The present disclosure relates to a combination weapon handgrip and weapon accessory controller. The apparatus disclosure herein is convertible between a single cable configuration for controlling a weapon mounted weapon accessory device and a dual cable configuration for controlling a weapon mounted weapon accessory device and a weapon mounted flashlight accessory device.
In one aspect, an accessory control handgrip apparatus for weapon includes an elongate grip base having a longitudinal axis and a first engagement surface, the first engagement surface extending axially and facing radially outward. A fastener is connected to a proximal end of the grip base, the fastener for removably attaching the handgrip apparatus to a fore-end portion of a weapon. An elongate grip sleeve has an axially extending bore and the grip base is detachably received within the axially extending bore and is coaxial with the grip base. The axially extending bore has a second engagement surface which extends axially and which faces radially inward, wherein the second engagement surface slidably engages the first engagement surface. The elongate grip sleeve has a radially outward facing surface defining a hand-grip surface. At least one keypad comprising a switch is disposed on the handgrip surface, the switch for controlling operation of one or more electrically-operated devices associated with the weapon. A connector is electrically coupled to the switch and is configured to electrically couple the switch to the one or more electrically-operated devices.
In a more limited aspect, the first engagement surface is configured to engage the second engagement surface when the grip sleeve is oriented at a plurality of rotational positions with respect to the grip base.
In another more limited aspect, the first engagement surface and second engagement surface both have a cross-sectional shape which has an n-fold rotational symmetry about the longitudinal axis, wherein n is an integer greater than or equal to 2. In a further limited aspect, n is an integer between 2 and 16. In a still further limited aspect, n is equal to 8.
In another more limited aspect, the first engagement surface and second engagement surface both have a cross-sectional shape which has a 1-fold rotational symmetry about the longitudinal axis to provide a single aligned orientation between the grip base and the grip sleeve.
In another more limited aspect, the grip base forms a hollow enclosure which opens at a distal end of the grip base.
In another more limited aspect, the accessory control handgrip apparatus further includes an end cap removably attached to the distal end of the grip base. In a further more limited aspect, the end cap comprises internal helical threads complementary with external helical threads on the distal end of the grip base. In yet another more limited aspect, the end cap engages a distal end of the grip sleeve to secure the grip sleeve in a fixed axial position with respect to the grip base.
In another more limited aspect, the at least one keypad is detachable from the grip sleeve.
In another more limited aspect, the grip sleeve incudes an integral interface slidably receiving the at least one keypad.
In another more limited aspect, the at least one keypad comprises a first keypad and a second keypad, wherein the first and second keypads are interchangeably attachable to the grip sleeve.
In another more limited aspect, the accessory control handgrip apparatus further includes an electrically operated accessory device having a mode of operation actuatable or controllable by the switch, the electrically operated accessory device configured to be detachably secured to the weapon.
In another more limited aspect, the fastener is a weapon accessory rail clamp. In yet another more limited aspect, the fastener is adapted for removable attachment to a rail interface selected from a Picatinny rail interface.
The invention may take form in various components and arrangements of components, and in various steps and arrangements of steps. The drawings are only for purposes of illustrating preferred embodiments and are not to be construed as limiting the invention.
Referring to the drawing figures
The terms “a” or “an,” as used herein, are defined as one or more than one. The term “another,” as used herein, is defined as at least a second or more. The terms “including” and/or “having” as used herein, are defined as “comprising” (i.e., open transition). Unless specifically stated otherwise, the terms “attached,” “coupled,” “operatively coupled,” “joined”, and the like are defined as indirectly or directly connected.
In certain embodiments, the handgrip 110 is configured for use as a conventional vertical handgrip, which extends generally perpendicular to the rail interface, although it will be recognized that some amount of variation from perpendicular (e.g., up to about 5 degrees) is also contemplated.
The handgrip 110 includes an upper end defining a rail clamp assembly 114 which includes a fixed or integral clamp member 116 and a movable clamp member 118 on opposite transverse sides of the rail 112a.
As best seen in
An elongate grip base 134 extends downward, in the orientation shown, from the rail clamp assembly 114. The grip base 134 defines an interior compartment for receiving one or more spare batteries 136, e.g., a replacement battery for an accessory device such as the first accessory device and/or second accessory device. In certain embodiments, the one or more batteries 136 are selected from rechargeable and non-rechargeable batteries. Exemplary battery types include alkaline, lithium, lithium ion, lithium polymer, lithium manganese (IMR), CR123, CR123a, 14500, 18350, 18650, 26650, and others.
The grip base 134 and rail clamp assembly 114 may be formed of any suitable material, including metal or metal alloy, polymer, or composite materials. The rail clamp assembly may be formed via molding (e.g., injection molding), machining, or additive manufacturing methods.
A grip sleeve 138 is slidably received over the grip base 134. In certain embodiments, the grip sleeve 138 is formed of rubber, elastomeric polymer, or the like. The grip sleeve 138 may be shaped or contoured to accommodate a user's hand. The grip sleeve 138 may include grooves, ridges, knurls, or other handgrip features 148 to assist the user in gripping the handgrip 110.
The lower end of the grip base 134 has external threads 140. A first removable end cap 142 includes internal threads 144 which are complementary with the threads 140. The end cap 142 has a flared, flanged, or enlarged diameter base 146, e.g., to reduce slipping or prevent the user's hand from slipping when grasping the unit 110.
In certain embodiments, the first removable end cap 142 is interchangeable with a second removable end cap 152 which includes internal threads 154 which are complementary with the threads 140. The end cap 152 has a flared, flanged, or enlarged diameter base 156, e.g., to reduce slipping or prevent the user's hand from slipping when grasping the unit 110, and an axially extended portion 150 to increase the axial length of the hand grip 110. In this manner, the length of the grip 110 can be adjusted to accommodate different hand sizes.
The grip sleeve 138 includes an interface 162 for receiving an activation keypad. In certain embodiments, a plurality of interchangeable activation keypads is provided. In certain embodiments, a first interchangeable activation keypad 164 is provided for controlling two firearm or weapon accessory devices and a second interchangeable activation keypad 164′ is provided for controlling one firearm or weapon accessory device. Other configurations are also contemplated, such as other activation keypads for controlling other numbers of devices or other cable configurations and/or connector types for adapting the unit to activate different types of accessory devices.
The activation keypad 164 has sliding interface features which engage the interface 162, e.g., a dovetail type interface, tongue and groove type interface, or the like. In certain embodiments, the keypad 164 includes a housing 166 having slide rails 168 on opposite sides thereof for engaging complementary grooves 170 in the interface 162.
The keypad 164 includes a switch 176, such as a mechanical contact switch. In certain embodiments, the switch 176 is a normally open, momentary contact switch, e.g., which is resiliently depressible to close the contacts for actuating an attached device. It will be recognized that other switch configurations are also contemplated.
The switch 176 is coupled to an accessory device interface 180 via a cable 182. The interface 180 engages a complementary interface 184 on a first associated accessory device 186. The switch 176 is also coupled to an accessory device interface 190 via a cable 192. The interface 190 engages a complementary interface 194 on a second associated accessory device 196. In preferred embodiments, the first accessory device 186 is a laser device, such as a laser pointer, aiming device, or target illumination device. In certain embodiments, the second accessory device 196 is a flashlight.
In certain embodiments, the interface 180 is configured to attach to a remote control port on the accessory device 186. In certain embodiments, the interface 190 is configured to attach in place of an end cap switch assembly on a flashlight. In certain embodiments, the switch 176 may be used to actuate the first and second accessory devices. In certain embodiments, the switch 176 may be used to select functions or otherwise control operation of the first and second accessory devices, e.g., through button presses of various lengths of time, e.g., quick press, medium press, long press, etc., button press sequences, e.g., single press, double press, triple press, etc., or combinations thereof.
In certain embodiments, the switch 176 is used to control operation of an attached flashlight by accessing functions such as on/off, brightness levels, wavelengths, modes, strobe functions, SOS functions, etc., by controlling the number or presses and/or hold time of a button press or button press sequence.
The second activation keypad 164′ has sliding interface features which engage the interface 162, e.g., a dovetail type interface, tongue and groove type interface, or the like. In certain embodiments, the keypad 164′ includes a housing 166′ having slide rails 168′ on opposite sides thereof for engaging the complementary grooves 170 in the interface 162.
The keypad 164′ includes a switch 176′ which may be as described above by way of reference to the switch 176. The switch 176′ is electrically coupled to a connector 174′ via a cable 172′.
The switch 176′ is coupled to an accessory device interface 180′ via a cable 182′. The interface 180′ engages a complementary interface 184′ on an associated accessory device 186′.
In certain embodiments, the interface 180′ is configured to attach to a remote control port on the accessory device 186′. In certain embodiments, the switch 176′ may be used to actuate the accessory device 186′. In certain embodiments, the switch 176′ may be used to select functions or otherwise control operation of the accessory device 186′, e.g., through button presses of various lengths of time, e.g., quick press, medium press, long press, etc., button press sequences, e.g., single press, double press, triple press, etc., or combinations thereof.
The grip sleeve 138 has an axially extending interior opening 160 which has a cross-sectional shape that is complementary with a cross sectional shape of the grip base 134. In certain embodiments, the cross-sectional shape of the opening 160 and complementary cross-sectional shape of the grip base portion 134 is a geometric shape that has an n-fold rotational symmetry about the center, wherein n is 2 or more, e.g., 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, or more. In this manner, the grip sleeve 138 can receive the grip base 134 so as to position the keypad 164 at a desired rotational position on the unit 110, e.g., to accommodate left and right handed users, as well as to accommodate personal preference with respect to keypad position.
In alternative embodiments, the cross-sectional shape of the opening 160 and grip base 134 has a 1-fold rotational symmetry about the center axis, e.g., a keyed geometry, to provide a single rotationally-aligned orientation between the grip base 134 and the grip sleeve 138.
In certain embodiments, the cross-sectional shape of the opening 160 and grip base 134 is a regular convex polygon. In certain embodiments, the cross-sectional shape of the opening 160 and grip base 134 is a regular concave polygon. In certain embodiments, the cross-sectional shape of the opening 160 and grip base 134 is a star polygon. In certain embodiments, the cross-sectional shape of the opening 160 and grip base 134 is a geometric shape having straight edges, curved edges, or a combination thereof. In certain embodiments, the interior surface of the opening 160 has a plurality of axially extending ribs or splines angularly spaced apart which are aligned and complementary with a corresponding number of grooves or channels on the grip base 134. In certain embodiments, the grip base 134 has a plurality of axially extending ribs or splines angularly spaced apart which are aligned and complementary with a corresponding number of grooves or channels formed on the interior surface of the opening 160.
The invention has been described with reference to the preferred embodiments. Modifications and alterations will occur to others upon a reading and understanding of the preceding disclosure herein, whereby it is to be distinctly understood that the foregoing descriptive matter is to be interpreted merely as illustrative of the invention and not as a limitation. Accordingly, the scope of the invention should be determined solely by the appended claims and their legal equivalents.
This application claims the priority benefit of U.S. Provisional application No. 63/214,613 filed Jun. 24, 2021. The aforementioned application is incorporated herein by reference in its entirety.
Number | Date | Country | |
---|---|---|---|
63214613 | Jun 2021 | US |