Patent Grant
11662175
The present disclosure generally relates to firearms components and accessories. Specifically, the present disclosure relates to a recoil baseplate and firearms assemblies including the same.
Contemporary small arms use combustion gases to cycle the action and ready the firearm for the next shot. In direct impingement systems and gas piston systems, both of which can be found on rifles based on the AR-15 platform, pressurized gases in the barrel are directed to a gas tube or piston to drive the bolt-carrier assembly rearward and cycle the action. In the case of a direct impingement system, gases travel through the barrel, into a gas block, and through a gas tube to push the bolt carrier group rearward with sufficient force to cycle the action. In the case of a gas piston system, the gas tube is replaced by a piston arranged so that pressurized gases enter a gas block from the barrel, and in turn actuate the piston to move the bolt rearward and cycle the action.
The recoil assembly includes one or more springs that counter the rearward forces from pressurized gases and return the bolt forward to chamber a round. One example is the buffer spring in an AR-type rifle. The buffer spring is housed in a buffer tube that extends rearward from the receiver and into the stock. As the bolt/carrier group travels rearward, the buffer spring compresses, providing the force to return the bolt and carrier forward, stripping a round from the top of the magazine, and chambering the round to ready the gun to fire again. Some short-barreled rifles and submachine guns do not have a buffer tube, and instead replace the buffer spring with a recoil spring or buffer piston oriented with one end at the rear portion of the receiver.
The figures depict various embodiments of the present disclosure for purposes of illustration only. Numerous variations, configurations, and other embodiments will be apparent from the following detailed discussion.
Disclosed is a baseplate for a rifle recoil assembly and a recoil assembly that includes the baseplate. In accordance with one embodiment, the baseplate houses and retains proximal ends of the recoil guide rods and recoil springs. The baseplate also supports the charging handle and provides a catch surface to retain the charging handle in the forward and latched position. The baseplate can be received in a recess defined in the upper receiver. In one example embodiment, the baseplate includes a baseplate body that defines openings to receive the recoil springs and guide rods. A latch plate on top of the body defines an opening to receive the charging handle body and defines a catch surface for the latch of the charging handle. For example, laterally spaced-apart walls extend up from the top surface of the baseplate and define a catch surface in an outside face of one or both walls. Between the walls is a channel that receives the charging handle body during reciprocating movement forward and backward. The recoil baseplate can be part of a rifle recoil assembly includes the baseplate, one or more recoil springs with corresponding spring guide rod(s), a bolt/carrier assembly, and a recoil connector that connects the recoil springs to the bolt/carrier assembly. The baseplate and recoil assembly can be part of a rifle upper receiver assembly or complete firearm, in accordance with some embodiments. Numerous variations and embodiments will be apparent in light of the present disclosure.
A traditional charging handle can be retained in the upper receiver by latching to a catch surface on the side of the upper receiver. This latch approach requires machining the side of the upper receiver to define a recess and catch surface for engagement with the latch hook of the charging handle. However, the sidewall of the upper receiver is typically made of aluminum of relatively small thickness. As such, the sidewall lacks sufficient material to define a robust catch surface and machining the catch surface is a non-trivial task. Thus, it would be desirable to have an alternative to latching to the side of the upper receiver.
In addition, existing recoil assemblies separate the functions of charging handle retention and control from the functions of retaining the recoil springs and guide rods. For example, a traditional charging handle is slidably received in the upper receiver and is retained by latching to the side of the upper receiver, as noted above. The recoil springs extend between bolt/carrier assembly and the upper, rear portion of the lower receiver, or to a buffer tube in the lower receiver. In one such design, the upper, rear end of the lower receiver is milled to receive an insert of the recoil assembly, such as a receptacle for the recoil springs. However, such a design has high machining costs, the corresponding insert utilizes a different latch mechanism that requires a compatible charging handle, and installing the recoil assembly in the receiver is less intuitive because components of the recoil assembly are distributed between the upper and lower receivers. Thus, a need exists for alternatives to existing approaches to a rifle recoil assembly.
A baseplate in accordance with the present disclosure can eliminate the need for fine or complicated receiver machining. It also can enable the charging handle and recoil assembly (e.g., bolt carrier, bolt, recoil spring assembly) to be assembled separately from the upper receiver and then dropped into the upper receiver as a single functional group, simplifying installation. For example, the baseplate is installed in the upper receiver in an opening located above the bolt aperture, with recoil springs extending from the baseplate to a recoil connector that is coupled to the bolt. A recoil baseplate and recoil assembly as variously described herein can be used with a variety of automatic and semiautomatic firearms, including but not limited to Sig Sauer's MCX, MPX, and M400 rifles, to name a few examples.
As discussed herein, terms referencing direction, such as upward, downward, vertical, horizontal, top, bottom, left, right, front, back, etc., are used for convenience to describe embodiments of a firearm, its components, or component groups when the firearm is oriented in a traditional firing position with the barrel extending horizontally from the user and the stock retained against the user's shoulder. Embodiments of the present disclosure are not limited by these directional references and it is contemplated that a firearm and its components or component groups discussed in accordance with the present disclosure could be used in any orientation.
Also, it should be noted that, while generally referred to herein as a baseplate for consistency and ease of understanding the present disclosure, the disclosed baseplate is not limited to that specific terminology, and the baseplate alternatively can be referred to, for example, as a recoil spring receptacle, a base, or other term. Further, a baseplate as variously disclosed herein is generally configured to receive an end of one or more recoil spring guide rods and to stabilize the end of the guide rod(s) during use of the firearm, but is not limited to any particular structure or geometry. Numerous configurations will be apparent in light of this disclosure.
In accordance with some embodiments, the baseplate 100 includes a body 110 that extends along a central axis 102 from a proximal end 112 to a distal end 114. The body 110 generally has a cuboid geometry with a top 116, a bottom 118, and sides 120. The body 110 is oriented so that the central axis 102 is substantially parallel to, an may be vertically over, the firearms bore axis. In this example embodiment, the top 116 has generally planar geometry of rectangular or square shape oriented normal to the central axis 102. Each side 120 extends down from the top 116. The sides 120 are shown as having a rounded upper portion, although this is not required. In some such embodiments, the top 116 of the baseplate 100 simulates being an extension of the lower receiver such that, in use, the top 116 is substantially flush with the top surface of the lower receiver (e.g., ±1 mm).
A latch plate 130 extends up from the top 116 and defines at least one catch surface 132 configured to engage the hook-like latch of a charging handle (e.g., shown in
In some embodiments, a brace 140 extends between and connects walls 136. In one such embodiment, the brace 140 and walls 136 are arranged to generally define an H shape as viewed from above. The brace 140 can have a vertical height that is less than that of the walls 136, such as being equal to or less than half of a vertical height of the walls 136. The latch plate 130 defines a channel 144 between the walls 136, the channel 144 sized to receive the elongated body of a charging handle. For example, the channel 144 has a lateral width of about 0.4 inch and a vertical height of about 0.2 inch. In embodiments that include the brace 140, the bottom of the channel 144 can be defined by the brace 140. In some embodiments, the channel 144 is sized and arranged so that the top of the charging handle body is slightly below (e.g., —1 mm) the top surface 136a of each wall 136. For example, the charging handle body can reciprocate axially through the channel 144 defined on its sides by walls 136, below by brace 140, and above by part of the upper receiver that abuts the top surfaces 136a of the walls 136.
In some embodiments, the latch plate 130 includes shelves 146 that extend laterally outward from each wall 136 along the top 116 of the body 110. For example, each shelf 146 extends laterally over or beyond a side 120 of the body 110 so as to define a tongue 148 that overhangs the body 110. When the baseplate 100 is installed in the upper receiver 300 (shown, e.g., in
The latch plate 103 can further define one or more protrusions 142 extending forward from each wall 136. As shown in the example of
The body 110 defines a guide rod recess 150 for receiving an end of each spring guide rod 160 (shown, e.g., in
In some embodiments, each spring guide rod 160 can be retained in the guide rod recess 150 using a pin, fastener, catch, or other suitable mechanism. In other embodiments, such as shown in
Note in the side view of
Referring now to
The following examples pertain to further embodiments, from which numerous permutations and configurations will be apparent.
Example 1 is a recoil assembly for a rifle, the recoil assembly comprising a baseplate body extending longitudinally along a central axis from a proximal end to a distal end, the baseplate body defining an opening extending along the central axis and configured to receive an end portion of a recoil spring guide rod; and a latch plate extending up from a top of the baseplate body, the latch plate defining a charging handle opening and a catch surface.
Example 2 includes the subject matter of Example 1, wherein the latch plate comprises laterally spaced-apart walls aligned along the central axis, the charging handle opening between the walls and the catch surface defined in a lateral face of one or both walls.
Example 3 includes the subject matter of Example 2, wherein the laterally spaced-apart walls include a first wall on a first side of the central axis and a second wall on a second side of the central axis.
Example 4 includes the subject matter of Example 3, wherein the first wall is spaced from the second wall by a gap of 0.3 to 0.5 inch.
Example 5 includes the subject matter of any of Examples 3 or 4, comprising a lateral wall extending between and connecting lower portions of the first wall and the second wall, a vertical height of the lateral wall being less than a vertical height of the first wall and the second wall.
Example 6 includes the subject matter of any of Examples 3-5, wherein an outside face of the first wall defines a first catch surface and an outside face of the second wall defines a second catch surface.
Example 7 includes the subject matter of any of Examples 1-6, comprising a protrusion extending distally from the latch plate.
Example 8 includes the subject matter of any of Examples 1-7 and comprises at least one guide rod extending axially from a proximal end portion to a distal end portion, the proximal end portion received in the opening of the baseplate body; a recoil connector slidably mounted on the at least one guide rod; and a recoil spring on the at least one guide rod between the recoil connector and the baseplate body.
Example 9 includes the subject matter of Example 8, and further comprises a bolt/carrier assembly operatively coupled to the recoil connector, the bolt/carrier assembly including a bolt carrier and a bolt; and a charging handle having an elongated body, a handle on a proximal end portion of the elongated body, and a latch adjacent the handle, the elongated body configured to be slidably received through the charging handle opening, the latch configured to engage the catch surface on the latch plate, and the distal end portion of the elongated body is configured to engage the recoil connector.
Example 10 is an upper receiver assembly comprising a rifle upper receiver having a receiver body extending longitudinally along a bore axis from a proximal end portion to a distal end portion, the receiver body having a top plate and an open bottom, the receiver body defining a bolt aperture along the bore axis, a recoil aperture above the bolt aperture, and a charging handle aperture between the recoil aperture and the top plate; and a recoil baseplate received in the recoil aperture, the recoil baseplate having a baseplate body sized and shaped to be received in the recoil aperture and defining an opening extending into the baseplate body along the bore axis, the recoil baseplate further including a latch plate extending up from a top of the baseplate body and defining a catch surface, wherein the latch plate defines a charging handle opening that is axially aligned with the charging handle aperture in the receiver body.
Example 11 includes the subject matter of Example 10, wherein the latch plate includes walls extending up from the top of the baseplate body, the walls aligned along the bore axis and having a laterally spaced-apart arrangement, an outer face of one or both of the walls defining the catch surface.
Example 12 includes the subject matter of any of Examples 10 or 11, and further comprises at least one guide rod extending axially from a proximal end portion to a distal end portion, the proximal end portion received in the recoil baseplate; a recoil connector slidably mounted on the at least one guide rod; and a recoil spring on the at least one guide rod between the recoil connector and the baseplate body.
Example 13 includes the subject matter of Example 12, and further comprises a bolt/carrier assembly operatively coupled to the recoil connector, the bolt/carrier assembly including a bolt carrier and a bolt; and a charging handle that includes an elongated body, a handle on a proximal end of the elongated body, and a latch adjacent the handle, the elongated body slidably received in the channel and the charging handle aperture, wherein the latch is configured to engage the catch surface on the latch plate.
Example 14 includes the subject matter of any of Examples 10-13, and further comprises a barrel assembly secured to the distal end portion of the receiver body, the barrel assembly including a barrel with a gas block.
Example 15 includes the subject matter of Example 14, further comprising an operational rod operatively coupled to the gas block and to the recoil connector.
Example 16 is a firearm comprising the upper receiver assembly of any of Examples 10-15, the firearm is selected from a semiautomatic rifle and an automatic rifle.
Example 17 includes the subject matter of Example 16, and further comprises a lower receiver removably attached to the rifle upper receiver; and a barrel assembly secured to the distal end portion of the receiver body, the barrel assembly including a barrel and a gas block.
Example 18 is a firearm comprising a lower receiver oriented along a central axis, the lower receiver having a lower receiver body and a rear end portion extending upward from the lower receiver body; an upper receiver assembled with the lower receiver and extending along the central axis over the lower receiver, the upper receiver defining a bolt aperture, a recoil aperture above the bolt aperture, and a charging handle aperture above the recoil aperture; a barrel assembly connected to a distal end of the upper receiver, the barrel assembly including a barrel, a gas block on the barrel, and an operational rod extending proximally from the gas block; a recoil assembly including (i) a recoil baseplate having a baseplate body housed in the recoil aperture of the upper receiver, the baseplate body defining an opening, (ii) a latch plate extending up from the baseplate body and defining a catch surface and a charging handle opening aligned with the charging handle aperture in the upper receiver, (iii) one or more recoil spring guide rods having a proximal end portion received in the opening of the recoil baseplate, (iv) a recoil spring on the one or more recoil spring guide rods, (v) a recoil connector slidably mounted on the one or more recoil spring guide rods such that the recoil spring is between the recoil connector and the recoil baseplate, wherein the recoil connector is operably coupled to the operational rod, in use, and (vi) a bolt carrier and bolt operably coupled to the recoil connector; and a charging handle with an elongated body extending longitudinally along the central axis, the elongated body having a proximal end portion with a handle and a latch, and a distal end portion configured to engage the recoil connector, wherein the elongated body is slidably received in the charging handle opening of the latch plate and in the charging handle aperture in the upper receiver.
Example 19 includes the subject matter of Example 18, wherein the latch plate includes walls extending up from the top of the baseplate body, the walls aligned along the central axis and having a laterally spaced-apart arrangement, an outer face of one or both of the walls defining the catch surface, and a gap between the walls defining the charging handle opening.
Example 20 includes the subject matter of Example 18, wherein the recoil baseplate abuts a forward face of the rear end portion of the lower receiver in use.
The foregoing description of example embodiments has been presented for the purposes of illustration and description. It is not intended to be exhaustive or to limit the present disclosure to the precise forms disclosed. Many modifications and variations are possible in light of the present disclosure. It is intended that the scope of the present disclosure be limited not by this detailed description, but rather by the claims appended hereto. Future-filed applications claiming priority to this application may claim the disclosed subject matter in a different manner and generally may include any set of one or more limitations as variously disclosed or otherwise demonstrated herein.
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