Chamber insert lock installed within an AR-15/16 barrel extension for locating and reducing movement of an associated sub caliber action |
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申请号 | US13070023 | 申请日 | 2011-03-23 | 公开(公告)号 | US08726560B2 | 公开(公告)日 | 2014-05-20 |
申请人 | John L. Overstreet; Charles C. Kelly; Jordan Bowles; Tyson Bradshaw; Craig Pudil; Taz B. Pfefer; | 发明人 | John L. Overstreet; Charles C. Kelly; Jordan Bowles; Tyson Bradshaw; Craig Pudil; Taz B. Pfefer; | ||||
摘要 | The present invention teaches an insert locking mechanism incorporated into a sub caliber action device, installable within an upper receiver of an AR-15 type firearm, and which interfaces with an upper receiver mounted forward assist for use with such as .22 caliber ammunition and in order to eliminate movement or play of the chamber insert adaptor associated with the substituted sub caliber action. The mechanism includes a generally cylindrical shaped body supported upon the action and exhibiting a plurality of radially projecting and circumferentially extending lugs which are configured to mate and seat within a plurality of grooves circumferentially arrayed within a barrel defined in the upper receiver. | ||||||
权利要求 | We claim: |
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说明书全文 | This Application claims the benefit of U.S. Provisional Application 61/328,765 filed on Apr. 28, 2010. The present invention discloses an upper receiver installable sub caliber action device including a modified bolt assembly incorporating a forward positioned and seating chamber insert for use with such as an AR-15/M16 type firearm. The chamber insert exhibits radially projecting lugs which seat within interiorly communicating grooves established in the barrel extension in order to remove any degree of looseness or play of the action. A further variant of the chamber insert lock is configured to fit within a dedicated sub caliber action and essentially acts as a link between the collar and barrel associated with a standard AR16/M16 extension. A yet further variant discloses a sub-caliber action secured to an upper receiver barrel by a spring loaded ball detent locking within a groove extending around a circumference of such as a dedicated .22 barrel. Modification of an exiting AR-15/M16 type firearm, such as in order to accept a sub caliber action, often results in the associated chamber insert adaptor exhibiting an incremental amount of inter movement or play with respect to the barrel extension of the firearm upper receiver. Such movement has been found to impede performance of the firearm assembly during loading and extracting of cartridges. The present invention teaches an insert locking mechanism incorporated into a sub caliber action device, installable within an upper receiver of an AR-15 type firearm, and which interfaces with an upper receiver mounted forward assist for use with such as .22 caliber ammunition and in order to eliminate movement or play of the chamber insert adaptor associated with the substituted sub caliber action. The mechanism includes a generally cylindrical shaped body supported upon the action and exhibiting a plurality of radially projecting and circumferentially extending lugs which are configured to mate and seat within a plurality of grooves circumferentially arrayed within a barrel defined in the upper receiver. The body further exhibits such as a single rearward positioned and further outwardly projecting lever type feature which is rotated downwardly to seat against a location of the upper receiver. The action further includes a generally elongated receiver plate exhibiting a generally lengthwise extending notched interior established between extending sides, the notched interior seating a bolt and a forward assist adaptor in reciprocating fashion along the receiver plate between an end-most location and a forward secured chamber adaptor. Additional features include the cylindrical shaped body being supported forward of the bolt in seating fashion upon the chamber adaptor. The bolt further exhibits a rearward projecting support sleeve including an open interior for receiving and seating an opposing guide rod associated with a further mounting location of the receiver plate and in order to maintain in assembled fashion the forward assist adaptor. The forward assist adaptor further exhibits a generally semi-circular cross sectional shape with a plurality of scales along an extending side in communication with a forward engaging pawl of the forward assist. An additional variant includes sub-caliber action secured to an upper receiver barrel by a spring loaded ball detent locking within a groove extending around a circumference of such as a dedicated .22 barrel. Reference will now be made to the attached drawings, when read in combination with the following detailed description, wherein like reference numerals refer to like parts throughout the several views, and in which: Referring now to the following illustrations, the present invention discloses an upper receiver installable sub caliber action device including a modified bolt assembly incorporating a forward positioned and seating chamber insert for use with such as an AR-15/M16 type firearm. The chamber insert exhibits radially projecting lugs which seat within interiorly communicating grooves established in the barrel extension in order to remove any degree of looseness or play of the action. Referencing throughout the various drawings, and with initial reference to The notched interior of the receiver plate 12 is configured for seating the remaining components of the modified bolt assembly in a generally stacked and assembly fashion. Among these are included each of a reciprocating bolt sub-assembly 18 with side disposed extractor 20, a forward assist adapter 22, see in particular In this fashion, the forward assist sub caliber action device is mounted within the upper receiver portion of the AR-15 type firearm (see As further depicted, the forward assist pushes on a selected location established along the plurality of side disposed ridges or scales 23 exhibited on the forward assist adaptor 22, these again termed “fish scales” which are exhibited on the side of the bolt carrier for enabling the bolt to be fully pushed into the forward located chamber adaptor. As is further illustrated, the forward assist plunger 24 on the upper receiver is manipulated via a push button configuration found commonly on M16 and AR-15 styled rifles, and usually located near the bolt closure such that, when depressed, the plunger will push the bolt carrier forward, ensuring that the bolt is locked. The forward assist can also be used to close a bolt that was gently let down, rather than released under full spring compression, such as in order to keep the noise of closing the bolt to a minimum. For purposes of the present invention, it should be understood that the forward assist adaptor 22 is an optional component for purposes of the variant depicted in The configuration of the bolt assembly 18 is further such that a rearward projecting support sleeve 28 includes an open interior for receiving and seating an opposing guide rod 30 (again As is known, the bolt assembly is a mechanical part of the firearm upper receiver and which is seated within a barrel at a location in which it blocks a rear of the associated chamber during burning of the propellant. In semi-automatic firearms, such as is the case AR-15 type firearms, the bolt is caused to cycle back and forth during each cartridge discharge cycle, propelled by recoil/expanding gas (backwards) or spring recoil (forwards) via a forward extending gas port and an upper and rear extending/rerouting of a gas tube for utilizing the gas blowback to successively eject and reload (re-chamber) a succeeding round. Upon moving back, the bolt pushes the cartridge (not shown) from an attached magazine (also not shown) and pushes it into a firearm chamber established between the upper and lower assembled receivers. Upon successive discharge, and once the spent shell casing case is clear of the chamber, an ejector component of the bolt ejects the casing from the receiver and out of the firearm (such as through a side window of the upper receiver which exposes the firing chamber. As is further known, the assembled sub caliber action is inserted within a rear open end of an associated upper receiver portion (see as partially depicted at 32 in Additional existing features of the upper receiver 32 include the provision of a forward assist housing 38 ( As best depicted in the sectional illustration of Proceeding to In this fashion, the chamber insert 10 fits within the upper receiver barrel and is secured by the overall length fit established by the sub caliber action (see again mounting location upon which the insert 10 seats at a base of the forward projecting chamber adaptor 26). In this manner, any extra space is occupied by the insert 10 and further so that the action receiver 12 (upon which the bolt 18 is repetitively cycled) is maintained without any degree of looseness or play. As a result, an optimal degree of performance is realized during loading and extracting motion of the bolt 18 during each cartridge cycle. Referring to As with the insert previously described at 10, the dedicated insert 46 exhibits a plurality of radially projecting and circumferentially arrayed lugs 56 at a forward end combined with a single rearward positioned and downwardly projecting feature 58. The barrel 54 further includes an inner nut 60, within which is interiorly formed a plurality of inner groove defining and circumferentially spaced ramp projections 62 (compared to the inner ramps and grooves 34 in Referring now to The body 68 exhibits a generally elongated and three dimensional shape and integrates a spring (not shown) which displaces an end supported ball detent, further shown at 72. The body 68 is press fit within the aperture 70 so that the ball detent engages as shown, however it is further understood that alternative variants can also incorporate a threaded engagement established between the detent body and the inner radially extending aperture in communication with the inserting barrel 66. In this fashion, the ball 72 is biased in an inwardly and engaging fashion within a recessed (typically “V” shaped) groove 74 extending around a circumference of an inserting neck 76 of the barrel 66 (such as a dedicated .22 barrel), the detent 72 further capable of being physically disengaged from the barrel 66 by exerting a reverse pulling force to separate from the annular groove 74 or by otherwise modifying the detent to retract from the groove in a static position. As further shown in Having described my invention, other and additional preferred embodiments will become apparent to those skilled in the art to which it pertains, and without deviating from the scope of the appended claims. |