Patent Grant
9404714
Embodiments of the invention relate generally to an apparatus and method for mounting items on a firearm.
Numerous accessories are mounted on a standard firearm rail by engaging features of the rail non-limiting examples of such features include but are not limited to telescopic sights, tactical sights, laser sighting modules, Global Positioning Systems (GPS) and night vision scopes. Standard firearm rails include a military standard 1913 rail, Weaver rail, NATO STANAG 4694 accessory rail or equivalents thereof.
Accordingly, it is desirable to provide a method and apparatus for mounting accessories to a rail of a firearm.
In one exemplary embodiment an upper receiver for a weapon is disclosed, the upper receiver having a plurality channels each being oriented in a first direction and wherein each of the plurality of channels intersect an elongated channel extending in a second direction; a modular rail having a pair of securement features configured to be slidably received within a pair of the plurality of channels such that modular rail can slide in the pair of the plurality of channels in the first direction until the pair of features can slide within the elongated channel in the second direction.
In another embodiment, an upper receiver for a weapon is provided, the upper receiver having: a plurality channels each being oriented in a first direction on opposite exterior sides of the upper received and wherein each of the plurality of channels intersect an elongated channel extending in a second direction; a plurality of modular rails each having a pair of securement features configured to be slidably received within a pair of the plurality of channels such that each of the plurality of modular rails can slid in the pair of the plurality of channels in the first direction until the pair of features can slide within the elongated channel in the second direction.
Other aspects and features of embodiments of the invention will become apparent to those ordinarily skilled in the art upon review of the following description of specific embodiments of the invention in conjunction with the accompanying figures.
Embodiments of the present invention will now be described, by way of example only, with reference to the attached Figures, wherein:
Reference is made to the following U.S. Pat. Nos. 6,792,711; 7,131,228; and 7,775,150 the contents each of which are incorporated herein by reference thereto.
Disclosed herein is an apparatus, method and system for providing a modular rail for a weapon or firearm to provide various options for mounting accessories such as: telescopic sights, tactical sights, laser sighting modules, illumination devices, and vision enhancing devices, Global Positioning Systems (GPS), night vision scopes and grenade launchers to the weapon. This list is not meant to be exclusive, merely an example of accessories that may utilize a modular rail. An accessory is illustrated schematically by box 1 in
Referring now to
Hand guard 12 or a portion of the upper receiver 14 is configured with at least one integral rail such as a “Piccatiny Rail” configuration as described in Military Standard 1913 (MIL-STD-1913 (AR)), which is hereby incorporated by reference herein in its entirety. Other rails will be removably secured to the upper receiver to provide numerous mounting configurations. Of course, other rail configurations are configured to be within the scope of various embodiments of the present invention. The hand guard and rails may be made from any suitable material such as hard coat anodized aluminum as an example.
As illustrated, in the attached FIGS. the hand guard 12 is provided with an integral upper rail portion 18 and a plurality of modular rail portions 20. In one embodiment, the modular rail portions 20 can have varying lengths or sizes to provide numerous configurations and/or variations. The hand guard or upper receiver is configured to have a plurality of integral features for removably receiving and engaging the modular rail portions 20 such that user desired configurations can be provided.
Integrally formed on the left side and right side (e.g., nine o'clock and three o'clock positions) of the hand guard of the upper receiver are a plurality of features 22. Features 22 are configured to releasably receive appropriately shaped features 24 of the modular rail portions 20. As illustrated in the attached FIGS., a plurality of channel openings 26 are provided wherein each of the plurality of channel openings 26 is configured to allow the features 24 of the modular rail portion 20 to be inserted into and out of channel openings 26 in a vertical direction illustrated by arrows 28. As illustrated, each of the plurality of channel openings 26 are configured to be appropriately distanced apart from each other such that the distance between each of the channel openings corresponds to the distance between each of the features 24 of the modular rail portion 20. Accordingly, a modular rail portion 20 can be inserted into features 22 such that features 24 are now slidably received within a horizontally disposed channel 30 wherein the modular rail portion 20 is now capable of moving horizontally in the directions illustrated by arrows 32.
In one non-limiting configuration, channel openings 26 are disposed at either end of horizontal channel 30 pass completely through channel 30 as opposed to the channels 26 located in the middle of the features 22.
Features 24 are configured to be slidably received within channel openings 26 during vertical movement of the modular rail when features 24 are received within the channel openings 26. Once the features are received within the horizontally disposed channel 30, the modular rail portion 20 is retained to the hand guard or upper receiver by a lower ledge portion 34 and upper ledge portions 36, each of which has a flange portion that will be received between feature 24 and a surface 38 of the modular rail portion.
As illustrated in at least
In accordance with one non-limiting embodiment, the screw or other equivalent device threadingly engages a threaded opening of the feature such that the location of ear members 44 can be varied in order to insert the modular rail portion into channel 30, slide the same horizontally wherein the flange of the lower ledge portion 34 and the flange of at least one upper ledge portion 36 slides in the gap 46 between ear members 44 and surface 38. Thereafter, the screw 48 is tightened by rotating it in the threaded opening of rail portion 20 to secure the flanges between the surface 38 and ear members 44 by drawing the same towards surface 38 when the screw is tightened. Thus and when the modular rail 20 is secured in place a portion of the flange of the lower ledge and at least one upper ledge is clamped between the ear members 44 and the surface 38. This allows a user or operator to adjustably mount the modular rail portion 20 and a variety of locations on the hand guard or upper receiver.
In addition, a plurality of apertures or openings 52 are provided to receive a distal end of the screw proximate to the pin or feature 50. In one non-limiting embodiment, these openings 52 are provided as locating features for the modular rail 20 as it is slid within channel 30. Once the modular rail 20 is in the desired location the screws 48 are tightened such that the flange of the lower ledge portion 34 and the flange of at least one upper ledge portion is secured between the ears 44 and the surface 38 of the modular rail. Accordingly and in this embodiment openings 52 are aligned with the positioning of screws 48 in rail 20.
In addition and referring now to at least
As illustrated in the FIGS., modular rail 20 can have varying lengths such that discreetly located modular rails can be positioned and repositioned on the hand guard for example at the nine o'clock position illustrated in
Referring now to at least
In another embodiment, the removable bottom portion is configured to have a plurality of channels 70 which intersect a longitudinally disposed channel 74 wherein modular rails 20 can be secured thereto similar to the configurations provided for in the three and nine o'clock positions. However, and since this is configured for six o'clock mounting positions channels 70 extend completely through channel 74 such that features 24 of a modular rail 20 can be inserted therein from either side of the removable bottom portion. This is in contrast to the elongated ledge 34 which is configured to provide vertical support to the modular rail at the three and nine o'clock positions. This support is desirable since components mounted to the modular rail 20 at the three and nine o'clock positions may have a mass that requires additional support from ledge portion 34 as opposed to a mass secured at the six o'clock position. As used herein, the three, six, nine and twelve o'clock positions correspond with the longitudinal axis of the firearm, rifle or weapon. In other words, the three and nine o'clock positions correspond to left and right while six and twelve o'clock positions correspond to top and bottom.
In one non-limiting embodiment, the removable bottom portion uses a keyed/key way system or tongue and groove system. Here, the removable bottom portion 56 has a pair of tabs 73 which are inserted into complementary openings 75 of the upper receiver/hand guard and the bottom portion is slid in the direction of arrow 76 until the bottom portion 70 is in its desired location and the same is secured to the upper receiver via fastening means 78 inserted into complementary openings in both the upper receiver and the bottom portion 70. In addition and while the bottom portion is slid in the direction of arrow 76 another pair of tabs 80 are received within complementary openings 82. Similarly, fastening means 78 are also inserted in the complementary openings of tabs 80 and openings 82.
In order to remove bottom portion 70, user simply removed the fastening means 78 and slides the bottom portion 70 in a direction opposite to arrow 76 until the tab 72 and 80 are no longer engaging the upper receiver.
As illustrated, an upper receiver with an integral hand guard is provided wherein modular rails 20 can be discreetly located in various positions on the upper receiver. Thus, the user can locate peripheral devices in particular locations suitable for an individual by merely locating the modular rail in an appropriate location. Moreover and should the user desired to swap out the accessory with a larger or smaller accessory, the modular rail may be removed and replaced with a different size modular rail or alternatively the location of the modular rail may be varied.
Still further and by providing this modularity a user can also configure the modular rails 20 to be separated by gaps 84 that can be appropriately located for fingers of a user. Accordingly, operator's fingers will not directly contact the ridges of the rails since they will be able to place their fingers within the gaps 84. Still further, and when no rails are provided vertical channels 26 may also provide a similar function or area for receipt of a user's fingers. Accordingly, gaps 84 and/or channels 26 provide locations for an operator's fingers which prevents them from contacting the features or rails of modular rails 20, which may cause abrasions or cuts. Moreover and in the event the operator is wearing protective gloves, wear and tear on the gloves is also mitigated by locating the operator's fingers in between the modular rails 20.
While the invention has been described with reference to an exemplary embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed as the best mode contemplated for carrying out this invention, but that the invention will include all embodiments falling within the scope of the present application.
This application claims the benefit of U.S. Provisional Patent Application No. 61/481,697 filed May 2, 2011, the contents of which are incorporated herein by reference thereto.
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