Fishing – trapping – and vermin destroying – Fishing – Lines and/or leaders
Reexamination Certificate
2002-02-08
2004-04-27
Ark, Darren W. (Department: 3643)
Fishing, trapping, and vermin destroying
Fishing
Lines and/or leaders
C428S364000, C428S394000, C428S395000
Reexamination Certificate
active
06725596
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention generally relates to lines, leaders, tippet material, or tapered leaders (for sake of brevity hereinafter called “fishing line or lines”), used in various types of fishing applications and, more particularly, is concerned with an enhanced fishing line having a unique combination of properties in terms of breaking strength, elongation, knot breaking strength, breaking toughness, and flexibility stiffness.
2. Description of the Prior Art
Synthetic monofilament fishing lines, comprised of synthetic polymeric materials such as polyamides, polyesters, polyethylenes, or fluoropolymers, have long been used in fishing applications. The synthetic monofilament fishing lines employed in the prior art have traditionally attempted to achieve the highest possible breaking strength with the smallest possible diameter. The objective of creating fishing lines with the smallest possible diameter is to make the fishing line as inconspicuous as possible so as to increase the potential for attracting the fish to the bait or fly, while also providing as high a strength as possible in order to hook-up and land the larger fish.
This traditional way of making fishing lines has several disadvantages associated with it that have not yet been overcome in the design and construction of fishing lines. Due to the nature of the polymeric materials used to make the monofilament fishing lines, the material becomes increasingly stiffer in order to achieve a high ultimate breaking strength. The stiffness of the material is related to its elongation, or the ratio of the extension of the material to the initial length of the material prior to stretching. The increased stiffness of the material results in the line becoming less flexible which tends to make tying knots in the line more difficult and also tends to dramatically reduce the breaking strength of the line at the knot.
In addition, stiffer, stronger lines have less capacity to resist shock or rapid impact loading conditions before breaking, such as when a fish is hooked-up and rapidly swims in a direction away from the rod and reel to place a rapid loading on the line. The capacity to resist rapid loading conditions is referred to as the breaking toughness of the line. Lines that have a high breaking strength will generally have a lower ultimate elongation and a correspondingly low breaking toughness. The lower breaking toughness is what causes the instantaneous breakage of the line under the rapid impact conditions. Since the line breaks almost instantaneously, the fisherman does not have ample time to react and relieve the pressure in the line by either raising the tip of the rod or allowing the line to come off the reel. Therefore, more fish are lost after the initial hook-up due to breaking of the line from these rapid loading conditions as a result of its lower breaking toughness.
By observing and studying prior art fishing lines and statements that are made with regard to the benefits of the so-called high-performance fishing lines, one concludes that current state-of-the-art practices employed to improve performance of fishing lines primarily involve making fishing lines that have higher ultimate breaking strength and correspondingly thinner diameters. The apparent intent is to achieve a higher ultimate knot breaking strength while the critical property of breaking toughness is ignored.
Tests conducted on prior art fishing lines demonstrate this assertion. The so-called high performance fishing lines do generally have higher ultimate breaking strength and thinner diameters. However, there is generally only a marginal benefit, if any, in terms of a higher ultimate knot breaking strength. They also have relatively lower ultimate elongation, significantly lower breaking toughness and significantly less flexibility by virtue of their higher flexibility stiffness.
The test equipment used to measure the aforesaid properties of fishing lines is a conventional universal testing machine, such as those under the Instron name, and the tests are conducted in accordance with test procedures outlined in ASTM D-2101-91 where a constant rate of extension of ten inches per minute and a specimen gauge length of 10 inches were used.
As referred to herein, the various properties are defined as follows. The Ultimate Breaking Strength is defined as the force required to break the line divided by its cross sectional area, whose value is presented with units of pounds per square inch (also referred to as psi herein). The Ultimate Knot Breaking Strength is defined as the force required to break the line divided by its cross sectional area, with an overhand knot tied into the line, whose value is presented with units of pounds per square inch. The Ultimate Elongation is defined as the ratio of the extension of a material at the breaking point, to the length of the material prior to stretching, whose value is presented as a percentage. The Breaking Toughness is defined as the actual work per unit volume of material that is required to break the material, whose value is presented with units of inch-pounds per cubic inch. The Flexibility Stiffness is defined as the stiffness of the material measured between 5% and 10% elongation and is determined by subtracting the stress in the monofilament at which 5% elongation is achieved from the stress in the monofilament at which 10% elongation is achieved, and dividing this difference by the 5% difference in elongation. The lower the Flexibility Stiffness, the more flexible the monofilament.
Due to the adverse effects on performance from the tradeoffs associated with prior art fishing lines, there exists a need for an enhanced fishing line having a unique combination of the aforementioned properties which improves performance.
SUMMARY OF THE INVENTION
The present invention provides an enhanced fishing line designed to satisfy the aforementioned need. The enhanced fishing line of the present invention is adapted for use in various types of fishing applications and provides a product having superior properties over those presently on the market which improves performance. In particular, the enhanced fishing line of the present invention has a unique combination of ultimate breaking strength and ultimate elongation properties so as to provide a fishing line with a significantly higher breaking toughness and with an optimal ultimate knot breaking strength, and lower flexibility stiffness, so as to provide a fishing line with significantly higher performance.
Accordingly, the present invention is directed to a fishing line which comprises: (a) a monofilament made of a polymer, such as a polyamide, such as nylon 6, nylon 66, nylon 612, nylon 11, and nylon 12; or a fluoropolymer, such as polyvinylidene fluoride; or a polyolephine, such as polypropylene; (b) the monofilament having an ultimate breaking strength of a minimum of about 150,000 psi, an ultimate elongation of a minimum of about 30%, an ultimate knot breaking strength of a minimum of about 130,000 psi, a breaking toughness of a minimum of about 25,000 inch-pounds per cubic inch, and a flexibility stiffness of no greater than about 500,000 pounds per square inch.
More particularly, the monofilament has a diameter of between about 0.003 inches to 0.045 inches, and is manufactured by an extrusion process followed by a drawing process, such that the monofilament has an extruded diameter between about 1.1 and 1.4 times the finished diameter after drawing.
Further, the ultimate breaking strength of the monofilament is within a range of about 150,000 to 180,000 psi. The ultimate elongation of the monofilament is within a range of about 30% to 100%. The ultimate knot breaking strength of the monofilament is within a range of about 130,000 to 170,000 psi. The breaking toughness of the monofilament is within a range of about 25,000 to 35,000 inch-pounds per cubic inch. Also, the monofilament has a flexibility stiffness of about 225,000 to 500,000 pounds per square inch.
These and other features and advantages of the p
Ark Darren W.
Ferrari Importing Co.
Swartz Michael R.
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