Top water and deep diving fishing lures have been around for many years. The improvement on them is placing a tiny motor inside the lure with a barbed shaft extending out the back that is used to push on a molded soft rubber tail that spins, splashes the water and pulls the lure backwards towards the casted hot spot area as it is powered by a tiny solar panel, (But not limited to) as it can be powered by a battery. The improvement is the molded soft rubber tail thats connected to the tiny solar panel motor or battery causing it to spin, splash the water and pull the lure backwards, keeping it in that casted hot spot area like something stuck on the water and trying to get out by swimming to safety with that SwimSplash action.

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 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 fishing attractor that communicates through a fish's electroreceptor lateral line that is used in water to attract nearby fish by appealing to the fish's six senses. The fishing attractor includes a wire shaft, a copper bead, a propeller having one or more blades and a central portion with a first magnet inside and a second magnet arranged in reverse polarity to the first magnet. Embodiments include a fishing attractor that when moved, the blades of the propeller begin to rotate and the copper bead and propeller move in a linear motion as well causing the first magnet to rotate and move up and down along the wire shaft, producing an electric potential pulse from the electromagnetic field created by the first and second magnets in opposing relation and from exciting electrons in the wire.

A fishing attractor that communicates through a fish's electroreceptor lateral line that is used in water to attract nearby fish by appealing to the fish's six senses. The fishing attractor includes a wire shaft, a copper bead, a propeller having one or more blades and a central portion with a first magnet inside and a second magnet arranged in reverse polarity to the first magnet. Embodiments include a fishing attractor that when moved, the blades of the propeller begin to rotate and the copper bead and propeller move in a linear motion as well causing the first magnet to rotate and move up and down along the wire shaft, producing an electric potential pulse from the electromagnetic field created by the first and second magnets in opposing relation and from exciting electrons in the wire.

A fishing lure device that produces an increased amount of energy imparted on attached fish-attracting devices by incorporating gears for rotating parts attached to the fish-attracting devices. The fishing lure device can include a first and second gear interacting with one another at a predetermined gear ratio for creating a desired rotation of the fish-attracting devices.

A fishing lure device that produces an increased amount of energy imparted on attached fish-attracting devices by incorporating gears for rotating parts attached to the fish-attracting devices. The fishing lure device can include a first and second gear interacting with one another at a predetermined gear ratio for creating a desired rotation of the fish-attracting devices.

A clevis body adapted to support one or a pair of spinner blades in combination on a filamentary support to produce a periodic cyclical counter rotation of the clevis and spinner blade assemblies when directed through water. A bore at a longitudinal core receives the filamentary support. At least one cross arm laterally radiates from the core and mounts to at least one spinner blade support arm that extends parallel to the core. One or a pair of spinner blades mounted to the longitudinal support arm(s) periodically and cyclically counter rotate the assembly about the filamentary support. The hydrodynamic movement of the clevis body and attached blades particularly induce the assembly to cyclically and periodically change back and forth between clockwise and counter-clockwise rotation directions.

A clevis body adapted to support one or a pair of spinner blades in combination on a filamentary support to produce a periodic cyclical counter rotation of the clevis and spinner blade assemblies when directed through water. A bore at a longitudinal core receives the filamentary support. At least one cross arm laterally radiates from the core and mounts to at least one spinner blade support arm that extends parallel to the core. One or a pair of spinner blades mounted to the longitudinal support arm(s) periodically and cyclically counter rotate the assembly about the filamentary support. The hydrodynamic movement of the clevis body and attached blades particularly induce the assembly to cyclically and periodically change back and forth between clockwise and counter-clockwise rotation directions.

Generally, the invention disclosed herein relates to articles for catching and capturing fish. Embodiments of this invention may be used as baits to attract fish and entice them to take a hook. Optionally, the hook may be embedded inor otherwise attached tothe bait. Examples of this invention may be designed to resemble the appearance of naturally occurring fish species and may exhibit realistic or exaggerated movement when traveling through water. Some embodiments comprise tail portions designed to flutter by simultaneously moving along two axes of rotation. Fluttering may comprise lateralside-to-sidemotion along a vertical axis extending from the tail neck and rotational displacement along a horizontal axis extending from the center of the tail portion.