Flying Tail Cuff

Abstract

Fishermen use gaffs to spear, hold and land large fish. This is dangerous when done from a boat and always kills the fish. A gaff consists of a u-shaped steel bar (shank) with one end attached to a pole and the opposite end containing a sharp point. The invention, similar to existing gaffs, but designed to hold a fish without harming it, has a blunt end, rather than a point. Instead of spearing fish, it uses two steel, spring activated, one-way gates, that span the opening between the sides of the shank. They open and then close when pulled or pushed across the part of the fish's body to which the tail attaches, making it impossible for the fish to pull its tail free from the space between the closed gates and the curve in the bend of the shank. The fish is then held without harm.

Claims

1. A tool designed to capture and secure a large fish without seriously injuring the fish or injury to the fisherman, comprising: (a) a Pole of varying materials, diameters and lengths; (b) a round, hollow, steel, Quick Release Snap Fitting that is secured to the end of the Pole; (c) a steel rod or Shank of varying diameters and lengths that attaches to and fits into the opening in the Pole and that has been machined-out and drilled-out to permit two steel bars and Helical Torsion Springs to be strategically attached; (d) two (2) slots machined into the long end of the Shank into which two (2) O-Rings are inserted to permit the Shank to fit snugly into the Quick Release Snap Fitting on the Pole and then later to be pulled free by exerting pressure against the Pole; (e) a U-shaped Bend in the Shank that turns the Shank in a one hundred and eighty degree) (180 direction; (f) a space known as a Gap created by the Bend in the Shank; (g) two (2) steel bars called Capture Gates, that can swing open across the Gap in only one direction and that are attached to each side of the Shank with Helical Torsion Spring Clips, nuts, bolts and washers; (h) two (2) Helical Torsion Springs, bolted within the Capture Gates, one to each side of the Shank, to actuate and control the opening and closing of the gates; (i) two (2) steel nuts and bolts with steel washers that secure the Capture Gates and Helical Torsion Springs to opposite sides of the Shank; (j) a Steel Ring to which a Rope is attached; (k) a Rope attached to the Steel Ring and running along the length of the Pole; WHEREIN a crewman on a fishing boat can position the invention with the Gap end of the invention just past the narrow part of the fish's body (known as the caudal peduncle) to which the tail attaches and at the appropriate moment pull the Pole toward himself, causing the caudal peduncle to push open and move past the Capture Gates and into the Capture Space (Gap). Once the caudal peduncle passes the Capture Gates the Capture Gates spring closed. The design of the Capture Gates prohibits them from moving in a direction opposite from the direction they swing open, leaving them in a closed position across the Gap. As a result, the fish's tail is trapped in the Capture Space (Gap) formed by the closed Capture Gates and the Bend in the Shank, making it impossible for the fish to pull its forked tail free of the invention. The pulling action on the Pole by the crewman, as well as the thrashing of the fish's tail, will cause both the Shank and the Rope to pull free from the Pole. The crewman can then toss the Pole aside and grasp the Rope to hold onto and subdue the fish in preparation for its release or bringing aboard the boat.

2. The tool as recited in claim 1, including and further comprising: (a) a Pole of varying materials, diameters and lengths; (b) a round, hollow, steel, Quick Release Snap fitting that is secured to the end of the Pole; (c) an opening in the end of the Pole that can both hold and release a steel rod; (d) a steel rod or Shank of varying diameters and lengths containing a U-shaped Bend in the Shank that turns the Shank in a one hundred and eighty degree) (180 direction; (e) two (2) slots machined into the long end of the Shank into which two (2) O-Rings are inserted to permit the Shank to fit snugly into the Quick Release Snap Fitting on the Pole and then later to be pulled free by exerting pressure against the Pole. (f) a space known as a Gap created by the Bend in the Shank; (g) two (2) steel bars called Capture Gates, that can swing open across the Gap in only one direction and that are attached to each side of the Shank with Helical Torsion Spring Clips, nuts, bolts and washers; (h) two (2) Helical Torsion Springs, bolted within the Capture Gates, one to each side of the Shank, to actuate and control the opening and closing of the Capture Gates; (i) two (2) steel nuts, bolts with steel washers that secure the Capture Gates and spring clips to opposite sides of the Shank; (j) a steel Ring to which a Rope is attached; (k) a Rope attached to the Steel Ring and running along the length of the Pole; WHEREIN, rather than one end of the Shank being attached to the Pole as recited in claim 1, a round Steel Bar is welded at the apex of the Bend in the Shank. The end of this Steel Bar is designed and machined so as to fit into the opening in the Pole in the same fashion as recited for the Shank in claim 1, thereby creating a Gap in the Shank whose opening faces away from the Pole rather than toward the Pole as recited in claim 1 (Photo 7). When attempting to capture a fish the crewman positions the invention with the Gap end of the invention in front of the fish's caudal peduncle rather than behind the fish's caudal peduncle as recited in claim 1. At the appropriate moment, the Pole is then pushed away from the crewman, rather than being pulled as recited in claim 1, which causes the caudal peduncle to push open and move past the Capture Gates and into the Capture Space (Gap). Once the caudal peduncle passes the Capture Gates the Capture Gates spring closed. As recited in claim 1, the design of the Capture Gates prohibits them from moving in a direction opposite from the direction they swing open, leaving them in a closed position across the Gap. As a result, the fish's tail is trapped in the Gap formed by the closed Capture Gates and the Bend in the Shank, making it impossible for the fish to pull its forked tail free of the invention. The pull then asserted by the fish trying to escape from the invention causes both the Shank and the Rope to pull free from the Pole. The crewman can then toss the Pole aside and grasp the Rope to hold onto and subdue the fish in preparation for its either release or bring aboard the boat.

Description

DESCRIPTION OF THE INVENTION

[0021] The present invention has been designed as a tool through which a fisherman can catch, subdue and then release a fish that has been brought to the side of a boat in a way that prevents serious injury or death to both the fish and crewmen on the boat.

[0022] The present invention also provides a safe method of grasping and holding onto the tail of a large game fish without exposing crewmen to the dangers they presently encounter when lassoing a game fish's tail.

[0023] The invention consists of:

[0024] (a) a Pole of from six (6) feet to ten (10) feet in length (No. 1 in Photos 1 and 7);

[0025] (b) a round, hollow, steel, Quick Release Snap fitting that is secured to the end of the Pole (No. 2 in Photos 1 and 7);

[0026] (c) a steel rod or Shank containing a Bend in the Shank that turns the end of the Shank in a one hundred and eighty degree) (180 direction (No. 3 in Photos 1, 2, 4, 5 and 7), the long end of which contains two (2) machined slots into which two O-Rings have been inserted which permit the Shank to be inserted snugly into the Quick Release Snap Fitting and later pulled free by exerting pressure against the Pole. (No. 4 in Photos 2, 4, 5 and);

[0027] (d) a Steel Ring, welded to the Shank (No. 5 in Photos 1, 2, 4, 5, 6 and 7), to which a Rope (No. 6 in Photos 1 and 6) is attached by way of a Locking Carabiner or similar clip (No. 7 in Photos 1 and 6);

[0028] (e) two (2) steel bars called Capture Gates (No. 8 in Photos 1, 2, 4, 5, 6 and 7), actuated by two (2) Helical Torsion Springs (No. 9 in Photo 3), showing a single torsion spring), are bolted to each side of the Shank using common bolts, locknuts and washers (No. 10 in Photos 1, 2, 3, 4, 5 and 7).

[0029] The Capture Gates cross the Gap formed by the bent Shank (No. 11 in Photos 1, 2, 4, 5 and 7). At the point where each of the Capture Gates are attached the Shank the Shank has been machined-out and drilled-out to hold each Helical Torsion Spring, as well as the bolts that attach the Capture Gates and the Helical Torsion Springs to the Shank (No. 12 in Photos 3 and 5).

[0030] The Helical Torsion Springs (No. 9 in Photo 3) are held in place by the nuts and bolts (No. 10 in Photos 1, 2, 3, 4, 5 and 7). Their action as springs is controlled by positioning one end of each spring against the inside wall of the machined-out Shank and the other end against the inside bottom of the Capture Gates (No. 13 in Photo 3).

[0031] The Capture Gates consist of two U-Channel bars that have been machined and positioned on the Shank in such a way as to permit the open sides of each U-Channel bar to fit around the width of the Shank when the Capture Gates are in a fully open position (No. 14 in Photo 5).

[0032] The outer end of the bottom of each U-Channel bar has been cut away to a length that permits each capture gate to be bolted to each side of the Shank (No. 12 in Photos 3 and 5), so they are capable of springing open (see partially open gates, No. 8 in Photo 4), but yet stopping in a closed position, when they are perpendicular to and across the Gap when the Capture Gates are in the fully closed position (No. 8 in Photos 1, 2, 6, and 7).

[0033] The Capture Gates are designed and bolted in place so as to permit them to spring open toward the Bend in the Shank when the Capture Gates are pulled across the narrow part of the fish's body to which the tail (the caudal peduncle) attaches (No. 15 in Photo 6).

[0034] When attempting to capture a fish the crewman positions the invention with the Gap end of the invention just past the fish's caudal peduncle. At the appropriate moment, the Pole is then pulled toward the crewman which causes the caudal peduncle to push open and move past the Capture Gates. Once the caudal peduncle passes the Capture Gates the Helical Torsion Springs on the Capture Gates cause the Capture Gates to spring closed in a position perpendicular to the Gap. As a result, the fish's tail is trapped between the closed Capture Gates and the Bend in the Shank (the Capture Space) (No. 16 in Photo 6), making it impossible for the fish to pull its forked tail (No. 17 in Photo 6) free of the invention. The pulling action on the Pole by the crewman, as well as the thrashing of the fish's tail, will cause both the Shank and the rope to pull free from the Pole. The crewman can then throw the Pole aside and grasp the rope to hold onto the fish.