Planting – Liquid or gas soil treatment – Drilling machines
Reexamination Certificate
2001-11-05
2002-06-25
Novosad, Christopher J. (Department: 3671)
Planting
Liquid or gas soil treatment
Drilling machines
C111S156000, C111S927000
Reexamination Certificate
active
06408772
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to the field of no-tillage opening blades which may be partially submerged into earth, for example in a farmers field, so as to pass the blade at a submerged depth for delivery of seeds, fertilizer or water into the earth, and to the mechanical system for actuating same.
BACKGROUND OF THE INVENTION
This invention relates to blade delivery systems which have replaced tillage plows and the like. It is known that the use of plows or other devices having for example tillage discs for tilling the earth or otherwise opening and turning a furrow through the ground suffer from the disadvantage that the moisture in the soil is unnecessarily exposed to evaporation. In the past it was necessary to open the earth so that the ground beneath the surface could be seeded, fertilized and watered. Whether this was accomplished by machinery or done manually, prior art machines or manual systems also suffered from the disadvantage that fertilizer was typically delivered into close proximity to the seeds being sown occasionally resulting in the seeds becoming chemically burnt.
Thus there exists a need for, and it is an object of the present invention to provide, a blade and actuating system wherein the blade may be partially submerged into earth and translated therethrough, where the blade disturbs the earth minimally and without tillage and is adapted to deliver one or all of seeds, fertilizer or water from the blade in advantageous spaced apart relation as hereinafter described.
SUMMARY OF THE INVENTION
The sub-surface seeding fertilizing and watering system of the present invention includes a mechanical actuating linkage for actuating an opening blade. The blade has first and second sides extending between a leading edge and an aft edge. The first and second sides are advantageously generally symmetrical to each other on either side of a first plane, where the first plane generally bisects the opening blade, and the leading edge and the aft edge lie generally in the first plane.
The opening blade has an upper surface and a lower surface extending between upper and lower edges respectively of the first and second sides of the blade. First and second wings are mounted to the first and second sides respectively in generally oppositely disposed relation so as to be cantilevered outwardly therefrom. The first and second wings extend between first and second forward wing edges and first and second aft-opening wing apertures in the first and second wings respectively. The first and second wings are mounted to the first and second sides at, respectively, first and second distances from the lower surface measured generally parallel to the first plane.
The opening blade has therethrough, and generally lying in the first plane, first and second conduits, extending from, and cooperating with, at uppermost ends thereof, first and second infeed ports in the upper surface. The first and second conduits cooperate with, at lowermost ends thereof, first and second wing ducts extending aft through the first and second wings respectively between the lowermost ends of the first and second conduits and the first and second aft opening wing apertures. The first and second conduits and the corresponding first and second wing ducts are thereby in material flow communication between the first and second infeed ports and the corresponding first and second aft opening wing apertures for seed, fertilizer or fluid flow, as fed from a material feeder, therethrough during the forward translation of the blade.
The opening blade is mountable to the material feeder so as to be generally vertically disposed, when mounted thereon for partial submerging into soil to a first submerged depth advancing the leading edge through the soil. The first and second distances are less than the first submerged depth so that the first and second wings are submerged in the soil during the forward translation of the blade.
In one preferred embodiment, the opening blade further includes a third conduit extending in material flow communication between a third infeed port in the upper surface and an aft opening blade aperture in a rearward position on the opening blade in proximity to the aft edge for seed, fertilizer or fluid flow therethrough, as fed from the material feeder. Advantageously the aft-opening blade aperture is centrally disposed relative to the first plane so as to lie generally symmetrically across the first plane, and may be positioned so that the aperture intersects the lower surface of the blade. Thus the aft-opening blade aperture is formed at the intersection of the lower surface and the aft edge of the blade. The aft-opening blade aperture may lie in a second plane at generally 30° inclined relative to a third plane generally containing the lower surface of the blade, wherein the third plane is generally orthogonal to the first plane.
Advantageously, the first, second and third conduits are generally parallel and raked aft of their corresponding first, second and third infeed ports. The first, second and third conduits may be raked aft at an angle of approximately 55° relative to a fourth plane generally containing the upper surface of the blade if the upper surface is a planar generally horizontal surface, although this is not necessarily so.
In one embodiment, but not so as to be limiting, at least the first and second conduits are formed by mating of corresponding opposed facing channels in oppositely mounted side panels, oppositely mounted in, or mountable into, first and second sides of the blade.
In a further aspect of the design, the third conduit is generally parallel and adjacent the aft edge and the leading edge is concavely curved and forms a pointed toe at the intersection of the leading edge and the lower surface of the blade. Advantageously, the pointed toe may be made of hardened material relative to the hardness of material forming the balance of the opening blade.
In a further aspect, the opening blade may be defined as having a longitudinal length dimension and a height dimension, where the longitudinal length dimension is perpendicular to the height dimension and both dimensions lie in the first plane. Further, the opening blade has a lateral width dimension perpendicular to the first plane.
The longitudinal length dimension extends between the leading and aft edges of the blade, the height dimension extends between the upper and lower surfaces of the blade, and the lateral width dimension extends between the first and second sides of the blade. In the present design, the length dimension is much, that is, significantly greater than the width dimension, as described hereinafter. The height dimension in one embodiment is greater than the submerged depth so that the blade is supported above the soil and the blade thus partially submerged during forward translation, although this is not intended to be limiting. That is, it is readily conceivable to mount the blade to a support that itself becomes partially submerged in the soil.
Further advantageously, the first and second wings are wedge-shaped and the forward wing edges are vertices of the wedge-shaped wings.
The sides of the blade may be thought of as having upper and lower portions respectively above and below the wings. Thus, the first and second sides have upper portions generally located, respectively, between the first and second wings and the upper surface of the blade, and lower portions generally located between, respectively, the first and second wings and the lower surface of the blade. The lower portions collectively form a waisted shape so that a forward width dimension of a forward flared portion of the lower portion of the opening blade and an aft width dimension of an aft flared portion of the lower portion of the opening blade, the forward and aft width dimensions extending between the lower portions of the first and second sides, are greater than an intermediate width dimension of a waisted portion longitudinally extending contiguously between the forward and aft flared portions.
The first wing m
Edwards Anthony C.
Novosad Christopher J.
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