tube 116 that has a dovetail, t- slot, and/or sinusoidal curvature, such as to provide abutting surfaces that have varying normals.
  • the recess 180 may provide the lock box 131 with a receiving space for components of the fore body 160 when the lock assembly 500 is brought into the compressed configuration.
  • the QD socket 146 may be an anti-rotational QD socket 146, and, instead of a common friction interface between the QD socket and the stock body, the QD socket 146, as illustrated, may include one or more braces 184 extending between a socket entry 186 and a socket base 188.
  • the socket entry 186 may be formed to mate with known or standardized QD components, having, for example a generally cylindrical shape.
  • the brace(s) 184 may be shaped to engage with one or more protrusions 192 (see Fig. 7 A) in the outer stock body 154, to prevent the QD socket 146 from rotating within the outer stock body 154 and/or stripping the interior portions of the outer stock body 154.
  • the outer stock body 154 may have protrusions 192 that leave a gap 190 between the outer stock body 154 and/or the protrusions 192 and the QD entry 186 (see e.g. FIG. 7B).
  • Providing a QD socket 146 as illustrated allows a lighter weight and/or less expensive material, such as a polymer, to be used, in contrast to currently-available friction interface designs which, by their nature, require the manufacturer use a stronger material, such as a metal, thereby increasing the weight and cost of the firearm. That is, the disclosed QD socket 146 may provide excellent wear characteristics and solid QD retention with a lighter construction.
  • 146 should be attached, may include a through passage 196, such that an opposing interface may be attached on the other side, as seen in FIGs. 7A and 7C.
  • the QD socket 146 may also be removable.
  • a fastener 194 may be used to removably fasten the QD socket 146 to the outer stock body 154 or any suitable location of the firearm or stock assembly 100.
  • the fastener 194 may also connect a first QD socket 146a to a second or opposing QD socket 146b to the firearm or the outer stock body 154, as illustrated in FIG. 7C.
  • the first QD socket 146a may include a non- threaded socket base 188a
  • the opposing QD socket 146b may include a threaded socket base 188b, to allow the two QD sockets 146a, 146b to be tightened towards one another by a fastener 194 without adding undesirable stresses to the assembly.
  • the socket 146, 246, 346 may have outer confines, that is, boundaries beyond which components of the socket 146, 246, 346 do not extend.
  • the outer confines may be cylindrical, as illustrated in FIG. 7 although other outer confines are contemplated, such as square as illustrated in FIG. 7H. It should be understood that any number of variations of the outer confines are contemplated.
  • cylindrical outer confines may have an outer diameter Dl, a proximal end 202 associated with an accessory interface side, a distal end 204, and a first brace 206 extending therebetween.
  • the socket entry 186 may have a quick disconnect lip 208 (QD lip 208) on a distal side of the socket entry 186 to prevent a QD accessory from accidental removal from the socket 146.
  • the distal end 204 may have a socket base 188, 210 and a fastening means, such as a fastener passage 212 therethrough, to allow the socket 146, 246, 346 to be attached to a housing of a firearm, such as by using a fastener 194 (see e.g. FIG. 7C).
  • the socket base 188 may have a peripheral region, a radial region and/or an outer confines region that is approaching the outer confines of the socket 146, 246, 346, 446.
  • the peripheral, radial or outer confines region region may have one or more recesses, such as a first recess 214 as illustrated in FIG. 7 and FIG. 7H.
  • the first brace 206 is positioned at a first radial position, and the first recess 214 is positioned at a second radial position, with the second radial position being different from the first radial position. That is, the first recess 214 may be rotated by a given angle ⁇ from first brace 206.
  • the first recess 214 and the first brace 206 may be shaped to slidingly engage a first protrusion 192 in a socket mounting recess of a housing body 154, 354, 454 (see e.g. FIGS. 7A-7C, 7E, and 7G).
  • a second brace 216 or more, such as two to four braces 184, may extend between the proximal and distal ends of the socket 146, and, as illustrated in FIG. 7D, the braces 184 need not be identical in size. Moreover, as illustrated in FIG. 7F and 7G, the socket 146 may function with a first brace 184 only. The socket 346 may also function without any recesses in the socket base 210, as illustrated in FIG. 7F.
  • a second recess 218 may be provided at a third radial position, the third radial position different from the second radial position and the first radial position.
  • the second recess 218 may be in embodiments having just one brace 184.
  • one may provide a socket with a single brace 184 and two or more recesses 218.
  • a recess 214, 218 between each brace 184 may be provided, thereby providing a maximized resistance to rotation of the socket 146 within the recess of the body 154.
  • a housing for a firearm may be provided to receive the socket.
  • the housing may include a body 154, 354, 454 having a wall with a recess shaped therein.
  • the recess may have cylindrical outer confines having a first diameter D2 and a first depth 302.
  • the recess may have a first protrusion 192 extending inwardly from the cylindrical outer confines, with the first protrusion 192 having a length 310 that is less than the first depth 302 of the cylindrical outer confines.
  • the proximal entry 304 may be a cylindrical recess having the first diameter D2 and a second depth 303 extending to a proximal surface 308 of the first protrusion 192, 306 (see e.g. FIGS. 7B, 7G).
  • the distal surface 312 is shaped to seat a socket base 188, 210 of the QD socket 146, 246, 346 and comprises a receiving means, which may be a fastener passage 314 or in some embodiments a blind hole or any other receiving means for permanently or removably attaching a socket 146, 246, 346, 446.
  • the proximal entry 304 of the recess may have a second depth 303 that is greater than a depth of engagement 316 between a socket entry 188 of the QD socket 146, 246, 346 and the recess.
  • a proximal entry 304 having a depth 303 that is greater than the depth of engagement 316 a gap 190 between the QD lip 208 and the protrusion(s) 192 results (see e.g. FIGS. 7B, 7C, 71) so that a detent in a QD accessory mount may extend into the gap 190.
  • the braces 184 may assist in preventing the QD accessory mount from rotating or tilting within the socket 146.
  • gap 190 may be limited to the regions proximal of the recesses 218. In some embodiments, a gap 190 may extend between the QD lip 208 and the socket base 188 in some regions, and between the QD lip 208 and the protrusions 192 in other regions, as can be understood from FIGS. 7D-7E.
  • a socket 346 that has no recesses in the socket base 188 may be used with a recess in a body 454 that has a single oversized protrusion 192. This is achieved by providing a socket base 188 that has a generally disc shape with a diameter D3 that is smaller than the diameter Dl of the outer confines and a first brace 184 extending therefrom.
  • the anti-rotational QD socket 446 may have a base 488 that, instead of a fastener passage as previously described, has another fastening means 494, such as a threaded bolt portion 494 that is unitary with or coupled to the base 488 for passing through a wall and having a nut 489 on an opposing side of the wall to retain the QD socket 446 coupled to the wall.
  • a fastening means 494 such as a threaded bolt portion 494 that is unitary with or coupled to the base 488 for passing through a wall and having a nut 489 on an opposing side of the wall to retain the QD socket 446 coupled to the wall.
  • the QD socket has been described using at least two fastening means for coupling the QD socket 446 to a firearm housing or a wall of a device, those skilled in the art will readily appreciate that any number of fastening means 494 are envisioned, including, but not limited to, external threads barbs, lugs, pins, detents, magnets, etc., and the fastening means 494 are expressly defined herein as any suitable fastener to maintain the QD socket 146, 246, 346, 446 affixed to a wall of a device or a firearm housing.
  • the method 800 may include one or more of assembling 802 a tube assembly to a firearm, attaching 804 a cheek piece to the tube assembly, attaching 806 a lower stock assembly to the tube assembly, adjusting 808 an overall length of the stock assembly, firing 810 the firearm, and disassembling 812 the lower stock assembly from the tube assembly.
  • Assembling 802 a tube assembly to a firearm may include threading a firearm interface of a receiver extension into a threaded socket of the firearm, sliding an end plate over the receiver extension, sliding an outer tube around the receiver extension, and threading a nut onto the receiver extension.
  • the end plate may be used to align the outer tube to a desired orientation relative to the receiver socket.
  • Assembling 802 a tube assembly to a firearm may be achieved using one or more embodiments of the tube assembly 200 previously described or illustrated in this document.
  • Attaching 804 a cheek piece to the tube assembly may include causing a rail or rails of a cheek piece to slide onto a rail or rails in the outer tube of the tube assembly. Attaching 804 a cheek piece may be such that the cheek piece is stationary relative to the tube assembly, including when the lower stock assembly is adjusted relative to the tube assembly. Attaching 804 a cheek piece may be achieved using one or more embodiments of the cheek piece 108 or tube assembly 200 previously described in this document with reference to FIGs. 1-7C.
  • Attaching 806 a lower stock assembly to the tube assembly may include sliding a rail of a lower stock assembly onto a rail of an outer tube in the tube assembly, and allowing one or more spring-biased pawls in the stock assembly to engage one or more teeth in the outer tube. Attaching 806 may be achieved using the lower stock assembly 300 and the tube assembly 200 previously described or illustrated elsewhere in this document, with or without the cheek piece and/or the storage compartment 121.
  • Adjusting 808 an overall length of the stock assembly may include causing the pawl(s) to disengage from the one or more teeth, and pushing or pulling the lower stock assembly along the rail(s) in the outer tube to a desired position relative to the tube assembly.
  • Causing the pawl(s) to disengage may include pulling on a first release mechanism to cause a lock assembly in the lower stock assembly to compress, thereby forcibly moving the pawl(s) out of engagement with the tooth.
  • adjusting 808 may include pushing or pulling the lower stock assembly relative to the tube assembly. Adjusting 808 an overall length may be achieved using embodiments of the stock assembly 100 previously described or illustrated in this document.
  • Disassembling 812 the lower stock assembly from the outer tube assembly may include compressing a release member against a fore body in the lower stock assembly while simultaneously pulling on the first release mechanism, thereby causing a surface in the release member to move out of or avoid engagement with a stop surface, allowing a user to compress the fore body further and force the pawl(s) to disengage from or avoid engagement with a safe tooth in the tube assembly as the lower stock assembly is translated off of the tube assembly.
  • Disassembling 812 may be achieved using embodiments of the stock assembly previously described or illustrated in this document.
  • the method 900 may include providing 902 a lock box, providing 904 an outer tube, providing 906 a receiver extension, providing 908 a pawl, and assembling 910 a stock assembly.
  • Providing a lock box 902 may include providing a lock box substantially as previously illustrated or described in this document.
  • the lock box may be aluminum, and have upper and lower rails for receiving an outer body of a stock assembly, and inwardly- protruding rails for engaging rails in a tube assembly.
  • the lock box may include a point for pivotally attaching one or more pawls, and a rotation limiter.
  • Providing a lock box 902 may include providing a lock box machined and/or pressed from an extruded blank.
  • Providing an outer tube 904 may include providing an outer tube substantially as previously illustrated or described in this document.
  • the outer tube may be aluminum and include a plurality of teeth, including at least one positioning tooth and at least one safe tooth, the safe tooth extending further from a main body of the outer tube than the positioning tooth.
  • Providing an outer tube 904 may include providing an outer tube machined from an extruded tube.
  • Providing a receiver extension 906 may include providing a receiver extension substantially as previously illustrated or described in this document.
  • the receiver extension may include a shoulder and a threaded distal end, and a threaded proximal end.
  • the receiver extension may be aluminum.
  • Providing a receiver extension 906 may include providing a receiver extension machined from an extruded tube.
  • Providing a pawl 908 may include providing a pawl substantially as previously illustrated or described in this document.
  • the pawl may be made of steel, any other metal or other suitably strong material now known or as yet to be developed.
  • the pawl may be made of a material that is harder than the material that makes up the receiver extension and/or outer tube and or lock box.
  • Providing a pawl may include providing a pawl that is stamped, machined, and/or hardened from a blank.
  • Assembling the stock assembly 910 may include assembling a stock assembly 100 as previously herein described.
  • a method of making a firearm includes making a stock assembly for a firearm 900 as previously herein described and assembling the stock assembly 100 to a firearm as previously herein described.

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Abstract

An anti-rotational quick disconnect socket system for a firearm is disclosed. The system has an anti-rotational quick disconnect socket (QD socket) and a recess in a housing of a firearm. The recess is shaped to slidingly receive and seat the socket, and has a protrusion extending inwardly from the outer confines of the recess. The socket has a proximal end with a socket entry, a distal end, and a brace extending therebetween. The protrusion is engaged with the first brace to prevent rotation of the socket relative to the recess. The system has a gap between a proximal surface of the first protrusion and a distal surface of the socket entry.

Description

Title: STOCK ASSEMBLY
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims priority to U.S. Patent Application No. 14/753,555 filed June
29, 2015 and entitled "Anti-Rotational Quick Disconnect Mount for a Firearm," and also to U.S. Patent Application No. 14/703,285 filed May 4, 2015 and entitled "Stock Assembly," the entire disclosures of which are hereby incorporated by reference for all proper purposes, as if fully set forth herein.
BACKGROUND
Field
[0002] The present invention relates generally to firearms, and more specifically to firearm stock assemblies.
Background
[0003] Firearms that are designed to be braced by a shoulder generally include a stock to provide this support. It is common in the industry for users to replace the stock with one that is more suitable to the users' needs, such as to give flexibility in adjusting a length of pull. However, currently- available replacement stocks may cause the weapon to be unsuitably inaccurate due to loose tolerance standards and/or may cause the weapon to be heavy, loose and/or weak, and/or have insufficient drop strength.
[0004] In some currently- available firearms, a receiver extension is provided which includes a keyed slot into which another part fits, and a protrusion or rail along the bottom to allow locking positions for stocks that are adjustable in length. In some currently-available designs, a castle nut is required to tighten an end plate and lock the receiver extension to the receiver. It may be difficult to access the receiver in some cases.
[0005] Another feature of some currently-available designs is that they comprise three components: a receiver extension, an end cap to an interface, and a screw fastener.
[0006] Finally, it is desirable to provide a stock assembly that provides greater bending strength and rigidity, improved firing accuracy, an improved drop strength, a reduced parts count, and/or a reduced weight, as compared to currently-available designs and/or other new and innovative features.
SUMMARY
[0007] Some embodiments described below address the above stated needs by providing a stock assembly having some of the aspects described herein.
[0008] Some embodiments described below address the above stated needs by providing a stock assembly having some of the aspects described herein. For example, the stock assembly may have a receiver extension assembly and a lower stock assembly that is removably and slidingly attached to the receiver extension assembly. The receiver extension assembly may have a receiver extension having a distal end and a proximal end, an outer tube shaped to fit around the receiver extension, and an end plate. The end plate may be shaped to at least partially fit around the receiver extension and to engage a distal end of the outer tube and a proximal end of a receiver to maintain the outer tube in alignment with the receiver. The lower stock assembly comprises a lock box including at least one rail shaped to slidingly engage at least one rail in the outer tube, and at least one pawl biased towards selective engagement with one or more teeth in the outer tube.
[0009] In some aspects, the receiver extension assembly has a receiver extension including a distal end and a proximal end, an outer tube shaped to fit around the receiver extension, and an end plate. The end plate may be shaped to at least partially fit around the receiver extension and engage a distal end of the outer tube and a proximal end of a receiver to maintain the outer tube in alignment with the receiver. The lower stock assembly may have a compressible lock assembly biased towards an engaged configuration. The lock assembly may have a lock box including at least one rail shaped to slidingly engage at least one rail in the outer tube, and at least one pawl biased towards selective engagement with one or more teeth in the outer tube.
[0010] In some aspects, the receiver extension assembly has a receiver extension, an outer tube with a plurality of teeth and shaped to fit around the receiver extension, and an end plate shaped to fit around at least a portion of the receiver extension and engage a distal end of the outer tube and a proximal end of a receiver. The lower stock assembly may have an outer body and a lock assembly. The lock assembly may have a lock box shaped to slidingly engage a rail in the outer tube, at least one pawl shaped to selectively engage one of the plurality of teeth, a fore body and an aft body biased away from each other by a first elastic element, a second elastic element shaped and positioned to buffer motion of the lock assembly relative to the outer body, and a release mechanism biased away from the fore body by a third elastic element.
[0011] In some aspects, an anti-rotational quick disconnect socket for a firearm is provided.
The socket can have a proximal end and a distal end, and a first brace extending between the proximal end and the distal end. The proximal end can have a socket entry and a quick disconnect lip. The distal end can have a socket base having a fastening means and a radial region having a first recess. The first brace can be positioned at a first radial position, and the first recess can be positioned at a second radial position, the second radial position can be different from the first radial position.
[0012] In an aspect, the first recess and the first brace can be shaped to slidingly engage a first protrusion in a socket mounting recess of a firearm wall.
[0013] In an aspect, the socket can have a second brace extending between the proximal end and the distal end.
[0014] In an aspect, the socket can have a second recess at a third radial position. The third radial position can be different from the second radial position and the first radial position.
[0015] In another aspect, the socket can include a second brace extending between the proximal end and the distal end, and a second recess. The first brace, the second brace, and the first recess can be shaped to slidingly engage a first protrusion in a socket mounting recess of a firearm wall. The first brace and the second recess can be shaped to slidingly engage a second protrusion in the socket mounting recess.
[0016] In an aspect, the second brace can be shaped to slidingly engage the second protrusion.
[0017] In another aspect, the socket is made of a metallic material.
[0018] In some aspects, a housing for a firearm is provided. The housing can have a wall with a recess shaped therein. The recess can have outer confines and a depth extending from a proximal entry to a distal surface. The recess also can have a first protrusion extending inwardly from the outer confines and having a length that is less than the depth of the outer confines. The proximal entry can be a recess extending to a proximal surface of the first protrusion. The distal surface can be shaped to seat a socket base of a quick disconnect socket and comprises a receiving means. The first protrusion can be shaped to slidingly engage a first brace of the quick disconnect socket and prevent rotation of the quick disconnect socket relative to the first protrusion. [0019] In an aspect, the first protrusion can be further shaped to slidingly engage a first recess in the socket base of the quick disconnect socket and prevent rotation of the quick disconnect socket relative to the first protrusion.
[0020] In an aspect, the second depth is greater than a depth of engagement between a socket entry of the quick disconnect socket and the recess.
[0021] In an aspect, the housing can include a second protrusion, wherein the first protrusion can be shaped to slidingly engage a first recess in the quick disconnect socket. Further, the second protrusion can be shaped to slidingly engage a second recess in the quick disconnect socket.
[0022] In an aspect, the first protrusion can extend from the distal surface for a length towards the proximal entry, and the length can be less than the first depth.
[0023] In another aspect, the housing can be made of a polymeric material.
[0024] In some aspects, an anti-rotational quick disconnect socket system for a firearm is provided. The system can have an anti-rotational quick disconnect socket and a recess in a housing of a firearm. The socket can have outer confines having a proximal end, a distal end, and a first brace extending therebetween, the proximal end having a socket entry with a quick disconnect lip. The recess can be shaped to slidingly receive and seat the socket, and can have outer confines and a depth extending from a recess entry to a distal surface. The recess also can have a first protrusion extending inwardly from the outer confines. The first protrusion may be engaged with the first brace to prevent rotation of the socket relative to the recess. The system can have a gap between a proximal surface of the first protrusion and a distal surface of the socket entry.
[0025] In an aspect, the socket can further include a fastening means in the socket and a fastener receiving means in the recess, whereby the socket can be coupled to the recess.
[0026] In another aspect, the fastening means and the receiving means comprise a fastener extending through a fastener passage in the socket and a fastener passage in an opposing quick disconnect socket.
[0027] In yet another aspect, the opposing quick disconnect socket can be an anti-rotational quick disconnect socket or a conventional quick disconnect socket.
[0028] In another aspect, a second brace can extend between the proximal end and the distal end of the socket. The first brace and the second brace can be shaped to slidingly engage the first protrusion. [0029] In another aspect, the gap can be shaped to receive a detent in a quick detach mounting accessory.
[0030] In another aspect, the socket can comprise a second brace, a third brace, and a fourth brace, each of the second, third, and fourth braces extending between the proximal end and the distal end of the socket. The recess in the housing of the firearm can include a second protrusion, a third protrusion, and a fourth protrusion. Each of the second, third, and fourth protrusions can extend inwardly from the outer confines of the recess. Each of the first, second, third, and fourth protrusions can be engaged with respective ones of the first, second, third, and fourth braces to prevent rotation of the socket relative to the recess. The system can include a gap between a proximal surface of each of the second, third, and fourth protrusions and the distal surface of the socket entry.
BRIEF DESCRIPTION OF THE DRAWINGS
[0031] FIG. 1 is a perspective view of an exemplary stock assembly illustrating some
aspects;
[0032] FIG. 1A is a perspective view of the stock assembly in FIG. 1, in an extended
configuration and without a storage compartment;
[0033] FIG. IB is a perspective view of the stock assembly in FIG. 1, extended and
with a cheek piece disassembled;
[0034] FIG. 1C is a perspective view of the stock assembly in FIG. 1, with a cheek
piece and lower stock assembly disassembled;
[0035] FIG. ID is a side view of the stock assembly in FIG. 1, illustrating an opposing
side;
[0036] FIG. IE is a perspective view of a panel and door assembly suitable for use with
the stock assembly illustrated in FIG. 1A;
[0037] FIG. IF is a rear perspective view of the panel and door assembly illustrated in FIG.
IE;
[0038] FIG. 1G is a detailed view of an exemplary cheek piece;
[0039] FIG. 2 is a perspective view of an exemplary receiver extension and nut;
[0040] FIG. 3 is a rear perspective view of an exemplary receiver extension assembly;
[0041] FIG. 3A is a perspective view of an exemplary adapter tool that may be used to
interface with the nut illustrated in FIG. 3;
[0042] FIG. 4 is a perspective view of an exemplary receiver end plate; [0043] FIG. 4A is a rear perspective view of the end plate in FIG. 4;
[0044] FIG. 5 is a perspective view of an exemplary lock assembly;
[0045] FIG. 5A is a side view of an exemplary lock assembly attached to an
exemplary tube assembly;
[0046] FIG. 5B is a detailed side view illustrating the lock assembly in FIG. 5
interfacing with a tube assembly;
[0047] FIG. 5C is a detailed perspective view illustrating the lock assembly in FIG.
5 interfacing with other components of the stock assembly;
[0048] FIG. 5D is a side view of the lock assembly in FIG. 5 with some features
transparent;
[0049] FIG. 5E is a side view illustrating another side of the lock assembly
illustrated in FIG. 5 ;
[0050] FIG. 5F is a front view of the lock assembly illustrated in FIG. 5;
[0051] FIG. 5G is a rear view of the lock assembly illustrated in FIG. 5;
[0052] FIG. 5H is a top view of the lock assembly illustrated in FIG. 5, with some
features transparent;
[0053] FIG. 51 is a perspective view illustrating the lock assembly in FIG. 5
interfacing with a body of a stock;
[0054] FIG. 5J is a rear section view illustrating the lock assembly in FIG. 5
interfacing with a body of a stock and an outer tube of a tube assembly;
[0055] FIG. 6 is a perspective view of an exemplary lock box;
[0056] FIG. 7 is a perspective view of an exemplary Quick Disconnect (QD) socket;
[0057] FIG. 7A is a side view of a stock body for interfacing with the QD socket in
FIG. 7;
[0058] FIG. 7B is a perspective view of the QD socket in FIG. 7 and the stock body in
FIG. 7A;
[0059] FIG. 7C is a cross-section view illustrating two opposing QD sockets in a
firearm;
[0060] FIG. 7D is a rear perspective view of another exemplary QD socket;
[0061] FIG. 7E is a side view of a stock body for interfacing with the QD socket in FIG.
7D;
[0062] FIG. 7F is a rear perspective view of another exemplary QD socket;
[0063] FIG. 7G is a side view of a stock body for interfacing with the QD socket in FIG [0064] FIG. 7H is a perspective view of another exemplary QD socket;
[0065] FIG. 71 is a side section view illustrating an exemplary QD socket installed in a wall of an object;
[0066] FIG. 8 is a flowchart of a method of using a firearm; and
[0067] FIG. 9 is a flowchart of a method of making a stock assembly for a firearm.
7 DETAILED DESCRIPTION
[0068] With initial reference to FIG. 1, an exemplary stock assembly 100 according to some embodiments is now described in detail. By way of introduction, the stock assembly 100 may be a stock assembly 100 that enables a user or manufacturer to easily align and attach the stock assembly 100 and/or components thereof to a firearm. The stock assembly 100 may provide an end user with the ability to adjust the overall length of the stock assembly 100, an improved manner for disassembling a portion or all of the stock assembly, and/or an improved ability to connect accessories (e.g. an improved Quick Disconnect or QD socket). It should be understood that the word "exemplary" is used herein to mean "serving as an example, instance, or illustration." Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.
[0069] The stock assembly 100 may include a receiver extension assembly 200 having a threaded receiver interface 104, and a lower stock assembly 300. The stock assembly 100 may also include a butt pad 106 substantially opposing the threaded receiver interface 104, a removable cheek piece 108, and an outer stock body 154. A quick disconnect socket, or QD socket 146, may be provided as a feature in the stock assembly 100. A receiver end plate 124 may provide an alignment feature between the stock assembly 100 and a firearm. A grip 140 may provide a user with the ability to adjust the overall length of the stock assembly 100, so that the stock/firearm can be adjusted for different users.
[0070] As illustrated in FIGs 1A-1C, the stock assembly 100 may be extendable, and the tube assembly 200 may be removably and slidingly attached to the lower stock assembly 300. That is, the stock assembly 100 may include a receiver extension assembly 200, or tube assembly 200 for short, a distal end of which may be affixed to a firearm, optionally with the cheek piece 108 attached, while the proximal end (e.g. butt pad 106) of the lower stock assembly 300 may be adjustable relative to the distal end of the stock assembly 100, such as relative to the distal end of the tube assembly 200, to adjust an overall length of the stock assembly 100. The lower stock assembly 300 may be removable from the tube assembly 200.
[0071] As illustrated in FIG.1A, the optional cheek piece 108, when assembled, remains in a fixed position relative to the firearm and the tube assembly 200, while the lower stock assembly 300 is translated for adjusting the overall length of the stock assembly 100. A visual aid 102, as illustrated in FIG. IB, may be provided to give the user an indication of the extended length of the stock assembly 100. In some embodiments, the stock assembly 100 may be extended up to about 4 (four) inches, possibly in one -half inch increments, or any suitable increment, from a fully collapsed configuration, although this specific example is not limiting, and greater or less than 4 inches of extension are envisioned.
[0072] As described above, the cheek piece 108 may remain attached to the tube assembly
200, and, in contrast to cheek pieces generally in the currently-available art as they relate to collapsible stocks, the cheek piece 108 does not move with the lower stock assembly 300 when the length is adjusted. In this manner, the tube assembly 200 remains mostly covered, regardless of the length of extension, ensuring that an insulating barrier is provided between the tube assembly 200 and the user. Although the particular cheek piece 108 does not move, it should be understood that a user could have multiple cheek pieces 108 available, to fit the preferences or needs of different users and/or weapon configurations.
[0073] As most clearly apparent in FIG. 1C, in some embodiments, the cheek piece 108 may be attached to the outer tube 116 by sliding the cheek piece 108 onto a proximal end of the outer tube 116 of the tube assembly 200 and into place. Thereafter, the lower stock assembly 300 may be attached to the tube assembly 200, generally stated, by sliding the lower stock assembly 300 onto the proximal end of the outer tube 116 and into place. Further details of assembly and/or disassembly procedures will be described in further sections below.
[0074] With brief reference to FIG. 1G, the cheek piece may include one or more rails 108a for slidingly engaging one or more upper rails 122 in the outer tube 116 (shown in FIG. 1C), and a detent 108b on an interior surface of the cheek piece at one or more of the proximal region and the distal region of the cheek piece 108 for maintaining the cheek piece 108 in place when attached to the outer tube 116 (shown in FIG. 1C). As illustrated in FIG. 1G, the cheek piece 108 includes a detent 108b at a proximal region of the cheek piece 108, and, as illustrated in FIG. 3, a recess 114a in the nut 114 may accept the detent 108b.
[0075] Continuing with FIG. 1, the outer stock body 154 may include a sling interface 193 and/or a storage compartment 121. The storage compartment 121 may be comprised of a first side 129 and a second side 133 assembled to the outer stock body 154. The first and second sides 129, 133 are most clearly illustrated in FIG. IE, and may be shaped to be coupled to each other via one or more fasteners 137 (shown in FIG. IB). The first and second sides 129, 133 may be coupled to the outer stock body 154, for example, by tightening the fastener(s) 137 and causing the first side 129 and the second side 133 to firmly abut opposing recessed walls 145 in the outer stock body 154 to form the storage compartment 121. The storage compartment 121 or first and second sides 129, 133 may be reversible to more comfortably accommodate a right- or left-hand user.
[0076] In some embodiments, the first side 129 and the second side 133 may each include score lines 151. The score lines 151 may be provided to allow a user who desires to have a simple sling mounted higher on the stock 100 than the sling loop 193 would allow, for additional stability and prevention of weapon roll in certain carry methods, to remove a small section of material from the first side 129 and the second side 133. Removal of this material would allow a user the flexibility of threading a sling or other carrying device through the newly-created slot to allow the user to carry the weapon in a more vertical position without removing the storage compartment 121 completely. The user would still have the flexibility to remove the storage compartment 121 completely and carry the firearm in the same manner.
[0077] In some embodiments, the first side 129 and the second side 133 may each have a recess (not shown) for allowing a sling or other attachment feature to pass through, either placed by a manufacturer or after removal of material at the score lines 151 by the user.
[0078] Continuing with FIGs. IE and IF, the second side 133 may include a first portion
133a that provides both a stationary surface and a surface to which the first side 129 may be attached, and a second portion 133b, shaped to pivot relative to the first portion 133a. The second portion 133b may include a tab 133c biased, such as by a spring, towards engagement with the outer stock body 154 to cause the second side 133 to engage multiple surfaces in the outer stock body 154.
[0079] The first side 129 may similarly include a fixed flange portion 129a to allow the user to assemble the first and second sides 129, 133 to the outer stock body 154 (shown in FIG. 1) to form the storage compartment 121.
[0080] To form the storage compartment 121 as shown in FIG. 1, the user may insert the first side 129 into the through passage of the outer stock body 154 at an angle and then pivot the first side 129 to cause both sides of the fixed flange 129a to interface with multiple surfaces in the outer stock body 154. The user may similarly retract the tab 133c to attach the second side 133 to the outer stock body 154, and thereafter may cause the fastener(s) 137 to couple the first side 129 and the second side 133 together such that the first side 129 and the second side 133 are coupled to the outer stock body 154.
[0081] Turning now to FIGs. 2, 3, and 3A, a receiver extension 110 (shown in FIGs. 2 and 3) may be provided, in which the distal end or distal region of the receiver extension 110 may comprise a threaded receiver interface 104 and a flange or shoulder 105 between the threaded receiver interface 104 and the proximal end 112, while the proximal end 112 of the receiver extension 110 may comprise a threaded nut interface, for receiving a threaded nut 114.
[0082] The receiver extension 110 may be assembled into a receiver extension assembly 200 by assembling the receiver extension 110, the end plate 124, an outer tube 116, and the threaded nut 114, as illustrated in FIG. 3. The remaining components of the stock assembly 100 may be attached after attaching the tube assembly 200 to the firearm, as will be described in further detail later portions of this document, in a manner that reduces the potential for damage to the receiver extension 110 and/or an error in attachment as compared to other currently-available designs.
[0083] A nut adapter tool 115, illustrated in FIG. 3A, may be provided to allow a user to interface with the nut 114 using standard tooling.
[0084] As illustrated in FIGs. 4 and 4A, the end plate 124 may include a receiver alignment mechanism 126, a QD socket 127, and an outer tube alignment mechanism 128. That is, the end plate 124 is shaped to align the outer tube 116 to the receiver of a firearm, and may provide a QD interface, suitable for use when the lower stock assembly 300 is not in full abutment with the end plate 124, such as when the lower stock assembly 300 is in any extended position, such as when extended as illustrated in FIG. 1A.
[0085] Returning to FIGs. 4 and 4A, to assemble the tube assembly 200 (shown in FIG. 3) as a stand-alone assembly, the end plate 124 may be slid over the receiver extension 110, then the outer tube 116 may be slid over the receiver extension 110, at which point the end plate 124 is rotated to mate the outer tube alignment mechanism 128 with a corresponding key alignment mechanism 125 (see FIG. 5A) in the outer tube 116 (shown in FIG. 3), such as a tab that extends from a distal end of the outer tube 116. The threaded nut 114 is then screwed on to the proximal end of the receiver extension 110.
[0086] The tube assembly 200 eliminates the need to attach a proximal end to the assembly, which is required in some currently- available embodiments, thereby providing a lighter weight design and improved firing accuracy while avoiding significant assembly, welding, and/or machining procedures.
[0087] Moreover, the construction of the tube assembly 200 using the threaded nut 114 as illustrated allows the receiver extension 110 to serve as the back end of the core weapon mechanism in a manner similar to a carbine type receiver extension while simultaneously retaining the strength of a rifle type receiver extension. Another advantage of constructing the tube assembly 200 in this manner is that it allows the outer tube 116 to be extruded without further assembling an end cap thereon.
[0088] To assemble the tube assembly 200 and/or stock assembly 100 to a firearm, the receiver extension 110 may be attached to a weapon receiver, such as by threading onto a weapon receiver. The end plate 124 may be placed on the receiver extension 110 and seated against the receiver, and the outer tube 116 may be placed on the receiver extension 110 and keyed into the end plate 124. The threaded nut 114 may then be attached and tightened to lock the tube assembly 200 on the receiver. A cheek piece 108 may be slid over the outer tube 116 and locked into place prior to attaching a lower stock assembly 300.
[0089] Providing a tube assembly in this manner improves the ease of aligning the tube assembly 200 to the firearm, and also reduces undesirable torsional stresses between the tube assembly 200 and the firearm.
[0090] Returning to FIG. 3 and FIG. 1C, the outer tube 116 may have a lower rail 120 or a pair of lower rails 120 for mounting a lock assembly (see e.g. lock assembly 500 in FIG. 5A), and/or an upper rail 122 or a pair of upper rails 122 for mounting a cheek piece 108 (see e.g. FIG. 1). That is, the tube assembly 200 may be configured such that a lock assembly, such as lock assembly 500, may slide onto a first rail, such as lower rail(s) 120. Similarly, the tube assembly 200 may be configured to interface with a rail (see e.g. rail 108a in FIG. 1G) in a cheek piece and to removably retain the cheek piece 108, by allowing the cheek piece 108 to slide onto the tube assembly 200 using another rail or rails, such as the upper rail(s) 122. It should be understood that the cheek piece 108, while optional, should be assembled to the tube assembly 200 prior to attaching the lower stock assembly 300, and/or that the lower stock assembly 200 should be removed prior to removal of the cheek piece 108.
[0091] Continuing with FIG. 3, the outer tube 116 may include a plurality of teeth 118, 119 that provide a number of recesses or catches for adjusting the length of the stock assembly 100. The plurality of teeth 118, 119 may include at least one positioning tooth 118 which may be selectively engaged for selecting and/or adjusting an overall length of the stock assembly 110. At least one safe tooth 119 of the plurality of teeth 118, 119 may have a profile that is larger than the profile of the other teeth, that is, the positioning teeth 118, so as to provide an end stop feature. More specifically, a safe tooth 119 may extend further from a main body of the outer tube 116 than does a positioning tooth 118, to prevent a user from unintentionally removing the lower stock assembly 300 from the tube assembly 200. To remove the lower stock assembly 300 from the tube assembly 200, an override mechanism should be engaged, as will be described in subsequent portions of this document.
[0092] With reference to FIGs. 2 and 3, the proximal end 112 of the receiver extension 110 may include a drive 123. The drive 123 may provide the user with the ability to attach the receiver extension 110 to the firearm, and tighten the receiver extension 110 to a desired torque specification. In some embodiments, the drive 123 may be shaped for engagement by a user without using specialized assembly tools and without compromising a maximized torque application. In some embodiments, the drive 123 may be a square socket drive, as illustrated, although it should be understood that any suitably-shaped drive is contemplated, including but not limited to, external knurling, ribbing, or polygonal drives such as square, hex, or pentagonal drives, or internal drives such as slotted, Phillips, Torx, spanner, piloted, square, hex, pentagonal, or security drives, or any combinations thereof.
[0093] Turning now to FIGs. 5-5J, the stock assembly 100 may include a lock assembly 500.
The lock assembly 500, generally speaking, is what provides the user with the ability to adjust the overall length of the stock assembly 100. The lock assembly 500 may include a lock box 131 that has a first rail 132 and a second rail 134 for slidingly engaging the tube assembly 200, such as at the lower rail(s) 120 (see Fig. 3). To maintain the lock assembly 500 (and hence the lower stock assembly 300 and butt pad 106) in a fixed position relative to the tube assembly 200, the lock assembly 500 may be configured to engage teeth 118, 119 using one or more pawls 136, 138. In some embodiments, the lock box 131 may have a first pawl 136 and a second pawl 138 movably or pivotally attached thereto, for engaging one of a plurality of teeth 118, 119 in the tube assembly 200.
[0094] The outer body 154 may be manufactured of a material having a first hardness, and in some embodiments, the outer body 154 is made substantially of a polymeric material. The outer tube 116 may be manufactured of a metallic material, which may be an aluminum alloy or a steel, such as a carbon steel or a steel alloy. The lock box 131 may be manufactured of a material having a second hardness, and in some embodiments, the lock box 131 is made of a metallic material, which may be an aluminum or a steel, such as a carbon steel or steel alloy. The pawl(s) 136, 138 may be manufactured of a material having a third hardness, and in some embodiments, the pawl(s) 136, 138 are made of a metallic material, which may be a steel, such as a carbon steel or steel alloy. That is, in some embodiments, the lock box 131 and/or the outer tube 116 is made of a material that has a hardness greater than that of the outer body 154, and the pawl(s) 136, 138 are made of a material that has a hardness greater than that of the lock box 131. Selecting the materials as described above results in a stock assembly 100 that is lighter in weight as compared to currently-available designs, yet provides an improved firing accuracy.
[0095] The lock assembly 500, as illustrated in FIG. 5A, may be attached to the outer tube
116 by way of the rails 132, 134. That is, the rails 132, 134 may slide over the lower rail(s) 120 in the outer tube 116 as the stock assembly 100 is being assembled or disassembled. It should be understood that the lower stock assembly 300 comprising the lock assembly 500 is a stand-alone assembly, and may be assembled to the tube assembly 200 before or after the tube assembly 200 is attached to a firearm.
[0096] FIG. 5A illustrates in a side view details of the lock assembly 500 attached to the tube assembly 200 (with the end plate 124 removed). As previously mentioned, the lock assembly 500 has a fore body 160 and an aft body 162. An elastic element such as a spring 150 between the fore and aft bodies 160, 162 is provided to keep the fore and aft bodies 160, 162 biased towards the surface 156 and the opposing surface 158 in the outer stock body 154, as illustrated in FIG. 5B. However, the fore and aft bodies 160, 162 may be compressed towards one another to allow the pawl(s) 136, 138 to disengage from the teeth 118, 119, such as when the lower stock assembly 300 is pulled or pushed along the tube assembly 200.
[0097] As illustrated in FIGs. 5B-5C, an elastic element, such as a spring 152, which may be a torsional spring, may be provided to bias the one or more pawls 136, 138 towards engagement with the teeth 118, 119, while another elastic element such as a spring 150, which may be a compression spring, may be provided to bias the fore body 160 and the aft body 162 in an expanded configuration. It should be understood that a variety of elastic elements may be used to achieve the biasing effect. When a user pulls on the grip 140 hard enough to overcome the spring bias of the spring 150, the fore body 160 is pulled towards the aft body 162, into a first compressed figuration. This first compressed configuration allows the user to push or pull the lower stock assembly 300 along the lower rail(s) 120 to achieve a desired overall length of the stock assembly 100.
[0098] To enable this functionality, the pawl(s) 136, 138 may include pawl pin(s) 182 shaped to engage a surface(s) 183 in the fore body 160 as the lock assembly 500 is compressed and forcibly cause the pawl(s) 136, 138 to rotate out of engagement with the one or more positioning teeth 118. More specifically, and as is most clearly seen in FIGs. 5B and 5C, as the user causes the fore body 160 to move towards the aft body 162 (by pulling on the grip 140, for example), the surface(s) 183 will abut the pawl pin(s) 182, and force the pawl(s) 136, 138 to pivot out of engagement with the positioning teeth 118. As the pawl(s) 136, 138 pivot out of engagement, they may abut and ride down a ramped surface(s) 172.
[0099] A surface(s) 174 in the grip 140 may be shaped to abut a stop surface(s) 173 when the lock assembly 500 reaches the first compressed configuration, and to prevent the lock assembly 500 from compressing more than the first compressed configuration. In some embodiments, the stop surface(s) 173 may be one or more shoulders in the lock box 131, as illustrated in FIGs. 5D and 5E. Those of skill in the art will understand that the stop surface(s) 173 could be placed in other components of the stock assembly 110, such as the outer stock body 154, the pawl(s) 136, 138, the aft body 162, or any other feature that is or may be modified to be suitable for providing a stop surface.
[00100] To disengage the lower stock assembly 300 from the tube assembly 200 completely, the user may pivot, translate, or compress a release member 142 relative to the grip 140 or fore body 160, to cause the surface(s) 174 to move relative to the stop surface 173 and/or disengage from the stop surface 173. After ensuring the release member 142 or surface 174 is disengaged from the stop surface 173, the user may further compress the fore body 160 relative to the aft body 162 and forcibly cause the pawl(s) 136, 138 to pivot further away from the engaged configuration to ensure the pawl(s) 136, 138 disengage from the safe tooth 119 and/or do not engage the safe tooth 119 as the lower stock assembly 300 is translated relative to the tube assembly 200, thus allowing the user to remove the lower stock assembly 300 from the tube assembly 200. Specifically, as illustrated in FIG. 5D, the release member 142 may be biased away from the grip 140 by way of spring 143.
[00101] As illustrated in FIG. 5E, in some embodiments, a first release mechanism 141 includes the grip 140, the spring 150, a pawl pin(s) 182, and the surface(s) 183, shaped and positioned to cause the lock assembly 500 to move into a first compressed configuration. Similarly, a second release mechanism 147 may include the release member 142, the spring 143, the surface(s) 174, and the stop surface(s) 173, shaped and positioned to bias the lock assembly 500 towards the first compressed configuration, and allow a user to override the bias and cause the lock assembly 500 to move into a second compressed configuration. The release member 142 may remain in a first position relative to the fore body 160 during actuation of the first release mechanism, and the release member 142 may translate, pivot, or otherwise move to a second position relative to the fore body 160 during actuation of the second release mechanism 147. [00102] With simultaneous reference to FIGs. 5B and 5F, the aft body 162 may include a pin retaining feature 169. The pin retaining feature 169 may be a passage for mounting a pin(s) 167 to retain the pawl(s) 136, 138 pivotally coupled to the aft body 162. Similarly, and with reference to FIG. 6, the lock box 131 may also include a passage(s) or pin retaining feature(s) 176 to retain the pawl(s) 136, 138 pivotally coupled to the lock box 131, such that the pawl(s) 136, 138 may pivot relative to the aft body 162 and the lock box 131 to disengage from the teeth 118 or the safe tooth 119.
[00103] Although the figures and the description above refer to a compressed configuration as being suitable for disengagement from the tube assembly 200, those of skill in the art will understand that the lock assembly may be arranged to require a first extended configuration to allow the user to adjust the length of the stock, and a second extended configuration to allow the user to remove the lower stock assembly from the tube assembly 200. That is, the lock assembly may include an elastic element, in some embodiments a tension spring that biases the lock assembly towards an engaged configuration. The engaged configuration may be a configuration in which a fore body is compressed, instead of extended, relative to an aft body, and one or more pawls 136, 138 in the lock assembly are biased towards engagement with one or more teeth in a tube assembly 200, to lock the lower stock assembly to the tube assembly 200. A grip may be coupled to the fore body or the aft body, to allow the user to override the elastic element to cause one of the fore body and the aft body of the lock assembly to translate relative to the other one of the fore body and the aft body. The grip may allow the user to pull the aft body towards the user while maintaining the fore body in a fixed position, thus causing the lock assembly to move into an extended configuration or a first disengaged configuration. As the lock box is moved into the first disengaged configuration, one or both of the fore body and aft body may override the bias of one or more pawls to forcibly cause the one or more pawls to pivot into a first disengaged configuration in which the one or more pawls are disengaged from one or more teeth in the tube assembly 200. The first disengaged configuration may allow the user to translate a lower stock assembly relative to a receiver extension assembly or tube assembly 200 to adjust an overall length of a stock assembly.
[00104] An elastic element may allow a user to override a safety stop to remove the lower stock assembly from the tube assembly 200. In some embodiments, the elastic element providing an override mechanism may be a third elastic element such as spring 143, as illustrated in FIG. 5D. For example, the elastic element may bias a release member towards engagement with a stop surface when the lock assembly is in the first disengaged configuration. The user may override the bias of the elastic element and move the release member relative to the stop surface, thereby causing the release member to disengage from the stop surface. In some embodiments, spring 150 may be a first elastic element, nub 144 may be a second elastic element, spring 143 may be a third elastic element, and spring 152 may be a fourth elastic element, although it should be understood that four elastic elements are not required in all embodiments. With the release member disengaged from the stop surface, the user may cause the fore body or aft body to further translate relative to the other of the fore body and aft body, and forcibly disengage the one or more pawls from a safe tooth in the tube assembly 200.
[00105] With reference to FIG. 6, the lock box 131 may include a first rail 132 and a second rail 134 having a first profile 132a and a second profile 134a, wherein the first and second profiles 132a, 134a are shaped to limit the lock box 131 to linear movement along the outer tube 116. The lower rail(s) 120 in the outer tube 116 may include a corresponding profile that limits the distance from center that the rail(s) 132, 134 can deflect.
[00106] In some embodiments, and with reference to FIGs. 5-51, a motion limiter between an outer stock body 154 and a lock box 131 and/or tube assembly 200 may be provided. In some embodiments, an elastic element or compression mechanism, such as a deformable nub 144, and one or more protrusions 148 may be affixed to or part of the aft body 162 such that, when the assembled stock assembly 100 is slammed to the ground, such as by a user attempting to clear a portion of the firearm or dropping the firearm, a limiter in the outer stock body 154, such as a surface 156 compresses the nub 144, and may travel (relative to the lock box 131 and tube assembly 200) until the outer stock body 154 abuts the protrusion(s) 148. That is, the lock assembly 500 and tube assembly 200 do not move relative to each other, but the other portions of the lower stock assembly 300 may move or "give" relative to the lock assembly 500 and tube assembly 200. The motion limiter may be comprised of the deformable nub 144 and protrusion(s) 148 in the lock box assembly 500 and the surface 156 in the outer body 154. The motion limiter may also provide some additional shock absorption when the firearm is fired. It should also be understood that an opposing surface 158 in the outer stock body 154 may provide a wall against which the fore body 160 may be compressed when the lock assembly 500 is biased towards an extended configuration.
[00107] As seen most clearly in FIG. 5A, the lock assembly 500 may be compressible. The lock assembly 500 may have a first compression mechanism that allows for an overall change in length of the lock assembly, and specifically a reduction in distance between the fore body 160 and the aft body 162. In some embodiments, a first elastic element or a spring 150 between the fore body 160 and the aft body 162 of the lock assembly 500 may bias the fore body 160 and the aft body 162 away from each other. A user may compress the fore body 160 towards the aft body 162 to overcome the biasing effects of the first elastic element or spring 150, thereby decreasing the overall length of the lock assembly 500 and allowing the pawl(s) 136, 138 to pivot relative to the aft body 162. To maintain the lock assembly 500 in alignment with the outer stock body 154 of the stock assembly 100, the aft body 162 may include rails 164a, 166a, seen most clearly in FIGs. 5 and 5H, that align with rails 164, 166 of the lock box 131 and engage the outer stock body 154.
[00108] Referencing now FIGs. 5, 5B, and 5D, FIG. 5D illustrates another side view of the lock assembly 500 with the lock box 131 drawn transparently, to illustrate how the pawl(s) 136, 138 interface with the fore body 160, and specifically the ramped surface(s) 172. As can be seen in FIG. 5D, when the fore body 160 and the aft body 162 are in the extended configuration, the pawl(s) 136, 138 are biased by spring 152 towards engagement with the teeth 118, 119. The lock assembly 500 would therefore remain fixed relative to the tube assembly 200 when in the extended configuration (see e.g. FIG. 5A).
[00109] However, when the user compresses the fore body 160 towards the aft body 162 (by pulling on the grip 140, for example), the pawl(s) 136, 138 are forcibly rotated a first distance away from engagement with the positioning teeth 118. This may be achieved by causing a surface(s) 183 to abut the pawl pin(s) 182 or other portions of the pawl(s) 136, 138 and force the pawl(s) 136, 138 to move away from engagement with the positioning teeth 118 as the assembly is compressed. Simultaneously, the pawl(s) 136, 138, may slide down the ramped surface(s) 172 as the ramped surface(s) 172 is moved proximally with the fore body 160. When the fore body 160 is moved towards the aft body 162 into a first compressed configuration, the surface 174 may abut a stop surface 173, thus preventing the user from compressing the lock assembly 500 beyond the first compressed configuration, unless and until an override mechanism is engaged. While holding the lock assembly 500 in the compressed configuration, the user may adjust the length of the stock assembly 100 by translating the lower stock assembly 300 relative to the tube assembly 200. During this adjustment, the pawl(s) 136, 138 pass over the positioning teeth 118.
[00110] When the lower stock assembly 300 (illustrated in FIG. 1A) is pulled out enough such that the pawl(s) 136, 138 engage the safe tooth 119, the user may then engage an override mechanism to allow the lower stock assembly 300 to be removed from the tube assembly 200. Here, the user may additionally depress the release member 142, causing the surface(s) 174 to rotate down or otherwise disengage from the surface(s) 173, thereby allowing the user to compress the lock assembly 500 even further and forcibly causing the pawl(s) 136, 138 to rotate further away from the engaged configuration and disengage from the safe tooth. The lower stock assembly 300 may be removed at this point.
[00111] In some cases, the user may compress the release member 142 before or at any time during compressing the lock assembly 500, so that the user may remove the lower stock assembly 300 in a single motion.
[00112] FIG. 5E illustrates an opposing side view of the lock assembly 500, demonstrating that many components, such as the pawl(s) 136, 138 and other portions of the lock assembly 500 may be mirrored on either side of a center of the lock assembly 500. Similarly, FIGs. 5F-5H illustrate, respectively, front, rear and top views of the lock assembly 500, with the lock box 131 transparent.
[00113] In FIG. 51, the lock assembly 500 is illustrated with a first half 155 of the outer stock body 154 only, to illustrate how the lock assembly 500 may slide relative to the outer stock body 154 (see also FIG. 1A). That is, a recess 139 (see e.g. FIG. 1C) may be provided in the lower stock assembly 300, such that a gap 198 may be remain between the rail(s) 132, 134 and corresponding rail(s) 199 in the first half 155 and/or second half (not illustrated in FIG. 51) of the outer stock body 154, such that, while the tube assembly 200 does not experience a weakened rail interface, the lower stock assembly 300 may deflect if the firearm is slammed or fired, minimizing the potential for damage to the components of the stock assembly 100 and/or providing some additional recoil reduction as the nub 144 is compressed until the protrusion(s) 148 and/or a surface of the lock box 131 makes contact with an outer stock body 154 of the lower stock assembly 300. The size of the gap 198 may complement a desired compression distance of the nub 144 and/or spacing between the protrusion(s) 148 and the surface 156 to provide an evenly distributed stopping force for the outer stock body 154, such as through an evenly distributed stopping force for the first half 155 and/or second half of the outer stock body 154.
[00114] In FIG. 5J, a rear section view of the stock assembly is illustrated, demonstrating the interfaces between the lock box 131 and the outer tube 116 and the outer stock body 154, the details of which will be described below. [00115] Turning to FIG. 6, and in light of the preceding figures, the lock box 131 is now described in further detail. The lock box 131 may have a first rail 132 and a second rail 134 for engaging the lower rail(s) 120 of the outer tube 116, while rails 164, 166 are shaped to engage the outer stock body 154 of the lower stock assembly 300. The pawls 136, 138 may be positioned to be pivotally coupled at passages or pin retaining feature(s) 176 in the lock box 131, as well as a corresponding passage 167 in the aft body 162 (see e.g. FIGs. 5F and 5H). The pawl stop(s) 178 may limit the pawls 136, 138 from rotating beyond a maximum and/or minimum distance by engaging pawl pin(s) 182 in the pawl(s) 136, 138. In some embodiments, the lock box 131 may be manufactured of aluminum, so as to provide a strong but light attachment point between the lower stock assembly 300 and the tube assembly 200.
[00116] In some embodiments, and with simultaneous reference to FIG. 5J and 6, the first rail
132 and/or the second rail 134 and/or the corresponding lower rail(s) 120 in the outer tube 116 may be shaped such that the lock box 131 is limited to 1 -dimensional travel when the rail(s) 132, 134 in the lock box 131 are engaged with the lower rail(s) 120 in the outer tube 116. For example, and without limitation, 1-dimensional travel may be achieved by providing an interface between the lock box 131 and the outer tube 116 that has a dovetail, t- slot, and/or sinusoidal curvature, such as to provide abutting surfaces that have varying normals. Causing the lock box 131 to engage the rail(s) 120 at surfaces that have varying normals effectively causes the lock box 131 to grip the rail(s) 120 from multiple directions and under varying load conditions in a manner that limits deformation of the rail(s) 120 and or lock box 131.
[00117] The recess 180 may provide the lock box 131 with a receiving space for components of the fore body 160 when the lock assembly 500 is brought into the compressed configuration.
[00118] Turning now to FIGs. 7-71, the QD socket 146 is now described in further detail. The
QD socket 146 may be an anti-rotational QD socket 146, and, instead of a common friction interface between the QD socket and the stock body, the QD socket 146, as illustrated, may include one or more braces 184 extending between a socket entry 186 and a socket base 188. The socket entry 186 may be formed to mate with known or standardized QD components, having, for example a generally cylindrical shape. The brace(s) 184, however, may be shaped to engage with one or more protrusions 192 (see Fig. 7 A) in the outer stock body 154, to prevent the QD socket 146 from rotating within the outer stock body 154 and/or stripping the interior portions of the outer stock body 154. For the QD socket 146 to provide the ability to lock a QD device to the QD socket 146, the outer stock body 154 may have protrusions 192 that leave a gap 190 between the outer stock body 154 and/or the protrusions 192 and the QD entry 186 (see e.g. FIG. 7B). Providing a QD socket 146 as illustrated allows a lighter weight and/or less expensive material, such as a polymer, to be used, in contrast to currently-available friction interface designs which, by their nature, require the manufacturer use a stronger material, such as a metal, thereby increasing the weight and cost of the firearm. That is, the disclosed QD socket 146 may provide excellent wear characteristics and solid QD retention with a lighter construction.
[00119] In some embodiments, the outer stock body 154, or surface to which the QD socket
146 should be attached, may include a through passage 196, such that an opposing interface may be attached on the other side, as seen in FIGs. 7A and 7C.
[00120] Continuing with FIG. 7-7B, the QD socket 146 may also be removable. For example, a fastener 194 may be used to removably fasten the QD socket 146 to the outer stock body 154 or any suitable location of the firearm or stock assembly 100.
[00121] Referring now to FIG. 7C, the fastener 194 may also connect a first QD socket 146a to a second or opposing QD socket 146b to the firearm or the outer stock body 154, as illustrated in FIG. 7C. In some embodiments, the first QD socket 146a may include a non- threaded socket base 188a, while the opposing QD socket 146b may include a threaded socket base 188b, to allow the two QD sockets 146a, 146b to be tightened towards one another by a fastener 194 without adding undesirable stresses to the assembly.
[00122] Returning now to FIG. 7-7H, some aspects of the QD socket 146, 246, 346 are described in further detail. As illustrated in FIG. 7, the socket 146, 246, 346 may have outer confines, that is, boundaries beyond which components of the socket 146, 246, 346 do not extend. In some embodiments, the outer confines may be cylindrical, as illustrated in FIG. 7 although other outer confines are contemplated, such as square as illustrated in FIG. 7H. It should be understood that any number of variations of the outer confines are contemplated. Where applicable, cylindrical outer confines may have an outer diameter Dl, a proximal end 202 associated with an accessory interface side, a distal end 204, and a first brace 206 extending therebetween. The socket entry 186 may have a quick disconnect lip 208 (QD lip 208) on a distal side of the socket entry 186 to prevent a QD accessory from accidental removal from the socket 146.
[00123] The distal end 204 may have a socket base 188, 210 and a fastening means, such as a fastener passage 212 therethrough, to allow the socket 146, 246, 346 to be attached to a housing of a firearm, such as by using a fastener 194 (see e.g. FIG. 7C). The socket base 188 may have a peripheral region, a radial region and/or an outer confines region that is approaching the outer confines of the socket 146, 246, 346, 446. The peripheral, radial or outer confines region region may have one or more recesses, such as a first recess 214 as illustrated in FIG. 7 and FIG. 7H.
[00124] In some embodiments, the first brace 206 is positioned at a first radial position, and the first recess 214 is positioned at a second radial position, with the second radial position being different from the first radial position. That is, the first recess 214 may be rotated by a given angle Θ from first brace 206. The first recess 214 and the first brace 206 may be shaped to slidingly engage a first protrusion 192 in a socket mounting recess of a housing body 154, 354, 454 (see e.g. FIGS. 7A-7C, 7E, and 7G).
[00125] A second brace 216 or more, such as two to four braces 184, may extend between the proximal and distal ends of the socket 146, and, as illustrated in FIG. 7D, the braces 184 need not be identical in size. Moreover, as illustrated in FIG. 7F and 7G, the socket 146 may function with a first brace 184 only. The socket 346 may also function without any recesses in the socket base 210, as illustrated in FIG. 7F.
[00126] Continuing with FIG. 7, a second recess 218 may be provided at a third radial position, the third radial position different from the second radial position and the first radial position. It should be understood that the second recess 218 may be in embodiments having just one brace 184. For example, by retaining the base 188 and omitting one of the braces 184 extending between the base 188 and the socket entry 186 illustrated in FIG. 7D, one may provide a socket with a single brace 184 and two or more recesses 218. A recess 214, 218 between each brace 184 may be provided, thereby providing a maximized resistance to rotation of the socket 146 within the recess of the body 154.
[00127] Continuing with FIGS. 7-71, a housing for a firearm may be provided to receive the socket. The housing may include a body 154, 354, 454 having a wall with a recess shaped therein. The recess may have cylindrical outer confines having a first diameter D2 and a first depth 302. The recess may have a first protrusion 192 extending inwardly from the cylindrical outer confines, with the first protrusion 192 having a length 310 that is less than the first depth 302 of the cylindrical outer confines. The proximal entry 304 may be a cylindrical recess having the first diameter D2 and a second depth 303 extending to a proximal surface 308 of the first protrusion 192, 306 (see e.g. FIGS. 7B, 7G). The distal surface 312 is shaped to seat a socket base 188, 210 of the QD socket 146, 246, 346 and comprises a receiving means, which may be a fastener passage 314 or in some embodiments a blind hole or any other receiving means for permanently or removably attaching a socket 146, 246, 346, 446.
[00128] With specific reference to FIG. 7C, the proximal entry 304 of the recess may have a second depth 303 that is greater than a depth of engagement 316 between a socket entry 188 of the QD socket 146, 246, 346 and the recess. By providing a proximal entry 304 having a depth 303 that is greater than the depth of engagement 316, a gap 190 between the QD lip 208 and the protrusion(s) 192 results (see e.g. FIGS. 7B, 7C, 71) so that a detent in a QD accessory mount may extend into the gap 190. The braces 184 may assist in preventing the QD accessory mount from rotating or tilting within the socket 146. It should be understood that the gap 190 may be limited to the regions proximal of the recesses 218. In some embodiments, a gap 190 may extend between the QD lip 208 and the socket base 188 in some regions, and between the QD lip 208 and the protrusions 192 in other regions, as can be understood from FIGS. 7D-7E.
[00129] As illustrated in FIGS. 7F-7G, a socket 346 that has no recesses in the socket base 188 may be used with a recess in a body 454 that has a single oversized protrusion 192. This is achieved by providing a socket base 188 that has a generally disc shape with a diameter D3 that is smaller than the diameter Dl of the outer confines and a first brace 184 extending therefrom.
[00130] Turning now to FIG. 71, shown is an exemplary anti-rotational QD socket 446. As illustrated, it should be understood that the anti-rotational QD socket 446 may have a base 488 that, instead of a fastener passage as previously described, has another fastening means 494, such as a threaded bolt portion 494 that is unitary with or coupled to the base 488 for passing through a wall and having a nut 489 on an opposing side of the wall to retain the QD socket 446 coupled to the wall.
[00131] Moreover, although the QD socket has been described using at least two fastening means for coupling the QD socket 446 to a firearm housing or a wall of a device, those skilled in the art will readily appreciate that any number of fastening means 494 are envisioned, including, but not limited to, external threads barbs, lugs, pins, detents, magnets, etc., and the fastening means 494 are expressly defined herein as any suitable fastener to maintain the QD socket 146, 246, 346, 446 affixed to a wall of a device or a firearm housing.
[00132] Turning now to FIG. 8, a method 800 of using a stock assembly for a firearm is now described. The method 800 may include one or more of assembling 802 a tube assembly to a firearm, attaching 804 a cheek piece to the tube assembly, attaching 806 a lower stock assembly to the tube assembly, adjusting 808 an overall length of the stock assembly, firing 810 the firearm, and disassembling 812 the lower stock assembly from the tube assembly.
[00133] Assembling 802 a tube assembly to a firearm may include threading a firearm interface of a receiver extension into a threaded socket of the firearm, sliding an end plate over the receiver extension, sliding an outer tube around the receiver extension, and threading a nut onto the receiver extension. The end plate may be used to align the outer tube to a desired orientation relative to the receiver socket. Assembling 802 a tube assembly to a firearm may be achieved using one or more embodiments of the tube assembly 200 previously described or illustrated in this document.
[00134] Attaching 804 a cheek piece to the tube assembly may include causing a rail or rails of a cheek piece to slide onto a rail or rails in the outer tube of the tube assembly. Attaching 804 a cheek piece may be such that the cheek piece is stationary relative to the tube assembly, including when the lower stock assembly is adjusted relative to the tube assembly. Attaching 804 a cheek piece may be achieved using one or more embodiments of the cheek piece 108 or tube assembly 200 previously described in this document with reference to FIGs. 1-7C.
[00135] Attaching 806 a lower stock assembly to the tube assembly may include sliding a rail of a lower stock assembly onto a rail of an outer tube in the tube assembly, and allowing one or more spring-biased pawls in the stock assembly to engage one or more teeth in the outer tube. Attaching 806 may be achieved using the lower stock assembly 300 and the tube assembly 200 previously described or illustrated elsewhere in this document, with or without the cheek piece and/or the storage compartment 121.
[00136] Adjusting 808 an overall length of the stock assembly may include causing the pawl(s) to disengage from the one or more teeth, and pushing or pulling the lower stock assembly along the rail(s) in the outer tube to a desired position relative to the tube assembly. Causing the pawl(s) to disengage may include pulling on a first release mechanism to cause a lock assembly in the lower stock assembly to compress, thereby forcibly moving the pawl(s) out of engagement with the tooth. With the pawl(s) out of engagement, adjusting 808 may include pushing or pulling the lower stock assembly relative to the tube assembly. Adjusting 808 an overall length may be achieved using embodiments of the stock assembly 100 previously described or illustrated in this document.
[00137] Disassembling 812 the lower stock assembly from the outer tube assembly may include compressing a release member against a fore body in the lower stock assembly while simultaneously pulling on the first release mechanism, thereby causing a surface in the release member to move out of or avoid engagement with a stop surface, allowing a user to compress the fore body further and force the pawl(s) to disengage from or avoid engagement with a safe tooth in the tube assembly as the lower stock assembly is translated off of the tube assembly. Disassembling 812 may be achieved using embodiments of the stock assembly previously described or illustrated in this document.
[00138] Turning now to FIG. 9, a method 900 of making a stock assembly for a firearm is now described. The method 900 may include providing 902 a lock box, providing 904 an outer tube, providing 906 a receiver extension, providing 908 a pawl, and assembling 910 a stock assembly.
[00139] Providing a lock box 902 may include providing a lock box substantially as previously illustrated or described in this document. The lock box may be aluminum, and have upper and lower rails for receiving an outer body of a stock assembly, and inwardly- protruding rails for engaging rails in a tube assembly. The lock box may include a point for pivotally attaching one or more pawls, and a rotation limiter. Providing a lock box 902 may include providing a lock box machined and/or pressed from an extruded blank.
[00140] Providing an outer tube 904 may include providing an outer tube substantially as previously illustrated or described in this document. The outer tube may be aluminum and include a plurality of teeth, including at least one positioning tooth and at least one safe tooth, the safe tooth extending further from a main body of the outer tube than the positioning tooth. Providing an outer tube 904 may include providing an outer tube machined from an extruded tube.
[00141] Providing a receiver extension 906 may include providing a receiver extension substantially as previously illustrated or described in this document. The receiver extension may include a shoulder and a threaded distal end, and a threaded proximal end. The receiver extension may be aluminum. Providing a receiver extension 906 may include providing a receiver extension machined from an extruded tube.
[00142] Providing a pawl 908 may include providing a pawl substantially as previously illustrated or described in this document. The pawl may be made of steel, any other metal or other suitably strong material now known or as yet to be developed. The pawl may be made of a material that is harder than the material that makes up the receiver extension and/or outer tube and or lock box. Providing a pawl may include providing a pawl that is stamped, machined, and/or hardened from a blank. [00143] Assembling the stock assembly 910 may include assembling a stock assembly 100 as previously herein described.
[00144] In another aspect, a method of making a firearm is disclosed, and includes making a stock assembly for a firearm 900 as previously herein described and assembling the stock assembly 100 to a firearm as previously herein described.
[00145] The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

WHAT IS CLAIMED IS:
1. A stock assembly for a firearm, the stock assembly comprising:
a receiver extension assembly; and
a lower stock assembly removably and slidingly attached to the receiver extension assembly; wherein:
the receiver extension assembly comprises a receiver extension including a distal end and a proximal end, and an outer tube shaped to fit around the receiver extension; and the lower stock assembly comprises a lock assembly having a lock box including at least one rail shaped to slidingly engage at least one lower rail in the outer tube, and at least one pawl biased towards selective engagement with one or more teeth in the outer tube.
2. The stock assembly of claim 1, wherein:
the lower stock assembly comprises a motion limiter, and an outer body substantially encasing the lock assembly; wherein
the motion limiter comprises at least one surface on the outer body and an elastic element positioned between the outer body and the lock box to allow the outer body of the lower stock assembly to slide relative to the lock box within a predetermined range.
3. The stock assembly of claim 1, wherein:
the lower stock assembly comprises an outer body including a material with a first hardness; and
the at least one pawl is movably coupled to the lock box, the lock box comprising a material including a second hardness that is greater than the first hardness, and the at least one pawl comprising a material including a third hardness that is greater than the first hardness.
4. The stock assembly of claim 3, wherein:
the third hardness is greater than the second hardness, and the second hardness is greater than the first hardness.
5. The stock assembly of claim 1, wherein: the proximal end of the receiver extension comprises a drive;
a distal region of the receiver extension comprises a shoulder;
the end plate is positioned between the shoulder and a distal end of the outer tube; the receiver extension assembly comprises a nut engaged with the proximal end of the receiver extension; and wherein:
the nut and the end plate are shaped to abut opposing ends of the outer tube and prevent the outer tube from sliding off the receiver extension.
6. The stock assembly of claim 1, wherein:
the outer tube comprises at least one upper rail shaped to slidingly receive a rail in a cheek piece and to removably retain the cheek piece.
7. The stock assembly of claim 1, wherein:
the lock assembly comprises a fore body and an aft body, and the at least one pawl and the lock assembly are biased towards an engaged configuration, and one of the fore body and the aft body comprises a grip and a release member coupled to the grip; and wherein:
the one or more teeth comprise at least one positioning tooth and at least one safe tooth, the at least one safe tooth extending further from a main body of the outer tube than does the at least one positioning tooth;
the grip is shaped and positioned for handling by a user to cause the one of the fore body and the aft body to move relative to the other one of the fore body and the aft body and cause the lock assembly to move into a first disengaged configuration wherein the at least one pawl is forcibly moved into a position suitable for disengaging from the at least one positioning tooth in the one or more teeth;
the release member is biased towards engagement with a stop surface when the lock assembly is in the first disengaged configuration, and positioned such that movement of the release member towards the grip moves the release member away from engagement with the stop surface and allows the user to cause the one of the fore body and the aft body to further translate relative to the other one of the fore body and the aft body and cause the lock assembly to move into a second disengaged configuration wherein the at least one pawl is forcibly moved into a position suitable for disengaging from the at least one safe tooth in the one or more teeth.
8. The stock assembly of claim 7, wherein:
the fore body comprises the grip;
compression of the fore body and the aft body cause the at least one pawl to engage a surface in the fore body; and
the grip and the release member are positioned and shaped for simultaneous operation using a single hand.
9. The stock assembly of claim 8, wherein:
the release member is pivotally coupled to the grip; and
the lock box comprises the stop surface.
10. The stock assembly of claim 1, wherein:
the lower stock assembly comprises a polymeric outer body comprising at least one body rail for receiving the receiver extension assembly, the at least one body rail comprising a recess for receiving the least one rail in the lock box; and wherein
the lock assembly and the outer tube are configured for buffered movement relative to the outer body.
11. A stock assembly for a firearm, the stock assembly comprising:
a receiver extension assembly; and
a lower stock assembly removably and slidingly attached to the receiver extension assembly; wherein:
the receiver extension assembly comprises a receiver extension including a distal end and a proximal end, an outer tube shaped to fit around the receiver extension, and an end plate, the end plate shaped to maintain the outer tube in alignment with the receiver; and
the lower stock assembly comprises a compressible lock assembly biased towards an engaged configuration, the lock assembly comprising a lock box including at least one rail shaped to slidingly engage at least one rail in the outer tube, and at least one pawl biased towards selective engagement with one or more teeth in the outer tube.
12. The stock assembly of claim 11, wherein:
the at least one pawl comprises a first metal including a first hardness;
the lock box, the receiver extension, and the outer tube comprise one or more other metals, each of the one or more other metals including a hardness that is less than the first hardness; and
the lower stock assembly further comprises an outer body comprising a polymeric material.
13. The stock assembly of claim 11, wherein the compressible lock assembly
comprises a grip and a release mechanism, and wherein:
application of a proximal force on the grip causes the lock assembly to move into a first disengaged configuration wherein the fore body is compressed towards the aft body a first distance and the at least one pawl is rotated a first angle away from the selective engagement, and
simultaneous application of a distal force on the release mechanism and a proximal force on the grip causes release mechanism and the grip to move towards one another, and the lock assembly to move into a second disengaged configuration wherein the fore body is compressed towards the aft body a second distance greater than the first distance, and the at least one pawl is rotated a second angle away from the selective engagement, the second angle greater than the first angle.
14. The stock assembly of claim 13, wherein:
the lower stock assembly comprises an outer body including a body rail shaped to slidingly engage the at least one rail in the outer tube, the body rail in the outer body further including a recess to slidingly engage the at least one rail in the lock box, the recess further shaped to limit a distance the lock box may slide relative to the outer body.
15. The stock assembly of claim 11, wherein:
the lower stock assembly further comprises an outer body shaped to receive an anti-rotational removable quick-disconnect socket, the outer body comprising a recess including a depth, and at least one inwardly-protruding ridge, the inwardly-protruding ridge extending less than the depth of the recess.
16. A stock assembly for a firearm, the stock assembly comprising:
a lower stock assembly; and
a receiver extension assembly removably and slidingly attached to the lower stock assembly; wherein
the receiver extension assembly comprises:
a receiver extension,
an outer tube comprising a plurality of teeth and shaped to fit around the receiver extension, and
the lower stock assembly comprises an outer body and a lock assembly, the lock assembly comprising:
a lock box shaped to slidingly engage a tube rail in the outer tube, at least one pawl shaped to selectively engage the plurality of teeth, a fore body and an aft body biased away from each other by a first elastic element,
a second elastic element shaped and positioned to buffer motion of the lock assembly relative to the outer body,
and a release mechanism biased away from the fore body by a third elastic element.
17. The stock assembly of claim 16, wherein:
the at least one pawl is biased towards engagement with the plurality of teeth by a fourth elastic element.
18. The stock assembly of claim 17, wherein:
a surface in the fore body forcibly moves the at least one pawl away from an engagement with the one of the plurality of teeth when the fore body and the aft body are compressed towards one another.
19. The stock assembly of claim 18, wherein:
the one of the plurality of teeth is a safe tooth extending further from a main body of the outer tube than does another one of the plurality of teeth; and
compression of the release mechanism towards the fore body moves the release mechanism away from engagement with a stop surface to allow the fore body and the aft body to further compress towards one another and the surface in the fore body to forcibly move the at least one pawl further away from the engagement to disengage from the safe tooth.
20. The stock assembly of claim 18, wherein:
the lower stock assembly comprises a polymeric outer body having a recess, the recess shaped to receive an anti-rotational removable quick-disconnect socket; and wherein
the recess has a plurality of protrusions extending therein, the protrusions shaped to engage with one or more braces in the quick-disconnect socket.
21. An anti-rotational quick disconnect socket for a firearm, the socket comprising:
a proximal end and a distal end, and a first brace extending between the proximal end and the distal end; wherein
the proximal end comprises a socket entry and a quick disconnect lip;
the distal end comprises a socket base having a fastening means and a radial region having a first recess; and
the first brace is positioned at a first radial position, and the first recess is positioned at a second radial position, the second radial position different from the first radial position.
22. The socket of claim 21, wherein:
the first recess and the first brace are shaped to slidingly engage a first protrusion in a socket mounting recess of a firearm wall.
23. The socket of claim 21, further comprising:
a second brace extending between the proximal end and the distal end.
24. The socket of claim 21, further comprising:
a second recess at a third radial position, the third radial position different from the second radial position and the first radial position.
25. The socket of claim 21, further comprising:
a second brace extending between the proximal end and the distal end; and a second recess; wherein
the first brace, the second brace, and the first recess are shaped to slidingly engage a first protrusion in a socket mounting recess of a firearm wall; and
the first brace and the second recess are shaped to slidingly engage a second protrusion in the socket mounting recess.
26. The socket of claim 25, wherein:
the second brace is shaped to slidingly engage the second protrusion.
27. The socket of claim 21, wherein:
the socket is made of a metallic material.
28. A housing for a firearm, comprising:
a wall having a recess shaped therein, the recess having a proximal entry, outer confines, and a first depth; the recess further having a first protrusion extending inwardly from the outer confines and having a length that is less than the first depth; wherein
the proximal entry has a second depth extending to a proximal surface of the first protrusion;
the distal surface is shaped to seat a socket base of a quick disconnect socket and comprises a receiving means; and
the first protrusion is shaped to slidingly engage a first brace of the quick disconnect socket and prevent rotation of the quick disconnect socket relative to the first protrusion.
29. The housing of claim 28, wherein:
the first protrusion is further shaped to slidingly engage a first recess in the socket base of the quick disconnect socket and prevent rotation of the quick disconnect socket relative to the first protrusion.
30. The housing of claim 28, wherein:
the second depth is greater than a depth of engagement between a socket entry of the quick disconnect socket and the recess.
31. The housing of claim 28, further comprising:
a second protrusion; wherein
the first protrusion is shaped to slidingly engage a first recess in the quick disconnect socket; and
the second protrusion is shaped to slidingly engage a second recess in the quick disconnect socket.
32. The housing of claim 28, wherein:
the first protrusion extends from the distal surface for a length towards the proximal entry, the length less than the first depth.
33. The housing of claim 28, wherein:
the housing is made of a polymeric material.
34. An anti-rotational quick disconnect socket system for a firearm, the system
comprising:
an anti-rotational quick disconnect socket, the socket comprising a proximal end, a distal end, and a first brace extending therebetween, the proximal end having a socket entry with a quick disconnect lip; and
a recess in a housing of a firearm shaped to slidingly receive and seat the socket, the recess comprising a first depth extending to a distal surface, and a first protrusion extending inwardly from outer confines of the recess; wherein
the first protrusion is engaged with the first brace to prevent rotation of the socket relative to the recess; and
the system comprises a gap between a proximal surface of the first protrusion and a distal surface of the socket entry.
35. The system of claim 34, further comprising:
a fastening means in the socket and a fastener receiving means in the recess, whereby the socket is coupled to the recess.
36. The system of claim 35, wherein:
the fastening means and the receiving means comprise a fastener extending through a fastener passage in the socket and a fastener passage in an opposing quick disconnect socket.
37. The system of claim 36, wherein:
the opposing quick disconnect socket is an anti-rotational quick disconnect socket or a conventional quick disconnect socket.
38. The system of claim 34, further comprising:
a second brace extending between the proximal end and the distal end of the socket; wherein
the first brace and the second brace are shaped to slidingly engage the first protrusion.
39. The system of claim 34, wherein:
the gap is shaped to receive a detent in a quick detach mounting accessory.
40. The system of claim 34, wherein:
the socket comprises a second brace, a third brace, and a fourth brace, each of the second, third, and fourth braces extending between the proximal end and the distal end of the socket; and
the recess in the housing of the firearm comprises a second protrusion, a third protrusion, and a fourth protrusion, each of the second, third, and fourth protrusions extending inwardly from the outer confines of the recess; wherein
each of the first, second, third, and fourth protrusions are engaged with respective ones of the first, second, third, and fourth braces to prevent rotation of the socket relative to the recess; and
the system comprises a gap between a proximal surface of each of the second, third, and fourth protrusions and the distal surface of the socket entry.
PCT/US2016/029612 2015-05-04 2016-04-27 Stock assembly WO2016178883A1 (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
KR1020177030324A KR101920589B1 (en) 2015-05-04 2016-04-27 Stock assembly
AU2016257646A AU2016257646B2 (en) 2015-05-04 2016-04-27 Stock assembly
CA2968586A CA2968586C (en) 2015-05-04 2016-04-27 Stock assembly
NZ733720A NZ733720A (en) 2015-05-04 2016-04-27 Stock assembly
EP16789774.3A EP3237830B1 (en) 2015-05-04 2016-04-27 Quick disconnect socket for a firearm
IL253757A IL253757B (en) 2015-05-04 2017-07-31 Anti-rotational quick disconnect mount for a firearm

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
US14/703,285 US9488435B1 (en) 2015-05-04 2015-05-04 Stock assembly
US14/703,285 2015-05-04
US14/753,555 2015-06-29
US14/753,555 US9523552B2 (en) 2015-05-04 2015-06-29 Anti-rotational quick disconnect mount for a firearm

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WO2016178883A1 true WO2016178883A1 (en) 2016-11-10

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EP (1) EP3237830B1 (en)
KR (1) KR101920589B1 (en)
AU (1) AU2016257646B2 (en)
CA (1) CA2968586C (en)
IL (1) IL253757B (en)
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WO (1) WO2016178883A1 (en)

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AU2016257646A1 (en) 2017-08-03
EP3237830C0 (en) 2024-08-07
AU2016257646B2 (en) 2017-12-07
EP3237830B1 (en) 2024-08-07
EP3237830A4 (en) 2018-09-26
NZ733720A (en) 2018-04-27
US9523552B2 (en) 2016-12-20
IL253757B (en) 2018-01-31
KR20170125400A (en) 2017-11-14
KR101920589B1 (en) 2018-11-20
CA2968586C (en) 2019-02-12
US20160327362A1 (en) 2016-11-10
EP3237830A1 (en) 2017-11-01
IL253757A0 (en) 2017-09-28
CA2968586A1 (en) 2016-11-10

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