This invention relates to equipment used to bring water and oxygen to the roots of trees.
Currently there are only a few limited solutions for bringing water to the roots of trees without irrigating the surface, but they do not meet industry needs. This solution is different in that it is (1) not pressurized; (2) that it allows for a water hose to be easily placed within (or removed) the in the delivery system; (3) with multiple rows of drain-holes, this invention has a much greater aeriation/water surface distribution area; and 4) it is easy to clean/flush out so that distribution holes don't get clogged.
After observing the difficulty that water has penetrating from the surface down to the root-level of trees, particularly in arid environments, it was apparent that it would be advantageous to have a device that could readily transport water down to the root level of trees, as well as bring allow for better aerations of the roots. This device should be able be easily installed with a new tree, or added later if a tree was previously established. The device described in this summary fills these needs, as it is an effective method to bypass the soil surface and evaporation horizon, bringing water directly from the surface down to the root level.
Disclosed is a root irrigation tool design. This irrigation tool is made of either plastic, pvc or metal, typically in the form of a length of pipe with open ends, where the bottom end (about 40%, though it can be customized to fit the needs of the tree/plant) is filled with rows of irrigation holes so that water can pass through and irrigate the ground near and below the roots of the plant. The top of the pipe is also open so that a hose can be placed in the top to deliver water. When the irrigation tool is not actively delivering water to the roots of the plant, it acts as an aeration device that will allow the roots to receive the air that they need to thrive.
Typically, this device is installed when the tree is planted, though it can be installed at a later time. This device may be built with a tapered top to better facilitate the insertion of a hose. The standard would be built at 18″ in length and 1.0″ inside diameter. It may also be scaled in size, both length and diameter, to accommodate different sizes of trees, where a tree with a larger root ball would need a longer irrigation tool. These scaled sizes would typically be between 16″ and 30″ in length; and 1″ to 1.25″ inside diameter.
This invention is a root watering pipe, with an unperforated head/neck and perforated, slotted or screen base. This works by carrying water from the surface down to the root level where it can seep into the ground at and below the roots, eliminating evaporation and drawing the roots down-ward into the ground. It also allows aeration of the roots. The length of pipe varies as needed, depending on the size of the tree and related hole, but generally is standardized 18″, 24″ or 30″ in depth. The ideal width of the pipe (ID) is at 1.0″ or 1.25″ diameter, though it can be scaled to the needs of the specific tree. It will have holes/perforation or screen in the bottom 40%. The top may be slightly dilated to better allow a hose or slotted to receive driplines. The bottom (in ground) end is open to allow for increase saturation, though it can be tapered to allow for better ground penetration if installed on an existing tree.
The present invention is a root irrigation tool.
In its most basic version, the device is made from an 18″ length of pipe or a 24″ length of pipe (but may be scaled to any size, generally between 16″-30″), typically 1″ inside diameter (can also be 1.25″ inside diameter), where about the bottom 40% is perforated/screened with rows of holes to allow for water/air to irrigate into the ground. Holes/perforations are 3/16″ in diameter (but can range from ⅛″-¼″). The number of holes varies by length of the pipe. The bottom is also open for better water conductivity, though if modified, a gentle taper may prevent debris from clogging the irrigation tool during installation. It should be noted that the design can be scaled to allow for different sizes of root-balls, and the top of the pipe may have a taper or a flare to better accept a hose. Open top and bottom also allows for easy cleaning—insertion of hose can flush mud, gravel and debris from irrigation tool.
A diagram example of this root irrigation tool (
Different features, variations and multiple different embodiments have been shown and described with various details. What has been described in this application, at times in terms of specific embodiments, is done for illustrative purposes only and without the intent to limit or suggest that what has been conceived is only one particular embodiment or specific embodiments. It is to be understood that this disclosure is not limited to any single specific embodiments or enumerated variations. Many modifications, variations and other embodiments will come to mind of those skilled in the art, and which are intended to be and are in fact covered by both this disclosure. It is indeed intended that the scope of this disclosure should be determined by a proper legal interpretation and construction of the disclosure, including equivalents, as understood by those of skill in the art relying upon the complete disclosure present at the time of filing.