A spinner bait lure includes a wire harness having a line eye. A fishing hook is coupled to the wire harness. A spinner blade is rotatably coupled to the wire harness. A bead is rotatably coupled to the wire harness. Retrieval of the spinner bait lure through a water body causes the spinner blade and the bead to rotate. The spinner blade and the bead rotate about a common axis of rotation and a path of rotation of the bead intersects with the spinner blade. Therefore, the bead knocks into the spinner blade, causing deflection and noise.

A spinner bait lure includes a wire harness having a line eye. A fishing hook is coupled to the wire harness. A spinner blade is rotatably coupled to the wire harness. A bead is rotatably coupled to the wire harness. Retrieval of the spinner bait lure through a water body causes the spinner blade and the bead to rotate. The spinner blade and the bead rotate about a common axis of rotation and a path of rotation of the bead intersects with the spinner blade. Therefore, the bead knocks into the spinner blade, causing deflection and noise.

A sidetracker includes a body including a first fin and a second fin spaced apart from the first fin. The first and second fins are coupled to the body. The first and second fins are configured to control a vertical position of the body in water through which the body is moving. A channel is formed in the body. The channel includes a first groove and a second groove. The first and second grooves cross each other. A wing is positioned in the channel. The wing is detachably coupled to the body. The wing is configured to rotate between the first groove and the second groove. The wing is configured to control a lateral position of the body in water through which the body is moving.

A sidetracker includes a body including a first fin and a second fin spaced apart from the first fin. The first and second fins are coupled to the body. The first and second fins are configured to control a vertical position of the body in water through which the body is moving. A channel is formed in the body. The channel includes a first groove and a second groove. The first and second grooves cross each other. A wing is positioned in the channel. The wing is detachably coupled to the body. The wing is configured to rotate between the first groove and the second groove. The wing is configured to control a lateral position of the body in water through which the body is moving.

In some embodiments, a magnifier defines a longitudinal axis A. The magnifier includes an arm with a distal end and a proximal end. A magnifying pane is located at the distal end and an engagement member is located at the proximal end. In various embodiments, the arm includes a distal segment, a mid segment, and a proximal segment. The distal segment is generally linear having a length L1 projected onto the longitudinal axis and is angled about 45 degrees relative to the longitudinal axis A. The mid segment is generally concave having a length L2 projected onto the longitudinal axis A. The proximal segment that is curved having a length L3 projected onto the longitudinal axis A and is convergent relative to the longitudinal axis A.

An artificial bait having a housing in the shape of an insect or animal, a power source arranged in the housing, a controller arranged in the housing, a hook. The housing including shape memory alloy (SMA) in the form of one or more SMA wires, which are operatively arranged with one or more spring wires to cause one or more body parts of the housing to move.

A spinning blade mechanism for fishing bait includes a spinner that is rotationally carried on a sleeve cone. The sleeve cone has in interior cavity that is dimensioned to carry a head of a fishing bait. When the fishing bait is a bait fish, the sleeve cone prevents the deterioration of the bait fish as it is trolled through the water. The spinner provides a fish attracting vibration to attract game fish to the lure.

A method of manufacturing a fishing jig hook allows a user to create a custom fishing jig hook that attracts fish. A user can attract specific fish by using jigs that mimic the appearances of the smaller bait fish that the target fish usually consumes. The fishing jig produced is reusable, thus reducing waste due to extended periods of fishing. Further, the fishing jig is bent to provide a hydrodynamic shape. The formed apparatus provides a malleable disk, a fishing jig hook, a metal-cutting tool, a folding rod, a ruler, a marker, a metal-puncturing tool, and at least one ornament. These tools include the necessary jig lure material required as well as the tools needed to subsequently shape that material.

A method of manufacturing a fishing jig hook allows a user to create a custom fishing jig hook that attracts fish. A user can attract specific fish by using jigs that mimic the appearances of the smaller bait fish that the target fish usually consumes. The fishing jig produced is reusable, thus reducing waste due to extended periods of fishing. Further, the fishing jig is bent to provide a hydrodynamic shape. The formed apparatus provides a malleable disk, a fishing jig hook, a metal-cutting tool, a folding rod, a ruler, a marker, a metal-puncturing tool, and at least one ornament. These tools include the necessary jig lure material required as well as the tools needed to subsequently shape that material.

A sidetracker includes a body including a first fin and a second fin spaced apart from the first fin. The first and second fins are coupled to the body. The first and second fins are configured to control a vertical position of the body in water through which the body is moving. A channel is formed in the body. The channel includes a first groove and a second groove. The first and second grooves cross each other. A wing is positioned in the channel. The wing is detachably coupled to the body. The wing is configured to rotate between the first groove and the second groove. The wing is configured to control a lateral position of the body in water through which the body is moving.