Firearms include a receiver, an action, a trigger mechanism, and a barrel. The barrel is often threaded to one end of the receiver. The manner in which the barrel is secured to the receiver may result in significant variations in the amount of stress at the coupling locations as well as variations of stress at other locations within the receiver. Significant variations in stress and/or strain may cause shortened functional life of the firearm or degradations in accuracy.
The subject matter claimed herein is not limited to embodiments that solve any disadvantages or that operate only in environments such as those described above. Rather, this background is only provided to illustrate one exemplary technology area where some embodiments described herein may be practiced.
A firearm receiver includes a receiver body having a proximal end, a distal end, and a barrel receiving recess defined in the second end and extending proximally therefrom. The barrel receiving recess defines a central axis. The receiver body also includes a first barrel-tightening portion formed on an outer portion of the receiver body, the first barrel-tightening portion having a first partial tightening slot defined therein, the first partial tightening slot being in communication with the barrel receiving recess and having first opposing sidewalls. The receiver body also includes a second barrel-tightening portion formed on an outer portion of the receiver body, the second barrel-tightening portion having a second partial tightening slot defined therein, the second partial tightening slot being in communication with the barrel receiving recess and having second opposing sidewalls. A first relief recess is defined in the outer portion of the receiver body at least partially between the first barrel-tightening portion and the second barrel-tightening portion, the first relief recess being in communication with each of the first partial tightening slot and the second partial tightening slot, the first relief recess being wider than both the first tightening slot and the second partial tightening slot. The receiver body also includes a second relief recess defined in the outer portion of the receiver body proximally of the first barrel-tightening portion, the second relief recess being in communication with the first partial tightening slot and being wider than the first partial tightening slot. The receiver body also includes a third relief recess defined in the outer portion of the receiver body distally to the second barrel-tightening portion, the third relief recess being in communication with the second partial tightening slot and being wider than the second partial tightening slot in which the first relief recess, the second relief recess, and the third relief recess are sized to allow the first opposing sidewalls to move relative to each other independently of movement of the second opposing sidewalls relative to each other.
This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential characteristics of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.
To further clarify various aspects of some example embodiments of the present invention, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. It is appreciated that these drawings depict only illustrated embodiments of the invention and are therefore not to be considered limiting of its scope. The invention will be described and explained with additional specificity and detail through the use of the accompanying drawings in which:
Receiver assemblies, receiver bodies, firearm incorporating the like and methods of forming the same are provided herein. The receiver body is configured to allow the barrel-tightening portions to function relatively independently of each other. In particular, the relief recesses result in voids near the barrel-tightening portions to reduce the amount of material that is deflected as the barrel-tightening portions are engaged (with a corresponding reduction in stress) while still providing sufficient reinforcement for the fasteners to provide the desired clamping force on the barrel. Reducing the amount of material deflected to engage the barrel-tightening portions reduces the stress transmitted to adjacent regions thereby providing relatively even clamping forces across the barrel-tightening portions at a given torque loading on the fasteners. Similarly, since the relief recesses reduce the deflection and strain transmitted to those regions near or adjacent the barrel-tightening portions, more of the force and torque used to engage the barrel-tightening portions acts therethrough, resulting in higher barrel clamping forces for given torque loads. Simultaneously increasing the clamping force applied by each barrel-tightening portion while also evening the clamping force applied by each barrel-tightening portion for the same applied torque has shown significant improvement in the accuracy of firearms making use of such receivers.
Reference will now be made to the figures wherein like structures will be provided with like reference designations. It is understood that the figures are diagrammatic and schematic representations of some embodiments of the invention, and are not limiting of the present invention, nor are they necessarily drawn to scale.
As shown in
With the barrel assembly 110 securely coupled to the receiver assembly 1000, the assembly 1000 also facilitates cycling of the action 130 relative to the barrel assembly 110 to feed, fire, and extract cartridges by having the action 130 slidingly coupled to the receiver body 1100 as is known in the art.
In the illustrated example, a fore end 140 is coupled to the receiver assembly 1000. While the fore end 140 is shown and described as being removably coupled to the receiver body 1100, it will be appreciated that in other examples the fore end 140 may be integrally formed with the receiver body 1100.
As shown in
In the example illustrated in
As shown in
The first barrel-tightening portion 2100 includes opposing first sidewalls 2110, 2120 each extending inwardly from a first outer tightening portion 2130 toward the central axis 1142. The opposing first sidewalls 2110, 2120 define a first partial tightening slot 2140 therebetween that is in communication with the barrel receiving recess 1140.
The second barrel-tightening portion 2200 includes opposing second sidewalls 2210, 2220 each extending inwardly from a second outer tightening portion 2230 toward the central axis 1142. The opposing second sidewalls 2210, 2220 define a second partial tightening slot 2240 therebetween that is in communication with the barrel receiving recess 1140.
The third barrel-tightening portion 2300 includes opposing third sidewalls 2310, 2320 each extending inwardly from a third outer tightening portion 2330 toward the central axis 1142. The opposing third sidewalls 2310, 2320 define a third partial tightening slot 2340 therebetween that is in communication with the barrel receiving recess 1140.
The fourth barrel-tightening portion 2400 includes opposing fourth sidewalls 2410, 2420 each extending inwardly from a fourth outer tightening portion 2430 toward the central axis 1142. The opposing fourth sidewalls 2410, 2420 define a fourth partial tightening slot 2440 therebetween that is in communication with the barrel receiving recess 1140. The first, second, third, and fourth partial tightening slots 2410, 2420, 2430, 2440 may be part of a single tightening slot that is then selectively relieved with various relief recesses, described below. The first, second, third, and fourth partial tightening slots 2410, 2420, 2430, 2440 are described separately for ease of reference in describing the finished receiver body 1100 shown in the FIGS. It will be appreciated that the first, second, third, and fourth partial tightening slots 2410, 2420, 2430, 2440 may be part of a single tightening slot that is in communication with or widened by the relief recesses described hereinafter.
The receiver body 1100 also includes a plurality of relief recesses defined therein. As shown in
In the illustrated example, the first end relief recess 2500 is positioned proximally of the first tightening portion 2100 while the second end relief recess 2900 is positioned distally of the fourth tightening portion 2400. The terminal ends of each of the relief recesses described herein occur where the void in the receiver body 1100 adjacent the first, second, third, or fourth barrel-tightening portions 2100, 2200, 2300, 2400 widen relative to the average width of the first, second, third, and fourth partial tightening slots 2410, 2420, 2430, 2440 respectively. Consequently, each of the relief recesses 2500, 2600, 2700, 2800, 2900 are wider than either of the adjacent first, second, third, and fourth partial tightening slots 2410, 2420, 2430, 2440.
The central relief recesses, including the first central relief recess 2600, the second central relief recess 2700, and the third central relief recess 2800 are positioned at least partially between the first tightening portion 2100 and the fourth tightening portion 2400. More specifically, the first central relief recess 2600 is positioned at least partially between the first tightening portion 2100 and the second tightening portion 2200, the second central relief recess 2700 is positioned at least partially between the second tightening portion 2200 and the third tightening portion 2300, and the third central relief portion 2800 is positioned at least partially between the third tightening portion 2300 and the fourth tightening portion 2400.
As will be discussed in more detail hereinafter, the configuration of the first end relief recess 2500, the first central relief recess 2600, the second central relief recess 2700, the third central relief recess 2800, and the second end relief recess 2900 allow the first opposing sidewalls 2110, 2120, the second opposing sidewalls 2210, 2220, the third opposing sidewalls 2310, 2320, and the fourth opposing sidewalls 2410, 2420 to move with respect to each other independently, which may provide relatively even clamping forces and clamping stress within the first, second, third, and fourth tightening portions 2100, 2200, 2300, 2400. The first opposing sidewalls 2110, 2120, the second opposing sidewalls 2210, 2220, the third opposing sidewalls 2310, 2320, and the fourth opposing sidewalls 2410, 2420 each have a default distance therebetween when no compressive or expansive forces are applied thereto.
Accordingly, referring simultaneously to
The receiver body 1100 is configured to allow the barrel-tightening portions (2100, 2200, 2300, 2400,
As shown in
In at least one example shown in
Referring simultaneously to
The second fastener channel 2250 is defined in the second tightening portion 2200 such that the second fastener channel 2250 is transverse to the central axis 1142 while being in communication with the second partial tightening slot 2240. In the illustrated example, the second fastener channel 2250 extends away from the side 1134 of the receiver body and passes through the second opposing sidewalls 2210, 2220 and into communication with a threaded-member, such as a nut (not shown) or an internally threaded portion and/or reinforced portion within the receiver body 1100. As also shown in
The third fastener channel 2350 is defined in the third tightening portion 2300 such that the third fastener channel 2350 is transverse to the central axis 1142 while being in communication with the third partial tightening slot 2340. In the illustrated example, the third fastener channel 2350 extends away from the side 1134 of the receiver body and passes through the third opposing sidewalls 2310, 2320 and into communication with a threaded-member, such as a nut (not shown) or an internally threaded portion and/or reinforced portion within the receiver body 1100. As also shown in
The fourth fastener channel 2350 is defined in the fourth tightening portion 2400 such that the third fastener channel 2450 is transverse to the central axis 1142 while being in communication with the fourth partial tightening slot 2440. In the illustrated example, the fourth fastener channel 2450 extends away from the side 1134 of the receiver body and passes through the fourth opposing sidewalls 2410, 2420 and into communication with a threaded-member, such as a nut (not shown) or an internally threaded portion and/or reinforced portion within the receiver body 1100. As also shown in
Each of the first fastener channel 2150, the second fastener channel 2250, the third fastener channel 2350, and the fourth fastener channel 2450 are configured to receive one of the fasteners 1200 (
As show in
Particularly, each of the first, second, third, and fourth barrel-tightening portions 2100, 2200, 2300, 2400 have a corresponding first, second, third, and fourth fastener engagement surface 2160, 2260, 2360, 2460 against which the fasteners 1200 (
As shown in
The first, second, third and fourth tightening portions 2100, 2200, 2300, 2400 have a corresponding first, second, third, or fourth transverse tightening length. The first, second, third, and fourth transverse tightening lengths may also be described as the distance between those portions of the first, second, or third barrel-tightening portions 2100, 2200, 2300, 2400 on which compressive forces act to selectively narrow the first, second, third or fourth partial tightening slots 2150, 2250, 2350, 2450 when the fasteners 1200 (
The first end relief recess 2500, the first central relief recess 2600, the second central relief recess 2700, and the third central relief recess 2800, and the second end relief recess 2900 may also be described as having a first, second, third, fourth and fifth transverse relief width as measured normal to the line 1150. In such an example, the first and second transverse relief widths are greater than the first transverse tightening length, the second and third transverse relief widths are greater than the second tightening length, the third and fourth transverse relief widths are greater than the third transverse tightening length, and the fourth and fifth transverse relief widths are greater than the fourth transverse tightening length. In some examples, any one of the transverse relief widths may be infinitely longer than an adjacent transverse tightening length if the relief recess extends through the entire width of the bottom portion 1138 of the receiver body 1100. In the present example, the first, second, third, fourth, and fifth transverse relief widths are described as being greater than the first, second, third, and fourth transverse tightening lengths, though it will be appreciated that the first, second, third, fourth, and fifth transverse relief widths may be equal to the first, second, third, and fourth transverse tightening lengths, or that the first, second, third, fourth, and fifth transverse relief widths may be less than the first, second, third, and fourth transverse tightening lengths provided they provide relatively even deflection (and thus relatively even clamping forces) that vary less than 5%, such as about %3 or less variance about a mean deflection across the partial tightening slots at a given torque load. For example, the first, second, third, fourth, and fifth transverse relief widths may be approximately eighty percent (80%) of the first, second, third, and fourth transverse tightening lengths according to one example.
Such a configuration may further allow the barrel-tightening portions 2100, 2200, 2300, 2400 to function independently by removing material directly adjacent to the fastener engagement surfaces 2160, 2260, 2360, 2460 to reduce the amount of material that would otherwise be deflected or displaced when tightening the fasteners 1200 (
As previously introduced, the receiver body 1100 is configured such that a given torque applied to the fasteners 1200 (
As shown in
The second central relief recess 2700 and the third central relief recess 2800 each extend deeper into the outer portion 1130 of the receiver body 1100 relative to the third outer tightening portion 2330 than the third fastener channel 2350. The third central relief recess 2800 and the second end relief recess 2900 extend deeper into the outer portion 1130 of the receiver body 1100 relative to the fourth outer tightening portion 2430 than the fourth fastener channel 2450. Such a configuration provides depth to allow the first opposing sidewalls 2110, 2120 (
The lengths of the first barrel-tightening portion 2100, the second barrel-tightening portion 2200, the third barrel-tightening portion 2300, and the fourth barrel-tightening portion 2400 relative to adjacent relief recesses may also facilitate independent movement of the first opposing sidewalls 2110, 2120 (
In particular, the first barrel-tightening portion 2100 may be described as having a first reinforcement length, the second barrel-tightening portion 2200 a second reinforcement length, the third barrel-tightening portion 2300 a third reinforcement length and the fourth barrel-tightening portion a fourth reinforcement length, each being measured relative to the line 1150, which is parallel to the central axis 1142.
In a similar manner, the first relief end recess 2500 may be described as having a first relief distance, the first central relief recess 2600 a second relief distance, the second central relief recess 2700 a third relief distance, the third central relief recess 2800 a fourth relief distance, and the second end relief recess 2900 a fourth relief distance, each being measured relative to the line 1150, which is parallel to the central axis 1142.
In some examples, each of the relief distances for the relief recesses 2500, 2600, 2700, 2800, 2900 are greater than one-fourth (25%) the reinforcement lengths than the barrel-tightening portion or portions 2100, 2200, 2300, 2400 to which the relief recesses 2500, 2600, 2700, 2800, 2900 are adjacent. In further examples, each of the relief distances for the relief recesses 2500, 2600, 2700, 2800, 2900 are greater than four-fifths (80%) the reinforcement lengths than the barrel-tightening portion or portions 2100, 2200, 2300, 2400 to which the relief recesses 2500, 2600, 2700, 2800, 2900 are adjacent. In still further examples, each of the relief distances for the relief recesses 2500, 2600, 2700, 2800, 2900 are greater than four-fifths (80%) the reinforcement lengths than the barrel-tightening portion or portions 2100, 2200, 2300, 2400 to which the relief recesses 2500, 2600, 2700, 2800, 2900 are adjacent.
Such configurations may correspond to ratios for each of the relief distances (corresponding to the relief recesses 2500, 2600, 2700, 2800, 2900) relative to the reinforcement lengths (corresponding to the barrel-tightening portion or portions 2100, 2200, 2300, 2400) to which the relief recesses 2500, 2600, 2700, 2800, 2900 are adjacent each being greater than 1:4 or 0.25 in some examples, greater than 1:3 or 0.33 in further examples, greater than 2:5 or 0.40 in still further examples, such as equal to or greater than 9:20 or 0.45.
Accordingly, if the first tightening portion length was approximately 0.80 inches, each of the first relief distance and the second relief distance would be greater than 0.20 inches in some examples, greater than about 0.264 inches in further examples, and greater than 0.64 inches in still further examples, such as greater than about 0.675 inches.
Similarly, if the second reinforcement length were approximately 0.80 inches, each of the second relief distance and the third relief distance would be greater than 0.20 inches in some examples, greater than about 0.264 inches in further examples, and greater than 0.64 inches in still further examples, such as greater than about 0.675 inches.
If the third reinforcement length were approximately 0.80 inches, each of the third relief distance and the fourth relief distance would be greater than 0.20 inches in some examples, greater than about 0.264 inches in further examples, and greater than 0.64 inches in still further examples, such as greater than about 0.675 inches.
Finally, if the fourth reinforcement portion length were approximately 0.80 inches, each of the fourth relief distance and the fifth relief distance would be greater than 0.20 inches in some examples, greater than about 0.264 inches in further examples, and greater than 0.64 inches in still further examples, such as greater than about 0.675 inches.
Thereafter, at step 4200 a barrel receiving recess 4200 is defined in the receiver body 1100. In at least one example, the barrel receiving recess defines the central axis 1142 and serves as a barrel bore around which the orientation and alignment of the rest of the receiver body 1100 depends.
At step 4300, a bolt receiving recess 1144 is formed in the receiver body 1100 such that the bolt receiving recess 1144 is in communication with the barrel receiving recess 1142.
At step 4300 a tightening slot is then formed in the receiver body 1100, which may include the first, second, third, and fourth partial tightening slots 2140, 2240, 2340, 2440. In at least one example, the first, second, third, and fourth partial tightening slots 2140, 2240, 2340, 2440 are part of a single tightening slot that extends from the bottom portion 1138 of the receiver body 1100 and into communication with the barrel receiving recess 1140 while also being parallel to the central axis 1142. In at least one example, the first, second, third, and fourth partial tightening slots 2140, 2240, 2340, 2440 are each coincident the line 1150.
The method 4000 continues at step 4400 with defining plurality of fastener channels in the receiver body 1100, including the first fastener channel 2150, the second fastener channel 2250, the third fastener channel 2350, and the fourth fastener channel 2450. In the illustrated example, each of the first fastener channel 2150, the second fastener channel 2250, the third fastener channel 2350, and the fourth fastener channel 2450 are formed in the side 1134 of the receiver body 1100 near the bottom portion 1138 of the receiver body 1100. In at least one example, the fastener channels 2150, 2250, 2350, 2450 may be formed by milling or drilling techniques.
Further, the first fastener channel 2150 is in communication with the first partial tightening slot 2140, the second fastener channel 2250 is in communication with the second partial tightening slot 2240, the third fastener channel 2350 is in communication with the third partial tightening slot 2340, and the fourth fastener channel 2450 is in communication with the fourth partial tightening slot 2440 while each of the fastener channels is transverse to the central axis 1142. In at least one example, the first, second, third, and fourth fastener channels 2150, 2250, 2350, 2450 are each coincident with the line 1150. In at least one example, the distance or length between the first fastener channel 2150 and the second fastener channel 2250 as measured along line 1150 otherwise being measured parallel to the central axis 1142 may be referred to as a first-to-second fastener length, the distance or length between the second fastener channel 2250 and the third fastener channel 2350 as measured along line 1150 otherwise being measured parallel to the central axis 1142 may be referred to as a second-to-third fastener length, the distance or length between the third fastener channel 2350 and the fourth fastener channel 2450 as measured along line 1150 otherwise being measured parallel to the central axis 1142 may be referred to as the third-to-fourth fastener length.
The method 4000 continues at step 4500 by removing material from the receiver body 1100 and the bottom portion 1138 in the illustrated example between the fastener channels, 2150, 2250, 2350, 2450 to form the first, second, and third central recesses 2600, 2700, 2800. The remaining tightening portions of the receiver body 1100 through which the fastener channel 2150, 2250, 2350, 2450 are defined, include the first, second, third, and fourth tightening portions 2100, 2200, 2300, 2400.
The amount of material removed on either axial side of each fastener channel 2150, 2250, 2350, 2450 is sufficient to facilitate independent movement of the first opposing sidewalls 2110, 2120, the second opposing sidewalls 2210, 2220, the third opposing sidewalls 2310, 2320, and the fourth opposing sidewalls 2410, 2420 with respect to each other.
Removing sufficient material includes relieving or removing material to form a relief recess along at least 25% of the portion of the line 1150 between each of the fastener channels 2150, 2250, 2350, 2450 in some examples, at least 33% in further examples, and at least 45% in yet further examples. In such examples, each of the relief recesses 2500, 2600, 2700, 2800, 2900 may have a width that is greater than the width of adjacent partial tightening slots 2150, 2250, 2350, 2450 (as applicable). More specifically, the relief recesses 2500, 2600, 2700, 2800, 2900 may have the relative widths described elsewhere herein.
The method 4000 also includes define end relief recesses at step 4600. Forming end relief recesses at step 4600 includes forming a proximal end relief recess, labeled as a first end relief recess 2500 proximally of the most proximal fastener channel 2150 and a distal end relief recess labeled as second end relief recess 2900 distally of the most distal fastener relief channel 2450. The proximal end relief recess is at least as long the central relief recess that is distal of the fastener channel to which the proximal end relief recess is adjacent. In the illustrated example, the first end relief recess 2500 has an axial length as measured along line 1150 otherwise being measured parallel to the central axis 1142 that is at least as long as the first central relief recess 2600. Similarly, the distal end relief recess is at least as long as the central relief recess that is proximal of the most distal fastener channel 2450.
In the illustrated example, the second end relief recess 2900 has an axial length as measured along line 1150 otherwise being measured parallel to the central axis 1142 that is at least as long as the third central relief recess 2800. The lengths and dimensions of the relief recesses 2150, 2250, 2350, 2450 may also be formed according to the method 4000 while having the dimensions and relationships set forth above with reference to
As previously introduced, the relief recesses relieve material to a depth that is deeper than the depth of the fastener channels 2150, 2250, 2350, 2450. In some examples, the relief recesses 2500, 2600, 2700, 2800, 2900 remove material to place the relief recesses 2500, 2600, 2700, 2800, 2900 into communication with the barrel receiving recess 1140.
The method 4000 also includes forming additional features at step 4700. Forming additional features may include forming and/or refining the cuts, slots, rails, or other features shown in the figures which are not otherwise detailed or described with respect to the detailed description. Though a particular order is specified in the method 4000 described above, it will be appreciated that the steps may be performed in different orders, some steps may be performed simultaneously, and/or some steps may be omitted.
Receiver assemblies, receiver bodies, firearm incorporating the like and methods of forming the same are provided herein. The receiver body is configured to allow the barrel-tightening portions to function relatively independently of each other. In particular, the relief recesses result in voids near the barrel-tightening portions to reduce the amount of material that is deflected as the barrel-tightening portions are engaged (with a corresponding reduction in stress) while still providing sufficient reinforcement for the fasteners to provide the desired clamping force on the barrel. Reducing the amount of material deflected to engage the barrel-tightening portions reduces the stress transmitted to adjacent regions thereby providing relatively even clamping forces across the barrel-tightening portions at a given torque loading on the fasteners. Similarly, since the relief recesses reduce the deflection and strain transmitted to those regions near or adjacent the barrel-tightening portions, more of the force and torque used to engage the barrel-tightening portions acts therethrough, resulting in higher barrel clamping forces for given torque loads. Simultaneously increasing the clamping force applied by each barrel-tightening portion while also evening the clamping force applied by each barrel-tightening portion for the same applied torque has shown significant improvement in the accuracy of firearms making use of such receivers.
The present invention may be embodied in other specific forms without departing from its spirit or essential characteristics. The described embodiments are to be considered in all respects only as illustrative and not restrictive. The scope of the invention is, therefore, indicated by the appended claims rather than by the foregoing description. All changes that come within the meaning and range of equivalency of the claims are to be embraced within their scope.
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Desert Tech, “How your SRS A1 Sniper Rifile is made! Disassembly and Assembly”, YouTube video published Jan. 5, 2013 available at the link https://yputu.be/WbZPWuLG0L8?t=116 retrieved Jan. 1, 2019 at 21:10 MST. The video, a screenshot of which is included hereinafter, shows a previously existing receiver body with a tightening slot and fasteners. |