Line guide for fishing rods, having high-strength mounting means

A line guide-fishing rod blank combination, having a fin or rib that defines pockets into which epoxy wicks to thereby increase greatly the strength of the guide-blank connection.

BACKGROUND OF THE INVENTION 
Especially with lightweight and highly flexible fishing rod blanks, it is 
very important that the line guides be strongly secured to the blanks but 
without creating a substantial tendency to reduce the smooth curvature or 
"action" of the blanks. To state one example, an absurd relationship would 
be to have a very lightweight and flexible blank that is rigidly secured 
to the bases of long (for example, four inches) and rigid line guides. The 
line guides would then act as "splints" to interfere badly with the action 
of the rod. 
Accordingly, a very short (longitudinally of the blank) connection is 
highly desirable. However, this short connection must create much strength 
in order to ensure that the line guide does not break off. It is pointed 
out that substantial torque is generated during playing of a relatively 
large fish, which torque tends to break the guide off the blank. 
SUMMARY OF THE INVENTION 
In accordance with one aspect of the present invention, a protuberance is 
combined with the frame of a line guide near a foot thereof, and is so 
constructed and located that, when epoxy (or other synthetic resin) is 
introduced around the protuberance and in contact with the blank, a 
surprisingly large increase in the strength of the guide-blank attachment 
is achieved. 
In accordance with another aspect of the present invention, the frame of a 
line guide has a hollow underside, and in such underside is interposed a 
fin or rib, in such relationship that there are gaps on both sides of the 
fin or rib and which are adapted to receive epoxy. The epoxy in these gaps 
and in contact with the underlying blank greatly increases the strength of 
the guide-blank connection. 
In accordance with another aspect of the present invention, the 
above-stated line guide is a roller guide having an extremely lightweight 
synthetic resin molded frame with only a single foot that is bound to the 
rod blank. The foot is located adjacent the frame but not under it, and is 
bound to the blank over a relatively short distance so as not to tend to 
stiffen a significant region of the blank. 
In accordance with another aspect, the frame recited in the preceding 
paragraph also has a support region spaced from the single foot and which 
is not bound to the blank.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
U.S. patent application Ser. No. 07/926,831, filed Aug. 7, 1992, for 
"Lightweight Roller Guide and Tip For Fishing Rods" is hereby incorporated 
by reference herein. Present FIGS. 1-3 are substantially identical to 
FIGS. 1-3 of said application. 
It is to be understood that, in the preferred form of the invention, a set 
of roller guides is mounted fixedly onto an elongate tapered flexible 
blank (shaft) 10 that is typically formed of graphite, fiberglass, etc. 
The preferred blanks 10 of lightweight rods that are employed with fish 
lines having test weights in the range of, preferably, two pounds to 
thirty pounds, are highly flexible especially in their regions relatively 
remote from the butt B and reel R. Typically, there are six or more guides 
for each blank. For simplicity, there are here shown only five, these 
being generally denoted 11a, 11b, 11c, 11d and 11e. 
Each roller guide has an extremely lightweight hollow frame 12 that is 
molded integrally of synthetic resin and that is integral with a single 
foot 13. The entire guide, including frame 12 and foot 13, is symmetrical 
(a mirror image) about a central imaginary plane that extends vertically 
through the axis of blank 10. 
Frame 10 has parallel sidewalls 15 that are connected integrally to each 
other by a front wall 16, a top wall 17, and a rear wall 18. Front wall 16 
has an opening 19 therein at the upper portion thereof and which is 
sufficiently large that--because of combination element 29 described 
below--the fish line 21 will not engage any part of front wall 16 except 
under unusual circumstances. 
Rear wall 18 has an opening therein and which is preferably much larger 
than front opening 19. However, much of the rear opening is covered by the 
combination element 29 described subsequently. 
The foot 13 of each roller guide has its center line in the above-indicated 
vertical plane, and extends away from frame 12 toward the butt B of the 
rod. Each foot 13 is elongate longitudinally of blank 10, the degree of 
elongation being determined by the size of the particular roller guide. 
Thus, for example, guide 11a has a relatively long (and wide) foot in 
comparison to the other illustrated guides, while guide 11e has a 
relatively short (and narrow) foot. However, foot 13 of even guide 11a is 
short, such as about an inch. It is also to be noted that guide 11a is on 
the least flexible part of the blank. All the guides are identical except 
for size. 
The bottom of each hollow frame 12 is open, and the underside of each foot 
13 is longitudinally grooved so as to receive in relatively snug-fitting 
relationship a portion of blank 10. Because frame 12 is hollow, and has an 
open bottom, there is an "open-bottomed cavity" defined on the underside 
of the frame. 
The frame 12, and its associated foot 13 integral therewith, is molded 
integrally of (preferably) an acetyl copolymer to which has been added 
glass fill, polytetrafluoroethylene, and graphite. 
Each roller guide 11a, 11b, 11c, 11d and 11e has a roller 24 that is 
usually identical to the roller of each other guide, including identity of 
size. 
On each of the roller guides 11a, 11b, 11c, 11d and 11e, there is mounted 
an identical (preferably including identity of size) combination element 
29 that serves as the line guard and also as the means for maintaining 
(retaining) the bearing 26 and thus roller 24 in position (FIGS. 2 and 6). 
Stated more specifically, element 29 is a U-shaped resilient clip, 
preferably formed of titanium sheet metal, and having a base 30 and 
identical sides 31. Preferably, base 30 lies in a single plane, and sides 
31 extend perpendicularly to such plane. The combination line guard and 
bearing retainer 29 is resilient in that its sides 31 may be sprung a 
short distance apart following which they will spring back towards each 
other. 
The base 30 of each combination line guard and bearing retainer 29 has a 
vertically-elongate opening 34 therein, having rounded ends, and that is 
adapted to receive the fish line. 
There will next be described how the roller guides are mounted onto blank 
10 in a very strong manner yet one which does not significantly diminish 
the high flexibility of the blank 10, and one which does not tend to 
effect breakage of any foot or twisting of any frame. 
Referring to FIGS. 2-4, it is pointed out that the single foot 13 has a 
longitudinal axis that extends generally parallel to blank 10 and which, 
if extended, would pass below bearing 26 (FIG.6) for the roller. The lower 
portion of the frame 12 also extends longitudinally of the blank 10 and in 
only a single direction from the foot 13. After foot 13 as bound to the 
blank as described subsequently, there are numerous conditions of 
operation when frame 12 is cantilevered from the bound foot 13--not being 
supported on blank 10 by any other foot. 
Referring to FIG. 2, there is a radiused or curved edge 40 of frame 12 at 
the lower-front thereof, spaced from foot 13 and adapted at its center to 
rest on blank 10. When the blank is not flexed, the preferred relationship 
is one where the curved edge 40 rests on the upper side of the blank. When 
the blank is flexed downwardly as by a fish on line 21, the blank tends to 
flex away from curved edge 40. Curved edge 40 extends to corners at 
sidewalls 15, one corner being shown at 44. 
Proceeding next to a description of the foot 13 and the lower regions of 
frame 12, it is pointed out that the foot tapers divergently toward the 
frame 12 and, furthermore, that the foot wraps somewhat around the upper 
portion of the blank. Thus, as above indicated, there is a longitudinal 
groove in the underside of each foot of different-size guides. Each such 
groove is adapted to receive the upper side of blank 10 at the appropriate 
region of the blank. For the small roller guide having a foot adapted to 
seat on blank 10 relatively near the tip, the amount of wrapping of the 
foot around the blank is quite large. On the other hand, for the roller 
guide adapted to seat on blank 10 relatively near the butt, there is much 
less wrapping of the foot around the blank. 
The region of each foot 13 relatively adjacent frame 12 is relatively thick 
and strong. The region of frame 12 adjacent the foot is strong yet 
lightweight, being a downwardly-open channel construction having the 
sidewalls 15. 
In various instances a bottom winding or layer 70 (FIG. 7) is wrapped 
around blank 10. This can better adapt the curvature of the concave 
underside of each foot 13 to the convex upper side of blank 10, depending 
upon the particular blank size, the particular one of the guides that is 
being employed, etc. The wrapping or layer 70 is substantially as long as 
the foot, and is saturated with epoxy resin after application. Thus, the 
wrapping strongly adheres to the blank. 
The upper surface of each foot 13 is caused to be rough, by roughening the 
foot portion of the mold in which the frame 12 and foot 13 are molded, 
thus minimizing the tendency toward sliding of binding line on the foot 
surface. 
To assemble a roller guide 11a, etc., to blank 10, foot 13 is wrapped or 
bound onto the blank 10 as by (for example) A or B-size nylon thread. 
Thereafter, epoxy (finish) liquid is applied to the threads and to 
adjacent regions, and allowed to cure so as to complete the mounting 
operation. The impregnated wrap thread is shown at 46 in FIG. 6 and 
elsewhere. 
There is caused to be a small pool of liquid finish (epoxy resin) at the 
foot end of frame 12. On the other hand, the construction of the frame is 
caused to be such that epoxy does not flow up into the roller 24 or its 
bearing. One of numerous shapes for preventing such upward flow of epoxy 
is shown (for example) at the bottom of the frame, each illustrated lower 
edge bending upwardly at 42 at a relatively steep angle, and inclining 
gently downwardly at 43 to the corners or points 44. 
An internal wide protuberance or "bump" is molded integrally on the 
underside of frame wall 18 adjacent foot 13. This is to further prevent 
epoxy from moving excessively away from the foot, and (much more 
importantly) to provide a strong region of adhesively strongly connected 
epoxy and frame material. 
The above-indicated bump or protuberance is now a fin or rib or anchor 71 
(FIGS. 4, 6 and 7) that is molded integrally with rear wall 18 of frame 
12. The fin 71 has parallel sidewalls that are generally parallel to, and 
spaced equal distances from, the sidewalls 15 of the frame 12. It has a 
vertical forward edge 72 and a generally horizontal bottom edge 72a, as 
best shown in FIG. 4. It has substantial size, extending forwardly to 
beneath the rear portion of the opening in wall 18. 
The sidewalls of fin 71 are spaced away from the interior surfaces of frame 
sidewalls 15 by a distance that is sufficiently large to admit a 
substantial quantity of epoxy resin but sufficiently small that wicking 
can occur. Thus, there are strong resin portions or masses 73 and 74 such 
as are shown in FIGS. 6 and 7, such portions being between the fin and the 
respective sidewalls 15. The resin masses 73,74, fill large amounts of the 
spaces between fin and sidewalls. 
Resin also flows (wicks) rearwardly to the region below foot 13 and above 
the wrapping 70, where such a wrapping 70 is present. When no such 
wrapping 70 is present, the resin flows to substantially the entire space 
between blank and foot-contacting and bonding directly to the blank 
instead of contacting and bonding to the wrapping 70. 
The combination of the strong masses 73,74 of resin (FIGS. 6 and 7), and 
the fin 71 sandwiched between them, and the frame sidewalls 15 on the 
outside of them, together with bond between the bottom regions of such 
masses and the adjacent upper surface portion of blank 10 or the 
epoxy-affixed inner wrapping 70 thereon, and together with the bond 
between the undersurface of foot 13 and the upper surface of the blank or 
the epoxy-secured wrapping 70 thereon, create a joint that is surprisingly 
strong and that has proved to be very rugged and effective in service. 
Although each guide has only one foot that is secured to the blank 10, in 
the preferred embodiment, the described bonding and components ensure that 
the line supporting and guiding means (preferably including a roller) is 
strongly secured to blank 10. 
Epoxy or other suitable synthetic bonding resin (finish) is preferably 
applied by a brush (FIG. 5) that is first dipped in resin and then moved 
repeatedly in a rearward direction so as to push epoxy between fin 71 and 
the walls 15 opposite thereto. Thus, the epoxy not only fills the 
indicated spaces on both sides of the fin, but it is pushed rearwardly so 
that it will wick back under the foot. 
The result is guides having much lateral stability and strength, in spite 
of the fact that in the preferred embodiment there is only one foot. 
The fin operates as an "anchor", to trap the rod finish or resin, create 
the indicated masses 73,74 of finish or resin, and maximize the strength 
of the joint. 
The spaces on both sides of the fin may be termed pockets that have 
open-bottom portions at the blank (whether or not the blank is wrapped). 
Epoxy in such pockets bonds to the blank. There are at least two 
"epoxy-receiving pockets". 
The foregoing detailed description is to be clearly understood as given by 
way of illustration and example only, the spirit and scope of this 
invention being limited solely by the appended claims.