This invention relates to a cord and webbing fastener to suspend loads and, more particularly, to fastener and assembly using the same to suspend hammocks.
Tools for securing loads are of interest in many applications. In particular, there is a need for a tool to quickly set, maintain, adjust, or release tension in webbing and cordage used for camping equipment, such as for hammocks, backpacks, tarpaulins (tarps), flys, tents and similar shelters, or other structures.
While tools to set, maintain, adjust, and release tension in strapping and lines are known, these known tools are generally bulky, weighty, and cumbersome, and often include various catches, eyes, cleats, grips, pulleys, and the like, which require multiple knots to function. Cleats and grips can abrade or damage strapping and other tie materials used to suspend loads.
In particular, a simple and lightweight tool to fasten a hammock in place is desirable.
In light of the shortcomings of the prior art and to solve a long felt need, a cord and webbing fastener and an assembly using the cord and webbing fastener are provided.
A cord and webbing fastener having a distal end and a proximal end and comprising a bottom bar positioned along the distal end thereof; a mid-bar positioned substantially parallel to the bottom bar; a first jaw and a second jaw positioned along the proximal end thereof and substantially parallel to the mid-bar; a first joining element connecting a first end of the first jaw, a first end of the mid-bar, and a first end of the bottom bar; and a second joining element connecting a first end of the second jaw, a second end of the mid-bar, and a second end of the bottom bar to provide 1) an elongated, oval-shaped passageway in the distal end extending through the cord and webbing fastener from lateral sides thereof and between the mid-bar and the bottom bar and sized to receive a flexible webbing; and 2) a jawed passageway in the proximal end extending through the cord and webbing fastener from lateral sides thereof and between the generally parallel mid-bar and the first jaw and the second jaw, the jawed passageway having a gap between the second end of the first jaw and the first end of the second jaw.
The jawed passageway is sized to receive webbing, wherein webbing is threaded through the jawed passageway in a first direction, looped around the mid-bar, and then threaded in a second direction through the elongated, oval-shaped passageway.
A further embodiment of the invention is a cord and webbing fastener assembly. The assembly includes the cord and webbing fastener and webbing and cordage sized to be used with the cord and webbing fastener as described herein to anchor or secure a load.
A further embodiment of the invention is a kit including cord and webbing fasteners and a plurality of tie materials sized to be used with the cord and webbing fastener as described herein to anchor or secure a load.
The invention will now be described by way of example with reference to the accompanying figures, wherein like reference numerals designate like structural elements. And in which:
The foregoing illustrates some of the possibilities for practicing the invention. Many other embodiments are possible within the scope and spirit of the invention. It is, therefore, intended that the foregoing description be regarded as illustrative rather than limiting, and that the scope of the invention is given by the appended claims together with their full range of equivalents.
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As used herein, the “jawed passageway” describes a hollow receiving passageway having straight sides and extending from lateral sides of the fastener body 12 there through, the jawed passageway having cross sections that are shaped like a rectangle and sized to allow the threading of webbing, the jawed passageway 13 also having a gap 16 between the un-joined ends of the first jaw 14 and the second jaw 15 that is sized to allow the passage of cordage. The jawed passageway 13 has internal corners that are preferably softened from a 90° angle.
As used herein, an “elongated, oval-shaped passageway” describes a hollow receiving passageway having straight sides and extending from lateral sides of the fastener body 12 there through, and having cross sections that are shaped like a flattened circle that is longer than it is wide and sized to allow the threading of webbing. The elongated, oval-shaped passageway 21 has internal corners that are preferably softened from a 90° angle. A first grip projection 22a is located at the intersection of the first joining element 19 with a first end 14a of the first jaw 14. A second grip projection 22b is located at the intersection of the second joining element 20 with a second end 15b of the second jaw 15.
In the shown embodiment, the edges 23 of the fastener body 12 are preferably beveled or softened from a 90° angle along a perimeter thereof and, more particularly, at the perimeter of the jawed passageway 13 and the elongated, oval-shaped passageway 21 in order to avoid wear or abrasion of the webbing 40 or cord 30 passing over the edge 23.
One of ordinary skill in the art would appreciate that other design options are possible without departing from the spirit of the invention.
In the shown embodiments, the fastener body 12 is made of a rigid material, such as titanium, aluminum, steel, or plastic. Preferably, the fastener body 12 is made from titanium or aluminum. In the shown embodiment, the fastener body 12 is a solid, monolithic piece of material. However, one of ordinary skill in the art would appreciate that the fastener body 12 may be prepared from a variety of structural materials including an alloy of metals, a polymer, a composite, or other compatible and suitable material known in the art. The choice of the solid structural material is influenced by the material's weight, durability, cost, and the load it will be supporting. Further, one of ordinary skill in the art would appreciate that the fastener body 12 may be hollow.
The fastener body 12 is manufactured through machining, but could be manufactured using casting, stamping, or through another method known to one of ordinary skill in the art and consistent with the chosen material to achieve the desired strength for the intended use. For example, the fastener body 12 may be made of polymer using injection molding.
In an exemplary embodiment, the fastener 11 is sized to be used with tie material 4 (i.e., webbing and cord) as is described below. In one embodiment of this element according to the invention, the fastener's elongated, oval-shaped passageway 21 is sized laterally to be threaded with a one-inch wide webbing. The fastener's jawed passageway 13 is sized laterally to be threaded with a one-inch wide webbing and additionally sized to accommodate a cord as described below. Furthermore, it is expected that the fastener 11 may be scaled larger or smaller to accept webbing or cordage of different dimensions for use in different applications. The operation of such relatively larger or smaller fasteners 11 will be the same regardless of the specific application.
The cord 30 and webbing 40 suitable for use with the fastener 11 are known to those of ordinary skill in the art and are selected to possess characteristics of strength and durability suitable for the tension and weight to be secured. The cord and the webbing are made of various materials including woven, braided, or twisted nylon or other plastic polymer, natural fibers, such as hemp or silk, and other such material used by those of skill in the art to secure weights or loads. Preferably, tie materials selected to use with the fastener are characterized by extremely low stretch, abrasion resistance, light resistance, high strength, and highly durability and are light in weight. The tie materials selected to use with fastener may be made of an ultra-high molecular weight polyethylene (UHMwPE) fiber. This type of fiber is alternatively referred to as high-modulus polyethylene (HMPE) and high-performance polyethylene (HPPE). This type of line features light weight, high strength, high durability, and has a surface texture conducive to maintaining a tension suitable for securing a hammock 2 or other load. One commercially available fiber suitable for use with the fastener is Dyneema®. However, such high performance webbing or cord is not required as the fastener may be used with any material that is appropriate for the weight to be secured and the particular embodiment of the invention. An alternative choice of fiber for tie materials is a lightweight nylon kernmantle rope, also referred to as parachute cord. A further alternative choice of fiber can be a monofilament line. The tie materials are sized to meet the use and dimensions of the two-part cord and webbing device.
“Webbing” refers generally herein to a flexible, linear element such as webbing, strap, or ribbon. The webbing 40 has a substantially rectangular cross-section; its width is substantially greater than its height and its overall dimensions and material properties are suitable for the weight to be secured and conditions of use. The webbing is preferably constructed of any suitable material that has extremely low stretch and high abrasion resistance, preferably polypropylene, polyester, or nylon. More preferably, the webbing has extremely low stretch, abrasion resistance, light resistance, high strength, and highly durability and is light in weight. The webbing, typically 1 inch wide, is chosen to fit the dimensions of the fastener 11.
“Cord” refers generally herein to a flexible, linear element such as a cord, cable, line, rope, string, or twine. The cord 30 has a substantially circular cross-section and its diameter, length, and material properties are selected to be suitable for the weight to be secured and conditions of use. The cord is preferably constructed of any suitable material that has extremely low stretch and high abrasion resistance, preferably polypropylene, polyester, or nylon. More preferably, the cord has extremely low stretch, abrasion resistance, light resistance, high strength, and highly durability and is light in weight. The cord is preferably made of an extremely low-stretch/non-elastic continuous loop of cordage. One choice for this element is AmsteelBlue®-Blue in diameters of 7/64 inch (average strength 1600 lbs. breaking strength) or ⅛ inch (average strength 2500 lbs. breaking strength), a torque-free, 12-strand single with a high strength-to-weight ratio and, size-for-size, possessing essentially the same strength as steel and with superior flex fatigue and wear resistance. In an exemplary embodiment, the fastener 11 is sized for 7/64 inch to ⅛ inch static (non-stretch) cord, but is not limited for use with any specific sized tie material. In applications of the cord and webbing fastener assembly, a user should not attempt to secure a load heavier than what the chosen tie material can support.
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The cord and fastener assembly is generally used to maintain tension on tie material 4 that restrain a hammock 2 or other load in a substantially linear orientation relative to a longitudinal axis between two supports 3. The cord and webbing fastener assembly 10 may also be used to support a load from at least a single point.
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Webbing 40 is secured at a first end 41 about the support by means of knots or, preferably, a loop 44 formed in a first end 41 of the webbing 40. Such looped webbing straps 5 are known as “tree huggers” or “tree straps” and help reduce abrasion or damage to the tree surface from the suspended weight or load. Typically, the webbing 40 has a final loop 44 jkjin its first end 41 that is secured by stitching or other attachment method. The lengths of webbing 40 are sized to adequately encircle a tree and support the hammock 2 or other load. Additional accessory materials (i.e., tubing, padding) may also be used to maintain the strap in position and to distribute the pressure and load placed by the hammock 2 on the support.
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The first and second grip projections 22a, 22b are symmetrically disposed and facing in opposite directions from the central longitudinal axis of the fastener body in a common plane on opposing ends of the first jaw 14 and the second jaw 15 of the fastener 11. The first and second grip projections 22a, 22b are gripped, respectively, with thumb 53 and a finger 54 so that a force can be exerted in a direction to adjust the position of the loop of the webbing 40 to a desired distance from the support. Alternatively, a tool such as a set of pliers may be used to grip the first and second grip projections 22a, 22b. The grip projections 22a, 22b are illustrated to be smoothly rounded. Additional embodiments of the invention include grip projections that have ribs, gridding, or other texturing (not illustrated) that improve the gripping ability of fingers or plier-like tools.
To set the desired tension and distance between the fastener 11 and the supports 3, webbing 40 is pulled with sufficient force to bring the cord and webbing fastener assembly into a locked position. When the cord 30 is used to rotate the fastener 11, the cord 30 and webbing 40 are prevented from slipping through the jawed passageway and the elongated, oval-shaped passageway 21. In this “locked” position, the hammock 2 or other load is adjustably fixed in placed.
A kit comprising a plurality of fasteners, cords, and webbing is one embodiment of the invention. One embodiment of the kit includes fasteners pre-sewn onto lengths (for example, 8 and 15 feet) of polyester webbing straps. Various types of cords (i.e., continuous loops, shock cords, etc.) may be included in a kit.
While the invention has been described in detail and with reference to specific embodiments, one of ordinary skill in the art would appreciate that the described embodiments are illustrative, and that various changes and modifications can be made without departing from the scope of the invention
This application claims the benefit of the filing date under 35 U.S.C. §119(a)-(d) of U.S. Provisional Application No. 62/381,358, filed Aug. 30, 2016.
Number | Date | Country | |
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62381358 | Aug 2016 | US |