Keeling bend fly hook

A fly hook includes a shank with first and second ends. A first end portion of a keel bend extends from the second end of the shank at a predetermined angle from the axis of the shank to place an intermediate portion of bend to one side of axis of shank. A second end portion of the bend terminates in a rolled-out point which is bent away from the shank. The outer edge of the point is co-radially disposed with the first end portion of the bend. The barb is disposed opposite from the outer edge of the point and faces the shank. A hollow flexible body is secured at opposite ends to the shank and has a rigid V-shaped insert disposed therein. The insert has a shape to expand the body to an overall shape simulating a natural bait fish. The body and rigid insert extend from the shank in the same direction as the first end portion and the intermediate portion of the bend.

CROSS REFERENCE TO RELATED APPLICATION 
This application discloses subject matter similar to that disclosed in 
pending U.S. Pat. application Ser. No. 08/138,147 filed on Oct. 15, 1993 
in the name of Thomas A. Hnizdor and entitled "KEELING BEND FLY HOOK" now 
U.S. Pat. No. 5,440,832 issued Aug. 15, 1995. 
BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention relates, in general, to fishhooks and, more 
particularly, to fly hooks. 
2. Description of the Art 
Hundreds of fishhooks of many different sizes and shapes have been devised 
for specific purposes. Hook shape can vary in a number of different 
features or parts including, gap size, point type, bend shape and bend 
offset, to name a few, depending upon the type of fish being sought, 
fishing conditions, or the type of fishing, i.e., bait or fly fishing. 
Bait hooks with a rolled-in point wherein the point is bent toward the 
shank have been recognized as being without peer for bait fishing, 
McClane's NEW STANDARD FISHING ENCYCLOPEDIA, and INTERNATIONAL ANGLING 
GUIDE, second edition (1974) page 469. This is probably due to the 
increased bait retention provided by such a hook shape. However, such 
rolled-in points have not previously been used on fly hooks since a slight 
bent out point is considered to be desirable for small flies, see 
McClane's, page 469, supra. Indeed, a catalog of fishhooks provided by 
Mustad, a major fishhook manufacturer, is completely devoid of any 
rolled-in point on a hook devised specifically for fly fishing. 
Fly hooks have a tendency to ride hook point down in the water with the 
hook point located below the shank due to the weight of the bend and point 
portion of the hook. A large number of fishing flies have a floatation 
member mounted on the shank of the hook. This floatation member also 
causes the hook to ride in a downward facing position below the shank when 
the hook is cast into the water or drawn toward the fisherman. Such a hook 
down position makes hooking fish that have downward facing mouths quite 
difficult. Thus, many anglers, and in particular, salt water anglers, 
would prefer the flies to ride in a hook up position. 
Keel hooks, as shown in FIG. 1, have a step shank with a straight point 
which is parallel to the shank. Such keel hooks are usually snagless since 
the point rides upward due to the weight of the keel or bend portion of 
the shank. However, such keel hooks have a relatively short shank due to 
the step which places a major portion of the length of the shank in the 
keel portion of the hook. Present day keel hooks teach the use of heavy, 
or weighted materials on the step shank portion of the hook to cause the 
hook to invert and ride in a point up position, as taught by McClane's, 
page 509, supra. However, any floatation or buoyant material mounted on 
the step shank of a present day keel hook would cause the bend and shank 
portion of the hook to be heavier than the floating portion of the fly 
thereby revolving the body until the heaviest portions are in the 
lowermost position. This places the hook in the undesired downward 
position. 
In order to provide the more desirable hook point up feature, fly tiers and 
fly anglers have been known to tie lead eyes below the shank of the hook 
with the hook in a point up position. Gravity causes the lead eyes to 
invert the hook to a desired point up position when fishing. Other fly 
materials consisting of a body and wings are tied on the top of the hook 
shank with the bulk of such materials helping to turn the fly over to the 
hook point up position. While tying a fly in this manner is an effective 
means of making the fly ride in a hook point up orientation, the 
additional materials create an undesirable affect due to the weight which 
becomes more evident when fly casting. The less a fly weighs, the better 
it is for casting. Adding lead eyes to the fly makes the fly dangerous and 
uncomfortable to cast and, further, causes the fly to be cumbersome at the 
generation of the backcast. 
Many salt water flies are tied in tandem with two spaced hooks 
interconnected by a steel cable extending from the end of the shank of one 
hook to the beginning of the shank of the second or rearmost hook. The 
frontmost hook is generally one size larger than the rear hook and, being 
much heavier and larger than the rear hook, acts as a keel to turn the fly 
over in the water when the rear hook is joined in the point up position to 
the front hook. 
Thus, it would be desirable to provide a fly hook which rides point up when 
drawn through the water. It would also be desirable to provide a fly hook 
which easily accepts an attractor body simulating a shad. Finally, it 
would be desirable to provide a fly hook having the above-described 
features which provides excellent fish hooking penetration and retention 
capabilities. 
SUMMARY OF THE INVENTION 
The present invention is a fly fishing hook which includes unique features 
previously unknown in fly hooks. The fly hook includes a shank having 
first and second ends, with an eye being formed at the first end. A bend 
arcuately extends from the second end of the shank and has at least first 
and second end portions and an intermediate portion. The first end portion 
of the bend is disposed at a predetermined angle from the axis of the 
shank to offset the intermediate portion to one side of the shank. A point 
is formed on the end of the second end portion of the bend and is rolled 
outward from the shank. The outer edge of the point has an arcuate shape 
disposed co-radially or concentrically with the first end portion of the 
bend. A barb is formed opposite from the point end has an outer edge 
facing the shank. 
The keeling bend fly hook of the present invention includes an intermediate 
bend portion offset from the axis of the shank to create a keel action 
which ensures that the point of the hook rides in an upward position 
during reeling in of the hook. This presents the point in an ideal 
position for increased hook penetration. Further, the rolled-out point and 
the co-radial or concentric disposition of the point and the first end 
portion of the bend provides a large gap for easier penetration. 
Further, the spear arrangement with the point rolled-out and the barb on 
the inside of the bend maximizes penetration and hook holding power as the 
point and the barb are imbedded in a fish in opposite directions. 
In an alternate embodiment, usable with the keeling bend fly hook described 
above, a tubular, flexible body is mounted about the shank of the hook. An 
inverted, V-shaped, rigid insert is mounted within the body and over the 
shank of the hook. The insert has two depending legs having an exterior 
edge shape simulating the exterior shape of a shad-type bait fish. The 
legs expand the body to the same shape as the legs. 
The tubular body may be provided in different attractor colors and, 
preferably, is formed of a translucent material. The insert is formed of a 
transparent material such that the combined tubular member and insert have 
a translucent appearance similar to that of a small bait fish. 
When the tubular member and insert are employed on the keeling bend 
fishhook of the present invention, the legs of the V-shaped insert depend 
from one side of the shank, in the same direction as the first end portion 
and the intermediate portion of the bend portion of the hook. This places 
the tubular member in front of the keel portion of the hook so as not to 
interfere with the point which is disposed on the other side of the shank.

DESCRIPTION OF THE PREFERRED EMBODIMENTS 
Referring now to the drawing, and to FIG. 2, there is depicted a keeling 
bend fly hook constructed in accordance of the teachings of one embodiment 
of the present invention. The hook 10 may be formed of any suitable hook 
material, such as stainless steel, etc. Further, the hook 10, while being 
shown in a relatively large size in FIG. 2, may also be provided in other 
sizes, either smaller or larger than that depicted in FIG. 2. 
The hook 10 includes an eye 14. The eye 14 may have any typical eye shape, 
such as ball, tapered looped, needle, brazed or flattened. In addition, 
the eye 14 may be provided in a number of different positions with respect 
to a shank 16, such as a ringed eye, a turned down eye or a turned up eye. 
The shank 16 of the hook 10 has a first end 18 joined to and extending from 
the eye 14. The shank 16 and the eye 14 may be integrally formed as a 
continuous, unitary part of the hook 10. The shank 16 is linear or 
straight between the first end 18 and an opposed second end 20. The length 
of the shank 16 between the first and second ends 18 and 20, respectively, 
may be provided in any suitable length. However, it is preferred that the 
length of the shank 16 have a sufficient length so as to easily receive an 
attractor body or mass of buoyant material thereon, as described 
hereafter. 
The hook 10 includes a bend 22 which extends continuously and preferably 
arcuately from the second end 20 of the shank 16. The bend 22 includes a 
first end bend portion 24 extending from the second end 20 of the shank 
16, an intermediate bend portion 26, and a second end bend portion 28 
which terminates in a point shown generally by reference number 50. 
According to a first embodiment of the present invention, the first end 
bend portion 24 is bent at a predetermined angle from the axis of the 
shank 16. In a preferred example, which is described as exemplary only, 
and not by way of limitation, the first end portion 24 of the bend 22, 
and, in particular, a chord line extending through the opposite ends of 
the first end portion 24 is disposed at an angle of approximately 
33.degree. from the axis of the shank 16. The first end portion 24 curves 
smoothly into the intermediate bend portion 26. Due to the angular 
disposition of the first end portion 24 of the bend 22 from the axis of 
the shank 16, the first end portion 24 and the intermediate portion 26 of 
the bend 22 are disposed offset to one side of the axis of the shank 16. 
This provide a keel shape, similar to the prior art keel hook shown in 
FIG. 1, which provides weight to one side of the shank 16 so as to dispose 
the point 50 of the hook 10 in an upward position during use of the hook 
10, as described hereafter. 
The second end portion 28 of the bend 22 extends continuously from the 
intermediate portion 26 of the bend 22. The point 50 is formed at the end 
of the second end portion 28. In the first embodiment shown in FIG. 2, the 
point 50 is formed as a rolled-out or bent-out point in which the tip 52 
of the point 50 is bent out away from the shank 16. 
Further, according to the present invention, the so-called "spear" portion 
of the hook which includes the point 50, a barb 54, and the second end 
portion 28 of the bend 22 is further bent-out from the shank 16. 
Preferably, the spear portion of the hook 10 is bent outward from the 
shank 16 until the spear portion including the second end portion 28 and 
the point 50 approaches a substantially parallel position with respect to 
the first end portion 24 of the bend 22. In this position, chord lines 
extending through each of the first and second end portions 24 and 28 are 
substantially parallel. This provides a sufficiently open gap for 
excellent raking penetration of the point 50 and hook retention. 
The hook 10 may be fully dressed as a fly by mounting buoyant material, not 
shown, about the shank 16. The buoyant material may preferably be provided 
in an aerodynamic-shaped body formed of a suitable buoyant material, such 
as cork, STYROFOAM, etc. Feathers may be tied to the second end 20 of the 
shank 16 and extend outward therefrom around the hook 10. Preferably, the 
entire bend 22 in the hook 10 extends outward from the buoyant material or 
body. 
Further details concerning the construction and mounting of the buoyant 
body on the shank 16 can be had by referring to U.S. Pat. No. 5,394,637, 
the contents of which are incorporated herein by reference. 
The barb 54, which is formed on the second end bend portion 28 adjacent to 
the tip 52, extends exteriorly outward from the bend 22 away from the 
shank 16. This exterior or outward facing barb 54 provides increased 
holding power when a fish is hooked by the fly 10. 
Referring now to FIG. 3, there is depicted another embodiment of the 
keeling bend fly hook 60 of the present invention. In this embodiment, the 
hook 60 is formed with an eye 64 and a shank 66 having a first end 68 and 
an opposed second end 70, as described above and shown in FIG. 2. 
In this embodiment the fly hook 60 includes a keeling bend 72 formed of a 
first end portion 74 integrally joined to and extending from the second 
end 70 of the shank 66, an intermediate bend portion extending from one 
end of the first end portion 74 and a second end portion 78 extending from 
the intermediate portion 76. 
A spear at the end of the second end portion 78 of the bend 72 includes a 
point 80 terminating in a tip 82. The point 80 is rolled-out or bent-out 
from the longitudinal axis of the shank 66. 
According to a unique aspect of this embodiment the second end portion 78 
of the bend 72 curves smoothly back toward the second end 70 of the shank 
66. Further, the outer edge of the point 80 facing away from the shank 66 
has an arcuate shape. The first end portion 74 of the bend 72 also has an 
arcuate shape. Preferably, the outer edge of the point 80 and the first 
end portion 74 of the bend 72 are disposed co-radially or concentrically 
with respect to each other from a common center, as shown in FIG. 3. This 
provides a large open gap for excellent hook penetration. 
Further, a barb 84 is formed on the inside portion of the spear facing the 
shank 66. This places the barb 84 opposite from the outer edge of the 
point 80 so as to increase penetration and hook retention since the point 
80 and the barb 84 will be imbedded in opposite directions in a hooked 
fish. 
Further, the keeling bend arrangement of the hook 60 causes the point 80 to 
ride point up as the hook 60 is reeled in through the water. This places 
the point 80 in an ideal position for penetration and hooking of a fish. 
Another aspect of the present invention is shown in FIGS. 4, 5 and 6. As 
shown therein, a hollow body 90 preferably formed of a translucent, 
flexible material, such as Mylar, has an initial, tubular shape as shown 
in FIG. 5. The tubular body 90 may be provided in a number of different 
colors, including colors with iridescent tints. 
As shown in FIG. 5, the tubular body 90 is initially disposed over the 
shank 66 of the hook 60. One end of the body 90 is closingly secured to 
the second end 70 of the shank 66 by suitable means, such as by use of an 
adhesive, epoxy resin, etc., or simply by tying the end of the tubular 
member 90 in a closed manner to the second end 70 of the shank 66. 
A rigid insert 92 is then slid into the open first end 91 of the tubular 
body 90. The insert 92 preferably has an inverted V-shape formed of two 
outwardly diverging, angularly disposed legs 94 and 96 which are 
interconnected at one end by a central edge 98. The insert 92 is 
preferably formed of a rigid plastic material which is ideally transparent 
for reasons which will become apparent hereafter. 
Furthermore, an outer edge 100 of each of the legs 94 and 96 of the insert 
92 has an arcuate shape, as shown in FIG. 5, which extends outwardly to a 
pronounced outermost surface 102 from the end disposed adjacent to the eye 
64 of the shank 60 and then smoothly curves to the rear portion of the 
central edge 98 located adjacent to the second end 70 of the shank 66. 
This provides a simulated shad fish shape to the tubular body 90 when the 
insert 92 is mounted within the body 90. Since the insert 92 is preferably 
formed of a transparent material and the tubular body 90 is preferably 
formed of a translucent material, the shank 66 of the hook 60 will be 
visible through the side of the body 90 in the same manner as the spine of 
a small bait fish. This provides a more natural attraction or 
characteristic to the body 90 in that it more closely simulates a natural 
bait fish. 
The first end 91 of the tubular member 90 is then securely closed about the 
first end 68 of the shank 66 by means of adhesive, epoxy resin, tying, 
etc. 
When the body 90 is mounted on the shank 66, the outermost surfaces 102 of 
the insert 92 and the corresponding outer surface of the body 90 extend 
away from the shank 66 in the same direction as the first end portion 74 
and the intermediate portion 76 of the keeling bend 72. This disposes the 
body 90 away from the point 80 so as not to interfere with the hooking of 
a fish. 
In summary, there has been disclosed a unique keeling bend fly hook in 
which the rolled-out point and oppositely facing barb of the fly hook 
provide excellent raking penetration and hook retention in a fish due to 
the keeling bend action of the fly hook which causes the point to ride 
point up during movement of the fly hook in the water. A uniquely formed 
body is mounted on the shank of the keeling bend fly hook and is formed of 
a flexible material which is expanded to the shape of a shad type fish by 
means of a rigid insert mounted within the body and over the shank of the 
fly hook. The rigid insert is preferably formed of a transparent material 
which, in combination with the preferred translucent form of the tubular 
body, enables the shank of the keeling bend fly hook to be visible through 
the body in the same manner as the spine of a small bait fish to thereby 
provide a more natural appearing fly.