Handgun brace for mitigating muzzle jump recoil and promoting proper handgun grip positioning

Information

  • Patent Grant
  • 11585633
  • Patent Number
    11,585,633
  • Date Filed
    Monday, October 11, 2021
    3 years ago
  • Date Issued
    Tuesday, February 21, 2023
    a year ago
  • Inventors
  • Original Assignees
    • R MILLER & ASSOCIATES, INC. (Dripping Springs, TX, US)
  • Examiners
    • Hayes; Bret
    Agents
    • Thompson; Craige
    • Thompson Patent Law
    • Snowden; Timothy D.
Abstract
Apparatus and associated methods relate to a handgun brace arranged with a rigid structure extending radially away from a handgun trigger guard, and having a forward-facing surface configured to physically engage with at least one finger of a user's non-primary grip hand in a stable position below the handgun's barrel and in front of the handgun's trigger, such that a counter-force applied by the finger(s) at the forward-facing surface tends to prevent the handgun (especially the muzzle), from rising or rotating in response to shooting, such as due to muzzle jump. In an illustrative example, the brace may be releasably fixed to the handgun (e.g., as a modular handgun accessory). A handgun brace that substantially mitigates the unwanted effects of muzzle jump/recoil may advantageously yield higher shooting accuracy and beneficially promote proper handgun grip positioning.
Description
TECHNICAL FIELD

Various embodiments relate generally to handgun and pistol accessories.


BACKGROUND

A handgun is a short-barreled firearm that may be held and used with one hand. Handguns have evolved over time from primitive constructions to more modern designs. For example, hand cannons were developed in in China, where gunpowder was first developed. Later, various types of “lock” handguns were developed, such as matchlock, wheellock, flintlock, and caplock pistols. Types of modern handguns may include revolvers and semi-automatic pistols, for example.


SUMMARY

Apparatus and associated methods relate to a handgun brace arranged with a rigid structure extending radially away from a handgun trigger guard, and having a forward-facing surface configured to physically engage with at least one finger of a user's non-primary grip hand in a stable position below the handgun's barrel and in front of the handgun's trigger, such that a counter-force applied by the finger(s) at the forward-facing surface tends to prevent the handgun (especially the muzzle), from rising or rotating in response to shooting, such as due to muzzle jump. In an illustrative example, the brace may be releasably fixed to the handgun (e.g., as a modular handgun accessory). A handgun brace that substantially mitigates the unwanted effects of muzzle jump/recoil may advantageously yield higher shooting accuracy and beneficially promote proper handgun grip positioning.


Various embodiments may achieve one or more advantages. For example, some embodiments may apply a downward force on the handgun that resists upward muzzle jump. Various examples may substantially increase shooting accuracy for a round that is fired immediately after firing a first round. Some implementations may increase accuracy even more for a rapid-fire succession of rounds. In at least some embodiments, a hand brace may be configured to be removably/releasably coupled to a conventional handgun without adapting the existing handgun. For example, a hand brace may be an addition to an existing handgun, where the brace is added without drilling, welding, or otherwise modifying the existing handgun. Various embodiments may aid a shooter in practicing proper shooting grip and technique.


The details of various embodiments are set forth in the accompanying drawings and the description below. Other features and advantages will be apparent from the description and drawings, and from the claims.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 depicts multiple left side elevational views of an exemplary handgun being fitted with a handgun brace.



FIG. 2 depicts opposite side elevational views of an exemplary handgun brace.



FIGS. 3A and 3B depicts right side elevational views of two exemplary embodiments of handgun braces, each brace being mechanically coupled to an associated exemplary handgun.



FIGS. 4A and 4B depict top perspective views of two exemplary embodiments of a handgun brace having an exemplary forward-protruding finger dividing member.



FIG. 5A, FIG. 5B, FIG. 5C, FIG. 5D, FIG. 5E, FIG. 5F, and FIG. 5G depict views of an exemplary handgun brace with a curved hand engagement surface.



FIG. 6A, FIG. 6B, FIG. 6C, FIG. 6D, FIG. 6E, FIG. 6F, and FIG. 6G depict views of an exemplary handgun brace.



FIG. 7A, FIG. 7B, FIG. 7C, FIG. 7D, FIG. 7E, FIG. 7F, and FIG. 7G depict views of an exemplary handgun brace.



FIG. 8A, FIG. 8B, FIG. 8C, FIG. 8D, FIG. 8E, FIG. 8F, and FIG. 8G depict views of a first component of an exemplary handgun brace.



FIG. 9A, FIG. 9B, FIG. 9C, FIG. 9D, FIG. 9E, FIG. 9F, and FIG. 9G depict views of a second component of an exemplary handgun brace.



FIG. 10A, FIG. 10B, FIG. 10C, FIG. 10D, FIG. 10E, FIG. 10F, and FIG. 10G depict views of an exemplary handgun brace with a magazine receiver.



FIG. 11A, FIG. 11B, FIG. 11C, FIG. 11D, FIG. 11E, FIG. 11F, and FIG. 11G depict views of an exemplary handgun brace with a rail mount.





Like reference symbols in the various drawings indicate like elements.


DETAILED DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS


FIG. 1 depicts multiple left side elevational views of an exemplary handgun being fitted with a handgun brace. Muzzle jump may refer to a tendency of a firearm's muzzle to be accelerated upward after the firing of the firearm. For many firearms, a bore axis (the longitudinal centerline of the barrel) may be above the firearm's center of mass, while the grip contact point (between the shooter and the gun) may be below the center of mass. So, when a firearm is discharged, bullet motion and the escaping propellant gases may exert a reactional recoil directly backwards along the bore axis, while the countering forward push from a shooter's hands and body is below the bore axis. These combined forces may result in a rotational torque being applied around the center of mass of the firearm, which may cause the firearm to pitch upwards, and the muzzle end to rise. Muzzle jump of a firearm may be more pronounced by the combined recoil resulting from multiple shots being fired in rapid succession. Excessive muzzle jump may be highly undesirable, as it may significantly affect (negatively) the shooting accuracy of a firearm and therefore result in a target being missed/overshot in many situations. Accordingly, disclosed herein is a handgun brace accessory (e.g., handgun brace 110) configured to releasably couple to a handgun (e.g., handgun 105), the handgun brace accessory featuring various mechanical structures that function to substantially mitigate unwanted effects of muzzle jump and recoil for handguns, to advantageously improve shooting accuracy and promote proper handgun grip positioning for a handgun shooter/user.


In FIG. 1, three different states 100A, 100B, and 100C of a handgun and handgun brace assembly are shown. All three states 100A, 100B, 100C include a handgun 105 and a handgun brace 110. In the first state 100A, the handgun 105 and the handgun brace 110 are decoupled from one another. In the second state 100B, the handgun 105 and the handgun brace 110 are operably coupled (mechanically) to one another. In the third state 100C, the handgun 105 and the handgun brace 110 are operably coupled (mechanically) to one another, and the handgun 105 is experiencing (multiple) forces resulting from a discharge/firing of the handgun 105.


As shown in the first state 100A, the handgun 105 includes a handgun grip 105A, a handgun barrel 105B (terminating in a muzzle), a handgun trigger 105C, and a handgun trigger guard 105D. Also shown in the first state 100A is a handgun brace 110 that is decoupled from the handgun 105. The handgun brace 110 includes a handgun coupler 110A configured to mechanically, fixedly, and releasably couple to the handgun 105A. In this exemplary depiction, the handgun coupler 110A mechanically couples to the trigger guard 105D of the handgun 105. A user may mechanically couple the handgun brace 110 to the handgun 105 by fitting (e.g., sliding on) the handgun coupler 110A to the trigger guard 105D, to transition the assembly from the first state 100A into the second state 100B.


The handgun brace 110 further includes a finger engagement surface 110B of a finger engagement member that extends radially away from the trigger guard along a trigger guard radius Rt (shown in the third state 100C at the bottom of FIG. 1). The finger engagement surface 110B is configured to physically and frictionally engage with at least one finger of a non-primary gripping hand of a user/shooter. The phrase “primary gripping hand” refers to the hand of a user that is gripping the actual handgun grip 105A, while the phrase “non-primary gripping hand” refers to the hand of the user that is gripping the handgun brace 110. In an illustrative example, if the shooter is right-handed, then the shooter's right hand (the shooter's primary gripping hand) may grip the grip 105A, while at least one finger of the shooter's left hand (the shooter's non-primary gripping hand or off-hand) may be wrapped around the finger engagement surface 110B. If the user is ambidextrous, the user will still have a primary and a non-primary grip hand—the primary grip is the user's grip on the handgun grip 105A, while the nonprimary grip is the user's grip on the handgun brace 110. The finger engagement surface 110B may therefore provide an additional gripping point for a shooter's non-primary gripping hand that is in close proximity to (and may also partially wrap around) the primary grip point associated with the shooter's primary gripping hand. A dual-grip handgun assembly that employs the handgun brace 110 may therefore provide for two stabilization/anchoring points that may cooperate to substantially mitigate the undesirable forces and effects associated with muzzle jump, as detailed in the third (firing/discharge) state 100C.


As shown in the third state 100C, a dual-grip handgun assembly (including handgun 105 and handgun brace 110) is shown experiencing the forces resulting from a discharge/firing of the handgun 105. A first (backward recoil) force F1 is applied to along the bore axis B of the barrel 105B, as a result of bullet motion and escaping propellant gases exiting through the muzzle of the handgun 105. A second (forward countering) force F2 is a forward push from a shooter's (primary grip) hand around the grip 105A in response to the first/backward force F1, the force F2 being applied below the bore axis B. The net result of the forces F1 and F2 is to cause the handgun 105 to experience a (clockwise) rotational torque τcw about a center of mass Mcenter of the handgun 105. Accordingly, the rotational torque τcw may cause the firearm to pitch upwards, and the muzzle end of the barrel 105B to rise at an instantaneous velocity vi.


Without the use of the handgun brace 110, repeated shots of the handgun 105 results in successive rotational torque impulses (muzzle jumps) that may rapidly decrease the shooting accuracy of the shooter firing the handgun 105. By employing the handgun brace 110 in cooperation with the handgun 105 however, the finger engagement surface 110B of the handgun brace 110 may provide a third (backwards and downwards) force F3 that may significantly oppose and mitigate the clockwise rotational recoil force τcw. Specifically, the third force F3 may be applied at a radius Rc from the center of mass of the handgun 105. Therefore, the third force F3 may provide a counterclockwise counter torque τccw that acts opposite to the recoil torque τcw (assuming small or negligible mass of the brace 110 that minimally affects the location of the center of mass Mcenter). Accordingly, a user gripping the dual-grip assembly (that employs the handgun brace 110 in cooperation with the handgun 105) may provide a stabilizing counter torque τccw that may yield additional shooting stability and thus higher shooting accuracy for a shooter.


It is worth noting that the terms clockwise and counterclockwise may be relative terms, which may be used for the purpose of assigning directionality/oppositeness to different rotational vectors. For example, opposite terminology may be used when a handgun is viewed from the right side as opposed to the left side. The terms forward/backward may refer to longitudinal movement or spacing in a forward/backward direction, as oriented by a longitudinal axis LONG. For example, the muzzle of the handgun 105 may be at the “front,” while the grip 105A of the handgun 105 may be at the “back/rear.” The term lateral may refer to left/right movement or spacing, as oriented by a lateral axis LAT. The term vertical may refer to up/down movement or spacing, as oriented by a vertical axis VERT.



FIG. 2 depicts opposite side elevational views of an exemplary handgun brace. A handgun brace 200 right side 200R is shown at the top of FIG. 2, and a handgun brace 200 left side 200L is shown at the bottom of FIG. 2. The handgun brace 200 includes a handgun coupler 205. The handgun coupler 205 is configured to mechanically and releasably couple to a handgun, such that the handgun brace is rigidly and fixedly coupled to the handgun when the handgun coupler is operably coupled to the handgun. The handgun brace 200 includes a counter recoil torque member 210. The counter recoil torque member 210 is shown below the handgun coupler 205 and has an at least partially curved cross-sectional profile taken in a vertical and longitudinally extending cross-section (e.g., a vertical plane defined by the LONG and VERT/B axes shown in FIG. 1). The counter recoil torque member 210 radially extends away from a trigger guard of the handgun (e.g., along the radius Rt in FIG. 1) when the handgun coupler is operably coupled to the handgun. When the handgun coupler 205 is operably coupled to the handgun, the counter recoil torque member 210 may extend along a vertical plane that extends longitudinally along a barrel of a handgun (e.g., the vertical plane defined by the LONG and VERT/B axes shown in FIG. 1). The handgun brace 200 includes a rigid bridge 215 that extends from the handgun coupler to the counter recoil torque member. For example, the rigid bridge 215 may be integrally formed with the handgun coupler with the counter recoil torque member 210. The rigid bridge 215 mechanically couples the handgun coupler to the counter recoil torque member to maintains the counter recoil torque member 210 in a fixed spatial relationship relative to the handgun coupler 205. The handgun brace 200 includes a non-primary grip hand engagement surface 220. The surface 220 may be located at a forward-facing surface of the counter recoil torque member 220. The surface is configured to physically engage with at least one finger of a non-primary grip hand of a user (e.g., at least one finger of the shooter's left hand if the shooter is a right-handed shooter). When the handgun coupler 205 is operably coupled to the handgun and the handgun is discharged, the handgun brace 200 is configured to impart a counter-clockwise counter torque to the handgun (e.g., τccw in FIG. 1) resulting from forceable physical engagement between the non-primary grip hand engagement surface 220 and the at least one finger of the non-primary grip hand of a shooter/user, such that the counter-clockwise counter torque at least partially opposes the clockwise recoil torque (e.g., τcw in FIG. 1) resulting from the handgun discharge. In some examples, the non-primary grip hand engagement surface 220 may include padding, such as foam padding, to absorb at least some of the recoil impulse experienced by the at least one finger of the non-primary grip hand of a shooter/user at the surface 220.


In the exemplary embodiment of FIG. 2, the handgun coupler 205 functions as a trigger guard coupler configured to directly and mechanically couple the handgun brace 200 to a trigger guard of a handgun when the handgun coupler is operably coupled to the handgun. The handgun coupler 205 includes a slot 206 shaped to receive the trigger guard of the handgun. The slot 206 of the handgun coupler 205 may be slid onto the trigger guard, such that the slot 206 may form an interference or transition fit with the trigger guard, for example. The handgun coupler 205 may include a fastener 207 configured to fixedly and releasably couple the handgun coupler to the handgun. For example, the fastener 207 may be a screw threadably engaged in an aperture 208 of the coupler 205. The screw may be tightened to move a distal end of the screw into compressive physical engagement with the trigger guard to mechanically and fixedly couple the coupler 205 to the trigger guard. The screw may be loosened to move a distal end of the screw out of compressive physical engagement with the trigger guard to release the coupler 205 from the trigger guard.


The handgun brace 200 includes a trigger guard engagement surface 225 located adjacent to the slot 206. The trigger guard engagement surface 225 is configured to physically engage with the trigger guard of the handgun when the handgun coupler 205 is operably coupled to the handgun. The handgun brace 200 includes a secondary bridge 230. The secondary bridge 230 extends from the trigger guard engagement surface 225 to the counter recoil torque member 210 to mechanically couple the trigger guard engagement surface 225 with the counter recoil torque member 210, such that the counter recoil torque member 210 is maintained in a fixed spatial relationship relative to the trigger guard engagement surface 225. Such a construction may advantageously provide additional mechanical stability to a dual-grip handgun assembly.



FIGS. 3A and 3B depicts right side elevational views of two exemplary embodiments of handgun braces, each brace being mechanically coupled to an associated exemplary handgun. A first embodiment dual-grip handgun assembly 300A includes a handgun 305A and a handgun brace 310A. The handgun brace 310A includes a forward-protruding finger dividing member 315A that extends horizontally away from the counter recoil torque member 310A. The member 315A defines a first finger engagement surface 320A (and associated padding 322A) located above the member 315A, and a second finger engagement surface 325A (and associated padding 328A) located below the finger dividing member. The surfaces 320A, 325A may provide for additional anchoring and frictional engagement points to increase a user's grip on the handgun brace 300A.


A second embodiment dual-grip handgun assembly 300B includes a handgun 305B and a handgun brace 310B. The handgun brace 310B may be substantially similar to the handgun brace 310A in many respects (e.g., the brace 310B includes a forward-protruding finger dividing member 315B defining a first finger engagement surface 320B (and associated padding 322B), and a second finger engagement surface 325B (and associated padding 328B). However, each brace 310A, 310B may be configured to respectively couple to different handguns 305A, 305B each having differently sized/shaped trigger guards (see discussion below regarding FIGS. 4A and 4B).



FIGS. 4A and 4B depict top perspective views of two exemplary embodiments of a handgun brace having an exemplary forward-protruding finger dividing member. A first handgun brace 400A includes a handgun coupler 405A having a first dimensioned slot 406A. The handgun brace 400A includes a counter recoil torque member 410A. The counter recoil torque member 410A radially extends away from a trigger guard of a handgun (e.g., along the radius Rt in FIG. 1) when the handgun coupler 405A is operably coupled to the handgun. The handgun brace 400A includes a rigid bridge 415A that extends from the handgun coupler to the counter recoil torque member. The handgun brace 400A includes a forward-protruding finger dividing member 420A that extends horizontally away from the counter recoil torque member 410A. The member 420A defines a first finger engagement surface 425A (and associated padding 428A) located above the member 420A, and a second finger engagement surface 430A (and associated padding 432A) located below the finger dividing member 420A.


A second handgun brace 400B includes a handgun coupler 405B having a second dimensioned slot 406B. The handgun brace 400B includes a trigger guard engagement surface 407B located adjacent to the slot 406B. The handgun brace 400B includes a counter recoil torque member 410B. The counter recoil torque member 410B radially extends away from a trigger guard of a handgun (e.g., along the radius Rt in FIG. 1) when the handgun coupler 405B is operably coupled to the handgun. The handgun brace 400B includes a rigid bridge 415B that extends from the handgun coupler to the counter recoil torque member. The handgun brace 400B includes a forward-protruding finger dividing member 420B that extends horizontally away from the counter recoil torque member 410B. The member 420B defines a first finger engagement surface 425B (and associated padding 428B) located above the member 420B, and a second finger engagement surface 430B (and associated padding 432B) located below the finger dividing member 420A.



FIG. 5A, FIG. 5B, FIG. 5C, FIG. 5D, FIG. 5E, FIG. 5F, and FIG. 5G depict views of an exemplary handgun brace with a curved hand engagement surface. A handgun brace 500 includes a slot 505 configured to releasably couple the handgun brace 500 to a handgun. For example, the slot 505 may be ‘snapped’ over a trigger guard of a handgun. in the depicted example, the handgun brace 500 is provided with an extending member 510. The extending member 510, as depicted, has a substantially circular cross-section. At least a distal (e.g., towards the right side of FIG. 5C) portion of the extending member 510 may be configured as a non-primary grip engagement surface. For example, a non-primary grip hand of a user may wrap at least partially around the outside of the extending member 510 to provide a counter-recoil moment. In the depicted example, the handgun brace 500 is further provided with a finger separator 515. The finger separator 515 may, for example, provide an additional surface (e.g., for a first finger) to engage and apply a counter-recoil moment in response to muzzle recoil when the handgun brace 500 is coupled to the handgun.


in some embodiments, the extending member 510 may be further configured as a receptacle. A wall of the extending member 510 defines a cavity 520. In some embodiments, a magazine may, for example, be disposed in the cavity 520. In some embodiments, a retaining member (not shown) may be provided to releasably retain the magazine in the cavity 520. In some embodiments, friction between the magazine and a wall defining the cavity 520 may, for example, releasably retain the magazine in the cavity 520. Various embodiments may advantageously provide readily accessible storage capacity for an additional magazine (e.g., including extra ammunition). Various embodiments may advantageously provide stowage of one or more items. For example, in some embodiments the cavity 520 may be configured to releasably receive a flashlight.



FIG. 6A, FIG. 6B, FIG. 6C, FIG. 6D, FIG. 6E, FIG. 6F, and FIG. 6G depict views of an exemplary handgun brace. A handgun brace 600 includes a slot 605 configured to releasably couple the handgun brace 600 to a handgun. In the depicted example, the handgun brace 600 is provided with a hand engagement surface 610. As depicted, the hand engagement surface 610 is configured to receive at least two fingers. The handgun brace 600 is further provided with a finger separator 615. The hand engagement surface 610 is configured to curve forward (e.g., towards a muzzle of a handgun when the handgun brace 600 is mechanically coupled to the handgun) to form a finger retaining member 620. The retaining member 620 may, for example, advantageously prevent slipping of a last finger off of the hand engagement surface 610.


In the depicted example, the handgun brace 600 is provided with multiple apertures 625. Some of the apertures 625, as depicted, pass entirely through the handgun brace 600. Some circular features are configured as blind holes. The apertures 625 may, for example, provide storage and/or attachment points. In some embodiments the multiple apertures 625 may, for example, reduce weight of the handgun brace 600. In some embodiments the multiple apertures 625 may, for example, reduce shrinkage during manufacturing. In some embodiments the multiple apertures 625 may, for example, reduce material used.


As depicted, a central beam may be provided in the handgun brace 600. For example, at least one circular feature as shown in FIG. 6C may represent a blind hole. A solid feature may connect the hand engagement surface 610 and the opposing (rear) surface entirely through a thickness of the handgun brace 600. Such embodiments may, for example, provide one or more reinforcement ‘beams.’ Such embodiments may, for example, increase a bending strength of the handgun brace 600.



FIG. 7A, FIG. 7B, FIG. 7C, FIG. 7D, FIG. 7E, FIG. 7F, and FIG. 7G depict views of an exemplary handgun brace. A handgun brace 700 includes a slot 705 configured to releasably couple the handgun brace 700 to a handgun. In the depicted example, the handgun brace 700 is provided with a hand engagement surface 710. The hand engagement surface 710 is configured to angle forward (e.g., towards a muzzle of the handgun when the handgun brace 700 is coupled to the handgun) at bend 715. The hand engagement surface 710 may support one or more lower finger(s) positioned forward (e.g., further towards the muzzle) of one or more upper finger(s) (e.g., closer to the barrel). Such embodiments may, for example, advantageously extend a user's fingers. Various such embodiments may advantageously permit a user to apply a greater moment (e.g., in response to muzzle jump). In some embodiments the hand engagement surface 710 may, for example, be curved (e.g., forward).


As depicted, the handgun brace 700 is further provided with a protruding finger divider 720. The finger divider 720 may, for example, advantageously provide support for a finger to operate on the handgun brace 700 to provide a counter-recoil moment on the handgun, when the handgun brace 700 is operably coupled to the handgun. In some embodiments, finger divider 720 may, for example, be configured as disclosed at least with reference to finger separator 515 and/or finger separator 615 of FIGS. 5A-6G.


in the depicted example, the handgun brace 700 is further provided with apertures 725. The apertures 725 may, by way of example and not limitation, be configured such as disclosed at least with reference to the multiple apertures 625 of FIGS. 6A-6G.



FIG. 8A, FIG. 8B, FIG. 8C, FIG. 8D, FIG. 8E, FIG. 8F, and FIG. 8G depict views of a first component of an exemplary handgun brace. FIG. 9A, FIG. 9B, FIG. 9C, FIG. 9D, FIG. 9E, FIG. 9F, and FIG. 9G depict views of a second component of an exemplary handgun brace.


A handgun brace includes a first half 800 (e.g., left side) and a right half 900 (e.g., right side). The handgun brace includes a slot 805 configured to releasably couple the left half 800 to a handgun. In the depicted example, the handgun brace is provided with a finger divider 810. The finger divider 810 may, for example, advantageously provide a resting surface for a (first) finger of a (non-primary) grip hand. The handgun brace is provided with a hand engagement surface 815. The hand engagement surface 815 may, for example, be configured to support one or more fingers. In the depicted example, the hand engagement surface 815 is configured to support at least two fingers.


The handgun brace includes apertures 820. The apertures 820 may, for example, be configured as disclosed at least with reference to the multiple apertures 625 and/or the apertures 725 of FIGS. 6A-7G.


As depicted, the left half 800 is provided with coupling features 825. The right half 900 is provided with coupling elements 905. For example, each coupling element 905 may be configured as a boss configured to be inserted into a corresponding coupling feature 825. Accordingly, the left half 800 and the right half 900 may be (mechanically) coupled together into a single unit. For example, in some embodiments the left half 800 and the right half 900 may be pre-assembled. In some embodiments the left half 800 and the right half 900 may be coupled together when installed on a handgun. In some embodiments the left half 800 and the right half 900 may be permanently coupled. In some embodiments the left half 800 and the right half 900 may be releasably coupled. For example, the halves may be screwed and/or bolted together. In some embodiments the halves may be snapped together. For example, coupling elements 905 may be configured to snap into corresponding coupling features 825. A separate snap element (e.g., a fir tree rivet) may couple the halves. In some embodiments the halves may be riveted. In some embodiments the halves may be adhered together (e.g., by adhesive, epoxy, sealing material).


In various embodiments, configuring a handgun brace as multiple (mating) elements (e.g., left half 800, right half 900) may allow high volume injection molding of individual components. Such embodiments may, for example, advantageously reduce mold complexity for each element. Such embodiments may, for example, advantageously reduce manufacturing costs. Various embodiments may advantageously securely couple around one or more features of a handgun.



FIG. 10A, FIG. 10B, FIG. 10C, FIG. 10D, FIG. 10E, FIG. 10F, and FIG. 10G depict views of an exemplary handgun brace with a magazine receiver. A handgun brace 1000 is provided, in the depicted example, with a slot 1005. The slot 1005 may be configured to couple (e.g., releasably) the handgun brace 1000 to a handgun (e.g., a trigger guard). The handgun brace 1000 is provided with a hand engagement surface 1010. In the depicted example, the hand engagement surface 1010 is configured to receive at least two fingers. For example, in some implementations, the hand engagement surface 1010 may be configured to receive three fingers. In some embodiments the hand engagement surface 1010 may be configured to receive four fingers.


The handgun brace 1000 is provided with a magazine receiver 1015. For example, a structure (e.g., wall) defining the hand engagement surface 1010 continues to define a cavity configured to receive a magazine. The depicted example may, for example, couple to a Glock 17 style handgun and/or receive a corresponding magazine into the magazine receiver 1015. Accordingly, various embodiments may advantageously provide an extra magazine and/or extra ammunition close at hand in a handgun brace 1000.


As depicted, the handgun brace 1000 includes apertures 1020. The apertures 1020 may, by way of example and not limitation, be configured as disclosed at least with reference to multiple apertures 625, apertures 725, and/or apertures 820 of FIGS. 6A-9G.



FIG. 11A, FIG. 11B, FIG. 11C, FIG. 11D, FIG. 11E, FIG. 11F, and FIG. 11G depict views of an exemplary handgun brace with a rail mount. A handgun brace 1100 includes a slot 1105. The slot 1105 may, for example, be configured to releasably couple the handgun brace 1100 to a handgun. A hand engagement surface 1110 is provided on a forward surface of the handgun brace 1100 (e.g., forward being towards a muzzle of a handgun when the handgun brace 1100 is coupled to the handgun). In the depicted example, the handgun brace 1100 is provided with a rail mount 1115. The rail mount 1115 may, for example, be a tactical mounting rail. In some embodiments the rail mount 1115 may, by way of example and not limitation, be configured as a Picatinny rail. The rail mount 1115 may, for example, be configured as a KeyMod rail. In some embodiments the rail mount 1115 may be configured as a dovetail rail. Various embodiments may, for example, configure the rail mount 1115 as a Weaver rail. Various embodiments may advantageously provide a mounting point(s). For example, a flashlight may be mounted to the rail mount 1115. A camera may, for example, be mounted to the rail mount 1115.


Although various embodiments have been described with reference to the Figures, other embodiments are possible. For example, the handgun brace 110 may be integrally formed with the handgun 105. In such embodiments, the handgun 105 may include the handgun brace 110 built into the handgun 105. For example, the brace 110 may be molded or manufactured as an integral component with the handgun 105 (such as being a solid and unitary piece or metal or composite material). In some implementations, the brace 110 may be integrally formed with the trigger guard 105D. In various embodiments, the brace 110 may be welded or cast onto a portion of the handgun 105. In an illustrative example, the brace 110 may be formed as a unitary body with the main body of the handgun 110. In such examples, a user may benefit from a handgun that comes “pre-configured” with an integrated brace 110.


In some embodiments, a handgun brace may be provided with a magazine receiver (e.g., as disclosed at least with reference to FIGS. 10A-10G) and a rail mount (e.g., as disclosed at least with reference to FIGS. 11A-11G). A rail mount may, for example, be disposed at a distal end of a magazine receiver (e.g., farther/farthest from the barrel). The rail mount may pivot and/or slide out of the way of inserting and/or withdrawing a magazine. In some embodiments the magazine may be disposed in the magazine receiver from a side (e.g., rather than an end) of the magazine receiver. A rail mount may, for example, be disposed on a rearward surface of the magazine receiver (e.g., on an opposite side of the magazine receiver from a non hand engagement surface).


A number of implementations have been described. Nevertheless, it will be understood that various modification may be made. For example, advantageous results may be achieved if the steps of the disclosed techniques were performed in a different sequence, or if components of the disclosed systems were combined in a different manner, or if the components were supplemented with other components. Accordingly, other implementations are within the scope of the following claims.

Claims
  • 1. A handgun apparatus comprising: a handgun brace comprising: a handgun coupler configured to mechanically couple to a handgun such that the handgun brace is rigidly and fixedly coupled to the handgun when the handgun coupler is operably coupled to the handgun;a counter recoil torque member (CRTM) that, when the handgun coupler is operably coupled to the handgun, extends away from a trigger guard of the handgun in a vertical plane aligned with a longitudinal axis of a barrel of the handgun;a rigid bridge that: (1) extends from the handgun coupler to the counter recoil torque member, (2) mechanically couples the handgun coupler with the CRTM, and (3) maintains the CRTM in a fixed spatial relationship relative to the handgun coupler;a non-primary grip hand engagement surface (NPGHES) disposed on a forward-facing surface of the CRTM, the NPGHES being configured to physically engage with at least two fingers of a non-primary grip hand of a user; and,a magazine receptacle at least partially defined by a structure forming the NPGHES, the magazine receptacle configured to releasably mechanically support a magazine of the handgun,wherein when the handgun coupler is operably coupled to the handgun and the handgun is discharged, the handgun brace is configured to impart a first moment in a first rotational direction to the handgun resulting from forceable physical engagement between the NPGHES and the at least two fingers of the non-primary grip hand of the user, such that the first moment at least partially opposes a second moment in a second rotational direction and resulting from the handgun discharge.
  • 2. The handgun apparatus of claim 1, wherein the handgun coupler comprises a fastener configured to fixedly and releasably couple the handgun coupler to the handgun.
  • 3. The handgun apparatus of claim 1, wherein the NPGHES is at least partially defined by a curvilinear profile in the vertical plane configured such that, when the at least two fingers engage the NPGHES, a first finger positioned nearest the barrel is supported in a position rearward and nearer a primary grip of the handgun than a second finger positioned farther from the barrel.
  • 4. The handgun apparatus of claim 1, wherein the CRTM has an at least partially curved cross-sectional profile taken in a vertical and longitudinally extending cross-section.
  • 5. The handgun apparatus of claim 1, wherein the handgun brace further comprises a forward-protruding finger dividing member that extends horizontally away from the counter recoil torque member to define a first finger engagement surface disposed above the finger dividing member and a second finger engagement surface disposed below the finger dividing member.
  • 6. The handgun apparatus of claim 1, wherein the handgun coupler comprises a slot shaped to receive the trigger guard of the handgun.
  • 7. The handgun apparatus of claim 6, wherein the handgun brace further comprises a trigger guard engagement surface (TGES) disposed adjacent to the slot and configured to physically engage with the trigger guard of the handgun when the handgun coupler is operably coupled to the handgun.
  • 8. The handgun apparatus of claim 7, wherein the handgun brace further comprises a secondary bridge that: (1) extends from the TGES to the CRTM, (2) mechanically couples the TGES with the CRTM, and (3) and maintains the CRTM in a fixed spatial relationship relative to the TGES.
  • 9. A handgun apparatus comprising: a handgun brace comprising: a handgun coupler configured to mechanically couple to a handgun such that the handgun brace is rigidly and fixedly coupled to the handgun when the handgun coupler is operably coupled to the handgun;a counter recoil torque member (CRTM) that, when the handgun coupler is operably coupled to the handgun, extends away from a trigger guard of the handgun in a vertical plane aligned with a longitudinal axis of a barrel of the handgun;a rigid bridge that: (1) extends from the handgun coupler to the counter recoil torque member, (2) mechanically couples the handgun coupler with the CRTM, and (3) maintains the CRTM in a fixed spatial relationship relative to the handgun coupler; and,a non-primary grip hand engagement surface (NPGHES) disposed on a forward-facing surface of the CRTM, the NPGHES being configured to physically engage with at least two fingers of a non-primary grip hand of a user,wherein when the handgun coupler is operably coupled to the handgun and the handgun is discharged, the handgun brace is configured to impart a first moment in a first rotational direction to the handgun resulting from forceable physical engagement between the NPGHES and the at least two fingers of the non-primary grip hand of the user, such that the first moment at least partially opposes a second moment in a second rotational direction and resulting from the handgun discharge.
  • 10. The handgun apparatus of claim 9, wherein the handgun coupler comprises a fastener configured to fixedly and releasably couple the handgun coupler to the handgun.
  • 11. The handgun apparatus of claim 9, further comprising a magazine receptacle at least partially defined by a structure forming the NPGHES, wherein the magazine receptacle is configured to releasably mechanically support a magazine of the handgun.
  • 12. The handgun apparatus of claim 11, wherein the magazine receptacle defines a cavity configured to releasably receive the magazine.
  • 13. The handgun apparatus of claim 9, wherein the NPGHES is at least partially defined by a curvilinear profile in the vertical plane configured such that, when the at least two fingers engage the NPGHES, a first finger positioned nearest the barrel is supported in a position rearward and nearer a primary grip of the handgun than a second finger positioned farther from the barrel.
  • 14. The handgun apparatus of claim 9, the rigid bridge comprising a plurality of apertures.
  • 15. The handgun apparatus of claim 9, wherein the NPGHES comprises padding.
  • 16. The handgun apparatus of claim 9, wherein the handgun brace further comprises a forward-protruding finger dividing member that extends horizontally away from the counter recoil torque member to define a first finger engagement surface disposed above the finger dividing member and a second finger engagement surface disposed below the finger dividing member.
  • 17. The handgun apparatus of claim 9, wherein the handgun brace further comprises a mounting rail.
  • 18. A handgun apparatus comprising: a handgun brace comprising: a counter recoil torque member (CRTM) that, when the handgun brace is operably coupled to a handgun, extends away from a trigger guard of the handgun in a vertical plane aligned with a longitudinal axis of a barrel of the handgun;means for rigidly and fixedly coupling the CRTM in a fixed spatial relationship relative to the handgun;a non-primary grip hand engagement surface (NPGHES) disposed on a forward-facing surface of the counter recoil torque member, the NPGHES being configured to physically engage with at least two fingers of a non-primary grip hand of a user; and,means for releasably coupling a magazine such that the magazine is supported, when mechanically coupled to the means for releasably coupling, by the handgun brace,wherein when the CRTM is operably coupled to the handgun and the handgun is discharged, the handgun brace is configured to impart a first moment in a first rotational direction to the handgun resulting from forceable physical engagement between the NPGHES and the at least two fingers of the non-primary grip hand of the user, such that the first moment at least partially opposes a second moment in a second rotational direction and resulting from the handgun discharge.
  • 19. The handgun apparatus of claim 18, wherein the handgun brace is releasably coupled to the handgun by the means for rigidly and fixedly coupling.
CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation-in-part of and claims the benefit of U.S. application Ser. No. 16/997,071, titled “Handgun Brace for Mitigating Muzzle Jump Recoil and Promoting Proper Handgun Grip Positioning,” filed by Richard Lee Miller on Aug. 19, 2020, which application is a continuation of U.S. application Ser. No. 16/508,141, titled “Handgun Brace for Mitigating Muzzle Jump Recoil and Promoting Proper Handgun Grip Positioning,” filed by Richard Lee Miller on Jul. 10, 2019 and issued as U.S. Pat. No. 10,782,092, which application claims the benefit of U.S. Provisional Application Ser. No. 62/696,340, titled “Handgun Brace,” filed by Richard Lee Miller on Jul. 11, 2018 and U.S. Provisional Application Ser. No. 62/872,600, titled “Handgun Brace,” filed by Richard Lee Miller on Jul. 10, 2019. This application incorporates the entire contents of the foregoing application(s) herein by reference.

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Related Publications (1)
Number Date Country
20220026173 A1 Jan 2022 US
Provisional Applications (2)
Number Date Country
62872600 Jul 2019 US
62696340 Jul 2018 US
Continuations (1)
Number Date Country
Parent 16508141 Jul 2019 US
Child 16997071 US
Continuation in Parts (1)
Number Date Country
Parent 16997071 Aug 2020 US
Child 17450485 US