Patent Grant
10989504
Shooting targets are typically used by marksmen to improve their aim and precision. Most targets include scoring rings with a bulls-eye representing the center of the target. As such, where a bullet impacted a target can be ascertained from where the mark is on the target.
In addition to individual-use scenarios, shooting targets may also be used in competitive shooting situations involving two or more participants. While the participants can compare targets to see which participant has better aim or precision, it may be desirable to also measure a participant's speed in addition to aim and precision.
The shooting target assembly described in this disclosure is generally directed to a competitive shooting game for two players or two teams of players that measures not only the players' aim and shooting precision, but also their quickness.
In an embodiment, a shooting target assembly includes a frame having a curved edge, where a plurality of catch mechanisms are positioned along the curved edge, a first target arm having a first end and a second end, and a second target arm having a first end and a second end. The first end of the first target arm is connected to a first target that is positioned above the curved edge. The second end of the first target arm is pivotally connected to a rear portion of the frame at a first pivot point. The first end of the second target arm is connected to a second target that is positioned above the curved edge, and the second end of the second target arm is pivotally connected to the rear portion of the frame at a second pivot point. Each of the plurality of catch mechanisms is configured to engage the first target arm or the second target arm.
The plurality of catch mechanisms may include protrusions connected to the upper edge. The second end of the first target arm may be connected to a torsion spring. The torsion spring may be configured to rotate the first target arm about the first pivot point when the first target arm is not engaged by one of the plurality of catch mechanisms.
The second end of the second target arm may be connected to a torsion spring. The torsion spring may be configured to rotate the second target arm about the second pivot point when the second target arm is not engaged by one of the plurality of catch mechanisms.
The shooting target assembly may include a first bar connected to the rear portion of the frame, where the first bar extends over the first target arm. At least a portion of the first bar may be configured to restrict movement of the first target arm. The shooting target assembly may include a second bar connected to the rear portion of the frame, where the second bar extends over the second target arm. At least a portion of the second bar may be configured to restrict movement of the second arm.
The shooting target assembly may include a curved bar connected to the rear portion of the frame, where the curved bar is configured to restrict movement of the first arm and the second arm. The shooting target assembly may include a base portion attached to at least a portion of a bottom portion of the frame such that the frame is positioned at an angle relative to the base portion.
The shooting target assembly may include one or more legs connected to the base portion.
The first target arm may include a first portion configured to extend along at least a portion of the rear portion of the frame, a second portion attached to the first portion, where the second portion is configured to extend along at least a second portion of the rear portion of the frame, a third portion attached to the second portion, where the second portion is angled relative to the second portion and is configured to extend over the curved edge, and a fourth portion attached to the third portion, where the fourth portion is angled relative to the third portion and is configured to extend above the curved edge. The first target may be connected to the fourth portion.
The second target arm may include a first portion configured to extend along at least a portion of the rear portion of the frame, a second portion attached to the first portion, where the second portion is configured to extend along at least a second portion of the rear portion of the frame, a third portion attached to the second portion, where the third portion is angled relative to the second portion and is configured to extend over the curved edge, and a fourth portion attached to the third portion, where the fourth portion is angled relative to the third portion and is configured to extend above the curved edge. The second target may be connected to the fourth portion.
In an embodiment, a shooting target assembly may include a frame having a curved edge, where a plurality of catch mechanisms are positioned along the curved edge, a first target arm having a first end and a second end, and a second target arm having a first end and a second end. The first end of the first target arm is connected to a first target that is positioned above the curved edge, and the second end of the first target arm is pivotally connected to a rear portion of the frame at a first pivot point. The first end of the second target arm is connected to a second target that is positioned above the curved edge, and the second end of the second target arm is pivotally connected to the rear portion of the frame at a second pivot point. At least one bar is mounted to the rear portion of the frame such that the at least one bar extends over at least one of the first target arm or the second target arm. Each of the plurality of catch mechanisms is configured to engage the first target arm or the second target arm.
The plurality of catch mechanisms include protrusions connected to the upper edge. The second end of the first target arm may be connected to a torsion spring, where the torsion spring may be configured to rotate the first target arm about the first pivot point when the first target arm is not engaged by one of the plurality of catch mechanisms.
The second end of the second target arm may be connected to a torsion spring, where the torsion spring may be configured to rotate the second target arm about the second pivot point when the second target arm is not engaged by one of the plurality of catch mechanisms.
The shooting target assembly may include a base portion attached to at least a portion of a bottom portion of the frame such that the frame is positioned at an angle relative to the base portion, and one or more legs connected to the base portion.
The first target arm may include a first portion configured to extend along at least a portion of the rear portion of the frame, a second portion attached to the first portion, where the second portion is configured to extend along at least a second portion of the rear portion of the frame, a third portion attached to the second portion, where the second portion is angled relative to the second portion and is configured to extend over the curved edge, and a fourth portion attached to the third portion, where the fourth portion is angled relative to the third portion and is configured to extend above the curved edge. The first target may be connected to the fourth portion.
The second target arm may include a first portion configured to extend along at least a portion of the rear portion of the frame, a second portion attached to the first portion, where the second portion is configured to extend along at least a second portion of the rear portion of the frame, a third portion attached to the second portion, where the third portion is angled relative to the second portion and is configured to extend over the curved edge, and a fourth portion attached to the third portion, where the fourth portion is angled relative to the third portion and is configured to extend above the curved edge. The second target may be connected to the fourth portion.
As used in this document, the singular forms “a,” “an,” and “the” include plural references unless the context clearly dictates otherwise. Unless defined otherwise, all technical terms used herein have the same meanings as commonly understood by one of ordinary skill in the art. As used in this document, the term “comprising” (or “comprises”) means “including (or includes), but not limited to.”
In this document, when terms such as “first” and “second” are used to modify a noun, such use is simply intended to distinguish one item from another, and is not intended to require a sequential order unless specifically stated.
When used in this document, terms such as “top” and “bottom,” “upper” and “lower”, or “front” and “rear,” are not intended to have absolute orientations but are instead intended to describe relative positions of various components with respect to each other. For example, a first component may be an “upper” component and a second component may be a “lower” component when a device of which the components are a part is oriented in a first direction. The relative orientations of the components may be reversed, or the components may be on the same plane, if the orientation of the structure that contains the components is changed. The claims are intended to include all orientations of a device containing such components.
The frame 102 may have a generally semi-circular shape. For example, the frame 102 may have a rounded or curved top edge 108. In various embodiments, the frame may have catch mechanisms 110a-N located along the curved top edge 108. A catch mechanism 110a-N refers to a mechanism that is configured to stop the movement of a target arm (as described in more detail below). As illustrated in
A frame 102 may be configured to connect to one or more base members 112. A base member 112 may be used to position the frame 102 in a generally upright position. In certain embodiments, a frame 102 may be positioned such that it is angled relative to a base member. For example, the frame 102 may be positioned such that the angle between the frame and a base member 112 is between 60-90 degrees. By virtue of angling the frame 102, bullets that hit the targets may be deflected downward rather than outward.
A base member 112 may be configured to attach to a bottom portion of a frame 102. For example, as illustrated in
A target 104, 106 may be connected to a target arm 122, 124. A target refers to a portion of the shooting target assembly that a marksman aims to hit. A target may be of various sizes or shapes. For instance, a target may be round, square, rectangular and/or the like.
A target arm 122, 124 may have a first end 308 and a second end 306, as illustrated in
As illustrated in
When a target arm 122, 124 is attached to the frame 102, the second portion 302 is configured to extend outward from the frame 102 along an area of the upper edge 108 between two catch mechanisms 110a-N.
A third portion 304 may be attached to the second portion 302 at an angle such that the second portion 302 is generally parallel to the first portion 300 of the target arm 122, 124. The third portion 304 may be configured to attach to a rear portion of a target 104, 106 and may be configured to hold the target at a position generally above the top edge 108 of the frame 102. In various embodiments, the third portion 304 may be formed integrally with a target 104, 106. Alternatively, the third portion 304 may be removeably connected to a target 104, 106 via one or more fasteners such as, for example, brackets, screws, bolts and/or the like.
In various embodiments, a second end 306 of a target arm 122, 124 may be pivotally connected to a frame 102.
The spacer 516, 518 and the torsion spring 520, 522 may allow a target arm 122, 124 to pivot about the frame 102. For example, as described in more detail below, when a target 104, 106 is hit, the impact may release the target from a current catch mechanism 110a-N. Once beyond the catch mechanism 110a-N, and when a target arm 122, 124 is not engaged by one of the catch mechanisms, the torsion spring 520, 522 may cause a target arm to rotate and thereby move a target 104, 106 along the upper edge 108 of the frame 102 until the target arm engages the next catch mechanism (or bar as described in more detail below). Each new impact moves the target 104, 106 beyond the current catch mechanism 110a-N until the target reaches the final catch mechanism.
In an embodiment, one or more bars may be mounted to the rear side 107 of the frame 102 to assist in the movement of the target arms 122, 124. For example, referring back to
A first end 404 of a first bar 400 may be mounted to the frame 102 near a bottom corner of the rear side 107 of the frame. The second end 406 of the first bar 400 may be mounted to the frame 102 near a top center portion of the rear side 107 of the frame. The first bar 400 may have a generally curved shaped that corresponds to at least a portion of the top edge 108 of the frame 102.
Similarly, a first end 408 of a second bar 402 may be mounted to the frame 102 near a bottom corner of the rear side 107 of the frame that is opposite the corner where the first bar 400 is mounted. The second end 410 of the second bar 402 may be mounted to the frame 102 near a top center portion of the rear side 107 of the frame 102 in proximity to the second end 406 of the first bar 400.
The first bar 400 and the second bar 402 may serve to contain the movement of the target arms 122, 124 when their corresponding targets 104, 106 are hit. In addition, the second ends 404, 408 of the first and second bars (the ends mounted to the frame near a top center portion of the rear side of the frame) may serve to prevent the target arms 122, 124 from moving along the top edge 108 of the frame 102 beyond the second end.
As another example,
As another example,
Similarly, a first end 422 of a second bar 416 may be mounted to the frame 102 near a bottom corner of the rear side 107 of the frame that is opposite the corner where the first bar 414 is mounted. The second end 424 of the second bar 416 may be mounted to the frame 102 near a top center portion of the rear side 107 of the frame 102 in proximity to the second end 420 of the first bar 414.
The shooting target assembly 100 may be used as part of competitive shooting challenges between two marksmen. The shooting target assembly 100 may be configured at the beginning of the challenge such that one target 104, 106 is positioned near the bottom left side of the frame 102 and the other target 104, 106 is positioned near the bottom ride side of the frame. For example, one target arm 104, 106 may be positioned to engage a bottom-most catch mechanism on the left side of the frame 102, while the other target arm 104, 106 may be positioned to engage a bottom-most catch mechanism 110a-N on the right side of the frame. Each of the two marksmen may aim to hit only one of targets 104, 106. For example, one marksman may aim to hit the target 104, 106 on the left while the other marksman may aim to hit the target on the right.
When a marksman hits a target 104, 106, the impact pushes the target beyond the current catch mechanism 110a-N. The torsion spring 520, 522 moves the target 104, 106 along the upper edge 108 of the frame 102 to the next catch mechanism. This process is repeated until one marksman hits the target 104, 106 a sufficient number of times to move the corresponding target arm 122, 124 to the final catch mechanism 110a-N. A bar 400, 402 may then prevent the target arm 122, 124 from moving any further along the top edge 108 of the frame 102, even if the target is hit again. The marksman whose target 104, 106 reaches the top first wins.
The features and functions described above, as well as alternatives, may be combined into many other different systems or applications. Various alternatives, modifications, variations or improvements may be made by those skilled in the art, each of which is also intended to be encompassed by the disclosed embodiments.
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| Information about Related Patents and Patent Applications, see section 6 of the accompanying Information Disclosure Statement Letter, which concerns Related Patents and Patent Application. |
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