The invention relates generally to cutting tools with liquid dispensers, and more particularly to cutting tools with integrated herbicide sprayers. In one form, the vegetation cutting tools with integrated herbicide sprayers are called hydroloppers.
Related art includes the following U.S. patents and applications: 02726484 and 02747330-Simpkins discloses a pump in the handle of the shears that is manually activated by squeezing of the handles, 02730838-Wilson discloses a spring loaded valve integrated in the handle that opens to allow flow of chemicals each time the handles are closed, 05606822-Dearhammer utilizes an exposed resilient chemical-holding element in the cutting plane of the blades such that the element makes contact with the plant, 02951314-Laughlin discloses a rather complex wheeled lawn tool with chemical applicator, 08181351 and 08621752-Brim's disclosure utilizes a storage tank within one of the handles of a hand pruner with a squeezable rubber bulb that acts as a plunger to draw a chemical from the tank and force it out through a distribution conduit, 00773743-VonHoffman utilizes a rubber tube inside the handles of the shears to create a pumping action each time the shears are closed, 20110239826A1-Swayne discloses an open ended wrench operable to lubricate rusted fasteners during removal by operation of a pressure bulb in one handle, 06128850-Duffy discloses herbicide wafers held on to a vegetation cutting blade, 02600540-Johnson discloses power operated pruning shears having a double-acting plunger or piston valve unit incorporated in a cylinder along the side of the tools handgrip for opening and closing the shears, 20160157426A1-Ledehuhr discloses a hedge trimmer having an elongate fibrous member that encompasses a fill pipe supplying chemicals to the fibrous member, 05822968-Savala discloses an elongate garden tool such as a rake that has a reservoir available to disperse chemicals by activation of a handle on the rake, 03002319-Laughlin discloses a hand operated weed destroyer that is absent of a cutting aspect, 02789396-Jernlander discloses a liquid dispensing system with a supply tank carried on the user's back and utilizes a single cutting blade to assist with trimming when necessary, and 20030213132A1-Frazer who once again discloses a bulb like pump at the back of one of the instruments handles to dispense chemicals while using clippers. Competitors in this market also include the Hypo-Hatchet® Tree Injector that injects a herbicide when striking the tree with hatchet like device.
What is needed is a system that includes leveraged vegetation cutters having an integrated system for dispensing herbicides under pressure as a spray on invasive plants for the simultaneous action of cutting and spraying herbicide using favorable ergonomics.
Disclosed herein are devices that overcome the shortcomings of the prior art. Included are various novel forms of a system, referred herein as a hydrolopper system, for cutting vegetation with simultaneous application of herbicide.
In one form, a hydrolopper system comprises a vegetation cutting tool in the form of a lopper comprising an integrated herbicide sprayer and referred to herein as a hydrolopper or hydrolopper tool.
In one form, a hydrolopper system presents a two-in-one solution that reduces the work involved in cutting plant life and applying herbicides.
In one form, a hydrolopper system is a two-in-one herbicidal treatment that removes both herbaceous and woody-stem invasive plants.
In one form, the devices as part of a hydrolopper system are easy-to-use, quick, and ergonomically beneficial.
In one form, a hydrolopper tool comprises a first arm jaw and an opposed second arm jaw.
In one form, the first arm jaw comprises a jog section to offset a distal portion of the first arm jaw.
In one form, disposed on a distal portion the first arm jaw is a landing arm.
In one form, the landing arm has a substantially flat landing arm face for abutment of the blade edge when lopping vegetation.
In one form, opposed cut edges are utilized on distal portions of the first arm jaw and second arm jaw.
In one form, the arm jaws comprise an arm stem extending proximally and can be narrowed for fixation to a respective first drive arm and second drive arm.
In one form, the first drive arm and second drive arm comprise respective a first handle and a second handle disposed on and over a proximal end of the drive arms.
In one form, a linkage system is utilized between the first arm jaw and second arm jaw for the transmission of leveraged forces for cutting vegetation applied by a user on the first handle and second handle.
In one form, a medial force applied to the first drive arm and second drive arm leverages a cut edge towards a landing arm face thereby cutting vegetation positioned therebetween.
In one form, a medial force applied to the first drive arm and second drive arm leverages two opposed cut edges towards each other thereby cutting vegetation positioned therebetween.
In one form, the first drive arm and second drive arm are approximately 21.5 inches long and are preferably in a range of 17.5 inches to 25.5 inches long or in a range 20 inches to 23 inches long.
In one form, a plurality of threaded fasteners are utilized in assembly of the cutting jaws portion.
In one form, a portion of the threaded fasteners are substituted with welds or other fixation means known in the art to fix various parts together.
In one form, at least one of the first drive arm and second drive arm are of a solid cross-section.
In one form, at least one of the first drive arm and second drive arm is manufactured of wood.
In one form, the first drive arm comprises a first arm cannula extending through the first drive arm along an axis-A.
In one form, the second drive arm comprises a second arm cannula extending from end to end along an elongate axis.
In one form, a feed line is utilized to carry the flow of herbicide from a proximal end to a distal end of the hydrolopper.
In one form, at least a portion of the feed line of the hydrolopper is housed within the first arm cannula of the first drive arm.
In one form, a portion of the herbicidal sprayer such as the feedline of the hydrolopper is disposed on a drive arm outer surface rather than housed within the first arm cannula.
In one form, a flow control valve is substantially housed within the first arm cannula.
In one form, a flow control valve is disposed on a drive arm outer surface.
In one form, a supply line is utilized to carry the flow of herbicide between a herbicide reservoir and pump to the feed line.
In one form, a flow control valve is positioned within a segment of the supply line proximal the first drive arm.
In one form, one or more of a proximal line support, a midline support, and a distal line support are utilized to hold the feed line within the first arm cannula.
In one form, the feed line is coupled with the supply line that draws herbicide from a herbicide reservoir.
In one form, the herbicide reservoir has a reservoir cap that can be removed for refilling the herbicide reservoir with herbicide.
In one form, a flow control valve interrupts one or more of the supply line and feed line to control release of herbicide.
In one form, the flow control valve comprises a knob for manually adjusting the flow of herbicide.
In one form, the flow control valve is set to shut off the flow of herbicide.
By using the devices disclosed herein, any commercial pesticide applicator, forester, landscaper, or do it yourself gardener is provided with an effective solution for treating invasive plants using a two in one solution of herbicidal treatment.
These and other features and advantages of the present invention will become more readily appreciated when considered in connection with the following detailed description and appended drawings, wherein each drawing is according to one or more embodiments shown and described herein, and wherein:
Select embodiments of the invention will now be described with reference to the Figures. Like numerals indicate like or corresponding elements throughout the several views and wherein various embodiments are separated by letters (i.e. 100, 100B, 100C). The terminology used in the description presented herein is not intended to be interpreted in any limited or restrictive way, simply because it is being utilized in conjunction with detailed description of certain specific embodiments of the invention. Furthermore, embodiments of the invention may include several novel features, no single one of which is solely responsible for its desirable attributes or which is essential to practicing the invention described herein.
The first drive arm is fixed at a distal end to first arm jaw 112A through first arm hole 150A by first fastener 122A and first nut 123A. A blade arm 116A comprises a plate like blade arm body 117A with a blade face 137A that tapers down to blade edge 136A. A blade pivot hole 158A extends through the blade arm body 117A and is aligned and secured by third fastener 126A and third nut 127A with primary pivot hole 160A that extends through the first arm jaw body 138A. A lever link 118A having a flat elongate lever link body 119A comprises at opposing ends a first link hole 154A and a second link hole 156A whereas first link hole 154A is aligned with first link aperture 155A of blade arm 116A and is secured with eighth fastener 141A to serve as a pivot point in the linkage. Second link hole 156A is aligned with second link aperture 157A of second arm jaw 114A and secured with fifth fastener 130A and fifth nut 131A. The lever link is therefore pivotably connected between the first arm jaw and the second arm jaw. The first arm jaw 112A with second pivot hole 162A therethrough near jog section 146A and second arm jaw 114A with second jaw hole 164A therethrough at a distal end are aligned and secured with fourth fastener 128A and fourth nut 129A. In some embodiments, threaded fasteners can be substituted with other means such as rivets or welds as deemed appropriate.
First arm jaw body 138A comprises a jog section 146A to offset the distal portion of the first arm jaw body 138A which has a plate referred to as a landing arm 120A fixed to one side of it with seventh fastener 134A in first jaw hole 133A and sixth fastener 132A in second jaw hole 135A. The landing arm comprises a plate like landing arm body 121A having a landing arm face 139A for substantially perpendicular abutment of blade edge 136A when lopping vegetation such as a branch of an invasive shrub through action of approximating first handle 108A on proximal end of first drive arm 104A with second handle 110A on proximal end of second drive arm 106A. In this embodiment, these forces drive the lever link to pivot the blade arm toward and abut the landing arm.
A first drive arm feed recess 196A at a distal end of the first drive arm 104A provides space for the distal line 168A of the feed line 166A to exit from the first arm cannula 203A and cross to an opposing side of the cutting jaws portion 111A. Similarly, first drive arm control recess 194A along with the first handle control recess 198A in first handle 108A provides access to the flow control valve 176A by the user whom controls the rate of flow upon manual rotation of flow control knob 173A on the flow control valve 176A. A first handle cavity 199A within first handle 108A is sized for the proximal end of first drive arm 104A to be seated at least partially therein. Similarly, a second handle cavity 201A within second handle 110A is sized for housing the proximal end of second drive arm 106A to be seated therein. An entry window 181A on the proximal end of first handle 108A provides for passage of hose interface 182A extending from proximal line coupler 180A. The proximal line coupler 180A is coupled with proximal line 170A of feed line 166A which in turn is coupled with first line coupler 177A of flow control valve 176A. The distal end of flow control valve 176A is coupled with second line coupler 178A which at a distal end is coupled with the proximal end of distal line 168A of feed line 166A.
As further depicted in
It is noted that the terms “substantially” and “about” and “generally” and “approximately” may be utilized herein to represent the inherent degree of uncertainty that may be attributed to any quantitative comparison, value, measurement, or other representation. These terms are also utilized herein to represent the degree by which a quantitative representation may vary from a stated reference without resulting in a change in the basic function of the subject matter at issue.
The foregoing invention has been described in accordance with the relevant legal standards, thus the description is exemplary rather than limiting in nature. Variations and modifications to the disclosed embodiment may become apparent to those skilled in the art and fall within the scope of the invention.
This application claims priority to Provisional Patent Application No. 63/085,802 filed Sep. 30, 2020, the entire disclosure of which is hereby incorporated by reference and relied upon.
Number | Date | Country | |
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63085802 | Sep 2020 | US |