BACKGROUND
Many archers use handheld release accessories to help them with grasping and releasing bowstrings. The known release accessories or releases have a relatively complex set of moving parts coupled to a hook that hooks the bowstring. In operation, there are a relatively high number of internal parts that move until striking one another. The travel time of the parts, in between the striking, can create a delayed reaction in response to the user's actuation of the release. Furthermore, the complexity, amount of internal striking and relatively high number of parts, can cause a rough, jerky and ratchety release response. Because of this delayed reaction and ratchety response, the archer is unable to achieve a release action that is quick enough and smooth enough, thereby hindering shooting accuracy and performance. The foregoing background describes some, but not necessarily all, of the problems, disadvantages and shortcomings related to typical archery releases.
SUMMARY
The subject matter disclosed herein relates to archery equipment with particular discussion about a release for use with an archery bow. This disclosure suggests an improved design for a release. In one embodiment, the release includes a roller trigger.
In an embodiment, a bowstring release includes a release body defining a cavity and a hook moveably coupled to the release body and configured to hold a bowstring. A release mechanism is positioned at least partially within the cavity. The release mechanism includes a trigger pivotally coupled to the release housing. The trigger includes a roller which is rotatably coupled to the trigger. The release mechanism also includes a linkage member pivotally coupled to the release body. The release body includes a hook engager portion configured to contact the hook and a trigger engager portion including a peak surface and a valley surface configured to contact the roller of the trigger. In response to operation of the release mechanism, the roller is configured to roll from (a) a hold position on the peak surface causing the hook engager portion to engage the hook so that the hook holds the bowstring; to (b) a release position on the valley surface causing the hook engager portion to disengage from the hook so that the hook releases the bowstring.
In another embodiment, a bowstring release includes a release body and a hook moveably coupled to the releases body. The hook is configured to hold a bowstring. The bowstring release additionally includes a trigger pivotally coupled to the release body, the trigger including a roller, and a link pivotally coupled to the release body. The link includes a hook engager portion configured to contact the hook and a trigger engager portion including a peak surface and a valley surface, each of which is configured to contact the roller of the trigger. The link also includes an intermediate portion between the hook engager portion and the trigger engager portion, the intermediate portion located between the roller and the hook. The linkage is configured to cooperate with the hook and the trigger to cause release of the bowstring.
In yet another embodiment, a bowstring release includes a release body defining a cavity and a hook pivotally coupled to the release body, a hook portion of the hook being located within a first cavity portion of the cavity and the hook being configured to hold a bowstring. The bowstring release also includes a release device including a trigger pivotally coupled to the release body through a first support, the trigger including a roller configured to be positioned within a second cavity portion of the cavity. The release device also includes a link extending from the first cavity portion to the second cavity portion, the link being pivotally coupled to the release body through a second support and having a link top and a link bottom. The link top includes a hook engager portion configured to engage the hook and a trigger engager portion. The trigger engager portion includes a peak surface configured to contact the roller, the valley surface configured to contact the roller, and a transition surface configured to contact the roller. The transition surface extends downward from the peak surface to the valley surface. The release device additionally includes a spring supported by the release body and positioned within the cavity, the spring configured to apply a force to the link bottom. Further, the release device includes a grasp device coupled to the release body, the grasp device including a grasp neck and a grasp head, the neck defining a plurality of fastener openings associated with variable extension positions of the grasp device. In addition, the release device includes a fastener configured to be inserted into one of the fastener openings to set one of the extension positions. The linkage member is configured to switch between a release position in which the roller of the trigger contacts the valley and the hook engager portion disengages the hook and a hold position in which the roller of the trigger contacts the peak and the hook engager portion contacts and engages the hook.
Additional features and advantages of the present disclosure are described in, and will be apparent from, the following Brief Description of the Drawings and Detailed Description.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1A is a fragmentary view of an embodiment of the archery release with the top panel of the release body removed, illustrating the trigger in the release position or release state.
FIG. 1B is a fragmentary view of an embodiment of the archery release with the top panel of the release body removed, illustrating the trigger in the engaged position or engaged state.
FIG. 2 is another fragmentary view of the archery release with the top panel of the release body removed, illustrating the trigger in the engaged position or engaged state.
FIG. 3 is a side view of the archery release with the top panel of the release body removed, illustrating the trigger in the release position or release state.
FIG. 4 is a fragmentary view of the archery release with the top panel of the release body removed, illustrating the trigger in the release position or release state.
FIG. 5 is a side view of the archery release with the top panel of the release body removed, illustrating the release in the cocked state and the hook in the hold position or the hold state.
FIG. 6 is a fragmentary view of the archery release with the top panel of the release body removed, illustrating the hook in the hold position or the hold state.
FIG. 7A is an enlarged side view of the bowstring hook of the archery release.
FIG. 7B is an enlarged side view of the link of the archery release.
FIG. 8 is an enlarged side view of the trigger of the archery release.
FIG. 9 is an isometric, fragmentary view of an embodiment of the archery release with the hook and top panel of the release body removed, illustrating the trigger in the release position or release state.
FIG. 10 is a side, fragmentary view of an embodiment of the archery release with the top panel of the release body removed, illustrating the roller engaged with the transition surface or ramp of the link.
FIG. 11 is a side, fragmentary view of an embodiment of the archery release with the hook and top panel of the release body removed, illustrating the trigger in the hold position or hold state.
FIG. 12 is an enlarged view of FIG. 11 illustrating the roller in the hold position on the platform or peak surface of the link.
FIG. 13 is an isometric comparative view illustrating an embodiment of the archery release with the hook and top panel of the release body removed next to the archery release having the top panel attached.
DETAILED DESCRIPTION
FIG. 1A is a depiction of an example of an archery release 100 in a release position or release state. The archery release 100 is configured to be external and non-integral to an archery bow and to be removably coupled to a bowstring or other archery string. In an embodiment, the archery release 100 comprises a housing or release body 102 with a cavity 104 disposed therein, which has a plurality of cavity portions, including a first cavity portion 104a and a second cavity portion 104b as illustrated in FIG. 4. A portion of the body 102 is shown with the removal of the top panel 902 (FIG. 13) to depict the internal components of the release 100 within the cavity 104. A trigger 106 is disposed within the cavity 104 and is pivotally coupled to the body 102 by a trigger pivot support 108.
Referring to FIGS. 3 and 13, in an embodiment, the release 100 has a grasp device 312 coupled to the trigger 106. The grasp device 312 has a grasp neck 314 coupled to a grasp head 306. The grasp neck 314 defines a plurality of openings 316. By inserting a fastener, such as a screw, into one of the openings 316, the user can control the variable position of the head 306 from the body 102. This enables the user to customize the release 100 for the particular size and shape of the user's hand. As illustrated in FIG. 3, the grasp head 306 of the trigger 106 extends outside of the cavity 104 where a user may actuate the trigger 106. A second end 105 of the trigger 106 comprises a roller 110 that is pivotally coupled to the trigger 106 by a roller pivot support 112. The roller 110 contacts an arm, link arm, a stem, a rocker, a linkage member or a link 114. The link 114 is pivotally coupled to the body 102 by a fulcrum or link pivot support 116.
In an embodiment, the stem, linkage member or link 114 has a trigger engager portion 117, a hook engager portion 119, and an intermediate portion 115 between the portions 117 and 119. Referring to FIG. 7, the trigger engager portion 117 has a valley surface 121, a peak platform or peak surface 123, and a ramp or transition surface 700 extending downward from the peak surface 123 to the valley surface 121. Each surface 121, 123 and 700 is positioned and configured to contact the roller 110, as will be further described below. As shown in FIG. 1A, the linkage member or link 114 is elongated to function as a lever that transmits mechanical force to a front (hook engager) portion 119 of the archery release 100 where the linkage member or link 114 can actuate a hook 118. The hook 118 is, in the shown embodiment, pivotally coupled to the body 102 by a hook pivot support 120.
In an embodiment illustrated in FIG. 1A, a link biasing member 122 applies an upward force against a portion of link 114 to upwardly bias the link 114 in direction 124 toward the roller 110. By pivoting about the link pivot support 116, the link biasing member 122 applies a bias or spring force to the trigger engager portion 117 of the link 112 in direction 126, which permits the hook 118 to be in a release state with a relatively large clearance distance 130. Depending upon the embodiment, the biasing member 122 can be a coil spring, leaf spring, elastic element or other biasing device. The pivot supports may be, for example, a pin and bearing connection that provides free rotation.
In operation, as described further below with reference to FIG. 5, the archer uses her/her thumb to cock the release 100 by pushing the grasp 312 forward (toward the body 102) until the roller 110 comes to rest on the peak surface 123. When ready to shoot, referring to FIG. 3, the archer uses her/her thumb to slightly pull, tap or nudge the grasp 312 rearward (away from the body 102) until the roller 110 comes to a rest on the valley surface 121. It should be appreciated that, in transitioning from cocked mode to shoot mode, the roller 110 undergoes a relatively small or slight amount of rolling movement. Consequently, the release 100 has a relatively quick response and smooth, roller-based operation. This facilitates shooting accuracy and performance.
FIG. 1B is a depiction of the archery release 100 in a hold position or hold state. The trigger 106 is actuated such that it moves the roller 110 in the direction of arrow 128. The roller 110 moves against the ramp or transition surface 700 (see FIG. 7B) on the trigger engager portion 117 of the link 114 where it comes to rest on the peak surface 123, 702 of the link 114 (see FIG. 7B). The rolling movement along the transition surface 700 causes the link 114 to pivot at the link pivot support 116 which, in turn, causes the link sear surface 704 (see FIG. 7) at the front portion of the link 114 to engage a sear surface 202 (see FIG. 1) of the hook 120. This engagement can include the link sear surface 704 directly contacting the sear surface 202 of the hook 120. This engagement holds the hook 120 in an engaged or hold state with a relatively small clearance distance 132. A bowstring 134 may be securely held by the hook 120 while in the engaged or hold state.
In an embodiment, the roller 110 is a wheel, disk or tubular-shaped member. The roller 110 can have a substantially high friction and/or elastic property, such as a rubber surface, to facilitate the resting of the roller 110 on the peak surface 123, 702 or valley surface 121, 706. In such embodiment, the rubber surface also serves as a vibration damper to absorb shock and reduce vibration throughout the release 100.
As shown in FIG. 2, the archery release 100 can be returned to a disengaged or release state in a manner that releases the bowstring 134. As the user operates the trigger 106, the roller 110 travels from the peak surface 123 of the link 114 and against the transition surface 700 of the link 114. Since the link biasing member 122 applies a bias in the direction 124, the link 114 pivots about the pivot support 116 until a front portion 200 clears a corner 206 between a sear surface 202 of the hook 118 and a flat surface 204 of the hook 118. In the illustrated embodiment, the link biasing member 122 is a spring.
Referring to FIG. 7A, in one embodiment, the sear surface 202 is inclined such that it forms an obtuse corner angle 206 with the flat surface 204. In one embodiment, the obtuse corner angle 206 is greater than 90° and less than 120°. In another embodiment, the obtuse corner angle 206 is greater than 95° and less than 110°. The incline of the sear surface 202 forms an angle 208 with a line 210 that bisects the hook pivot point 120. In one embodiment, the angle 208 is between about 1° and about 15°. In another embodiment, the angle 208 is between about 5° and 15°. In yet another embodiment, the angle 208 is about 10°±2°. Due to the flat surface 204, once the front portion 200 of the link 114 clears the corner 206, the hook 118 is disengaged from the link 114, and the bowstring 134 is released. To facilitate a controlled release, the front portion 200 of the link 114 has a link sear surface 704 (see FIG. 7B) that is inclined such that it contacts the sear surface 202 of the hook 118 at an angle to provide a specific point of contact.
FIG. 3 is another view of the archery release 100 in a disengaged or release state. The body 102 provides at least two openings including a hook opening 300 through which the hook 118 extends and a trigger opening 302 through which the trigger 106 extends. As shown, the body 102 has body portions 102a and 102b configured to at least partially mate with a user's index finger and middle finger, respectively. The body 102 may be removably connected to a finger grip or finger extension 304 for receiving a user's fingers. The extension 304 has a wave shape to mate with the user's fingers or finger grip. The user may grasp the archery release 100 by placing an index finger in finger groove or body portion 102a, and by placing the remaining fingers in body portion 102b and grooves 308. The user's thumb may rest proximate the grasp head 306. The grasp head 306 enables the user to operate the archery release 100 while maintaining a secure grip.
FIGS. 4-6 are additional views of FIG. 3 showing the internal components disposed within the cavity 104. In particular, as will be discussed further with regard to FIG. 8 below, the trigger 106 can receive a set screw 802 for adjusting the stop position of the trigger 106 against the sidewall 804.
FIG. 7B is an enlarged side view of the link 114 that illustrates the ramp or transition surface 700, the peak platform or peak surface 123, 702 and the link sear surface 704. The transition surface 700 is between the platform or peak surface 123, 702 (where the roller 110 is engaged when the archery release 100 is in an engaged or hold state) and a lower platform or valley surface 121, 706. The platform or peak surface 123, 702 includes a horizontal surface 703. In the example depicted in the figures, the roller 110 engages the peak platform or peak surface 123, 700 when the archery release 100 is in an engaged or hold state. In other embodiments, shown in FIGS. 1A and 2, the roller 110 may engage the lower platform or valley surface 121, 706. The ramp 700 is at an obtuse angle 708 with the platform or peak surface 123, 702. In one embodiment, the obtuse angle 708 is between about 125° and 145°.
FIG. 8 is an enlarged side view of the trigger 106. The trigger 106 comprises a trigger travel adjustment hole 800 that may be a threaded hole for receiving a set screw 802 (see FIG. 4 and FIG. 5). The set screw 802 may be actuated to extend through the trigger travel adjustment hole 800 where it will contact a sidewall 804 (FIG. 4) of the cavity 104 and adjust the start position of the roller. This permits the user to tune the stop position of the trigger 106. In an example, when the start position is closest to the sidewall 804, there is minimum travel in the trigger 106. In another example, when the set screw 802 is not extended in the trigger travel adjustment hole 800, the roller 110 is located further away from the peak platform 123, which creates more travel in the trigger 106.
In the embodiment depicted in the figures, the archery release 100 is a roller-based archery release. The finger grip 304 and trigger 106 are aligned along a common axis 310 with the link 114 extending at a substantially right angle to the common axis 310. The hook 118 is disposed proximate a distal end of the linkage member 114 with the proximal end of the linkage member 114 being disposed near the common axis 310.
Referring to FIGS. 9-13, the housing or body 102 has a removable top panel 902. The panel 902 is attachable to the body 102 by a fastener 904, such as a screw. When attached, the panel 902 encases the internal components of the release 100.
Additional embodiments include any one of the embodiments described above, where one or more of its components, functionalities or structures is interchanged with, replaced by or augmented by one or more of the components, functionalities or structures of a different embodiment described above.
It should be understood that various changes and modifications to the embodiments described herein will be apparent to those skilled in the art. Such changes and modifications can be made without departing from the spirit and scope of the present disclosure and without diminishing its intended advantages. It is therefore intended that such changes and modifications be covered by the appended claims.
Although several embodiments of the disclosure have been disclosed in the foregoing specification, it is understood by those skilled in the art that many modifications and other embodiments of the disclosure will come to mind to which the disclosure pertains, having the benefit of the teaching presented in the foregoing description and associated drawings. It is thus understood that the disclosure is not limited to the specific embodiments disclosed herein above, and that many modifications and other embodiments are intended to be included within the scope of the appended claims. Moreover, although specific terms are employed herein, as well as in the claims which follow, they are used only in a generic and descriptive sense, and not for the purposes of limiting the present disclosure, nor the claims which follow.
Patent Grant
9857139
