A concave-type spinner blade and lure body assembly for use with fishing lures that generates mechanical energy to rotate the lure body to attract fish is provided herein. The spinner blade is connected to the lure body by a connector that freely rotates around the lure's spindle. The lure body is suspended from the lure spindle by a plurality of rotational elements that are housed within the lure body. The rotational mechanical energy causes the lure body to rotate thereby producing an effect that attracts fish. The present invention can be used with trolling or casting lures used in bays, rivers, lakes, oceans, and estuaries to catch a wide variety of fresh and saltwater fish.

A concave-type spinner blade and lure body assembly for use with fishing lures that generates mechanical energy to rotate the lure body to attract fish is provided herein. The spinner blade is connected to the lure body by a connector that freely rotates around the lure's spindle. The lure body is suspended from the lure spindle by a plurality of rotational elements that are housed within the lure body. The rotational mechanical energy causes the lure body to rotate thereby producing an effect that attracts fish. The present invention can be used with trolling or casting lures used in bays, rivers, lakes, oceans, and estuaries to catch a wide variety of fresh and saltwater fish.

A functional ornamentation manufactured from a stamped metal plate which is twisted by a specified number of degrees to result in a shape that allows for unique reactions to flowing fluids such as air and water. Due to the shape and twist of the device, the device will spin along with the flowing fluid or when pulled through that fluid, such that it retains a straight trajectory. In a preferred embodiment, such as part of a fishing lure, the ornamentation is connected to a ball bearing swivel which allows for near frictionless rotation. The lure when drawn through the water travels in a straight path, rather than an arced path of the prior art. This results in a more natural travel path producing greater flash and rotation for attacking fish.

A trolling spreader bar is configured with a central body and a plurality of fishing lures as an assembly to mimic a small school of fish, wherein each lure can have a keel. The keel is angled to urge the lure assembly continually to one side or the other from what would be the normal straight line of travel of a trolling vessel. By attaching an angled keel directly to the lure/spreader bar one is able to easily set lines behind the vessel at varying angles and distances which greatly increase the width of the full trolling lure spread. The spreader bar can further be configured to have a counterweight directly attached to it to provide increased stability to the bar during trolling.

A trolling spreader bar is configured with a central body and a plurality of fishing lures as an assembly to mimic a small school of fish, wherein each lure can have a keel. The keel is angled to urge the lure assembly continually to one side or the other from what would be the normal straight line of travel of a trolling vessel. By attaching an angled keel directly to the lure/spreader bar one is able to easily set lines behind the vessel at varying angles and distances which greatly increase the width of the full trolling lure spread. The spreader bar can further be configured to have a counterweight directly attached to it to provide increased stability to the bar during trolling.

Fishing lures are disclosed herein. One fishing lure, includes a body having a front portion and a back portion wherein the front and back portion are constructed and arranged such that at least one of the portions can move with respect to the other portion and an electromagnetic field generation system having a magnet and a coil of conductive wire wherein the wire has a contact at each end of the coil and wherein the magnet and the coil are separated from each other such that the magnet is located in either the front portion or back portion and the coil is located in the portion not containing the magnet.

Fishing lures are disclosed herein. One fishing lure, includes a body having a front portion and a back portion wherein the front and back portion are constructed and arranged such that at least one of the portions can move with respect to the other portion and an electromagnetic field generation system having a magnet and a coil of conductive wire wherein the wire has a contact at each end of the coil and wherein the magnet and the coil are separated from each other such that the magnet is located in either the front portion or back portion and the coil is located in the portion not containing the magnet.

A fishing lure includes a main body portion with a cavity provided inside of the main body portion; a plurality of elastic members with end portions attached to the main body portion; a swing member that swings and is attached to the elastic members and swings, wherein the swing member is visible from the outside of the main body portion and at least two points of the swing members are supported by the elastic members.

An improved topwater fishing lure with a rotating spinner element is disclosed that includes stabilizing fins along a rear tail portion to help balance the lure and prevent roll over and minimize other undesirable dynamics.

An improved topwater fishing lure with a rotating spinner element is disclosed that includes stabilizing fins along a rear tail portion to help balance the lure and prevent roll over and minimize other undesirable dynamics.