The present invention relates generally to the field of firearms, and more particularly to firearms incorporating improvements to manufacturability, sight interchangeability, extractor function, striker safety, trigger, sear, striker, and/or striker spring components and operation.
Continuing improvements are sought in the field of firearms technology. Example embodiments of the present invention are primarily directed to the provision of improvements in manufacturability, sight interchangeability, extractor function, striker safety, trigger, sear, striker, and/or striker spring components and operation of firearms.
In example embodiments, the present invention provides improvements to various aspects of firearm technology. In particular examples, the invention provides improvements in manufacturability, sight interchangeability, extractor function, striker safety, trigger, sear, striker, and/or striker spring components and operation of firearms.
In example aspects, the present invention relates to an improved firearm, and to various features, components and systems for firearms, which may include one or more of a removable and/or interchangeable top cover, an improved extractor mechanism, a striker safety mechanism with a direct trigger interface, a sear with direct striker interface, and/or a striker with integral striker spring retention and driving features, and any combinations thereof.
In one aspect, the present invention relates to an improved firearm including a slide cover removably connected to a slide of the firearm, an extractor mechanism, a striker safety mechanism, a firearm sear with direct striker interface, and a striker or firing pin.
In another aspect, the present invention relates to an improved firearm including a slide and a slide cover removably connected to the slide, the slide cover including an upper side, a lower side configured for removable engagement with a portion of the slide, and a rear end including a yoke configured for removable engagement with a portion of the slide, wherein the upper side includes an engagement portion configured for removable interchangeable engagement with one or more sights or aiming devices of various formats.
In example embodiments, the upper side of the slide cover includes one or more mounting studs and/or threaded bores, the one or more mounting studs and/or threaded bores being configured and formatted to provide for secure and removable engagement with the sight or aiming device. In example embodiments, the sight or aiming device includes a DeltaPoint Pro™ red dot sight by Leupold™. In example embodiments, the sight or aiming device includes an RMR™ red dot sight by Trijicon™. In example embodiments, at least a portion of the sight or aiming device is at least partially integrally formed with a portion of the slide cover. In example embodiments, a roll pin removably secures the yoke of the rear end of the slide cover to the slide. In example embodiments, the slide cover provides access to interior portions of the firearm for manufacture and maintenance, for interchangeability of mounting platforms for different sight configurations, and to provide a clean finish and attractive aesthetic.
In another aspect, the present invention relates to an extractor mechanism for a firearm. In example embodiments, the firearm includes a barrel extending along a longitudinal axis, a grip, a receiver/frame, a slide, a trigger, one or more sights, and an internal magazine. In example embodiments, the extractor mechanism includes a body portion pivotally mounted to the firearm slide for pivotal motion about a pivot axis extending through a proximal lobe of the body portion, an extractor spring attached to a distal lobe of the body, and an elongated extractor arm extending obliquely forward from the body portion to a free end terminating in an extractor hook including a tip, thereby defining a longitudinal moment arm. In example embodiments, the pivot axis is oriented generally transverse relative to the longitudinal bore axis defined by the barrel. In example embodiments, the distal lobe of the body is positioned at a lateral offset distance from the pivot axis to define an extractor spring moment arm. In example embodiments, the extractor hook is configured for engagement with a rim of a cartridge to retract the same rearwardly for extraction from the barrel of the firearm.
In example embodiments, the pivot axis of the body portion of the extractor mechanism is positioned on a first side of the longitudinal bore axis and the point of engagement of the tip of the extractor hook with the cartridge is on an opposite second side of the longitudinal bore axis, and wherein a force vector applied by the extractor hook on the cartridge pulls across and into the body of the cartridge. In example embodiments, the direction of the force vector pulling across and into the body of the cartridge provides an increased and more positive engagement of the cartridge by the extractor such that an increase in the retraction force applied results in an increased engagement area on the cartridge, increased engagement force, increased engagement force on the cartridge promoting maximum engagement area, and/or improved transfer of extraction force to the cartridge, thereby reducing the potential for disengagement and extraction and/or ejection failure. In example embodiments, the proximal lobe and pivot axis thereof are integrally formed with the body portion. In example embodiments, the proximal lobe and/or pivot axis of the body portion are separate components assembled with the body portion. In example embodiments, the body portion is generally triangular in shape.
In yet another aspect, the present invention relates to a striker safety mechanism for a firearm. In example embodiments, the firearm includes a barrel extending along a longitudinal bore axis, a receiver/frame, a slide, a trigger and a striker/firing pin. In example embodiments, the striker safety mechanism includes a striker safety block including a first end, a second end, a forward side and a rearward side, a central body portion defined between the first and second ends and defining a pivot, a striker engagement lobe portion provided at the first end of the block on the rearward side of the pivot, a trigger engagement lobe portion at an opposite second end of the block on the forward side of the pivot, and a striker safety spring configured to bias the striker safety block to pivot the striker engagement portion into abutment with a stop surface or shoulder formed in or on the firing pin to prevent the striker from moving forward and thereby prevent firing of the firearm when the trigger is not pulled.
In example embodiments, when the trigger is pulled, an upper finger extending from the trigger directly contacts the trigger engagement portion, thereby overcoming the bias of striker safety spring and pivoting the striker safety block to move the striker engagement portion out of engagement with the stop surface of the firing pin, allowing the firing pin to advance and fire the firearm. In example embodiments, the trigger engagement lobe portion includes a lower extension portion having an upper finger engagement surface for contact by an upper finger of the trigger.
In yet another aspect, the present invention relates to a firearm sear including a forward portion, an elongated rearward portion defining a shallow ramp and catch adjacent thereto, and a pivot axis generally defined between the forward and rearward portions for pivotally mounting the sear within a portion of a firearm, the elongated rearward portion being biased upwardly by a sear spring, wherein an extension finger of a striker is configured for precise and consistent engagement with the catch of the sear, thereby providing a consistent trigger pull and improved accuracy.
In example embodiments, actuation of a trigger causes movement of a trigger bar, thereby causing pivotal movement of the sear to overcome the bias of the sear spring and disengage the catch from an extension finger of a striker so as to permit forward movement of the striker to strike a cartridge and detonate the same, thereby causing a slide of the firearm to move rearwardly in which the elongated rearward portion is biased upwardly by the sear spring, and wherein the returning forward movement of the slide causes at least some engagement of the extension finger of the striker with the shallow ramp, thereby actuating the elongated rearward portion in a downward pivot motion so as to cause precise and consistent seating of the extension finger with the catch of the sear, thereby maintaining the striker in a cocked position. In example embodiments, the trigger bar includes a first end pivotally mounted to a portion of the trigger and a second end including a release finger, the release finger configured for contacting a release of the sear so as to cause the sear to pivot and disengage the extension finger from the catch of the sear.
In another aspect, the present invention relates to a striker for a firearm including a generally elongate member including a forward end, a rearward end including a rear spring abutment face, one or more integral spring retention members extending from the elongate member, and a striker spring retained between the rear spring abutment face and the one or more integral spring retention members.
In example embodiments, a pair of two radially outwardly projecting spring retention members are integrally formed with the striker on laterally opposite locations toward a forward end of the striker, wherein the spring retention members optionally include a ramped first side face and a flat circumferentially aligned contact face for engagement with the striker spring during installation and use. In example embodiments, at least one end of the striker spring includes a dead end coil configured for abutment with the flat circumferentially aligned contact face of the outwardly projecting spring retention members, wherein the dead end coil prevents unintentional removal of the striker spring from the striker.
These and other aspects, features and advantages of the invention will be understood with reference to the drawing figures and detailed description herein and will be realized by means of the various elements and combinations particularly pointed out in the appended claims. It is to be understood that both the foregoing general description and the following brief description of the drawings and detailed description of example embodiments are explanatory of example embodiments of the invention, and are not restrictive of the invention, as claimed.
The present invention may be understood more readily by reference to the following detailed description of example embodiments taken in connection with the accompanying drawing figures, which form a part of this disclosure. It is to be understood that this invention is not limited to the specific devices, methods, conditions or parameters described and/or shown herein, and that the terminology used herein is for the purpose of describing particular embodiments by way of example only and is not intended to be limiting of the claimed invention. Any and all patents and other publications identified in this specification are incorporated by reference as though fully set forth herein.
Also, as used in the specification including the appended claims, the singular forms “a,” “an,” and “the” include the plural, and reference to a particular numerical value includes at least that particular value, unless the context clearly dictates otherwise. Ranges may be expressed herein as from “about” or “approximately” one particular value and/or to “about” or “approximately” another particular value. When such a range is expressed, another embodiment includes from the one particular value and/or to the other particular value. Similarly, when values are expressed as approximations, by use of the antecedent “about,” it will be understood that the particular value forms another embodiment.
With reference now to the drawing figures, wherein like reference numbers represent corresponding parts throughout the several views,
According to example embodiments, two or more configurations or formats of the top cover 210 may be provided for interchangeable removal and installation onto the firearm 10, for interchangeable compatibility with different firearm sight formats. For example,
In example methods of use, the top covers 210, 210′, 210″ can be removed by a user by sliding the rear endcap 220 down and away to remove it from the firearm (see
According to another example embodiment, a top cover 210′″, which is generally similar to the top cover 210, is similarly configured for compatible fitting engagement with the slide of the firearm 10, and a rear sight 240′ is configured for compatible engagement with a portion thereof (see
According to another example embodiment, the present invention relates to an improved extractor mechanism 310 for extracting cartridges or spent cartridge shells or casings C from the chamber of a firearm 10 and discharging the cartridge or shell from the ejection port of the slide/receiver upon firing or manual actuation or racking of the firearm's action. As depicted in
An elongated extractor arm 340 extends obliquely forward from the body portion 320 to a free end terminating in an extractor hook 350, defining a longitudinal moment arm. The extractor hook 350 is configured for engagement with the rim of the cartridge or casing C to retract the cartridge or casing rearward for extraction from the barrel of the firearm 10. The pivot axis 322 of the extractor mechanism 310 is positioned on a first side (left) of a medial plane or longitudinal bore axis extending along a longitudinal centerline 360 of the firearm's barrel, and the point of engagement of the tip of the extractor hook with the cartridge C is on an opposite second side (right) of the centerline 360, whereby the force vector applied by the extractor hook on the cartridge pulls across and into the body of the cartridge (see
As depicted in
According to another example embodiment, the present invention relates to a firearm striker safety mechanism 410. As depicted in
The striker safety block 420 comprises a striker engagement lobe portion 440 at a first end on a rearward side of the pivot axis 430, a trigger engagement lobe portion 450 at an opposite second end on a forward side of the pivot axis 430, and a spring or bias member seat 462 at the first end on a forward side of the pivot axis 430. A striker safety spring 460 biases the striker safety block to pivot the striker engagement portion 440 into abutment with a stop surface or shoulder formed in or on the striker or firing pin 470, as shown in
According to some example embodiments as depicted in
According to another example embodiment, the present invention relates to a firearm sear 610 with direct striker (firing pin) 470 interface. As depicted in
Typically, in most previous firearm mechanisms, a sear or sear feature of another component (e.g. trigger bar) typically must have something to arrest its pivoting motion and provide a somewhat consistent engagement with the firing pin. In existing designs that stopping point is typically somewhere in the frame—either a pin, molded surface, or a machined surface or something similar in the frame that stops it. The slide and the frame necessarily have some clearance between them. Intermediate parts connecting the slide and the frame will each present additional tolerances to account for, resulting in less consistent engagement distance. Other components that may be involved can include but are not limited to trigger/fire control/sear housings, grip, frame, slide, striker, striker sleeve, striker housing, and trigger bar. Therefore the consistency of engagement in previously known designs could be improved, since the sear is stopped by the frame and the firing pin rides in the slide.
According to example embodiments of the present invention, the sear 610 is rotated downward as in conventional pistols, releasing the firing pin 470 and the reciprocating action of the slide 620 begins (see
According to another example embodiment, the present invention relates to a firearm striker or firing pin 470 and a striker or firing pin spring 710, and for example relates to the engagement of the firing pin spring 710 onto the firing pin 470 of a firearm. Typically, the firing pin spring of many previously known firearms is mounted to the firing pin by compressing the spring onto the firing pin and installing separate small retainer pieces to hold the spring on the firing pin. The retainer pieces are easily lost, and the process of assembly can require special tools, and be difficult and/or hazardous.
In example embodiments, the firing pin 470 comprises a generally elongate member comprising a forward end, a rearward end, and one or more integral and/or unitary spring retention members or ears extending from the elongate member. In the depicted embodiment, a pair of two radially outwardly projecting spring retention ears 720 are integrally formed with the firing pin 470 on laterally opposite locations toward a forward end of the firing pin 470 (see
As shown in
The present invention includes each of the various features, components and systems disclosed, independently and/or in any combination(s) thereof. The invention further includes a firearm incorporating any of the various features, components and systems disclosed, independently and/or in any combination(s); as well as any of the features, components and systems described and shown provided separately, for example as repair or retrofit parts for a firearm. And while example embodiments are depicted in the form of a semi-automatic handgun or pistol format, the various features, components and systems disclosed may be incorporated into various different firearm formats within the scope of the invention.
While the invention has been described with reference to example embodiments, it will be understood by those skilled in the art that a variety of modifications, additions and deletions are within the scope of the invention, as defined by the following claims.
This application claims the benefit of U.S. Provisional Patent Application Ser. No. 62/962,395 filed Jan. 17, 2020, the entirety of which is hereby incorporated herein by reference for all purposes.
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