This patent application claims the benefit of U.S. Patent Application Ser. No. 61/280,829, filed 9 Nov. 2009, and U.S. Patent Application Ser. No. 61/335,856, filed 13 Jan. 2010, the disclosures of which are incorporated herein by reference in their entireties.
1. Field of the Invention
This invention relates generally to handgun holsters. In particular, the present invention relates to a handgun holster having a lockable retention system.
2. Description of Related Art
Many users of handguns, particularly military and law enforcement personnel, carry a handgun in a holster designed to protect the handgun and hold it securely. Holsters can be worn in a number of ways, such as on a belt at the waist, on the thigh, under an arm, or around an ankle.
Certain users of handguns must be able to quickly and easily remove the handgun from a holster regardless of the type of holster used. Additionally, these users need to be assured that, when not in use, the handgun will remain safely in the holster.
Some holsters rely solely on friction to secure the handgun in place. This combination might not be suitable for situations where the gun/holster is subject to a great deal of movement because such movement could cause the handgun to lose frictional engagement with the holster.
Certain other holsters include a variety of strap or flap arrangements that prevent the removal of the firearm from the holster while the strap or flap is in place. With designs that rely on this method to retain a handgun, a user must first unfasten and/or rotate the strap/flap before the firearm can be withdrawn. Then, to re-secure the handgun in the holster once the handgun has been re-holstered, the user must physically refasten and/or rotate the strap/flap before the firearm is securely retained within the holster. Some users might not prefer these designs because of the time required to release and/or re-secure the handgun.
The present invention relates generally to handgun holsters. In particular, the present invention relates to a holster for a weapon, such as, for example, a handgun, having a retention system for securing a handgun such that the handgun is retained or locked in the holster when the retention system is engaged, but may be easily removed from the holster by the wearer while removal by anyone other than the wearer is difficult.
In an illustrative, non-limiting embodiment of this invention, the handgun holster comprises a handgun holster having a retention system. The retention system comprises a lever having an engagement portion and a finger button portion, the engagement portion includes a locking projection for engaging an interior portion of the trigger guard of the handgun in the holster and, thereby, retaining the handgun in the holster.
The construction of the holster prevents the locking projection from contacting the trigger of the handgun by limiting how far the handgun can be inserted into the holster. The construction of the holster further facilitates alignment of the trigger guard with the locking projection by limiting movement of the handgun with respect to the lever.
The lever is positioned on the holster such that, when a user depresses the appropriate portion of the lever, thereby releasing the handgun from the holster, and draws the handgun from the holster, the user's index finger is positioned to contact the frame of the handgun, above the trigger guard.
In an illustrative, non-limiting embodiment of this invention, a biasing element is optionally included. If included, the biasing element contacts a front portion of the handgun's trigger guard and is spring-biased when the handgun is retained, or locked, in the holster. The biasing element biases the handgun out of the holster and assists in maintaining contact between the locking projection and the trigger guard. Furthermore, the biasing element may assist in removal of the handgun from the holster when the locking projection is disengaged from the trigger guard.
In one illustrative, non-limiting embodiment of this invention, the holster includes a cavity having an open top end, a bottom end, a frame/slide portion, and a trigger guard portion. The frame/slide portion of the cavity has greater depth than the trigger guard portion of the cavity. An axis extends between the frame/slide portion of the cavity and the trigger guard portion of the cavity.
A lever having a finger button portion and an engagement portion is pivotally attached atop the side wall of the holster, along the axis, approximately between the finger button portion and the engagement portion, such that the finger button portion extends from the axis and is positioned above the frame/slide portion of the cavity and the engagement portion extends from the axis and is positioned above the trigger guard portion of the cavity.
The lever includes a second side facing generally toward the holster cavity, and the engagement portion of the lever includes a locking projection extending from the second side of the engagement portion; wherein the lever.
In certain illustrative, non-limiting embodiment of this invention, the holster further includes one or more ridge segments extending from the side wall around at least a portion of the lever so as to define a recess. The lever is positioned within the recess and an aperture formed in a portion of the side wall beneath at least a portion of the finger button portion of the lever, wherein the aperture is formed within the recess.
Thus, the present invention automatically locks the handgun in place in the holster with a releasable mechanism that is easily operated by a wearer of the holster. However, the present mechanism is not easily accidentally disengaged or disengaged by anyone other than the wearer.
Accordingly, this invention provides a handgun holster, having a retention system.
This invention separately provides a safe and reliable quick-release handgun holster.
This invention separately provides a handgun holster having a retention system, which is capable of retaining a handgun securely in the holster while permitting a quick release of the handgun when the user requires.
This invention separately provides a handgun holster having a retention system, which is simple to operate.
This invention separately provides a handgun holster having a retention system, which automatically secures the handgun in the holster upon seating of the handgun in the holster, without requiring any additional operation by the user.
This invention separately provides a handgun holster and a retention system that assists the user in positioning his or her index finger along the frame of the handgun, outside of and not on the trigger guard, as the handgun is drawn from the holster.
This invention separately provides a handgun holster having an optional passive retention system, which can be tightened to provide increased frictional tension between a portion of the holster and the handgun trigger guard without increasing the frictional tension between a remaining portion of the holster and the handgun.
This invention separately provides a handgun holster, which is capable of being manufactured using injection molding production techniques.
These and other features and advantages of this invention are described in or are apparent from the following detailed description of the exemplary embodiments.
The exemplary embodiments of this invention will be described in detail, with reference to the following figures, wherein like reference numerals refer to like parts throughout the several views, and wherein:
For simplicity and clarification, the design factors and operating principles of the handgun holster according to this invention are explained with reference to various exemplary embodiments of a handgun holster according to this invention. The basic explanation of the design factors and operating principles of the handgun holster is applicable for the understanding, design, and operation of the handgun holster of this invention.
Furthermore, it should be appreciated that, for simplicity and clarification, the embodiments of this invention will be described with reference to a semiautomatic-type handgun being secured within the present holster. However, it should be appreciated that the operating principles of the handgun holster of this invention may also be employed to construct holsters or holders for any revolver or semiautomatic-type handgun, edged weapons as well as less than lethal products (i.e., tasers, pepper spray, mace canisters, or batons), so long as these items have an appropriate ledge or void that may be engaged or retained by a locking projection or other retaining means. Furthermore, it is also within the scope of the present invention that the present holster may be employed as a pouch for tactical accessories, such as ammunition magazines and/or flashlights, as well as for everyday items such as cell phones or personal digital assistants.
It should also be appreciated that the terms “handgun”, “handgun holster”, and “weapon” are used for basic explanation and understanding of the operation of the systems, methods, and apparatuses of this invention. Therefore, the terms “handgun”, “handgun holster”, and “weapon” are not to be construed as limiting the systems, methods, and apparatuses of this invention.
As shown in
In various exemplary embodiments, the body 103 further comprises at least some of a front wall 130 and a rear wall 140. However, it should be appreciated that the holster 100 may be formed such that one or more of the first side wall 110, the second side wall 120, the front wall 130, and/or the rear wall 140 is/are sufficient to define the cavity 105 for receiving the handgun and the remaining walls are not included.
The cavity 105 includes an open top end 101 and a bottom end 102 and may be formed from any number or combination of walls, including, for example, a single, continuous wall or multiple coupled or joined walls. Alternatively, the cavity 105 may be formed by a material being shaped or bent in a substantial “U” shape. Thus, the cavity 105 may be formed by any cavity, space, or platform that is capable of retaining a handgun.
As identified in
It should be noted that the walls of the holster 100 may generally be planar. Alternatively, the walls of the holster 100 may be contoured or shaped to better accommodate a specific type or model of handgun to be retained within the holster 100.
In various exemplary embodiments, the holster 100 is substantially rigid and is formed of a polymeric material such as a polymeric composite. Alternate materials of construction may include one or more of the following: steel, aluminum, titanium, and/or other metals, as well as various alloys and composites thereof, glass-hardened polymers, polymer or fiber reinforced metals, carbon fiber or glass fiber composites, continuous fibers in combination with thermoset and thermoplastic resins, chopped glass or carbon fibers used for injection molding compounds, laminate glass or carbon fiber, epoxy laminates, woven glass fiber laminates, impregnate fibers, polyester resins, epoxy resins, phenolic resins, polyimide resins, cyanate resins, high-strength plastics, nylon, glass, or polymer fiber reinforced plastics, thermoform and/or thermoset sheet materials, or the like, and/or various combinations of the foregoing.
In various exemplary embodiments, at least certain components of the holster 100 may be formed of any known or later developed, substantially flexible material(s) such as a polymeric material, leather, foam, foam laminates, natural and man-made (synthetic) fabrics, natural and man-made (synthetic) fabric laminates, moldable honeycomb materials, or the like, and/or various combinations of the foregoing.
Thus, it should be understood that the material or materials used to form the holster 100 and/or various components of the holster 100 is a design choice based on the desired appearance and functionality of the holster 100.
In various exemplary embodiments, the holster 100 includes attachment points 170, which provide means for fastening the holster to a holster holding device such as the holster holding device 175 illustrated in phantom in
In various exemplary embodiments, one or both of the side walls include optional slots 180 and 182, which define a passive retention portion 184. Although not shown in the present figures, the inner surface of the passive retention portion 184 may optionally include a raised area, which provides for additional frictional engagement of the trigger guard of the handgun. One or more retention screws 186 may be tightened or loosened to adjust the degree of frictional retention of the handgun by the passive retention portion 184.
The passive retention portion 184, if included, may be adjusted, via the one or more retention screws 186, to provide an adjustable frictional tension between the passive retention portion 184 and the handgun trigger guard, without increasing the frictional tension between a remaining portion of the holster 100 and the handgun.
As further shown in
In various exemplary embodiments, the first side of the finger button portion 151 includes a textured portion (not shown). In this manner, the finger button portion 151 may be distinguished tactilely from other portions of the lever 150 or the holster 100.
In various exemplary, non-limiting embodiments, lever 150 is pivotally connected to the first side wall 110, approximately between the finger button portion 151 and the engagement portion 155, via a fulcrum or pivot pin 160. In various exemplary embodiments, the pivot pin 160 is positioned substantially parallel to a vertical axis of the holster 100, substantially perpendicular to a vertical axis of the holster 100, at a substantially acute angle relative to a vertical axis of the holster 100, or at a substantially obtuse angle relative to a vertical axis of the holster 100. Thus, the pivot pin 160 may be positioned at any angle relative to a vertical axis of the holster 100.
The pivot pin 160 may extend all or part of the way across the width of the lever 150.
In various exemplary embodiments, the lever 150 may include a first and a second protrusion extending from the lever 150. Corresponding first and second indentions, indentations, notches, grooves, or dimples may be formed in the first side wall 110. In these exemplary embodiments, the first and second protrusions are formed so as to operate in cooperating relationship with the first and second dimples such that the lever 150 may be pivotally attached, via the first and second protrusions and the first and second dimples, to the first side wall 110 approximately between a finger button portion 151 and the engagement portion 155. Thus, the pivot pin 160 is replaced by the first and second protrusions.
Alternatively, the lever 150 may include first and second dimples while the first sidewall 110 includes first and second protrusions. In these exemplary embodiments, the first and second dimples are formed so as to operate in cooperating relationship with the first and second protrusions such that the lever 150 may be pivotably attached, via the first and second dimples and the first and second protrusions, to the first side wall 110 approximately between the finger button portion 151 and the engagement portion 155.
The lever 150 is pivotable between an engaged position for securing the handgun within the cavity 105 of the holster 100 and a disengaged position for removal of the handgun. In various exemplary embodiments, the lever 150 may pivot between the engaged position and the disengaged position. Alternatively, the lever 150 may be pivotably positioned and/or retained between either the engaged position or the disengaged position.
In various exemplary embodiments, the lever 150 may be biased to an engaged position whether the handgun is present in the holster 100 or absent from the holster 100. In various exemplary embodiments, biasing of the lever 150 may be accomplished by, for example, a spring means 165.
It should be appreciated that any suitable biasing means, element, or mechanism may be used to form the spring means 165. For example, in various illustrative, non-limiting embodiments of this invention, the spring means 165 may comprise a portion of spring steel, a helical spring, a compression coil spring, a cylindrical coil spring, a conical coil spring, a tension coil spring, a leaf spring, a V-spring, a cantilever spring, a spring washer, a flexible extension of the lever 150 or the first side wall 110, a stretched or tensioned material, such as, for example, a rubber band, or any other element, material, or mechanism usable to bias the lever 150.
It should be understood that the overall size, shape, and thickness of the spring means 165 will vary depending on the type and rigidity of the particular material used to form the spring means 165.
The engagement portion 155 of the lever 150 includes a locking projection 156, formed on the second side of the engagement portion 155. In certain exemplary embodiments, the locking projection 156 optionally extends substantially perpendicularly from the second side of the engagement and 155.
In various exemplary, nonlimiting embodiments, the locking projection 156 includes a ramp surface 157 and is shaped generally to match the contour of a portion of the inner surface of the trigger guard. Alternatively, the locking projection 156 may terminate in a radiused or not radiused manner. Particularly if the trigger guard of the handgun that is to be carried within the holster 100 is itself radiused, the ramp surface 157 may not be included.
Regardless of the particular handgun used, the locking projection 156 should be shaped so that there is no possibility that the locking projection 156 can at any time contact the trigger of the handgun. When the handgun is pushed as far forward as possible into the holster 100 and the trigger guard has come to rest against the trigger guard support wall 145, there should be a space between the locking projection 156 and the trigger of the handgun.
When the lever 150 is in the engaged position, the locking projection 156 protrudes from the second side of the engagement portion 155, into the cavity 105 formed in the holster 100, via an opening 115 in the first side wall 110. In this manner, the locking projection 156 may extend inside the cavity 105 and inside the trigger guard of a handgun that is placed into the holster 100 and, thereby, retain the handgun in the holster 100.
In various exemplary embodiments, the locking projection 156 protrudes into the cavity 105 for a distance that is less than the width of the trigger guard. Alternatively, the locking projection 156 may protrude into the cavity 105 for a distance that is equal to or greater than the width of the trigger guard.
In addition, when the lever 150 is in the engaged position and is retaining a handgun in place, the clearance between the locking projection 156 and the trigger guard support wall 145 should be such that there is room for the slight arc or plunger-type movement of the locking projection 156 when the finger button portion 151 is depressed.
Thus, the retention means is automatically disengaged as the outer surface of the handgun's trigger guard contacts the locking projection 156 and is subsequently engaged when the inner surface of the trigger guard has passed the locking projection 156 and the handgun is appropriately retained in the holster 100.
As illustrated in
As at least a portion of each holster 100 is formed to accommodate and securely retain a specific type of handgun. The construction of the holster 100 also prevents the locking projection 156 from contacting the trigger of the inserted handgun by limiting how far the handgun can be inserted into the holster 100.
In various exemplary embodiments, a trigger guard support wall 145 is generally formed by a portion of the body of the holster 100. The trigger guard support wall 145 is shaped generally to match the contours of at least a portion of the outer surface of the trigger guard. The trigger guard support wall 145 is formed so as to contact at least a portion of the outer surface of the trigger guard of the inserted handgun and further limit how far the handgun can be inserted into the holster 100.
The construction of the holster 100 further facilitates alignment of the trigger guard with the locking projection 156 by limiting lateral movement of the handgun with respect to the lever 150 and the locking projection 156 without preventing a user from easily holstering or drawing the handgun.
In various exemplary embodiments, an optional ridge 118 is formed in the first side wall 110 around at least a portion of the lever 150. Generally, the ridge does not contact the lever 150, but provides a perimeter around at least a portion of the lever 150 to reduce the likelihood that the lever 150 will be inadvertently manipulated and to aid in the proper placement of a user's finger on the finger button portion 151 of the lever 150. The ridge 118 may include a textured portion (not shown), such that the ridge 118 may be distinguished tactilely from other portions of the holster 100 or the lever 150. The ridge 118 may include a gap or valley formed so as to accommodate a user's finger if the finger would extend beyond the finger button portion 151 of the lever 150.
In various exemplary embodiments, the optional ridge 118 is comprised of one or more ridge segments 118 and/or 119 that are formed around at least a portion of the lever 150.
In various exemplary embodiments, a recess 117 is defined within the optional ridge 118 or ridge segments 118 and/or 119.
Although
In an illustrative, non-limiting embodiment of this invention, a biasing element 190 is optionally included. If included, the biasing element 190 extends towards the locking projection 156, covering substantially the entire distance between the trigger guard support wall 145 and the locking projection 156. In various exemplary embodiments, the biasing element 190 does not touch the locking projection 156.
It should be appreciated that any suitable spring mechanism may be used to form the biasing element 190. The overall size, shape, and thickness of the biasing element 190 will vary depending on the type and rigidity of the particular material used to form the biasing element 190.
The biasing element 190 is configured to contact the outer surface of the trigger guard and is spring-biased (as shown in phantom by 190′) when the handgun is retained, or locked, in the holster. In a compressed position, the tension of the biasing element 190 biases the handgun outward and assists in maintaining contact between the locking projection 156 and the inner surface of the trigger guard.
Furthermore, the biasing element 190 may assist in removal of the handgun from the holster when the locking projection is disengaged from the trigger guard.
The biasing element 190 may be configured in a number of ways, and may be attached to the holster 100 by any suitable method. In one exemplary embodiment, the biasing element 190 is molded as an integral part of the holster 100.
An aperture 116 is formed in a portion of the first side wall 110, within the recess 117, beneath at least a portion of the finger button portion 151 of the lever 150. Among other things, the aperture 116 allows dirt and/or debris that may find its way under the finger button portion 151 of the lever 150 to be pushed into the cavity 105. In this manner, dirt and/or debris is not permitted to build up underneath the finger button portion 151 of the lever 150 and keep the finger button portion 151 from being depressed by a user.
During use of the holster 100 having a retention system, as a user begins to holster the handgun, the handgun is inserted into the cavity 105 of the holster, muzzle first, and is guided into position by at least some of the first side wall 110, the second side wall 120, the front wall 130, and the rear wall 140.
As the handgun is inserted further into the cavity 105, the outer surface of the trigger guard will contact the ramp surface 157 of the locking projection 156. The shape of the ramp surface 157 allows the locking projection 156 to ride along the surface of the trigger guard and displace the locking projection 156 of the lever 150. As the locking projection 156 rides along the surface of the trigger guard, the bias of the lever 150 is overcome and the lever 150 is pivoted towards the disengaged position and the handgun is permitted to be seated in the cavity 105 of the holster. The trigger guard is prevented from moving in a direction opposite the locking projection 156 by the position of the first side wall 110 and the second side wall 120.
As the handgun is further seated into the holster, the trigger guard continues to displace the locking projection 156 and the lever 150 continues to pivot until the trigger guard passes a point of contact with a farthest extent of the locking projection 156 and clears the locking projection 156. When the trigger guard passes the locking projection 156, the lever 150 may be biased, via the spring means 165, to pivot back to the engaged position.
Thus, the handgun is secured in the cavity 105 of the holster by operation of the locking projection 156 blocking removal of the handgun, via the inner surface of the trigger guard. While the handgun is fully seated in the cavity 105 of the holster 100 with the lever 150 biased to the engaged position, removal of the handgun is not permitted, as the locking projection 156 does not allow the trigger guard to pass by. When the handgun is secured in place, removal force applied to the handgun will not remove the handgun from the holster 100 unless the finger button portion 151 is pivoted and the locking projection 156 is brought out of the way of the inner surface of the trigger guard.
In order to release and unholster the handgun, the user depresses the finger button portion 151 of the lever 150, pivoting the finger button portion 151 towards the cavity 105. At some point, the first side wall 110 will stop the inward movement of the finger button portion 151, thus eliminating the possibility that the finger button portion 151 can prevent the removal of the handgun by contacting the trigger or constricting the trigger guard.
As the finger button portion 151 of the lever 150 is depressed, the bias of the lever 150 is overcome, the lever 150 is pivoted towards the disengaged position, and the locking projection 156 of the engagement portion 155 is at least partially withdrawn from the opening 115 and out of the holster cavity 105.
When the finger button portion 151 has been depressed sufficiently, such that the locking projection 156 of the engagement portion 155 is sufficiently withdrawn from the holster cavity 105, such that the locking projection 156 clears the inner surface of the trigger guard, the handgun's trigger guard will no longer be blocked by the locking projection 156, and the handgun can be withdrawn from the holster 100.
In various exemplary embodiments wherein the first side wall 110 is worn away from the user's body and the second side wall 120 is worn adjacent the user's body, the finger button portion 151 may be positioned such that, as the finger button portion 151 is depressed, the user's index finger is positioned along the frame of the handgun, between the trigger guard and the slide. Therefore, as the handgun is withdrawn from the holster 100 the user's index finger is positioned to contact the frame of the handgun, above the trigger guard, and not the trigger guard or the trigger.
The holster 100, as shown and described with reference to
It should be understood that each of these elements corresponds to and operates similarly to the body 103, the cavity 105, the first side wall 110, the optional ridge 118 and/or ridge segments 118 and/or 119, the second side wall 120, the front wall 130, the rear wall 140, the attachment points 170, the optional slots 180 and 182, the passive retention screw 186, the retention means, and the lever 150, as described above with reference to
However, as shown in
The extended first side wall 210, second side wall 220, and front wall 230 perform at least three functions. First, the extended walls more fully surround and protect the handgun when the handgun is secured in the holster 200. Second, the extended walls serve to help better guide a handgun into the holster 200. Third, the extended walls serve to add a measure of strength and rigidity to the entire structure of the holster 200.
The body 303 comprises a pair of opposed side walls comprising a first side wall 310, an aperture 316, a recess 317, an optional ridge 318 and/or ridge segments 318 and/or 319, a second side wall 320, a front wall 330, and a rear wall 340. The handgun holster 300 further comprises attachment points 370, optional slots 384 and 382, a passive retention screw 386, optionally the biasing element 390, and a retention means comprising a lever 350 having a finger button portion 351 and an engagement portion 355. The lever 350 is pivotally connected, via a pivot pin 360, to the first side wall 310.
It should be understood that each of these elements corresponds to and operates similarly to the body 103 and/or 203, the cavity 105 and/or 205, the first side wall 110 and/or 210, the aperture 116 and/or 216, the recess 117 and/or 217, the optional ridge 118 and/or 218, the optional ridge segments 118 and/or 119 and/or 218 and/or 219, the second side wall 120 and/or 220, the front wall 130 and/or 230, the rear wall 140 and/or 240, the pivot pin 160 and/or 260, the attachment points 170 and/or 270, the optional slots 180 and 182 and/or 280 and 282, the passive retention screw 186 and/or 286, the retention means, the optional biasing element 190 and/or 290 (not shown), and the lever 150 and/or 250 having the finger button portion 151 and/or 251 and the engagement portion 155 and/or 255, as described above with reference to
However, as shown in
Additionally, as shown in
The body 403 comprises a pair of opposed side walls comprising a first side wall 410, a trough 412, an aperture 416, a recess 417, an optional ridge 418 and/or ridge segments 418 and/or 419, a second side wall 420 (not shown), a front wall 430, and a rear wall 440. The handgun holster 400 further comprises attachment points 470 (not shown), optional slots 484 and 482 (not shown), a passive retention screw 486, optionally the biasing element 490 (not shown), and a retention means comprising a lever 450 having a finger button portion 451 and an engagement portion 455. The lever 450 is pivotally connected, via a pivot pin 460, to the first side wall 410.
It should be understood that each of these elements of the holster 400 shown in
However, as shown in
As illustrated in
The lockout lever 491 includes a locking portion 493 that, when the lockout lever 491 is in the locked position (as illustrated in
When the lockout lever 491 is in the unlocked position (as illustrated in
In certain exemplary embodiments, the lockout lever 491 is freely rotatable between the locked position and the unlocked position. Alternatively, the lockout lever 491 may be frictionally maintained, by, for example, frictional engagement between the holster body 403 and the lockout lever 491, in either the locked or the unlocked position unless a force is applied, i.e., by a user's finger, to slide the lockout lever 491 to the locked or unlocked position. In various exemplary embodiments, frictional engagement between the surfaces of the holster body 403 and the lockout lever 491 works to maintain the lockout lever 491 in a desired position.
In other exemplary embodiments, one or more mating protrusions 495 and/or detents 496 (as illustrated most clearly in
In order for a user to depresses the finger button portion 451 of the release lever 450 a sufficient distance to pivot the release lever 450 to the disengaged position, the lockout lever 491 must be in the unlocked position (as illustrated in
In various exemplary embodiments, the lockout lever 491 may include one or more lockout apertures (not shown). If included, the lockout apertures allow a lock or other device to be positioned within a portion of the locking portion to maintain the lockout lever 491 in the locked or unlocked position.
As shown in
The body 503 comprises a pair of opposed side walls comprising a first side wall 510, a trough 512, an aperture 516, a recess 517, an optional ridge 518 and/or ridge segments 518 and/or 519, a second side wall 520 (not shown), a front wall 530, and a rear wall 540. The handgun holster 500 further comprises attachment points 570 (not shown), optional slots 584 and 582 (not shown), a passive retention screw 586, optionally the biasing element 590 (not shown), and a retention means comprising a lever 550 having a finger button portion 551 and an engagement portion 555. The lever 550 is pivotally connected, via a pivot pin 560, to the first side wall 510.
It should be understood that each of these elements of the holster 500 shown in
However, as shown in
The body portion 596 of the locking slider 591 extends from a finger engaging portion 592 to a slide stop portion 594 and includes a notch 598 form and in a proportion of the locking slider body portion 596. When slidably positioned within the slot 597, the locking slider 591 is able to slide between a locked position (as illustrated in
The notch 598 is shaped so as to allow the engagement portion 555 of the lever 550 to pass therethrough when the locking slider 591 is in the unlocked position and the notch 598 is aligned with the impeachment end 555 (as illustrated in
In certain exemplary embodiments, the locking slider 591 may freely slide between the locked position and the unlocked position. Alternatively, the locking slider 591 may be naturally maintained either the locked or the unlocked position within the slot 597 unless a force is applied, i.e., by a user's finger, to slide the locking slider 591 to the locked or unlocked position. In various exemplary embodiments, frictional engagement between the surfaces of the slot 597 and the locking slider 591 work to maintain the locking slider and a desired position. In other exemplary embodiments, one or more mating protrusions and/or detents or other means may be provided to maintain the locking slider and the locked or unlocked position.
In order for a user to depresses the finger button portion 551 of the lever 550 of the holster 500 a sufficient distance to pivot the lever 550 to the disengaged position, the locking slider 591 must be in the unlocked position (as illustrated in
In various exemplary embodiments, the locking slider 591 may include one or more lockout apertures 593 and/or 595. If included, the lockout apertures 593 and/or 595 allow a lock or other device to be positioned within a portion of the body portion 596 to maintain the locking slider 591 in the locked or unlocked position.
As shown in
The body 603 comprises a pair of opposed side walls comprising a first side wall 610, a trough 612, an aperture 616, a recess 617, an optional ridge 618 and/or ridge segments 618 and/or 619, a second side wall 620 (not shown), a front wall 630, and a rear wall 640. The handgun holster 600 further comprises attachment points 670 (not shown), optional slots 684 and 682 (not shown), a passive retention screw 686, optionally the biasing element 690 (not shown), and a retention means comprising a lever 650 having a finger button portion 651 and an engagement portion 655. The lever 650 is pivotally connected, via a pivot pin 660, to the first side wall 610.
It should be understood that each of these elements of the holster 600 shown in
However, as shown in
Through the interaction of a key 699 and key slots 698 of the lockout lever 691, the lockout lever 691 is able to be rotated between a locked position (as illustrated in
The lockout lever 691 includes a locking portion 693 that, when the lockout lever 691 is in the locked position (as illustrated in
When the lockout lever 691 is in the unlocked position (as illustrated in
In certain exemplary embodiments, the lockout lever 691 is freely rotatable between the locked position and the unlocked position. Alternatively, the lockout lever 691 may be frictionally maintained, by, for example, frictional engagement between the holster body 603 and the lockout lever 691, in either the locked or the unlocked position unless a sufficient force is applied, i.e., by the key 699, to rotate the lockout lever 691 to the locked or unlocked position.
In order for a user to depresses the finger button portion 651 of the release lever 650 a sufficient distance to pivot the release lever 650 to the disengaged position, the lockout lever 691 must be in the unlocked position (as illustrated in
As shown in
The body 703 comprises a pair of opposed side walls comprising a first side wall 710, a trough 712, an aperture 716, a recess 717, an optional ridge 718 and/or ridge segments 718 and/or 719, a second side wall 720 (not shown), a front wall 730, and a rear wall 740. The handgun holster 700 further comprises attachment points 770 (not shown), optional slots 784 and 782 (not shown), a passive retention screw 786, optionally the biasing element 790 (not shown), and a retention means comprising a lever 750 having a finger button portion 751 and an engagement portion 755. The lever 750 is pivotally connected, via a pivot pin 760, to the first side wall 710.
It should be understood that each of these elements of the holster 700 shown in
However, as shown in
When the lockout key 799 is in the retention system lockout position (as illustrated in
As shown in
The body 803 comprises a pair of opposed side walls comprising a first side wall 810, a trough 812, an aperture 816, a recess 817, an optional ridge 818 and/or ridge segments 818 and/or 819, a second side wall 820 (not shown), a front wall 830, and a rear wall 840. The handgun holster 800 further comprises attachment points 870 (not shown), optional slots 884 and 882 (not shown), a passive retention screw 886, optionally the biasing element 890 (not shown), and a retention means comprising a lever 850 having a finger button portion 851 and an engagement portion 855. The lever 850 is pivotally connected, via a pivot pin 860, to the first side wall 810.
It should be understood that each of these elements of the holster 800 shown in
However, as shown in
When the lockout key 899 is in the retention system lockout position (as illustrated in
As shown in
The body 903 comprises a pair of opposed side walls comprising a first side wall 910, a trough 912, an aperture 916, a recess 917, an optional ridge 918 and/or ridge segments 918 and/or 919, a second side wall 920 (not shown), a front wall 930, and a rear wall 940. The handgun holster 900 further comprises attachment points 970 (not shown), optional slots 984 and 982 (not shown), a passive retention screw 986, optionally the biasing element 990 (not shown), and a retention means comprising a lever 950 having a finger button portion 951 and an engagement portion 955. The lever 950 is pivotally connected, via a pivot pin 960, to the first side wall 910.
It should be understood that each of these elements of the holster 900 shown in
However, as shown in
When the lockout band 991 is in the retention system lockout position (as illustrated in
As shown in
The body 1003 comprises a pair of opposed side walls comprising a first side wall 1010, a trough 1012, an aperture 1016, a recess 1017, an optional ridge 1018 and/or ridge segments 1018 and/or 1019, a second side wall 1020 (not shown), a front wall 1030, and a rear wall 1040. The handgun holster 1000 further comprises attachment points 1070 (not shown), optional slots 1084 and 1082 (not shown), a passive retention screw 1086, optionally the biasing element 1090 (not shown), and a retention means comprising a lever 1050 having a finger button portion 1051 and an engagement portion 1055. The lever 1050 is pivotally connected, via a pivot pin 1060, to the first side wall 1010.
It should be understood that each of these elements of the holster 1000 shown in
However, as shown in
A slot 1097 is formed through a portion of the ridge 1018 such that a body portion 1096 of the keyed lockout lever 1091 is capable of being slidably maintained within the slot 1097. Through the interaction of a key and the body portion 1096 of the keyed lockout lever 1091, the keyed lockout lever 1091 is able to be rotated between a locked position (as illustrated in
The keyed lockout lever 1091 includes a locking portion 1093 that, when the keyed lockout lever 1091 is in the locked position (as illustrated in
When the keyed lockout lever 1091 is in the unlocked position (as illustrated in
In order for a user to depresses the finger button portion 1051 of the release lever 1050 a sufficient distance to pivot the release lever 1050 to the disengaged position, the keyed lockout lever 1091 must be in the unlocked position (as illustrated in
While this invention has been described in conjunction with the exemplary embodiments outlined above, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art. Such adaptations and modifications should and are intended to be comprehended within the meaning and range of equivalents of the disclosed exemplary embodiments. It is to be understood that the phraseology of terminology employed herein is for the purpose of description and not of limitation. Accordingly, the foregoing description of the exemplary embodiments of the invention, as set forth above, are intended to be illustrative, not limiting. Various changes, modifications, and/or adaptations may be made without departing from the spirit and scope of this invention.
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/US2010/002935 | 11/9/2010 | WO | 00 | 5/9/2012 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2011/056239 | 5/12/2011 | WO | A |
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