The present novel technology relates generally to the field of mechanical engineering, and, more particularly, to an apparatus for enabling a backhoe to plow a furrow while laying flexible pipe or cable and a method for using the same.
The backhoe is one of the most versatile digging tools available. Backhoes can be maneuvered into position in places to dig where other excavation machines cannot go. The digging apparatus of the backhoe includes a hinged and hydraulically driven armature to which a generally semicircular bucket is hingedly connected. Backhoe buckets tend to be about 2 feet wide and connect to the manipulating armature at a like-sized connection plate. This means that ditches and trenches dug with a backhoe have a minimum width of about 2 feet, and the soil is removed one bucketload at a time.
There are many situations calling for the deposition of cable or flexible pipe in narrow trenches that a backhoe equipped with a conventional bucket or even a modified bucket just can't address. These trenches must be dug by other means. There are specialized excavation machines designed for laying pipe or cable in narrow trenches. While these tools accomplish the task of digging narrow trenches for the deposition of cable thereinto, they are expensive, prone to frequent breakdown, and their use necessitates the purchase or rental of specialized equipment by the contractor, often for one relatively short dig.
Thus, there is a need for an apparatus that would take advantage of the versatility of a backhoe system for digging narrow furrows for the deposition of pipe or cable. The present novel technology addresses this need.
The present novel technology relates to a method and apparatus for digging narrow trenches and simultaneously laying pipe or cable with a backhoe. One object of the present novel technology is to provide an improved backhoe plow system for digging narrow furrows while simultaneously laying pipe and/or cable. Related objects and advantages of the present novel technology will be apparent from the following description.
For the purposes of promoting an understanding of the principles of the novel technology and presenting its currently understood best mode of operation, reference will now be made to the embodiments illustrated in the drawings and specific language will be used to describe the same. It will nevertheless be understood that no limitation of the scope of the novel technology is thereby intended, with such alterations and further modifications in the illustrated device and such further applications of the principles of the novel technology as illustrated therein being contemplated as would normally occur to one skilled in the art to which the novel technology relates.
A typical backhoe, trackhoe or like excavator includes a hinged armature or boom having a connection plate or assembly at the distal end. The connection assembly typically includes one or more connection members and a set of pins for engaging a bucket therewith. The connection members and pins are typically more than 12 inches long. The bucket is typically generally semicircular or semi-ovoid in shape. For semi-ovoid buckets, the short axis is the bisector. Buckets are designed to scoop out and retain a maximum load of dirt, gravel or the like. The backhoe operates by driving the teeth or leading edge of the bucket into the dirt or other medium to be excavated or moved, driving the bucket forward to fill it, pivoting the bucket into a mouth-up position, lifting the bucket out of the excavation, pivoting the armature away from the excavation, pivoting the bucket into a mouth-down position, emptying the bucket, pivoting the armature back to the excavation, and repeating the process. The minimum width of an excavation is the width of the pins and connection members and/or the armature, and, for smaller buckets, the maximum depth is the bucket height.
The present novel technology allows for the plowing of relatively narrow furrows or trenches with a backhoe, and also for a much faster, more efficient pipe and/or cable deposition technique. A first embodiment of the present novel technology is illustrated in
Elongated distal portion 20 includes an elongated, generally hook-shaped, J-shaped and/or 7-shaped body member 55. The body member 55 includes a top member 60, a pair of oppositely disposed side members 65, and terminates in a plow wedge 70. Elongated distal body member 55 further includes front member 77 and a curved rear member 80 positioned between side members 65. The space between the curved rear member 80, the top member 60, and the front member 77 defines a curved passageway or trough 85, including an upper entry aperture 90 and a lower exit aperture 95, through which cable and/or flexible pipe may be threaded.
Distal portion further includes a secondary wedge member 75 positioned between the side members 65 and protruding downwardly (or in a direction opposite the top member 60). Bottom plow wedge 70 includes a leading knife-edge or point 100 and a wedge-shaped bottom member 105 connected to the point 100, sidewalls 65 and front wall 77. Front and rear curved members 77, 80 are both convex relative to one another or concave relative to the outside of the device 10. The intersection of the distal portion 20 and the proximal portion 15 defines a distal portion first end 110, and the wedge-shaped bottom member 105 is positioned at the opposite distal portion second end 115.
In operation, the plow attachment 10 is operationally connected to the boom or digging armature of the backhoe either by direct connection to the coupler 35 or by engaging a bucket to a connector 40, 45. Cable or pipe is threaded through the entry aperture 85, through the trough 90, and out the exit aperture 95. The distal portion 20 is inserted into a pre-dug starter hole and is pulled or dragged by the boom arm through the ground, or, alternately, the wedge 70 is forceably engaged with the earth to begin a furrow. The plow 10 is brought forward (toward the backhoe), typically while downward pressure is applied. Earth is dislodged and forced up the curved front wall 77 and into wedge 75, where it is directed up and out of the furrow. Pipe and/or cable is fed through the trough 85 and laid in the as-dug trench. The excavated soil may be replaced, burying the pipe and/or cable.
The attachment 10 may be attached directly to a hoe boom arm via coupler 35. When so attached, the plow 10 becomes part of the overall backhoe system, and may be controlled via whatever control paradigm is used as part of that system. For instance, if the backhoe used GPS location and a computer-driven automated control system, the hoe attachment simply replaces the bucket to become end portion of the boom arm being controlled. Such a system may be programmed to move and position the plow 10 in the same way that it is programmed to move and position a bucket.
In operation, a hoe may be engaged with the system 10 to simultaneously dig a narrow trench and lay cable therein. First, the skid portion 15 is engaged with a boom arm, such as from a back hoe, track hoe, or the like, wherein the skid portion 15 is operationally connected to a trailing generally J-shaped trench-digging portion 20, wherein the skid portion 15 further comprises a flat, ground-engaging skid plate 25 and wherein the J-shaped trench-digging portion 20 further comprises a ground-engaging digging point 79, a curved soil-directing wall portion 77, a soil-directing wedge portion 79, and a cable directing trough portion 85. The skid portion 15 is urged along a cable burial route, while a downward force is applied thereto. The digging point 79 penetrates soil along the cable burial route to a predetermined depth to define a trench. Soil is urged from the trench along the curved soil-directing wall portion 77, into the soil-directing wedge portion 75, and onto surface ground. Cable is directed the trough 85 and into the trench. The displaced soil may then be at least partially refilled into the trench.
While the novel technology has been illustrated and described in detail in the drawings and foregoing description, the same is to be considered as illustrative and not restrictive in character. It is understood that the embodiments have been shown and described in the foregoing specification in satisfaction of the best mode and enablement requirements. It is understood that one of ordinary skill in the art could readily make a nigh-infinite number of insubstantial changes and modifications to the above-described embodiments and that it would be impractical to attempt to describe all such embodiment variations in the present specification. Accordingly, it is understood that all changes and modifications that come within the spirit of the novel technology are desired to be protected.
This application claims priority to co-pending U.S. provisional patent application Ser. No. 61/891,576, filed on Oct. 16, 2013.
Number | Date | Country | |
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61891576 | Oct 2013 | US |