Bow Stabilizer Guard

Aspects of the present invention provide apparatus relating to archery, and particularly for apparatus that may be attached to a bow to counteract or eliminate various issues confronted by an archer when aiming and firing a bow. In certain embodiments, the apparatus includes features allowing it to be rigidly attached to a bow and to engage the majority of an archer's forearm. Further aspects relate to a portion of the apparatus wrapping around the archer's forearm. Further aspects relate to a detachable connection mechanism for easy removal of a portion of the apparatus. Yet further aspects relate to an adjustable portion of the invention to allow for adjustment of the length of the apparatus to provide desired stability and comfort.

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Description
TECHNICAL FIELD

Aspects relate to a stabilizing apparatus. More particularly, certain aspects relate to an apparatus configured to be attached to an archery bow that may aid in the stabilization of the bow and protection of the archer's forearm.

BACKGROUND OF THE INVENTION

Archery is a popular hobby and sport, but can often lead to frustration due to the various complications that make the activity challenging and there is a need for proper form and discipline. Many different apparatus have been invented and used throughout the history of archery in an attempt to either eliminate or counteract such complications. Archers may spend a large of amount of time and/or financial resources attempting to improve their form or purchase and use apparatus to improve their accuracy and precision. Some of the issues that face many archers include the bowstring slapping against an archer's arm upon release of the drawn string to fire the bow, interference of an archer's clothing with the bowstring upon release of the drawn string to fire the bow, causing noises that may scare potential live targets and may affect the path of the arrow, aiming the bow, gripping the bow, drawing the bowstring to a fully drawn and read-to-fire position, and/or torque on the bow from various forces exerted while holding and operating the bow.

Previous attempts to address some of these issues have included various apparatus that can be attached to the bow, attached to the archer, or used when operating the bow. While these can offer certain benefits, they are limited in their ability to reduce many of the adverse issues discussed above, among others.

SUMMARY OF THE INVENTION

Aspects of this disclosure relate to a device that protects the archer's forearm from string slap while the bow is fired, prevents clothing from interfering with the path of the string when the bow is fired, and reduces or eliminates bow-hand torque. Further aspects relate to providing many of these features in a simple, effective apparatus that may be attached to a bow without any additional hardware or modifications to the bow. These and other advantages are successfully incorporated in various embodiments of the present invention without sacrificing elements of simplicity, strength, cost of manufacture, and portability of the bow.

Certain embodiments of the invention relate to an attachment for a bow, and more particularly, to an apparatus relating to providing stabilization and forearm protection for an archer while using a bow.

According to one aspect, the apparatus includes a portion for securing the apparatus to the bow, a portion that provides stability for the attachment, and a portion to engage an archer's forearm to protect the forearm and stabilize the bow against bow-hand torque. In one embodiment, an apparatus may be utilized that engages the majority of the archer's forearm to provide protection and stability. The apparatus may comprise various optional features. In some embodiments, the apparatus may include a release mechanism that allows the archer to separate the apparatus into multiple, such as two, three, or more portions—for example, the apparatus may separate into one portion that may remain attached to the bow when in storage or generally not in use, and one portion that may be removed. In yet other embodiments, the apparatus may include an adjustable portion that allows the archer to change the length of the portion of the apparatus that engages the archer's forearm, which may allow for optimizing stabilization and comfort.

Of course, the apparatus of the above-referenced embodiments may also include other additional elements. Additional features and advantages of the invention will be apparent upon reviewing the following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A illustrates an isometric view of a right-handed archer holding a bow with an example forearm stabilization guard in accordance with a select embodiment of the invention attached to the bow as seen while looking at the archer from the left side and slightly in front of the archer;

FIG. 1B illustrates an isometric view of a right-handed archer holding a bow with an example forearm stabilization guard in accordance with a select embodiment of the invention attached to the bow as seen while looking at the archer from the right side and slightly in front of the archer;

FIG. 2 illustrates one exemplary embodiment of a forearm stabilization guard attached to a bow as seen from the front of the bow; and

FIG. 3 illustrates one embodiment of a forearm stabilizer guard as seen from a first side perspective.

FIG. 4 illustrates one embodiment of a forearm stabilizer guard as seen from a second side perspective, with an archer's arm engaged with the forearm stabilizer guard

DETAILED DESCRIPTION OF THE INVENTION

FIGS. 1A and 1B depict bow 1000, an exemplary embodiment of forearm stabilizer guard 100 attached to bow 1000. The illustrated forearm stabilizer guard is also illustrated as engaged with archer's arm 2000 as it is placed with respect to bow 1000 and forearm stabilizer guard 100 while bow 1000 is being used by the archer. As can be seen in FIGS. 1A and 1B, embodiments of forearm stabilizer guard 100 may simultaneously prevent string 1100 from slapping against archer's arm 2000 and clothing on archer's arm 2000. By preventing such interference, embodiments of forearm stabilizer guard 100 reduce or eliminate sounds that would result from string 1100 slapping against archer's arm 2000 or clothing and also prevent archer's arm 2000 and clothing from deflecting the path of the arrow by deflecting the path of string 1100.

The elements of one embodiment of forearm stabilizer guard 100 can be seen most clearly in FIGS. 3 and 4. In the embodiment depicted in FIGS. 3 and 4, the invention includes mounting surface 110. As shown in FIGS. 1A and 1B, in some embodiments, mounting surface 110 is configured to abut and be rigidly secured to front side 1310 of riser 1300 of bow 1000. In some embodiments, mounting surface 110 may include opening 115 through which a threaded fastener may be inserted. In such embodiments, opening 115 may be configured to align with the threaded hole in front side 1310 of riser 1300 such that mounting surface 110 may be secured by a threaded fastener that is configured to thread into a threaded hole on front side 1310 of riser 1300. The threaded hole may be a hole that is standard on most bows and is intended to allow for the attachment of bow stabilizer 3000 or other attachments. In some embodiments, the threaded hole may be an 8 mm hole. In other embodiments, the threaded hole may be a ¼″ hole. In certain embodiments of the invention, bow stabilizer 3000 may be used instead of or in conjunction with a separate threaded fastener to secure mounting surface 110 of forearm stabilizer guard 100 to riser 1300. For example, if an archer intends to use bow stabilizer 3000 or some other attachment, no additional fastener is needed, but if the archer does not intend to use bow stabilizer 3000, a separate fastener may be needed. By allowing the archer to choose between bow stabilizer 3000 or a separate threaded fastener to secure mounting surface 110 to riser 1300 of bow 1000, certain embodiments may permit the archer to use equipment that is already going to be used or to use a relatively weightless fastener that will not significantly affect the balance of bow 1000. In other embodiments, the fastener may not be essentially weightless but may be weighted and positioned such that it does not significantly affect the balance of bow 1000. In yet other embodiments, the fastener may be selected to intentionally shift the balance and/or add weight to the bow.

In some embodiments, opening 115 may be a hole approximately the size of the threaded hole of riser 1300, such that forearm stabilizer guard 100 may be attached in one particular position. Due to the standardization of most bows with respect to the length of riser 1300 and position of the threaded hole, such an embodiment may work for the majority of bows. In other embodiments, opening 115 may consist of a set of holes (and/or attachment structures), each of which is approximately the size of the threaded hole of riser 1300, allowing for a number of discrete placements of the invention. In yet other embodiments, opening 115 may be a slot or intersecting slots, which may allow for continuous adjustment in one or more directions. For example, in some embodiments, opening 115 may be a horizontal slot, a vertical slot, or a slot at any angle in between. In other embodiments, opening 115 may include multiple, intersecting slots, allowing for adjustment of the placement of mounting surface 110 in multiple directions at once. In one embodiment, slots comprising opening 115 may be sized and configured to allow for movement of up to 4 centimeters along each slot.

In certain embodiments, a stabilizing surface, such as stabilizing surface 120, may be connected to mounting surface 110 and extend perpendicularly away from the connection mechanism 150 at one side of mounting surface 110 in a direction towards the archer and the bow strings 1100. In some embodiments, stabilizing surface 120 is configured to abut side 1320 of riser 1300 below bow hand grip 1350, on the side where the archer's fingers rest while holding bow 1000 in a ready position. For example, for a right-handed archer, the archer grips bow hand grip 1350 with his left hand and, from the archer's point of view looking toward bow 1000, side 1320 is on the right side of bow 1000 (as seen clearly in FIG. 1B) and a second side 1330 of riser 1300 is on the left side of bow 1000 (as seen clearly in FIG. 1A). Similarly but conversely, for a left-handed archer, the archer grips bow hand grip 1350 with his right hand and, from the archer's point of view looking toward bow 1000, side 1320 is on the left side of bow 1000 and a second side 1330 of riser 1300 is on the right side of bow 1000. Although stabilizing surface 120 is shown as extending approximately three inches, other dimensions are within the scope of this disclosure.

Some embodiments of forearm stabilizer guard 100 include connection segment 130, connected to stabilizing surface 120 and extending away from stabilizing surface 120. In such embodiments, when forearm stabilizer guard 100 is secured to bow 1000 and bow 1000 is held in a ready position, connection segment 130 may be configured to extend in one dimension away from riser 1300 of bow 1000 towards bow strings 1100 and in another dimension away from side 1320 of riser 1300 towards second side 1330 of riser 1300, resulting in connection segment 130 passing from one side of a plane that includes the middle of riser 1300 and bow strings 1100.

In certain embodiments, forearm stabilizer guard 100 includes stabilizing sleeve 140. In some embodiments, stabilizing sleeve 140 may be part of, or extend from, stabilizing surface 120. In other embodiments that include connection segment 130, stabilizing sleeve 140 may be a part of, or extend from, connection segment 130. In some embodiments, stabilizing sleeve 140 is configured to engage the majority of the length of archer's forearm 2000. In certain embodiments, stabilizing sleeve 140 may be configured to engage approximately 55 percent of the length of archer's forearm 2000. In other embodiments, stabilizing sleeve 140 may be configured to engage approximately 70 percent of the length of archer's forearm 2000. In still other embodiments, stabilizing sleeve 140 may be configured to engage approximately 80 percent or more of the length of archer's forearm 2000. In some embodiments, stabilizing sleeve 140 is concave and configured to wrap around and engage more than half of a circumference of archer's forearm 2000.

The construction of the various embodiments as described may provide protection for the majority of the length of archer's forearm 2000 and also provide stabilization against bow-hand torque. Bow-hand torque may be caused when the archer grips the bow handle with his hand and when, at full-draw, the archer moves his wrist in a motion that causes the bow riser to move slightly from side-to-side. More specifically, when held in a ready-position at full-draw, an axis running vertically through the middle of riser 1300 would be approximately perpendicular to the ground. Bow-hand torque may cause riser 1300 to twist along this axis. This may happen at the moment the archer is releases his bow string, sending the arrow forward towards its target. When this type of torque movement takes place, it may alter the arrow's flight, potentially causing the arrow to miss its target. Bow-hand torque is a common issue that archers experience. Embodiments of the invention may eliminate or greatly reduce bow-hand torque through a combination of how forearm stabilizer guard 100 is mounted to riser 1300 of bow 1000, how stabilizing sleeve extends along the majority of the length of archer's forearm 2000, and by the construction and alignment of forearm stabilizer guard 100 putting pressure on archer's forearm 2000. For example, in some embodiments of forearm stabilizer guard 100, the natural bow-hand torque that may be generated without use of the invention may be reduced or eliminated due to the pressure of archer's forearm 2000 against stabilizing sleeve 140. As a result of the pressure placed on stabilizing sleeve 140, the force may be transferred to stabilizing surface 120, reducing or eliminating the bow-hand torque placed on the bow. Actions that may cause bow-hand torque may be reduced or eliminated due to the fact that the attachment and rigid construction of certain embodiments of the invention may require bow 1000 to remain in a relatively fixed alignment with respect to archer's forearm 2000.

In some embodiments, forearm stabilizer guard 100 may be molded or formed as a single piece. Some embodiments may be made from a strong plastic, aluminum, steel, or any composite material, as would be understood by one skilled in the art to provide stability and strength, as well as taking into account costs and ease of manufacture. Other embodiments may include a combination of materials for various parts of forearm stabilizer guard 100 as would be understood by those skilled in the art, once again considering one or more of cost, strength, stability, comfort, and ease of manufacture, among other considerations. For example, one embodiment may include mounting plate 110 and stabilizing surface 120 made from a metal such as steel with the remaining portion of forearm stabilizer guard 100 being made from a lightweight, sturdy composite material, with connection segment 130 being molded around a portion of stabilizing surface 120, such that connection segment 130 and stabilizing surface 120 are securely connected. In some embodiments, forearm stabilizer guard 100 may also include additional elements such as a rubber coating or some form of padding on portions of stabilizing sleeve 140 that are configured to come into contact with archer's forearm 2000.

While each of the different parts of forearm stabilizer guard 100 have been primarily discussed as distinct portions of the apparatus, one skilled in the art would appreciate that each of the elements may not be necessary in some embodiments. Additionally, one skilled in the art would also appreciate that distinctly identified portions of forearm stabilizer guard 100 may actually be a single portion of the apparatus in certain embodiment but serve the function of multiple portions of forearm stabilizer guard 100. One skilled in the art would also appreciate that in yet other embodiments, various portions of forearm stabilizer guard 100 may overlap with other portions of forearm stabilizer guard 100. For example, in some embodiments, stabilizing surface 120 and connection segment 130 may be the same portion of forearm stabilizer guard 100. In other embodiments, connection segment 130 and stabilizing sleeve 140 may be the same portion of forearm stabilizer guard 100. In yet other embodiments, stabilizing surface 120, connection segment 130, and stabilizing sleeve 140 may be the same portion of forearm stabilizer guard 100. In certain embodiments, forearm stabilizing guard 100 may not have connection segment 130.

Some embodiments include detachable connection mechanism 150, which allows for removal of part of forearm stabilizer guard 100, including stabilizing sleeve 140, while leaving part of forearm stabilizer guard 100, including mounting plate 110, attached to bow 1000. Detachable connection mechanism 150 may be any of various designs as are well known by those skilled in the art. Examples of some connection systems that could be used for detachable connection mechanism 150 are a buckle system, threaded fasteners, and hook-and-loop fasteners, such as Velcro®. In one particular embodiment, detachable connection mechanism 150 may be a plastic, side-release buckle system commonly used in many backpacks and bags.

Embodiments that incorporate detachable connection mechanism 150, thus allowing the archer to leave portions of forearm stabilizer guard 100 connected to bow 1000, may allow the archer to keep mounting surface 110 mounted at the same spot relative to bow 1000 without having to adjust its location each time forearm stabilizer guard 100 is used. Embodiments incorporating detachable connection mechanism 150 may also allow the user to store bow 1000 and the portion of forearm stabilizer guard 100 that remains attached to bow 1000 in a standard bow case and keep the detached portion of forearm stabilizer guard 100 in either the same case or another case.

Detachable connection mechanism 150 may be incorporated into embodiments of forearm stabilizer guard 100 in various ways. In one embodiment, stabilizing surface 120 may include detachable connection mechanism 150. In other embodiments, detachable connection mechanism 150 may be between stabilizing surface 120 and connection segment 130 and configured such that one end of connection mechanism 150 is connected to stabilizing surface 120 and the other end of connection mechanism 150 is connected to connection segment 130. In yet other embodiments, connecting segment 130 may include detachable connection mechanism 150. In still other embodiments, detachable connection mechanism 150 may be between connection segment 130 and stabilizing sleeve 140 and configured such that one end of connection mechanism 150 is connected to connection segment 130 and the other end of connection mechanism 150 is connected to stabilizing sleeve 140.

In some embodiments, stabilizing sleeve 140 may include an adjustable portion 145. In one embodiment, adjustable portion 145 is in the form of a telescoping portion of stabilizing sleeve 140. In embodiments with a telescoping portion, stabilizing sleeve 140 may include lip 147, which may allow the telescoping portions to move up and down the remaining portion of forearm stabilizer guard 100. In other embodiments, adjustable portion 145 may be comprised of two adjacent portions that can slide forward and backward relative to each other to make stabilizing sleeve 140 shorter or longer as desired. Certain embodiments with adjustable portion 145 may include a system or apparatus for securing the adjustable portion in a fixed position. Such a system or apparatus may be any of various systems or apparatus known to those skilled in the art, including threaded fasteners, hook-and-loop fasteners, such as Velcro®, or other locking systems commonly used in metal or composite applications.

Some embodiments of the invention may include second stabilizing surface 1X0. Second stabilizing surface 1X0 may extend perpendicularly from a side of stabilizing surface 120 such that second stabilizing surface 1X0 is configured to be approximately parallel to mounting surface 110 and to abut back 1330 of riser 1300 of bow 1000. In certain embodiments, second stabilizing surface 1X0 may include opening 1X5 through which a threaded fastener may be inserted. In such embodiments, opening 1X5 may be configured to align with a threaded hole on the back side of riser 1300 such that second stabilizing surface 1X0 may be secured by a threaded fastener that is configured to thread into the threaded hole on the back side of riser 1300. The threaded hole on the back side of riser 1300 may be a hole that is standard on most bows and is intended to allow for the attachment of a stabilizer bar or other attachments. In some embodiments, the threaded hole may be an 8 mm hole. In other embodiments, the threaded hole may be a ¼″ hole. In certain embodiments of the invention, a stabilizer bar may be used instead of or in conjunction with a separate threaded fastener to secure second stabilizing surface 1X0 of forearm stabilizer guard 100 to riser 1300. For example, if an archer intends to use a stabilizer bar or some other attachment, no additional fastener may be needed, but if the archer does not intend to use a stabilizer bar, a separate fastener may be needed. By allowing the archer to choose between a stabilizer bar or a separate threaded attachment to secure second stabilizing surface 1X0 to riser 1300 of bow 1000, certain embodiments may permit the archer to use equipment that is already going to be used or to use a relatively weightless fastener that will not significantly affect the balance of bow 1000. In other embodiments, the fastener may not be essentially weightless but may be weighted and positioned such that it does not significantly affect the balance of bow 1000. In yet other embodiments, the fastener may be selected to intentionally shift the balance and/or add weight to the bow.

Certain embodiments of the invention may include reinforcement portion 160. Reinforcement portion 160 may provide additional support and rigidity to forearm stabilizer guard 100. Reinforcement portion 160 may be comprised of any of various devices or methods for providing additional, reinforcing stability, rigidity, or both. In one embodiment, reinforcement portion 160 includes steel or some other strong material that is molded into mounting surface 110 and stabilizing surface 120 and is comprised of two strips that run in parallel along the outside of forearm stabilizer guard 100. In other embodiments, reinforcement portion 160 may include a single wide strip composed of a strong material that provides additional strength in mounting surface 110 and stabilizing surface 120. As mentioned above, the embodiments identified in this paragraph are merely examples and not meant to limit the different ways that reinforcement portion 160 may be implemented as understood by one skilled in the art.

Some embodiments may optionally include additional bracket 200. Similar to mounting surface 110, additional bracket 200 may have bracket mounting surface 210 configured to mount to riser 1300. Bracket mounting surface 210 may comprise bracket opening 215, which may be a hole approximately the size of the threaded hole on the front side 1310 of riser 1300. As mentioned previously, due to the standardization of most bows with respect to the length of riser 1300 and position of the threaded hole, such an embodiment may work for the majority of bows. In other embodiments, bracket opening 215 may consist of a set of holes (a single hole 215a is identified in FIG. 5), each of which is approximately the size of the threaded hole on front side 1310 of riser 1300, allowing for a number of discrete placements of additional bracket 200. One particular embodiment of bracket opening 215 comprising sixteen holes, is depicted in FIG. 5. As can be appreciated by one skilled in the art, any number of holes from one, to a number that may fit on bracket mounting surface 210 may be used. Similarly, any of various arrangements of a varying number of holes may make up bracket opening 215. In yet other embodiments, bracket opening 215 may be a slot or intersecting slots, which may allow for continuous adjustment in one or more directions. For example, in some embodiments, bracket opening 215 may be a horizontal slot, a vertical slot, or a slot at any angle in between. In other embodiments, bracket opening 215 may include multiple, intersecting slots, allowing for adjustment of the placement of additional bracket 200 in multiple directions at once. One embodiment of two intersecting slots that may be used for bracket opening 215 may be similar to the embodiment depicted for opening 115 in FIGS. 1B, 2 and 4. In one embodiment, slots comprising bracket opening 215 may be sized and configured to allow for movement of up to 4 centimeters along each slot. As can also be appreciated by one skilled in the art, mounting additional bracket 200 to riser 1300 may be accomplished by aligning opening 215 with opening 115 and the threaded hole of riser 1300 and securing a threaded fastener through all three openings. In some embodiments, forearm stabilizer guard 100 may be between additional bracket 200 and riser 1300 when forearm stabilizer guard 100 and additional bracket 200 are mounted to riser 1300. In other embodiments, forearm stabilizer guard 100 may be between additional bracket 200 and riser 1300 when forearm stabilizer guard 100 and additional bracket 200 are mounted to riser 1300.

In certain embodiments, additional bracket 200 may have one or more connecting portions that wrap around riser 1300 of bow 1000 around the opposite side of riser 1300 that forearm stabilizer guard 100 wraps around and are configured to connect bracket mounting surface 210 with a bracket stabilizing surface 220. In some embodiments, additional bracket may have first connecting portion 230 that is connected and approximately perpendicular to bracket mounting surface 210. First connecting portion 230 may be configured to abut a side of riser 1300 that is opposite the side of riser 1300 that forearm stabilizer guard 100 may abut. Put another way, first connecting portion 230 may be configured to abut the side of riser 1300 that is on the same side of bow 1000 as archer's forearm 2000, which grasps riser 1300 when the archer is using the bow.

Second portion 240 of additional bracket 200, may be connected and approximately perpendicular to first connecting portion 230. Second connecting portion 240 is configured to be approximately parallel to bracket mounting surface 210. In some embodiments, second connecting portion 240 may be configured to abut the back of riser 1300 when additional bracket is mounted to bow 1000. In other embodiments, additional bracket 200 may be configured such that there is a gap between second connecting portion 230 and the back of riser 1300 when additional bracket 200 is mounted to bow 1000.

In certain embodiments, one or both of first connecting portion 230 and second connecting portion 240 may be curved as opposed to generally planar as depicted in FIG. 5. In some embodiments, first connecting portion 230 and second connecting portion 240 may be a single connecting portion.

In certain embodiments, bracket stabilizing surface 220 may be configured to abut a portion of forearm stabilizer guard 100 when both forearm stabilizer guard 100 and additional bracket 200 are mounted to bow 1000. In some embodiments, bracket stabilizing surface may have an apparatus for securing additional bracket 200 to forearm stabilizer guard 100. In some embodiments, bracket stabilizing surface may include bracket stabilizing opening 225, which may be a hole, a set of holes, or any other opening or set of openings that may be configured to receive a fastener. In some embodiments, forearm stabilizer guard 100 may also include openings or other devices for securing additional bracket to forearm stabilizer guard 100. In one embodiment, bracket stabilizing surface 220 may include a set of holes, connection segment 130 (or any other portion of forearm stabilizer guard 100 where additional bracket may be mounted) of forearm stabilizer guard 100 may include a matching set of holes, and additional bracket 200 may be configured to be secured to forearm stabilizer guard 100 using nuts and bolts. As one skilled in the art will appreciate, other well-known fasteners may be used in place of nuts and bolts.

For example, in one embodiment, bracket stabilizing surface 220 may include one half of a hook-and-loop fastener, such as Velcro®, while connection segment 130 (or any other portion of forearm stabilizer guard 100 where additional bracket may be mounted) of forearm stabilizer guard 100 may include the complimentary portion of a hook-and-loop fastener. In another embodiment, bracket stabilizing surface 220 may include a hook-and-loop fastener, such as Velcro®, and a portion of forearm stabilizer guard 100 may include an opening through which the fastener may be fed and then secured to itself. In yet other embodiments, forearm stabilizer guard 100 may include an opening through which some other type of fastener may be fed, which can then be secured to an appropriate portion of bracket stabilizing surface 220. In some embodiments, the fastener fed through such an opening may be a strap that has a snap at the end, similar to a securing snap on many helmets.

Additional bracket 200 may be made of a similar material to forearm stabilizer guard 100 or of a different material. In some embodiments, additional bracket 200 may be made of a strong rigid material. Regardless of the securing method and the material that additional bracket 200 is made of, upon securing additional bracket 200 to forearm stabilizer guard 100, additional bracket 200 may help reduce or eliminate any potential flex in forearm stabilizer guard 100 that may occur upon use of forearm stabilizer guard 100. Potential flex in forearm stabilizer guard 100 may occur when forearm stabilizer guard 100 is in use and the archer has bow 1000 at full-draw, resulting from archer's forearm 2000 pushing on forearm stabilizer guard 100.

Claims

1. An attachment for a riser portion of a bow, wherein the riser portion comprises a front side, a back side, a first side extending between the front side and the back side, and a second side opposite the first side and extending between the front side and the back side, the second side configured to receive a palm of an archer when the archer is holding the bow in a ready position, the attachment comprising:

a mounting surface configured to be rigidly secured to a front side of a riser;
a stabilizing surface extending perpendicularly from a side of the mounting surface and wherein upon the mounting surface being secured to the front side of the riser, the stabilizing surface is configured to abut a first side of the riser and wherein the stabilizing surface is configured to extend away from the mounting surface;
a connection segment extending away from the stabilizing surface configured such that upon the mounting surface being secured to the front side of the riser and upon an archer holding the bow in the ready position, the connection segment is configured to extend in a first dimension in a direction away from the stabilizing surface and towards the archer and configured to extend in a second dimension in a direction away from the first side of the riser and towards the second side of the riser, such that the connection segment passes between the back of the riser and a bow string of the bow; and
a stabilizing sleeve, wherein upon the archer holding the bow in the ready position, the stabilizing sleeve is configured to engage a majority of a length of a forearm of the archer.

2. The attachment of claim 0, wherein the mounting surface comprises an opening in approximately a middle of the mounting surface and wherein the opening is configured to align with a pre-existing threaded hole on the front of the riser of the bow.

3. The attachment of claim 0, wherein the opening is configured to allow movement of up to 4 centimeters in at least one of a vertical direction and a horizontal direction.

4. The attachment of claim 0, wherein the opening is configured to allow movement of up to 4 centimeters in a vertical direction and up to 4 centimeters in a horizontal direction.

5. The attachment of claim 1, wherein the stabilizing sleeve is concave and wherein upon the archer holding the bow in the ready position, the stabilizing sleeve is configured to wrap around and engage more than half of a circumference of the forearm of the archer.

6. The attachment of claim 1, further comprising a detachable connection mechanism.

7. The attachment of claim 6, wherein a first end of the detachable connection mechanism is connected to the stabilizing surface and a second end of the detachable connection mechanism is connected to the connection segment.

8. The attachment of claim 6, wherein the connection segment comprises the detachable connection mechanism.

9. The attachment of claim 6, wherein a first end of the detachable connection mechanism is connected to the connection segment and a second end of the detachable connection mechanism is connected to the stabilizing sleeve.

10. The attachment of claim 6, wherein the detachable connection mechanism comprises a side-release buckle.

11. The attachment of claim 6, wherein the detachable connection mechanism comprises overlapping portions configured to be secured by screws.

12. The attachment of claim 1, further comprising a bracket comprising:

a bracket mounting surface configured to be rigidly secured to the front side of the riser;
a connecting portion extending from a side of the bracket mounting surface and wherein upon the bracket mounting surface being secured to the front side of the riser, the connecting portion is configured to wrap around a second side of the riser; and
a bracket stabilizing surface, configured to abut a portion of at least one of the stabilizing surface and the connection segment.

13. The attachment of claim 12, wherein the bracket stabilizing surface comprises an opening configured to align with an opening in the connection segment upon the mounting surface being secured to the front side of the riser and the bracket mounting surface being secured to the front side of the riser.

14. The attachment of claim 13, wherein the bracket stabilizing surface is configured to be rigidly secured to the connection segment with a threaded fastener.

15. The attachment of claim 12, wherein the bracket stabilizing surface comprises an opening configured to align with an opening in the stabilizing surface upon the mounting surface being secured to the front side of the riser and the bracket mounting surface being secured to the front side of the riser.

16. The attachment of claim 1, wherein the stabilizing sleeve comprises an adjustable length portion.

17. The attachment of claim 16, wherein the adjustable length portion of the stabilizing sleeve is comprises a telescoping segment that is configured to slide up or down the length of the stabilizing sleeve such that the length of the stabilizing sleeve can be shortened or lengthened to accommodate different length forearms for different archers.

18. The attachment of claim 1, further comprising a reinforcement portion, comprising metal molded into the mounting surface and the stabilizing surface.

19. A bow comprising:

an upper limb;
a lower limb;
a bowstring, wherein a first end of the bowstring is attached to a first end of the upper limb and a second end of the bowstring is attached to a first end of the lower limb;
a riser the riser comprising a front side, a back side, a first side extending between the front side and the back side, and a second side opposite the first side and extending between the front side and the back side, wherein the second side is configured to receive a palm of an archer when the archer is holding the bow in a ready position, and wherein a top of the riser is connected to a second end of the upper limb and a bottom of the riser is connected to a second end of the lower limb;
a mounting surface configured to be rigidly secured to the front side of the riser;
a stabilizing surface, wherein the stabilizing surface extends perpendicularly from a side of the mounting surface and wherein upon the mounting surface being secured to the front side of the riser, the stabilizing surface is configured to abut the first side of the riser and wherein upon the archer holding the bow in the ready position, the stabilizing surface is configured to extend from the mounting surface towards the archer;
a connection segment extending away from the stabilizing surface, wherein upon the first mounting surface being secured to the front side of the riser and upon the archer holding the bow in the ready position, the connection segment is configured to extend in a first dimension in a direction away from the stabilizing surface and towards the archer and configured to extend in a second dimension in a direction away from the first side of the riser and towards the second side of the riser, such that the connection segment passes between the back of the riser and bow string of the bow; and
a stabilizing sleeve, wherein upon the archer holding the bow in the ready position, the stabilizing sleeve is configured to engage a majority of a length of a forearm of the archer.

20. The bow of claim 19, wherein the stabilizing sleeve is concave and wherein upon the archer holding the bow in the ready position, the stabilizing sleeve is configured to wrap around and more than half of a circumference of the forearm of the archer.

Patent History
Publication number: 20130263839
Type: Application
Filed: Apr 4, 2012
Publication Date: Oct 10, 2013
Applicant: AEK INVESTMENTS, LLC (East Troy, WI)
Inventors: Daniel P. Dominski (Crystal Lake, IL), Willis P. Gabel (Issaquah, WA)
Application Number: 13/439,196
Classifications
Current U.S. Class: Bow (124/23.1); For Stabilization Thereof (124/89)
International Classification: F41B 5/20 (20060101); F41B 5/14 (20060101);