A novel hook assembly forms two hooks at the end of a single elastic length of wire which spreads the hooks elastically apart in a fish hooking posture. This hook forms the active mechanism of a weedless, self setting fishing lure, where the hooks are compressed for retention weedlessly within a hollow lure in one stable position and are released by a tug on the line from a fish bite to spring the hooks apart and set the hooks in the fish. The novel simplified weedless lure array employs a spring biassed dual-hook assembly and latch permitting the two hooks to be cocked into an elastically biased weed free bistable position inside the lure for automatic triggered release by a tug on the fishline to catch a striking fish by snapping the hooks into a second bistable position with the two hooks forced outside the lure into the fish's mouth.
A fishers lure comprises a body, at least one spine with a tip, a pivot pin about which each spine pivots, a trigger which serves to engage each spine, so when a fish takes the lure, the trigger is disengaged from each spine, permitting each spine to extend outward and engage the fish. The body serves as a shank of a hooking mechanism. The body and spine serve as the hooking mechanism with the tip of the spine forward of the pivot pin resulting in a relatively large hooking mechanism for a given size body.
A fishing lure assembly (10) includes a first hook (26A), a bias (30) that urges the first hook (26A) in a first direction, and a latch (32). The fishing lure assembly (10) can also include an oppositely configured second hook (26B) that is urged in a second direction. The latch (32) can selectively inhibit movement of the first and/or second hooks (26A, 26B). The latch (32) can be biased in a third direction that is perpendicular to the first and/or second direction. Pressure on a hook section (43) of the first and/or second hook (26A) can cause the latch (32) to move in the third direction to release the first and/or second hook (26A, 26B).
