The present invention relates generally to fishing lures and systems and, more particularly, to crawler harnesses.
Trolling is a known method of fishing for walleye, lake trout, northern pike, and other species of fish. When trolling, a fisherman in a moving vessel places a fishing line and lure into the water such that the lure is configured to be presented to the fish at a desired depth. Lures vary in length, configuration, and effectiveness for use with different fish species and fishing conditions. Thus, a fisherman will often carry and use several different lures during a fishing expedition in an attempt to find the most optimal for the present conditions. However, lures, such as crawler harnesses and the like used in trolling, often become damaged and tangled between uses.
A storage device for a fishing lure includes a spool. The spool has a longitudinal axis that extends between a first end of the spool and a second end of the spool. A flange is disposed at the first end of the spool and extends radially from the spool at the first end. The flange includes a first side and a second side opposite the first side and separated from the first side by a thickness of the flange. A circumferential edge of the flange extends between the first side and the second side. A radially extending slot extends from the circumferential edge of the flange and toward the longitudinal axis of the spool. The flange has a hook receiving recess or hole or receiving portion that extends radially from the circumferential edge of the flange between the first side and the second side. The slot is configured to receive a leader line of a fishing lure so that a connecting element at a first end of the leader line is disposed at the first side of the flange. The spool is configured to receive a length of the leader line between the first end of the leader line received at the slot and a second end of the leader line opposite the first end so that the leader line is wrapped about the spool. When the connecting element is disposed at the first side of the flange and the leader line is wrapped about the spool, the recess or hole or receiving portion receives a hook at the second end of the leader line to secure the second end of the leader line relative to the spool.
Optionally, a storage system for a fishing lure includes the storage device that is configured to retain the fishing lure disposed thereat, and a mounting rack that includes a plate and a peg extending from the plate. When the storage device is stored at the mounting rack, the storage device is rotatably disposed along the peg of the mounting rack. A cylindrical passage extends through the spool and along the longitudinal axis between the first end and the second end of the spool, and the peg is received along the cylindrical passage to store the storage device at the mounting rack.
Optionally, a retention feature is disposed along the cylindrical passage. The peg may include a compressible protrusion that compresses as the peg is moved along the cylindrical passage and the compressible protrusion moves along the cylindrical passage toward the retention feature, and expands when the compressible protrusion is at the retention feature to secure the storage device along the peg.
These and other objects, advantages, purposes and features of the present invention will become apparent upon review of the following specification in conjunction with the drawings.
When trolling, a fisherman typically attaches a lure, such as a crawler harness or rig, to the end of a fishing line and presents the lure at a desired depth in water as the fisherman moves the lure through the water. These lures vary in length and include a variety of components and/or attachments intended to attract different species of fish and provide different functionality to the fisherman. Thus, the fisherman will typically carry and/or store several different lures and swap the lure attached to the end of the fishing line to optimize their chances of attracting and catching fish.
That is, lures used in trolling may vary greatly. As shown in
Attractors 18 and spacers 20 are used to entice or gain the attention of fish during the trolling process. Spacers 20 are primarily used to keep the attractors 18 away from the hooks 16 to prevent interference from the attractor 18 with the hook 16 and any bait being used. For example, the spacers 20 may include a series of beads or washers disposed along the leader 12 between the attractor 18 and the hook 16. The spacers 20 may also provide a similar function as the attractors by providing color, shape, and sometimes vibration.
The attractors 18 are colored and shaped to attract nearby fish. For example, attractors 18 attached along the leader 12 may include blades 18. The blade 18 spins as the lure moves through the water. The blade 18 may be attached to the leader 12 using a device called a clevis. The clevis is designed to retain the blade 18 and allows the blade 18 to rotate about the axis of the leader 12 without damaging the leader 12.
The length of different lures, from connecting element 14 to hook 16, may vary greatly. For example, a lure may be 3 inches, 12 inches, 36 inches, or 72 inches long or longer. In the illustrated embodiment, the first lure 10 includes a 36 inch long leader 12 and the second lure 11 includes a 72 inch long leader 12. Furthermore, lures may include different combinations, configurations, and numbers of attractors 18, spacers 20, and hooks 16 disposed along the leaders 12. Finding the best combination of color, shape, blade size, and other attractants necessitates changing lures frequently while fishing, having multiple lures on hand, and storage of the lures, such as on the fishing vessel or in a fishing tackle box.
As shown in
Thus, the storage device 100 includes a spool 102 configured so that the lure may wrap around the spool 102 when retained at the storage device 100. The spool 102 has a first end 102a and a second end 102b at an opposite end of the spool 102 from the first end 102a, where the body or outer surface 102c of the spool extends between the first and second ends. In the illustrated embodiment, the body 102c is tapered toward a central region of the spool to accommodate different length lures wrapped around the spool 102. In other words, the outer diameter of the spool 102 at the central region between the first end 102a and the second end 102b is less than the outer diameters of the spool at the first and second ends. A tapering or contoured profile extends between the respective first and second ends and the central region. The larger outer diameters at the first and second ends may be equal to one another or the outer diameter at one end may be larger than the outer diameter at the other end. Optionally, the body portion of the spool may comprise any suitable shape, such as a conical body or a cylindrical body with a generally uniform outer diameter between the ends of the spool.
A planar flange or rim 104 is disposed at and extends radially from the first end 102a of the spool 102, such as perpendicular to a longitudinal axis of the spool 102. The flange 104 includes a first or outer side or surface 104a that faces away from the spool body 102c. A second or inner side or surface 104b of the flange 104 that is opposite the first side 104a faces the body 102c and second end 102b of the spool and is spaced from the first side 104a of the flange 104 by a thickness of the flange 104. A circumferential side surface 104c of the flange 104 extends between the first side 104a and the second side 104b of the flange 104. The flange 104 has an outer diameter that is greater than an outer diameter of the spool 102 at the first end 102a. Thus, when the lure is wrapped around the spool 102, the flange 104 extends beyond the outer surface 102c of the spool 102 and prevents the lure from pulling off the spool 102 at the first end 102a.
In the illustrated embodiment, a smaller lip or rim 106 is disposed at and extends from the spool 102 at the second end 102b. That is, the lip 106 extending from the second end 102b of the spool 102 has a smaller outer diameter than the flange 104, but still has an at least slightly larger outer diameter than the spool 102 at the second end 102b to preclude the lure from pulling off the spool 102 at the second end 102b. Optionally, a second flange that is similarly configured to the flange 104 may be disposed at the second end 102b of the spool 102. The flanges may be attached at the respective ends of the spool or may be integrally formed with the spool, such as via a common plastic injection molding process or an additive manufacturing process (e.g., 3D printing).
As shown in
The retention slot 108 extends from the outer edge 104c of the flange toward the center of the storage device 100 and through the thickness of the flange 104, and is configured to retain the connecting element 14 at the retention slot 108 or first side 104a of the flange 104 while allowing the leader 12 to pass through the retention slot 108 to the second side 104b and spool 102. That is, the leader 12 may thread through the retention slot 108, with the width or dimension of the retention slot 108 preventing the equipment 14 from pulling through the retention slot 108. For example, and as shown in
As shown in
With the first end 12a of the lure anchored by the retention slot 108 and the length of the lure (fishing line or leader) wrapped around the spool 102, the second end 12b of the lure may be anchored to the storage device 100 by engaging one or more of the hooks 16 at the second end 12b of the lure with one or more respective hook captures 110 of the storage device 100. As shown in
That is, the hook capture 110 may be a hole at the outer edge of the storage device 100 that extends radially toward the longitudinal axis of the spool. The hook capture 110 may have any suitable shape and configuration, such as a circular, oval, or polygonal cross-section. Optionally, the hook capture 110 may be configured to engage and retain a barbed end of the hook, such as by providing a ballooned recess. That is, the inner diameter or perimeter dimension of the hook capture may be greater than the diameter or perimeter dimension at the opening of the hook capture 110. The hook captures are evenly spaced from one another to allow for a variety of different leader lengths. Furthermore, the hook capture 110 acts as a point of termination for the fishing hook 16 to protect the user from the sharp hook and to prevent entanglement of the hook 16 with the rest of the lure or other lures at the storage device or other nearby storage devices. Because of the tapered shape of the spool body 102c, the lure may move along the length of the spool 102 to accommodate different positions of the hook 16 about the circumferential edge 104c of the flange 104.
As shown in
Optionally, and such as shown in
With the retention feature 114 disposed along the passage 112, the storage device 100 may be retained at the mounting rack 21 via a shorter pin or peg 23. For example, the pin or peg 23 may extend a distance from the mounting rack 21 that is less than a length of the passage 112 such that the peg 23 does not extend out of the end of the passage 112 distal from the mounting rack 21. In such an example, the peg 23 may include an engagement feature 23a configured to engage the retention feature 114 to secure the storage device 100 along the peg 23 and to the mounting rack 21. For example, and such as shown in
Thus, with the spool retained at the peg 23 and mounting rack 21 via the peg and compressible protrusion, the spool is allowed to spin or rotate about the peg (with the protrusion moving along the recess 114, and the spool is precluded from moving along the peg. In other words, the spool recess is designed to bi-directionally retain the spool in place. When the spool is in place, it is still allowed to freely rotate while being retained at the mounting rack.
Optionally, the passage 112 may not extend the entire length of the storage device 100, such that an opening is only formed at one of the first end 102a or the second end 102b. Including the retention feature 114, and optionally utilizing a peg with an engagement feature, ensures that the storage device 100 is retained along the peg 23 and at the mounting rack or plate or rod without requiring the peg to extend fully through the storage device 100.
The peg may be integrally formed with the mounting rack 21 or the peg may be fastened to the mounting rack 21, such as via a threaded portion of the peg received in a correspondingly threaded receiver of the mounting rack 21. As shown in
Optionally, and such as shown in
Thus, the storage device 100 includes a concave, tapered spool 102 having a circular and planar flange 104 extending from a first end of the spool 102. The flange 104 includes a retention slot 108 formed through the flange along a circumferential edge 104c of the flange and a plurality of hook capture holes or slots 110 about the edge 104c of the flange. The first end 12a of the lure may be anchored at the retention slot 108 and the leader or length of the lure is wrapped around the spool 102 of the storage device (such as by rotating the storage device about a post of a mounting rack). With the lure wrapped around the spool 102, the one or more hooks 16 of the lure may be engaged with the one or more hook captures 110 to secure the second end 12b of the lure to the storage device 100. The storage device 100 may store one or more lures about the same spool, or each storage device may be configured to receive only one lure. Thus, the lures may be stored (such as at a mounting rack or in a tackle box) with reduced risk of tangling or damaging the lures.
Changes and modifications in the specifically described embodiments can be carried out without departing from the principles of the invention, which is intended to be limited only by the scope of the appended claims, as interpreted according to the principles of patent law including the doctrine of equivalents.
The present application claims the filing benefits of U.S. provisional application Ser. No. 63/376,478, filed Sep. 21, 2022, which is hereby incorporated herein by reference in its entirety.
Number | Date | Country | |
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63376478 | Sep 2022 | US |