The disclosed technology is an apparatus for use in the installation of wire fencing, mountable on a skid steer or tractor to move the apparatus for purposes of efficiently installing wire fencing. The disclosed technology further provides a method for efficiently installing wire fencing by means of an apparatus as herein disclosed generally and through exemplary embodiments, mounted on a skid steer/tractor.
Installation of fencing, including electrical fencing, can be cumbersome and time consuming, including multiple people and vehicles to provide equipment and fencing to and along the fence line. Further, each fence, depending on its purpose and the land undulation at the place of installation, requires differing numbers of strands and strand placement on posts. For example, for purposes of containing cattle, horses and other large animals, three strands may be used, at a total height of 40″, or for a boundary fence 46″ total height; for hogs, three strands at a total of 24″ may be suitable. Alternatively, for a feedlot, horse, or boundary fence five or ten wires totaling 52″ may be appropriate. Additional fence strands are beneficial to keep predators out of the contained area, and where the land undulates. In many areas, wherein the land is significantly undulated, up to ten strands are necessary.
Therefore there is a need for a system and apparatus to efficiently provide fence strands and other related equipment and supplies to a site along a fence line. Further, there is a need for a portable apparatus which can be coupled with a skid steer or tractor, and capable of providing fence strands while driving the skid steer/tractor in either the forward or reverse directions.
Provided herein, through embodiments hereinafter set forth and drawings provided, is a portable apparatus for use in the installation of wire fencing, mountable on a skid steer (or tractor loader, used interchangeably in this written description) to move the apparatus for purposes of efficiently installing wire fencing, and a method for efficiently installing wire fencing.
The portable apparatus, as presented through embodiments hereinafter disclosed, includes a frame mountable to a skid steer, the frame including a bottom support structure, an upper rack support structure, and a plurality of frame support posts securing the bottom support structure to the upper rack support structure. At a proximal end of the frame is a skid steer mounting plate to mount the apparatus to a skid steer.
A pair of spinning jenny support posts are affixed to the frame, each being adjacent to one of the frame support posts. These spinning jenny support posts may be provided as multiple, independently rotatable segments, or as a solid, stationary post. Affixed to each spinner support post are one or more spinner support bars, each support bar provided to receive and support a spinning jenny dereeler. When the spinning jenny support posts are presented as multiple, independently rotatable segments, each spinner support posts is affixed to one of the segments; when the spinning jenny support post is presented as a solid, stationary post, the spinner support posts are rotatably mounted to the spinning jenny support post. In either configuration, rotation of the support post segments or the rotationally mounted spinner support posts may be selectively halted into an operational position by means of a spring loaded bolt latch. This latch includes a bracket mounted on a frame support post adjacent to the spinning jenny support post, as well as a bolt and a spring. By this configuration, the latch bolt is positioned to be received in and removable from an aperture of the corresponding spinner support bar when the spinner support bar is in an operational position.
At a distal end of the frame is provided a hinged wire guide, which includes upper and lower bars, each presented in segments, with one or more hinges for hingedly securing the segments of the upper bar and the lower bar, respectively. The hinged wire guide further includes an inner pair of grooved rollers at one end of the hinged wire guide (which may be secured to the proximal end of the frame), and an outer pair of grooved rollers at an opposing end of the hinged wire guide, thereby allowing the hinged wire guide to assume a compact position to facilitate storage and transport of the apparatus, while allowing the hinged wire guide to assume multiple extended positions when the apparatus is in use. The position of the hinged wire guide relative to the frame may be controlled by a powered telescoping system, coupled with the compressor of the skid steer, and thereby operational from the skid steer.
The portable apparatus may further include and by means of its bottom support structure support one or more tool chests, compartmentalized to provide necessary tools to the fence installation site. Further, the portable apparatus may include one or more guide sticks useful in stringing a plurality of wires along a fence line, each guide stick presented with varying numbers of apertures positioned at pre-determined heights along the guide stick.
The upper rack support structure may further support and provide a pair of gate racks, on one or both sides of the upper rack support structure. These racks may include long horizontal support tubes, and at a distal end of each tube a cradle, the tubes being secured within and extendible from receptacles secured to the upper rack support structure.
The disclosed technology further provides a method for installing fencing along a fence line. In this method, a plurality of spinning jenny dereelers loaded with fence strand are installed on a portable apparatus herein provided, and the portable apparatus is secured to a skid steer. The skid steer then moves the portable apparatus to the end of the intended fence line. Once at the site, the hinged wire guide of the apparatus is extended to assume one of a plurality of positions, either manually or through the use of a powered telescoping system, and the fence strand is dispensed from at least some of the spinning jenny dereelers through the aligned grooves of the inner pair of grooved rollers and the outer pair of grooved rollers of the hinged wire guide. Next, the fence strand is inserted through the apertures of one of the guide sticks, the guide stick is aligned with a first post, and the fence strands are secured to the fence post so that the strands are spaced on the first post in accordance with the spacing between the apertures of the guide stick. The skid steer is then moved along the fence line, the guide stick is aligned with a subsequent fence post, and the fence strands are similarly secured to the post, and the process is repeated.
When gates are to be installed along the fence line, the method includes loading one or more gates on a pair of gate racks of the apparatus, and removing the same from the gate racks for installation.
When diagonal bracing is desired along the fence line, the method further comprises drawing strand from another spinning jenny dereeler supported at the top and distal end of the frame, and alternatingly securing the same to the upper or lower ends of the fence posts forming the needed diagonal bracing in the fence line.
In this method, the spinning jenny dereelers may be installed (and replaced) from the respective spinner support bars by decoupling a spring loaded latch securing the support bar or a segmented portion of the spinning jenny support posts to an adjacent frame support post, allowing the spinner support bar to move out of the operational position and is readily accessible for installing, replacing or reloading a spinning jenny dereeler loaded with fence strand.
The detailed description set forth below in connection with the appended drawings is intended as a description of various embodiments of the invention and is not intended to represent the only embodiments in which the invention may be practiced. The detailed description includes specific details for the purpose of providing a thorough understanding of the invention. However, it will be apparent to those skilled in the art that the invention may be practiced without these specific details, or with equivalents thereof. Elements and features of some embodiments may be incorporated into other embodiments, although not specifically referenced herein.
The apparatus of the disclosed technology includes, most generally, a frame 1, a plurality of spinning jenny dereelers 31, and a hinged wire guide 50.
As shown in the embodiment of
In the embodiment shown, a skid steer mounting plate 40 is affixed to a proximal end of the frame (see, in particular,
Rotatably secured to each spinning jenny support post 30 are a plurality of spinner support bars 32; alternatively, the spinning jenny support posts 30 may comprise multiple aligned segments 30A, 30B, 30C, etc. (see, e.g.,
While secured at one end to the spinning jenny support post 30, in either of the afore-described configurations, each of the spinner support bars 32 further removably supports a spinning jenny dereeler 31 on its top surface, near an opposing end, such that the rotation of the spinning jenny dereeler is not impeded by its position or affixation to the spinner support bar. As shown in the embodiment of
Centrally affixed to a distal end of the frame 1 is a hinged wire guide 50, shown in
The hinged support structure 53 includes an upper bar 531 and a lower bar 532. The upper bar is rotatably secured at a first end to elements of the frame, such as frame support posts or the upper rack support structure. For example, as shown in
In like configuration, a second inner support structure 54 having a post centrally secured between two plates is affixed to and between the frame support posts 11 or the bottom support structure 10, to rotatably secure the lower bar 532 of the hinged support structure in like fashion, wherein the post is positioned and secured within aligned apertures extending from the lower bar 532. The upper surface of this inner support structure can serve as a point of rotatable affixation for the bottom of each of the inner pair of grooved rollers, wherein the central post 542 of each of the rollers is received within a corresponding aperture of this upper plate, securing the rollers to the hinged support structure or frame while allowing the rollers to rotate freely when dispensing strands to the fence line.
The outer pair of grooved rollers 52 of the hinged wire guide are rotatably supported to an opposing end of the hinged support structure 53, for example between plates 55 affixed to the distal end of each of the upper bar 531 and the lower bar 532. As with the inner pair of grooved rollers, central posts may extend from each end of the roller and be received within aligned apertures on the plates 555, thereby securing the rollers to the working end of the hinged support structure while allowing them to freely rotate when dispensing strands to the fence line.
To provide strength and stability to the hinged wire guide, one or more vertical posts 56 may be positioned between and affixed to either corresponding side of the upper and lower support bars 531, 532, along their length (when a pneumatic cylinder system is provided, as hereinafter described, the vertical posts are positioned on the side closest to the pneumatic cylinder system). Positioning these vertical posts on a side of the upper and lower support bars, rather than centrally between them, allows the fence strands to be dispensed unimpeded between the first and second pair of grooved rollers.
In order facilitate storage of the hinged wire guide during transport and for use (when driving the skid steer in reverse) as well as extended positions when driving the skid steer forward or in reverse, each of the upper bar and the lower bar are presented as two or more hinged segments. As shown in
To facilitate movement of the hinged wire guide between its compact and extended positions, and to inhibit movement of the guide in the extended position, a powered telescoping system 58, such as an electric cylinder, a pneumatic cylinder system, or a hydraulic cylinder system, may be provided. As shown in
Further provided in embodiments of the disclosed technology are gate racks 21, which provide storage for gates 62 to be transported to and installed along the fence line. As shown in
It may be desirable to further install diagonal fencing braces along the fence line. Therefore, another spinning jenny dereeler 31 may be rotatably and removably secured to the top of and the distal end of the frame, as shown in
In the installation of fencing, various tools and equipment are needed, such as a steeple gun, cutters, crimp tool, tighteners, tightener tool, electric fence insulators, brace pins, and steeples. Therefore, the bottom structure of the frame further supports one or more tool chests 80, as shown in
Finally, provided with the disclosed technology and particularly useful in the installation of fences when using the mountable apparatus as hereinabove described, are a plurality of guide sticks 60. Each of these guide sticks, as shown in
The disclosed technology further includes a method of installing fencing along a fence line, an embodiment of which is presented in
The method includes installing a plurality of spinning jenny dereelers loaded with fence strand on the portable apparatus secured to a skid steer, and moving it to the fence line. At the fence line, the hinged wire guide is extended in the direction of the fence line, either manually or if provided with a powered telescoping system. Fence strand is then dispensed from the spinning jenny dereelers through the aligned grooves of the inner pair of grooved rollers and the outer pair of grooved rollers.
Using a guide stick having apertures equal to the number of fence strands intended for installation on a plurality of fence posts 61, the fence strands are inserted through the apertures of the guide stick and the stick is aligned with a first post of a fence. Finally, the fence strands are secured to the fence post so that the strands are spaced on the first post in accordance with the spacing between the apertures of the guide stick. Notably, affixation of fence strands to fence posts should occur such that the guide stick continues to move with the apparatus down the fence line, with the fence strands running through the apertures (and doesn't get inadvertently secured between two posts). The skid steer then moves the apparatus, which draws fence strand out of the spinning jenny dereelers, and stops at the second post of the fence. The guide stick is then aligned with the second post, the strands are secured to the post according to the spacing of the guide stick (see
The method may also provide for bracing along the fence line, wherein another spinning jenny dereeler is installed to the top of and the distal end of the frame, and fence strand may be drawn from this spinning jenny dereeler and alternatingly affixed to an upper or lower end of the fence posts.
In this method, the portable apparatus may further include one or more tool chests supported on or secured to the bottom support structure, wherein tools for installing the fencing are provided in, and removable from, compartments within the tool chest. Likewise, the portable apparatus may have a pair of gate racks secured within and extendible from receptacles secured to the upper rack support structure, each gate rack including a long horizontal support tube and, at the distal end thereof, a cradle, and wherein the method further includes the step of loading one or more fencing gates on the gate racks, and removing the one or more fencing gates for installation on the fence line.
To load and replace the spinning jenny dereelers, the dereeler support bars may be provided along a segmented spinning jenny support post, each segment providing independent rotation with respect to the other segments. In this configuration, the support bars may be rotatably moved from their operational position to an open space for installation and replacement, by removing the bolt of a spring loaded bolt latch from an aperture of the support bar, thereby allowing rotation of the support bar out of the operational position. Once the spinning jenny dereeler loaded with fence strand is installed or replaced, the bar is returned to the operational position and the bolt of the latch is secured within the aperture of the support bar.
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