The subject matter disclosed herein relates generally to shooting stability. More particularly, the subject matter relates to a stabilizing shooting rest apparatus and method, for aiding a shooter that is aiming at a particular target, and discharging a firearm or crossbow with the intent of its projectile making contact with and accurately hitting that particular target.
Stationing and stabilizing a firearm or crossbow at the time of aiming and discharging is critical to the projectile hitting its intended target, and/or maintaining a tight group about the bull's eye. When a shooter is aiming a firearm or crossbow, they typically concentrate on centering and holding the firearm or crossbow sights on the target. The slightest wavering of the firearm or crossbow while it is being aimed and fired will have an adverse effect on the performance and outcome of the shot. Perfectly aligning the firearm or crossbow sight and maintaining this position is crucial to achieving the desired accuracy. The consequence of any movement during the aiming and firing procedure will result in a deficiency in the projectile's accuracy.
There have been several inventions designed to address and achieve better projectile accuracy. In every case of prior art, the attempts to resolve or at least minimize firearm or crossbow movement at the time of aiming and firing addresses the stabilizing or steadying of the front portion, that being the fore end, or barrel end of the firearm or crossbow stock. However, each prior art attempts to minimize the wavering and movement of a firearm or crossbow by either focusing exclusively on supporting and stabilizing the shooters arm which controls the front portion of the firearm or crossbow, or by allowing a stabilizing apparatus to actually make contact with the front portion, fore end, barrel, or any other forward physical part of the firearm or crossbow while attempting to support and minimize the firearm or crossbow's instability, wavering and movement.
Thus, a stabilizing shooting rest and method of use thereof that focuses on maintaining stability of the rear end of the firearm or crossbow stock by supporting the arm which steadies and controls the butt end of the firearm or crossbow stock, and by stationing the arm which is steadying the hand which features the shooter's trigger finger, would be well received in the art.
According to a first described aspect, a stabilizing shooting rest comprises: a base attachable to the belt of a wearer; a telescopic elongated member having a proximate end attached to the base and extending to a distal end, the telescopic elongated member attaching to the base such that the telescopic elongated member is movable about the base with at least two rotational degrees of freedom; and an arm rest at the distal end of the telescopic elongated member, the arm rest configured to stabilize a desired portion of a rear arm of the wearer while the wearer is shooting.
According to a second described aspect, a method of stabilizing a firearm or crossbow comprises: providing a stabilizing shooting rest that includes: base portion attachable to the belt of a wearer; telescopic elongated member having a proximate end attached to the base portion and extending to a distal end, the telescopic elongated member attaching to the base portion such that the telescopic elongated member is movable about the base portion with at least two rotational degrees of freedom; and an arm rest portion at the distal end of the telescopic elongated member, the arm rest portion configured to stabilize desired portion of a rear arm of the wearer while the wearer is shooting; resting a rear arm or elbow on the arm rest portion of the stabilizing shooting rest; and holding a rear end of a firearm or crossbow with the rear arm.
According to a third described aspect, a stabilizing shooting rest comprises: a base attachable to the belt of a wearer, wherein the base includes a top member, wherein the base and the top member each extend from a first end to a second end, wherein a first portion of the base extends from each of the first end and the second end away from the top member, the first portion extending to a middle point located between the first and second end, wherein the middle point is a distal point of the base relative to the top member, wherein the base includes a second portion extending from the top member, the second portion extending within the bounds of the first portion and the top member, the second portion separately moveable about the top member relative to the first portion; a telescopic elongated member having a proximate end attached to the base and extending to a distal end; and an arm rest at the distal end of the telescopic elongated member, the arm rest configured to stabilize a desired portion of an arm of the wearer while the wearer is shooting.
According to a fourth described aspect, a stabilizing shooting rest comprises: a base including a clamp, the clamp having an upper and a lower member; a telescopic elongated member having a proximate end attached to the base and extending to a distal end, the telescopic elongated member attaching to the base such that the telescopic elongated member is movable about the base with at least two rotational degrees of freedom; and an arm rest at the distal end of the telescopic elongated member, the arm rest configured to stabilize a desired portion of a rear arm of the wearer while the wearer is shooting.
According to a fifth described aspect, a method of stabilizing a firearm or crossbow comprises: providing a stabilizing shooting rest that includes: base portion including a clamp, the clamp having an upper and a lower member; telescopic elongated member having a proximate end attached to the base portion and extending to a distal end, the telescopic elongated member attaching to the base portion such that the telescopic elongated member is movable about the base portion with at least two rotational degrees of freedom; and an arm rest portion at the distal end of the telescopic elongated member, the arm rest portion configured to stabilize desired portion of a rear arm of the wearer while the wearer is shooting; attaching the stabilizing shooting rest to an object; resting a rear arm or elbow on the arm rest portion of the stabilizing shooting rest; and holding a rear end of a firearm or crossbow with the rear arm.
According to a sixth described aspect, a stabilizing shooting rest comprises: a base including a clamp, the clamp having an upper and a lower member; a bow holder element attachable to the base, the bow holder element including a connecting plate, a first finger and a second finger, wherein the first and second fingers spaced apart such that a limb of a bow is insertable therein, wherein the connecting plate is configured to integrate with a flat surface of the base, the connecting plate rotatably attachable about the base in a plurality of positions, wherein a first surface of the connecting plate includes a protrusion, and wherein the flat surface of the base includes a plurality of first openings arranged in an arc, the protrusion configured to be inserted into each of the plurality of first openings to retain the bow holder element in each of the plurality of positions; a telescopic elongated member having a proximate end attached to the base and extending to a distal end; and an arm rest at the distal end of the telescopic elongated member, the arm rest configured to stabilize a desired portion of an arm of the wearer while the wearer is shooting.
The subject matter disclosed herein is distinctly claimed in the claims at the conclusion of the specification. The foregoing and other features and advantages are apparent from the following detailed description taken in conjunction with the accompanying drawings in which:
A detailed description of the hereinafter described embodiments of the disclosed apparatus and method are presented herein by way of exemplification and not limitation with reference to the Figures.
The telescopic elongated member 14 may be attached to the base portion 12 such that it is movable about the base portion 12. In the embodiment shown, the telescopic elongated member 14 is movable about the base portion 12 with two rotational degrees of freedom.
The telescopic elongated member 14 may also be telescopic such that it can be increased or decreased in length. In the embodiment shown in the
The base portion 12 is shown to include two compression clips 30 on the back side 31 in the embodiment shown. The compression clips 30 may allow the stabilizing shooting apparatus 10 to be attached to the belt 22 or waistband of the wearer 24, as shown in
The base portion 12 may further include a protective flap 32. The protective flap (not shown) that may be employed when the stabilizing shooting apparatus 10 is in a collapsed state while not in use to protect the stabilizing shooting apparatus 10. The protective flap may be made from a cloth, plastic, metal, leather, or synthetic material. The protective flap may also help retain the telescopic elongated member 14 in a refracted state prior to use in the case that the wearer 24 does not tighten the rings 40, 42 after contracting the telescopic elongated member 14. The protective flap 32 may be connected to the base portion 12 with hook and loop fastener, a button, buckle or any other appropriate fastening means.
Located at the distal end of the telescopic elongated member 14 is the arm rest portion 20 of the stabilizing shooting apparatus 10. The arm rest portion 20 may be rotatable about the distal third segment 38 to allow freedom of positioning of the wearer 24 while shooting. In another embodiment (shown in
When a shooter requires its assistance, the stabilizing shooting apparatus 10 may be silently and immediately employed by the wearer 24. Employing the stabilizing shooting apparatus 10 may be achieved quickly and with very little detectable movement. To engage the stabilizing shooting apparatus 10, the wearer 24 may first detach the protective flap 32 from the base portion 12. The protective flap 32 may then unfold and hang downward from the base portion 12 in a non interfering position. The wearer 24 may then rotate the segments 34, 36, 38 of the telescopic elongated member 14 to an upwards pointing position in the first rotational degree of freedom.
The wearer may then expand the telescopic elongated member 14 by turning the rotatable rings 40, 42 counter clockwise to loosen the segments 34, 36, 38 to allow for expansion. The wearer 24 can then turn the rings clockwise to tighten the telescopic elongated member 14 and ensure that the segments 34, 36, 38 are in a locked position relative to each other. The wearer 24 can additionally pivot the telescopic elongated member 14 on a secondary fulcrum point (in the second rotational degree of freedom) located at the base portion 12. This second rotational degree of freedom, shown in
In an actual hunting situation or while the shooter is at a shooting range, the previous steps may be done in advance of the shot opportunity. In other words, the stabilizing shooting apparatus 10 may be previously situated, out of the base portion 12 holster, pre locked in a proper position, and rendered ready to be used well prior to a shot opportunity.
As shown in
Once the firearm or crossbow 28 has been discharged, the telescopic elongated member 14 may once again be retracted by turning the rotatable rings 40, 42 counterclockwise. The telescopic elongated member 14 may then be rotated such that it points downward and housed within the base portion 12. Once in this location, the protective flap 32 may again be applied to the base portion 12 to secure the stabilizing shooting apparatus 10 until which time the wearer 24 requires to use the stabilizing shooting rest 10 again.
Referring now to
Further contemplated is another embodiment shown in
The joint 221 may further include a base element 262 that attaches to the base portion 212 of the first stabilizing shooting rest 200. The joint 221 may include a ball and socket that allows for two degrees of rotational freedom similar to the first joint 21. The ball and socket may be located under an inner cylinder 264 and an outer cylinder 266. The inner cylinder 264 may rotate about the ball and socket, and the outer cylinder 266 may rotate about the inner cylinder 264. This embodiment thus allows for the telescopic elongated element 14 to rotate about the base preventing the need to have the arm rest portion 220 from rotating about the telescopic elongated member 214. Like the previous joints 121, 21, the joint 221 may provide for at least two rotational degrees of freedom such that the joint 221 may allow the arm rest portion 220 of the stabilizing shooting apparatus 200 to move to the left and right and achieve any desired position. The joint 221 may also include a locking mechanism 268 that locks the inner cylinder 264, the outer cylinder 266 and the ball and socket joint to prevent rotation of the joint 221 and lock the telescopic elongated member 214 into place.
The attachable and detachable joint 221 may allow the elongated element to be removed and attached to a second stabilizing shooting rest 300, shown in
In one embodiment, a kit may be sold to a customer that includes the first stabilizing shooting apparatus 200, the second stabilizing shooting apparatus 300 (each including one of the joints 221), and one elongated member 214. This kit may further include a belt attachable to the first stabilizing shooting apparatus 200 in one embodiment. It should be understood that further kits may also be sold including the belt 22 and the stabilizing shooting apparatus 10, for example.
Further contemplated is a method of shooting a firearm or crossbow, such as the firearm or crossbow 28. The method includes providing a stabilizing shooting rest, such as the stabilizing shooting rest 10. The method further includes resting a rear arm or elbow on an arm rest portion of the stabilizing shooting rest; and holding a rear end of a firearm or crossbow with the rear arm. The method may further include shooting the firearm or crossbow, and then contracting the stabilizing shooting rest 10 and wearing the stabilizing shooting rest on a belt.
Referring now to
The base 140 may further include the second portion 420 that extends from the top member 412 within the bounds of the first portion 418 and the top member 412. The second portion 420 may be separately movable about the top member 412 relative to the first portion 418. As shown in
At a center location of the second portion 420 may be a ball shank 430. The second portion 420 may include an opening 431 for receiving a fastening component 432 of the ball shank 430. The fastening component 432 may, for example, be threaded, and may integrate with a bolt 434 or other fastening device which may secure the ball shank 430 to the second portion 420 of the base 410. The ball shank 432 may be configured to be received by a universal ball joint 436 of a telescopic elongated member 438. The telescopic elongated member 438 may be similar to the telescopic elongated members 14, 114, 214. In other words, the ball shank 432 and universal ball joint 436 may be configured to allow the telescopic elongated member 438 to move around the base 410 with at least two rotational degrees of freedom: pitching and yawing, in the embodiment shown. The telescopic elongated member 438 may be configured to lock into place by a thumb screw lock 440 which may be screwed into a threaded opening in the universal ball joint 436. The thumb screw lock 440 may be replaced by any appropriate locking mechanism.
The second portion 420 may further include a plurality of holding cradles 442a, 442b, 442c. The holding cradles 442a, 442b, 442c may be disposed on the second portion 420 at different locations. Each of the holding cradles 442a, 442b, 442c may be configured to receive and hold the telescopic elongated member 438. In the embodiment shown, the holding cradles 442a, 442b, 442c each include a semi circular channel that extends farther than 180 degrees in a circle. The telescopic elongated member 438 may have corresponding dimensions to the semi circular channel such that it locks within the channel by spreading out the tips of the channel when it is inserted therein. The tips then clasp the telescopic elongated member 438 within the channel after the telescopic elongated member is received.
The plurality of holding cradles 442a, 442b, 442c may be disposed such that the telescopic elongated member 438 is receivable and holdable at different rotational positions about the base 410. For example, in the embodiment shown, the holding cradle 442b may be configured to hold the telescopic elongated member 438 at a location that is directly beneath the opening 431 such that the telescopic elongated member 438 extends over the bottom middle point 422 of the first portion 418. The cradles 442a, 442c may be located equal to or approximately 45 degrees from the bottom cradle 442b about the opening 431 and the ball shank 430. These rotatably spaced cradles 442a, 442b, 442c may allow for the telescopic elongated member 438 to be facing downward toward the ground even if the wearer has rotated his or her body (for example, in a sitting position).
In the embodiment shown, the outer dimension of the second portion 420 has similar dimensions than the inner dimension of the first portion 418. However, the second portion 420 has smaller dimensions to allow the second portion 420 to rest partially within the opening of the first portion 418. In other embodiments, the outer dimensions of the second portion 420 may be even smaller relative to the inner dimensions of the first portion 418. The inner dimensions of the first portion 418 and the outer dimensions of the second portion 420 may be curved in whatever shape is appropriate. In the embodiment shown, these dimensions extend downward from the top member 412, then extend outward to form two wings. The wings then converge at a flat horizontal nose. These dimensions are best shown in
Similar to the telescopic elongated members 14, 114, 214, the telescopic elongated member 438 may include an arm rest 444 located at the distal end relative to the base 410. The arm rest 444 may be configured to rotate about the telescopic elongated member 438. Moreover, the arm rest 444 may be semi circular in shape. The arm rest 444 may include a pad for added comfort for the wearer. The telescopic elongated member 438 is shown in a contracted state. However, it should be understood that this member 438 is configured to expand similar to the telescopic elongated members 14, 114, 214 described hereinabove.
Further contemplated herein is a method of shooting a firearm or crossbow which includes providing a stabilizing shooting rest, such as the stabilizing shooting rest 10, 100, 200, 400. The method may include resting a rear arm or elbow on an arm rest portion of the stabilizing shooting rest and holding a rear end of a firearm or crossbow with the rear arm. The method may further include telescopically adjusting the telescopic elongated member and at least one of lengthening and shortening the telescopic elongated member. The method may further include rotating the telescopic elongated member with both pitching and yawing about the base portion. The method may further include rotating the arm rest portion of the telescopic elongated member about the telescopic elongated member.
Referring now to
The stabilizing shooting rest 500 includes a base 510. The base 510 may include a clamp 512 having an upper member 514 and a lower member 516. The stabilizing shooting rest 500 may include a telescopic elongated member 518 similar to the telescopic elongated members 14, 114, 214, 438 having a proximate end attached to the base 510 and extending to a distal end. The telescopic elongated member 518 attaches to the base 510 such that the telescopic elongated member 518 is movable about the base 510 with at least two rotational degrees of freedom. The telescopic elongated member 518 includes an arm rest 520 at the distal end. The arm rest 520 may have a semi circular shape and may be rotatable about the telescopic elongated member 518 similar to the embodiments described hereinabove. The arm rest 520 may be configured to stabilize a desired portion of a rear arm of the wearer while the wearer is shooting. The telescopic elongated member 518 may be locked into place by a thumb screw lock 519.
The clamp 512 may further include at least one thumb screw lock 550. In the embodiment shown, the clamp 512 includes two thumb screw locks 550. The thumb screw locks 550 may be threaded and may engage with threaded openings 552 found in at least one of the upper and lower members 514, 516 of the clamp 512. In the embodiment shown, the threaded openings 552 are formed in the lower member 516. It should be understood that the relative distance (compared to the other dimensions of the base 510) between the upper and lower members 514, 516 may be greater or less than the embodiment shown. In non relative terms, the distance may be between 1 and 4 inches. This may allow for the clamp 512 to clamp onto various different structural components. It should be understood that the clamping element may not include similar structure to the clamp 512 and may include other types of clamping mechanisms that are configured to clamp onto structural components in similar ways.
The stabilizing shooting rest 500 may further include a bow holder element 522. The bow holder element 522 may be attachable to the base 510. The bow holder element 522 may include a connecting plate 524, a first finger 526 and a second finger 528. The first and second fingers 526, 528 may be spaced apart such that a limb of a bow is insertable therein. For example, the first and second fingers 526, 528 may be spaced apart by between 0.5 and 4 inches, in some embodiments. The fingers 526, 528 may also have a length that allows for the entire bow limb to fit therein. For example, the fingers 526, 528 may have a length between 2 and 5 inches, in some embodiments. The fingers 526, 528 may also extend upward at the distal ends relative to the base 510 in order to prevent the bow limbs from falling out from between the fingers 526, 528. The fingers 526, 528 may extend substantially perpendicular from the plane of the connecting plate 524.
The connecting plate 524 of the bow holder element 522 may be configured to integrate with a flat surface 530 of the base 510 such that the connecting plate 524 may be configured to rotatably attach about the base 510 in a plurality of positions. A first surface (not shown) of the connecting plate 524 opposite a second surface 532 of the connecting plate 524 may include a protrusion (not shown). The flat surface 530 of the base 510 may include a plurality of first openings 534 which may be arranged in an arc. The protrusion may be configured to be inserted into each of the plurality of first openings 534 (one at a time) to retain the bow holder element 522 in each of the plurality of positions.
The connecting plate 524 may be attachable to the flat surface 530 of the base 510 with a thumb screw lock 536 that is insertable through both an opening 538 in the connecting plate 524 and a second opening 540 in the flat surface 530 of the base 510. The second opening 540 may be located within a center position of an arc of a plurality of first openings 534 located about the second opening 540. The protrusion in the first surface of the connecting plate 524 may be located directly below the opening 538 in the connecting plate 524 at the same distance that the first openings 534 are with respect to the second opening 540 in the flat surface 540. Thus, the connecting plate 524 may first be aligned with the flat surface 530 of the base 510 so that the protrusion is inserted into one of the first openings 534 of the flat surface 540 of the base 510. Then, the screw lock 536 may be insertable into both openings 538, 540 and tightened to lock the bow holder element 522 into the base 510.
In another embodiment (not shown), the connecting plate 524 may be biased against the base 510 with a spring loaded mechanism such that the protrusion is removable from the plurality of first openings 534 by pulling the connecting plate 524 from the flat surface 530. In this embodiment, for example, there may be a spring located between the connecting plate 524 and the flat surface 530. Pulling the connecting plate 524 from the flat surface 530 may decompress the spring from a previous mechanical equilibrium state, causing the spring to want to compress. This desire for the spring to want to compress after pulling the connecting plate 524 from the flat surface 530 will cause the connecting plate 524 to be pulled together with the flat surface 530 when the projection finds the proper first opening 534 and the user releases the connecting plate 524. It should be understood that a spring embodiment may prevent the need to fully remove the bow holder element 522 from the rest of the base 510.
In another embodiment, the base 510 of the shooting rest 500 may further include at least one accessory hanger 542. In the embodiment shown, the base 510 includes two accessory hangers 542 each on opposite sides of the base 510. The accessory hangers 542 may each protrude from a middle portion 544 of the base 510. The middle portion 544 may be located between the two ends of the base 510 defined by the first surface 530 and the clamp 512. The accessory hangers 542 may have circular cross sections, and may have a larger circumferential knobbed end in order to retain any hanged accessories to prevent the hanged accessories from falling from the shooting rest 500.
On a top surface 556 of the base 510 may be an opening 558 into which a ball shank 560 may be attachable. The ball shank 560 may be similar to the ball shank 430 described hereinabove. The ball shank 560 may be configured to receive a universal ball joint 562 of the telescopic elongated member 518. Like the above embodiments, the telescopic elongated member 518 may be configured to rotate about the base 510 in at least two rotational degrees of freedom: for example by pitching and yawing about the base 510. The top surface 556 may also include a cradle 563 located at the end of the first surface 530. A portion of the cradle 563 may actually comprise a portion of the first surface 530. The cradle 563 may be configured to receive the telescopic elongated member 518 in a similar manner to that described hereinabove with respect to how the cradles 442a, 442b, 442c receive the telescopic elongated member 438.
A bottom surface 564 may be located on the base 510 below the top surface 556 and may be curved in a semi annular shape in order to provide structural integrity to the base 510. However, it should be understood that the curved bottom may not be necessary. Instead, the base may have another shaped bottom, or may simply be flat.
In another embodiment, a method of stabilizing a firearm or crossbow may include providing a stabilizing shooting rest, such as the stabilizing shooting rest 500. The method may include attaching the stabilizing shooting rest to an object, and resting a rear arm or elbow on the arm rest portion of the stabilizing shooting rest. The method may include holding a rear end of the firearm or crossbow with the rear arm. The method may further include telescopically adjusting the telescopic elongated member and at least one of lengthening or shortening the telescopic elongated member. The method may further include rotating the telescopic elongated member with both pitching and yawing about the base portion. The method may further include rotating the arm rest portion about the telescopic elongated member. Finally, the method may include attaching the connecting plate to the base, unattaching the connecting plate from the base, rotating the connecting plate about the base and reattaching the rotated connecting plate to the base.
Elements of the embodiments have been introduced with either the articles “a” or “an.” The articles are intended to mean that there are one or more of the elements. The terms “including” and “having” and their derivatives are intended to be inclusive such that there may be additional elements other than the elements listed. The conjunction “or” when used with a list of at least two terms is intended to mean any term or combination of terms. The terms “first” and “second” are used to distinguish elements and are not used to denote a particular order.
While the invention has been described in detail in connection with only a limited number of embodiments, it should be readily understood that the invention is not limited to such disclosed embodiments. Rather, the invention can be modified to incorporate any number of variations, alterations, substitutions or equivalent arrangements not heretofore described, but which are commensurate with the spirit and scope of the invention. Additionally, while various embodiments of the invention have been described, it is to be understood that aspects of the invention may include only some of the described embodiments. Accordingly, the invention is not to be seen as limited by the foregoing description, but is only limited by the scope of the appended claims.
This application claims the benefit of U.S. Provisional Application No. 61/706,445, filed Sep. 27, 2012, entitled STABILIZING SHOOTING REST APPARATUS AND METHOD.
Number | Name | Date | Kind |
---|---|---|---|
46365 | Kinman | Feb 1865 | A |
74119 | Muller | Feb 1868 | A |
167169 | Hare | Aug 1875 | A |
281338 | Butler | Jul 1883 | A |
454300 | Sproul | Jun 1891 | A |
599096 | Eckman | Feb 1898 | A |
664979 | Taylor | Jan 1901 | A |
759593 | Cover | May 1904 | A |
784390 | Dunham | Mar 1905 | A |
798734 | King | Sep 1905 | A |
915481 | Roop | Mar 1909 | A |
1156370 | Pomeroy | Oct 1915 | A |
1406827 | Dumas | Feb 1922 | A |
1469285 | Thompson | Oct 1923 | A |
1688148 | Martin | Oct 1928 | A |
1890423 | Teagarden | Dec 1932 | A |
2403654 | Gerdes | Jul 1946 | A |
3022898 | Loeb | Feb 1962 | A |
3191826 | Adams | Jun 1965 | A |
3200528 | Christensen | Aug 1965 | A |
3225656 | Flaherty et al. | Dec 1965 | A |
3390477 | Galbraith | Jul 1968 | A |
3963156 | Perrin | Jun 1976 | A |
4844390 | Duke | Jul 1989 | A |
4896806 | Sanchez, Jr. | Jan 1990 | A |
4913391 | Klipp | Apr 1990 | A |
5351867 | Vest | Oct 1994 | A |
5528846 | Baggett | Jun 1996 | A |
5697537 | Bowlsby | Dec 1997 | A |
5735496 | Dube | Apr 1998 | A |
5738256 | Goff et al. | Apr 1998 | A |
D395070 | McGowan | Jun 1998 | S |
5778589 | Teague | Jul 1998 | A |
5784820 | Wood | Jul 1998 | A |
5988466 | Brown | Nov 1999 | A |
6009655 | Austin | Jan 2000 | A |
6082034 | Musmanno | Jul 2000 | A |
6089426 | Brandow et al. | Jul 2000 | A |
6267335 | Barrett | Jul 2001 | B1 |
6276087 | Singletary | Aug 2001 | B1 |
6637708 | Peterson | Oct 2003 | B1 |
6793108 | Williams, Jr. | Sep 2004 | B2 |
6802483 | Leasure | Oct 2004 | B1 |
6829856 | Moorman | Dec 2004 | B1 |
6920713 | Love | Jul 2005 | B1 |
7065914 | Wagner, II | Jun 2006 | B1 |
7244070 | Burnett et al. | Jul 2007 | B2 |
8025193 | Gornall, Jr. | Sep 2011 | B1 |
D697573 | Smith et al. | Jan 2014 | S |
20030038150 | Williams | Feb 2003 | A1 |
20030205653 | Peterson | Nov 2003 | A1 |
20050262753 | Lahti | Dec 2005 | A1 |
Number | Date | Country | |
---|---|---|---|
20140082987 A1 | Mar 2014 | US |
Number | Date | Country | |
---|---|---|---|
61706445 | Sep 2012 | US |