The present invention generally relates to one piece climbing sticks, also referred to as ladder modules, for use in climbing trees for hunting or other purposes. The climbing sticks of the invention are characterized by a double step, one-piece design wherein the center support structure and the double steps emanating therefrom are fabricated from a single sheet or piece of aluminum and/or aluminum alloy.
The invention relates to one-piece climbing sticks, also referred to as ladder modules, designed for use in climbing trees for hunting. Climbing sticks are available in an extremely wide variety of types, providing a myriad of sizes, shapes, materials of construction, mounting mechanisms and other features. Key among the important features to be considered by a hunter in choosing climbing sticks are safety, weight, simplicity of construction and use, and camouflage or capability of masking the construction from hunted game. The considerations of safety and weight are often conflicting because adequate strength frequently requires the use of heavier and stronger structural members. Lightweight structural materials are, therefore, used almost exclusively in the construction of climbing sticks. To balance the considerations of strength, weight and cost, structural aluminum has been the material of choice. As a result, the majority of climbing sticks on the market today utilize some type of tubular aluminum or steel.
Prior art climbing sticks are typically fabricated from a plurality of components using a variety of fastening techniques, including welding, rivets, screws and bolts. The use of mechanical fasteners in the fabrication of climbing sticks creates joints which inherently are not completely rigid and as a result may move and squeak or create other noises. Skilled hunters are extremely sensitive to any equipment that is unnecessarily noisy. Fasteners and fastener joints also present the potential for catching clothing or the like which is both annoying and potentially dangerous.
Despite the extremely wide variety of climbing sticks disclosed in the prior art and on the market today, all are subject to the same problems and deficiencies in construction, weight, strength, operation and use described above. It would be most desirable, therefore, to have a climbing stick of simple construction that does not require welded or cast fabrication or the use of fasteners, and yet is strong, quiet and light weight. In addition, it is also desirable that the climbing stick not present a noticeable geometric pattern to approaching game.
The present invention relates to one piece climbing sticks for climbing trees for hunting purposes. The climbing sticks of the invention are characterized by a double step, one-piece design wherein the center support structure and the double steps emanating therefrom are fabricated from a single sheet or piece of aluminum and/or aluminum alloy.
The invention relates to improved climbing sticks for use in climbing trees for hunting or other purposes. The climbing sticks of the invention are solid metal and comprise a center support member or structure having double steps emanating therefrom fabricated from a single sheet of aluminum, aluminum alloy, or and similarly strong, lightweight material. By “one piece” it is meant that center support structure and double steps emanating therefrom are fabricated from a single sheet of stock without the use of welds, rivets, screws, bolts and the like. The use of mechanical fasteners in the fabrication of climbing sticks creates joints which inherently are not completely rigid and as a result may move and squeak or create other noises. The one piece climbing sticks of the invention overcome the deficiencies of the prior art by avoiding welds or any other fastening methods resulting in a stronger, lighter, quieter climbing stick.
The individual climbing sticks of the invention are solid and they are of superior strength as they are one piece. The sticks can have one or more unitary or double steps that are perpendicular or substantially perpendicular with the center support structure.
Each climbing stick is secured to the tree trunk by a securing belt attached at one end by a bolt to one side of the support member. The belt is releasably secured at its opposite end to a belt hook or fastener attached to the center support member opposite the belt.
The climbing sticks of the invention are, when necessary, strengthened by heat treatment or other strengthening methods when necessary in order to strengthen the metal and increase the strength thereof. Various other methods of strengthening the metal of the climbing steps of the invention are also included within the scope of this invention.
In one embodiment, the sticks of the invention are of a double step design. By double step it is meant that the left and right steps are generally perpendicular to and in the same plane as the center support structure. This double step design is illustrated in
The climbing sticks of the invention also preferably comprise two or more support bolts or similar support structures mounted to the uppermost double step, wherein one support bolt is mounted to the left stepping portion of said double step and a second support bolt is mounted to the right stepping portion of the double steps as illustrated by
In another embodiment, each stick also comprises receiving ports or holes configured to receive the two or more support bolts of a companion stick, which allows one to securely nest and attach two or more sticks to each other snugly for transport. These receiving ports or holes are preferably located at pre-determined locations proximate to the top and/or bottom double steps of the climbing stick. In another embodiment, each stick comprises a receiving port configured to receive the Versa button of another stick such that two or more sticks can be securely nested one to the other.
In another embodiment, the sticks of the invention also comprise one or more support brackets instead of support bolts, wherein said brackets are mounted to the center support member as shown in
Finally, the climbing sticks are characterized by having an irregular geometric pattern machined or jetted out of the support member and/or steps. Skilled hunters are aware that ordered structural patterns are generally an anomaly in the wild and, when seen by hunted animals, may keep them from approaching or cause them to flee.
The climbing step of the invention comprises a securing arrangement used to secure the climbing stick to a tree. The arrangement includes a belt fastener disposed on the support member between the upper double step and the lower double step. In one embodiment, the fastener is comprised of a stem extending outwardly from the support member and a radially extending flange attached to the stem opposite the support member that covers the stem. The flange, or Versabutton™ provides an attachment point for a belt forming the remaining portion of the improved securing arrangement utilized with the climbing stick. The belt is comprised of a pair of straps, each including a loop at one end. The loops on each strap are placed over the flange of the fastener to secure the loops to the fastener on the support member. One of the straps includes an adjustable buckle attached to the strap opposite the loop that engages the non-loop end of the remaining strap to releasably secure the belt about the trunk of the tree. The loop and fastener arrangement of the present invention allows the securing belt to be secured about the tree trunk with the buckle positioned on either side of the support member, so that the buckle may be selectively positioned to avoid any limbs, branches or other obstructions that may prevent the securing belt from performing properly. The securing strap is an elongate strap of a durable material, such as nylon, that includes a free end and a loop integrally formed in the strap opposite the free end. The securing strap is removably attached to the fastener by placing the loop around the retaining flange of fastener. The flange prevents the loop from disengaging from the fastener, maintaining the securing strap in attachment, with the center support structure.
This securing arrangement is also able to be used on other devices utilized by hunters that are secured to a tree, such as tree stands. The configuration of the securing arrangement allows the belt to be selectively and releasably positioned on the support member to avoid any interference with the belt by limbs or branches extending from the tree. The strap for attachment to the tree comes through the stick from back to front allowing you the option of going around the tree in either direction opposed to the strap coming out of one side. The belt is comprised of a securing strap, a buckle strap, and a releasable buckle.
As an alternative to the flange Versabutton™ design, the climbing stick of the invention can have attachment anchor fabricated as part of the one-piece design for streamline attachment, as illustrated by
The support member of the sticks optionally comprise hand grips cut right into the support member allowing for better grip when climbing. In one embodiment, the support member is not straight it jogs for added concealment and profile break up when in tree. Patterns and true edges are very unnatural in nature. The cutout designs cut out of support member of the sticks of the invention have no consecutive pattern to better blend in the wilderness.
In its broadest embodiment, the one piece climbing stick of the invention can be made of by any process, including machining from a solid metal workpiece such as aluminum or aluminum alloy and the like, and/or by a cast aluminum process. Any form of aluminum, aluminum alloy, or other metal/metal alloy can be used to fabricate the climbing stick of the invention provided that it is of sufficient strength and not excessively heavy.
One option to obtain a lighter climbing stick is to use a support structure machined from one-piece plate stock. This machining process solid allows one to fabricate solid center support structures and steps in one piece from a single piece of aluminum stock which is much lighter and stronger conventional sticks.
In another embodiment of the one piece climbing stick of the invention is fabricated from a single aluminum workpiece by a waterjet process, optionally an abrasive waterjet process. Fabricating a solid one-piece center support structure with an abrasive water jet process allows one to make one piece sticks that are even stronger and lighter than structures machined from one piece of plate stock. Utilizing a waterjet process allows one to reduce the wall thicknesses and still achieve the strength needed. Accordingly, the solid one piece climbing sticks of the invention made by waterjet process are among the strongest and lightest in the industry. Additionally, they are quieter and stealthier than prior art support structures that are generally of hollow tubular design. Water jet cutting uses an ultra-high-pressure stream of water to carry an abrasive grit. The abrasive does the cutting through a mechanical sawing action, leaving a smooth, precision cut surface. Waterjet is the most versatile process, because it is able to cut almost any type of material, including aluminum. Water jet is a very precise cutting process. It has a narrow kerf width, allowing fine contours to be cut, and producing high tolerance parts. The effect is to produce the parts you need for substantially lower cost, in substantially less time.
The water jet cutting process starts with an intensifier pump, which creates the ultra-high pressure (up to 90,000 psi) water pressure required for cutting hard materials. The Intensifier pump uses a hydraulic pressure over water system. A large horsepower motor drives a hydraulic pump, creating hydraulic pressure which powers a piston in a cylinder. The pressurized water is delivered to a cutting head by either high pressure tubing or hose. At the cutting head, the high pressure water is applied to an orifice with a typical diameter ranging from 0.005″ to 0.020″. This orifice is made in a diamond or sapphire, to resist abrasion of the high-pressure water. The orifice defines and creates the water stream which cuts through the material.
After the water stream exits the orifice, an abrasive can be added to the water stream, to allow it to cut hard materials. When cutting hard materials, including steel, stainless steel, aluminum, stone, wood, plastic, glass, etc., it is the abrasive that does the actual cutting using a mechanical sawing type action. The abrasive is usually crushed garnet, the same type of material often used as the abrasive on sand paper. Some special applications utilize other abrasive types.
The strength increase provided by a solid unitary aluminum construction by waterjet process allows a reduction in size and weight of the climbing stick of the invention. The solid construction also reduces the transmission of noise more common in constructions utilizing hollow tubular center structural members.
Finally, the entire outer surface of the climbing stick of the invention can be anodized with an irregular contrasting pattern to further enhance its camouflage appearance.
Support member 1 includes two double steps 3 to provide a left and right stepping surface for an individual using the ladder module 1. The sticks of the invention can be lengthened to include three or more double steps if desired. The stepping portion of the double steps optionally include a number of grooves or gripping cutouts 5 spaced along its length. The grooves provide traction for the foot of the individual utilizing the step 1 to help prevent the foot from slipping off the stepping portion of the step 6.
The double steps 3 provide a horizontal stepping surface on both sides of the center support member 2. Alternatively, the stepping surface can be slightly angled upward from the horizontal as a further preventative measure against slippage.
In one embodiment, the climbing sticks of the invention comprise two or more support bolts 7 mounted to the left and right side of the double steps 3, which are best illustrated by
In another embodiment, each stick also comprises receiving ports or holes 8 configured to receive the support bolts 7 of another stick, which allows one to securely nest and attach two or more sticks to each other snugly for transport. These receiving ports or holes 8 are preferably located at pre-determined locations proximate to the top and/or bottom double steps 3 of the climbing stick 1. In another embodiment, each stick comprises a receiving port configured to receive the Versa button 16 of another stick as shown in
In an alternative embodiment and as shown if
The brackets optionally include a number of teeth spaced along the length of each side of bracket that are generally triangular in shape having a point extending outwardly from the interior surface of bracket. The teeth on bracket engage the trunk of the tree to prevent the module 1 from sliding down the tree when a person is climbing a tree.
Referring now to
The belt is comprised of a securing strap, a buckle strap, and a releasable buckle. The securing strap is an elongate strap of a durable material, such as nylon, that includes a free end and a loop integrally formed in the strap opposite the free end. The securing strap is removably attached to the fastener 9 by placing the loop around the retaining flange of fastener. The flange prevents the loop 12 from disengaging from the fastener 9, maintaining the securing strap in attachment, with the support member 2.
The buckle strap is formed of the same material as the securing strap and also includes a loop at one end that is also removably attached to the fastener 9. However, the end of buckle strap opposite the loop is attached to the buckle, which is placed around the tree to receive the free end of securing strap to secure the climbing stick 1 on the tree.
To attach the climbing stick 1 to a selected tree, first, the securing strap and buckle strap are secured to the fastener 9 on support member 2 so that the securing arrangement and, namely, the buckle on buckle strap, will not be obstructed by any limbs extending from the tree. Next, the support bolts 7 are positioned against the center of the tree to position the support member 2 in a generally vertical direction on the tree. Then, the straps and of the securing belt are wrapped around the tree in opposite directions, and the free end of securing strap is inserted through the buckle 13. The securing strap is pulled tight through buckle to securely fasten the securing belt about the tree.
As an alternative to the flange Versabutton™ design 11, the climbing stick 1 of the invention can have attachment anchor 14 fabricated as part of the one-piece design for streamline attachment, as illustrated by
The invention also contemplates a lightweight, portable treestand with climbing sticks attached thereto via carrying ports, wherein said treestand comprises a seat member that interlocks to said platform forming a shelf like structure and wherein said climbing sticks comprise stabilizing brackets that pivot allowing them to rest flush with the body or center support structure of said climbing stick.
Various modes of carrying out the present invention are contemplated as being within the scope of the following claims particularly pointing out and distinctly claiming the subject matter which is regarded as the invention.