Irrigation Device and Method of Promoting Deep Root Growth of a Plant

Abstract

The invention is a device and method for providing irrigation water to a plant that promotes the growth of the roots of the plant deep into the soil. The invention includes a tube, connector, and soaker hose that is buried next to a plant. The invention connects to an existing irrigation drip line system that previously provided water to the plant. The invention also repels the roots of the plant away from the apparatus so that the roots are hindered from destroying the apparatus.

Description

FIELD OF INVENTION

The invention is a device and method for promoting the downward growth of the roots of a plant. More particularly, the invention relates to a device and method that provides deep root watering of a plant and promotes the growth of the roots of a plant deeper into the ground. The invention is connectable to an existing irrigation drip line system. The invention can also repel the roots of the plant away from the apparatus so that the strengthened roots are hindered from destroying the apparatus.

BACKGROUND

For thousands of years farmers and, more specifically, viticulturists, have irrigated plants and vines to provide for a controlled and consistent growth in the face of inconsistent weather patterns. More recently, farmers have adopted a system of drip irrigation that allows each and every vine in a field to be individually watered efficiently without water wasting sprinklers. However, this drip irrigation system provides water only on the top of the soil and the water does not penetrate deep into the soil. This causes the roots of the vines or plants to stay near the surface of the soil, instead of having the roots burrow down into the soil, as is preferred for a healthy and hardy plant. When a vine or plant has deep roots, the plant is better able to find its own supply of water in the lower water table and survive harsh weather conditions, such as extreme cold, extreme heat, or drought.

Several references attempt to overcome the problems with drip irrigation by providing an underground source of irrigation water to the plants. One type of underground irrigation system includes references that disclose ways to regulate water. U.S. Pat. Nos. 4,453,343, issued to Grimes, 6,540,436, issued to Ogi, and 5,938,372, issued to Lichfield, are three such references. Other reference disclose irrigation systems that define types of holes, like U.S. Pat. No. 6,443,367, issued to Bova (which has a screw top hole), U.S. Published Patent Application No. 2003/0196375, filed by Ferro (which discloses multiple holes), and U.S. Pat. No. 5,996,279, issued to Zayeratabat (which discloses holes with a closeable lid).

These references, which share some common features, disclose irrigation systems that attempt to provide deep root irrigation water to a plant. However, these references do not solve all of the problems of the standard drip irrigation system, and importantly, none of these references disclose a solution that can take advantage of an existing drip irrigation system by directly connecting to the existing drip irrigation system. Thus, what is needed an efficient deep root irrigation system that can connect to the existing drip irrigation system that was previously installed.

SUMMARY OF THE INVENTION

To minimize the limitations in the prior art, and to minimize other limitations that will become apparent upon reading and understanding the present specification, the present invention is a device and method for providing irrigation water to a plant that encourages the development of deep root growth and that is connectable to the existing drip irrigation system.

An irrigation device may comprise: a tube; a coupling; and a hose. The coupling may connect the hose to the tube and the tube may connect to a water source. The irrigation device may be buried underground such that the tube is partially above ground and partially below ground, and the coupling and the soaker hose are below ground. Preferably, the water source is an existing irrigation drip line emitter and the hose is a soaker hose. The irrigation device is preferably buried next to a plant such that one or more roots of the plant grow downward towards a buried portion of the irrigation device, specifically the soaker hose. The buried portion of the tube may extend downward in a substantially vertical manner such that the coupling is initially below the one or more roots of the plant (of course the roots may always later grow lower than the coupling); and wherein the soaker hose extends upward in a substantially vertical manner from the coupling towards the one or more roots. Preferably, the coupling is comprised of copper. The irrigation device may be placed underground by digging a hole, placing the irrigation device in the hole, and backfilling the hole with an aerating composition, such as gravel and/or sand. The hole is preferably substantially vertical.

Another embodiment of the invention is an irrigation device that may comprise: a tube; a copper coupling; and a soaker hose. The copper coupling may connect the soaker hose to the tube. The tube may connect to an existing drip irrigation water source. The irrigation device may be buried underground such that the tube is partially above ground and partially below ground, and wherein the copper coupling and the soaker hose may be below ground. Preferably the irrigation device is buried next to a plant such that when water is passed through the irrigation device one or more roots of the plant are caused to grow downward towards a buried portion of the irrigation device. An underground portion of the tube may extend downward in a substantially vertical manner such that the copper coupling is below one or more roots of a plant and the soaker hose extends upward from the copper coupling towards the one or more roots in a substantially vertical manner. Preferably, the irrigation device is placed underground by digging a hole, placing the irrigation device in the hole, and backfilling the hole with sand and gravel. Typically, the hole is substantially vertical.

Another embodiment of the invention is a method of promoting deep root growth of a plant may comprise the steps of: providing an irrigation device; wherein the irrigation device is comprised of: a tube; a copper coupling; and a soaker hose; wherein the copper coupling connects the soaker hose to the tube; connecting the irrigation device to a water source; burying the irrigation device underground such that the tube is partially above ground and partially below ground, and wherein the copper coupling and the soaker hose are below ground; and passing a flow of water through the irrigation device. Preferably the water source is an existing drip irrigation system. The irrigation device may be buried by digging a hole, placing the irrigation device in the hole, and backfilling the hole with an aerating composition. The irrigation device may be buried next to a plant such that when the flow of water is passed through the irrigation device one or more roots of the plant are caused to grow downward towards a buried portion of the irrigation device. Preferably, an underground portion of the tube extends downward in the backfilled hole in a substantially vertical manner. The copper coupling is placed in a low point of the hole and is below the one or more roots of the plant and the soaker hose extends upward from the copper coupling towards the one or more roots in a substantially vertical manner. The copper coupling repels the one or more roots and hinders the one or more roots from destroying the irrigation device.

Another embodiment of the invention may be comprised of an irrigation tube, which may be attached to a drip emitter, a coupling, and a soaker hose (or perforated tube). The irrigation tube may be buried to a point that is substantially below the roots of a plant with the coupling at the lowest point. The soaker hose may be located directed above the coupling and directed upwardly towards the roots of the plant. The water from the soaker hose, which is preferably just within reach of the roots, encourages the growth of the roots of the plant downward and deeper.

Another embodiment of the invention may comprise a plant watering apparatus with a tube; a coupling; and a soaker hose. The tube may be connected to one end of the coupling. The soaker hose may be connected to another end of the coupling. The tube and the soaker hose may not be connected to the same end of the coupling. The tube may also be connected to an existing irrigation drip line emitter. The connection between the tube and the existing irrigation drip line emitter may not be the same connection as the tube and the coupling connection. The plant watering apparatus may also comprise a hole; wherein the tube may be placed inside the hole. The hole may be adjacent to a plant to be watered. The hole may also or alternatively be underneath the plant. The coupling may be placed in a lowest position in the hole and the soaker hose may be placed above the coupling and towards a plurality of roots of the plant to be watered. The hole may be back-filled with gravel or sand to provide additional aeration of the soil. The coupling may be copper. The soaker hose may create a higher density area of moist soil at a deeper soil level than a surface-level irrigation drip line alone.

Another embodiment of the invention is a method of promoting deep root growth of a plant that may comprise the steps of: providing a watering apparatus; connecting the watering apparatus to an existing drip line emitter; placing the watering apparatus in a hole, wherein the hole is adjacent to a plant to be watered; and providing water to the existing drip line emitter, wherein the water flows through the watering apparatus and waters the plant. The method may further provide a watering apparatus that comprises a tube, a coupling, and a soaker hose; placing the coupling at a low point in the hole; placing the soaker hose above the coupling and toward a plurality of roots of the plant to be watered; and providing water to the existing drip line emitter, wherein the water flows to the soaker hose through the tube and the coupling.

The method may further comprise: back-filling the hole with gravel or sand to provide additional aeration of the soil. Additionally, the method may repel a plurality of roots away from the coupling because the coupling is constructed of copper.

Another embodiment of the invention is a method of promoting deep root growth of a plant that may comprise the steps of: providing a watering apparatus that is comprised of a tube, a coupling, and a soaker hose; connecting the tube to an existing drip line emitter; placing the watering apparatus in a hole, wherein the hole is adjacent to a plant to be watered; placing the coupling at a low point in the hole; placing the soaker hose above the coupling and toward a plurality of roots of the plant to be watered; and providing water to the existing drip line emitter, wherein the water flows to the soaker hose through the tube and the coupling. The hole may be adjacent to or underneath a plant to be watered.

It is an object of this invention to provide a methods and device for encouraging the growth of plants roots in a downward direction deeper into the soil.

It is another object of this invention to incorporate the existing irrigation system with the watering apparatus device and/or enhanced watering method.

It is yet another object of the present invention to overcome the limitations of the prior art.

BRIEF DESCRIPTION OF THE DRAWING

FIG. 1 is an illustration of one embodiment of the irrigation device.

DETAILED DESCRIPTION OF THE DRAWING

In the following detailed description of various embodiments of the invention, numerous specific details are set forth in order to provide a thorough understanding of various aspects of one or more embodiments of the invention. However, one or more embodiments of the invention may be practiced without some or all of these specific details. In other instances, well-known methods, procedures, and/or components have not been described in detail so as not to unnecessarily obscure aspects of embodiments of the invention.

Although one specific embodiment is disclosed, still other embodiments of the present invention will become apparent to those skilled in the art from the following detailed description, which shows and describes only one illustrative embodiment of the invention. As will be realized, the invention is capable of modifications in various obvious aspects, all without departing from the spirit and scope of the present invention. Accordingly, this one FIGURE is to be regarded as merely illustrative in nature and not restrictive. Also, the reference or non-reference to a particular embodiment of the invention shall not be interpreted to limit the scope of the invention.

FIG. 1 is an illustration of one embodiment of the irrigation device. As shown in FIG. 1, the irrigation device 10 preferably includes a tube 20, a coupling 30, and a hose 40. The tube 20 and hose 40 are preferably connected to the ends of the coupling 30. The tube 20 is preferably connected to an existing irrigation drip line emitter 50 and hose 40 is preferably a soaker hose. It should be understood that the invention may be combined with any source of water or other nutrient providing system without deviating from the scope of the invention.

As shown in FIG. 1, the tube 20 extends from a source of water, which is above ground, and continues underground in a substantially vertical manner. When the irrigation system is turned on, water travels from the existing irrigation drip line emitter 50 passing through any valves, if needed, which may regulate the water flow between the irrigation drip line 60 and the tube 20. The valve may also prevent the back flow of water. The tube 20 may be constructed from an natural or man-made material, including, but not limited to High-Density Polyethylene (“HDPE”), Medium-Density Polyethylene (“MDPE”), copper, iron, or lead pipes, thermoplastic polymers like Polyvinyl chloride (“PVC”), Chlorinated polyvinyl chloride (“CPVC”), Acrylonitrile butadiene styrene (“ABS”), cross-linked polyethylene (“PEX plastic”) pressure pipes, or any other similar material that can help to resist mold, corrosion, and weather damage. Although tube 20 is shown as wider than irrigation drip line 60, it is preferably a flexible tube that is narrower than the irrigation line. If desired, a pressure control valve may also be installed to regulate water pressure and help prevent excessive pressure from harming the system.

The irrigation device 10 is assembled and then placed in the hole 70, which, as shown in FIG. 1 is a deep and substantially vertical hole that can accommodate the length of the hose 30. FIG. 1 also shows how the irrigation device 10 is preferably buried low enough so that roots will strive to get to the water provided.

The coupling 30 is preferably copper and, as shown in FIG. 1, is at a low point in the hole 70. In addition to repelling roots, the copper coupling 30 also acts as a catalyst in photosynthesis and respiration. By incorporating a copper coupling 30 into the hole 70, roots 110 of the plant that the irrigation device 10 is watering will be prevented from growing. Preferably, the copper coupling 30, which is between the tube 20 and the hose 40, will also repel the roots 110 from destroying the tube 20 or clogging the water supply running though tube 20. Preferably, the copper coupling 30 is standard dual sided hose coupling that extends into tube 20 and oppositely into hose 40. Coupling 30 may be any shape, such a U-bend, V-bend, ninety (90) degree bend, or straight, without deviating from the scope of the invention.

The hose 40, which is preferably soaker hose, or other type of perforated tube that has small holes 41 which allows water to seep out of the hose 40 as it travels up the length of the hose 40. Specifically, the water percolates upward in hose 40 towards the roots 110. Preferably, hose 40 has a cap at the end that forces water to exit out of the holes 41. However, the hose 40 may simply be tied off, sealed, crimped, or otherwise plugged, to prevent the water from exiting out the end of the tube 40. The water will first exit the hose 40 out of holes 41 that are closest to coupling 30. As such, depending upon how much water is provided to the irrigation device, more water will be provided at a lower level in the hole 70. Thus, when less water is provided, the water is provided deeper, which causes the roots to strive to grow deeper. But, when the irrigation device 10 is first installed, more water can be provided so that the roots 110 sense the water and start growing deeper immediately. A column of saturated soil is created along the hose 40, which allows the roots 110 to grow downward to and through the saturated soil and into the soaker hose. Preferably, the saturated column of soil never reaches the surface of the soil. Thus, there is no loss of water to evaporation.

FIG. 1 also shows that the plant watering apparatus 10 is placed in a hole 70, which is adjacent to a plant 100 to be watered. Preferably, the coupling 30 placed in a lowest position in the hole 70 and the hose 40 is placed above the coupling 30, stretching vertically upward towards the roots 110 of the plant 100 to be watered. The hole 70 is back typically back filed with an aerating composition 80, such as gravel or sand to provide additional aeration of the soil. The hole 70 may be backfilled with any composition without deviating from the scope of the invention, so long as the irrigation device is held in place and may provide water to plant 100.

When the irrigation device 10 is used, a moist layer of soil is created that is substantially deeper than what can be created by a standard drip irrigation system or sprinkler system. By creating deeper roots 110, the plant 100 can better survive harsh weather, such as extreme heat, cold, unseasonable weather, drought, or excessive rainfall. Plants without deep roots are much less likely to survive harsh weather.

The foregoing description of the preferred embodiment of the invention has been presented for the purposes of illustration and description. Although only one embodiment is shown in the FIGURE, still other embodiments of the present invention will become apparent to those skilled in the art from the above detailed description of the invention. As will be realized, the invention is capable of modifications in various obvious aspects, all without departing from the spirit and scope of the present invention. Accordingly, the detailed description is to be regarded as illustrative in nature and not restrictive. Also, although not explicitly recited, one or more embodiments of the invention may be practiced in combination or conjunction with one another. Furthermore, the reference or non-reference to a particular embodiment of the invention shall not be interpreted to limit the scope the invention. It is intended that the scope of the invention not be limited by this detailed description, but by the claims and the equivalents to the claims that are appended hereto.

Claims

1. An irrigation device comprising: a tube;a coupling; anda hose;wherein said coupling connects said hose to said tube;wherein said tube connects to a water source;wherein said irrigation device is buried underground such that said tube is partially above ground and partially below ground, and said coupling and said hose are below ground.

2. The irrigation device of claim 1, wherein said water source is an existing irrigation drip line emitter.

3. The irrigation device of claim 2, wherein said hose is a soaker hose.

4. The irrigation device of claim 3, wherein an irrigation device is buried next to a plant such that one or more roots of said plant grow downward towards said soaker hose.

5. The irrigation device of claim 4, wherein a buried portion of said tube extends downward in a substantially vertical manner such that said coupling is initially below said one or more roots of said plant; and wherein said soaker hose extends upward in a substantially vertical manner from said coupling towards said one or more roots of said plant.

6. The irrigation device of claim 5, wherein said coupling is comprised of copper.

7. The irrigation device of claim 6, wherein said irrigation device is placed underground by digging a hole, placing said irrigation device in said hole, and backfilling said hole with an aerating composition.

8. The irrigation device of claim 7, wherein said hole is substantially vertical.

9. An irrigation device comprising: a tube;a copper coupling; anda soaker hose;wherein said copper coupling connects said soaker hose to said tube;wherein said tube connects to an existing drip irrigation water source;wherein said irrigation device is buried underground such that said tube is partially above ground and partially below ground, and wherein said copper coupling and said soaker hose are below ground.

10. The irrigation device of claim 9, wherein said irrigation device is buried next to a plant such that when water is passed through said irrigation device one or more roots of said plant are caused to grow downward towards a buried portion of said irrigation device.

11. The irrigation device of claim 10, wherein an underground portion of said tube extends downward in a substantially vertical manner such that said copper coupling is below said one or more roots of said plant; and wherein said soaker hose extends upward from said copper coupling towards said one or more roots of said plant in a substantially vertical manner.

12. The irrigation device of claim 11, wherein said irrigation device is placed underground by digging a hole, placing said irrigation device in said hole, and backfilling said hole with an aerating composition.

13. The irrigation device of claim 12, wherein said hole is substantially vertical.

14. A method of promoting deep root growth of a plant comprising the steps of: providing an irrigation device;wherein said irrigation device is comprised of: a tube; a copper coupling; and a soaker hose;wherein said copper coupling connects said soaker hose to said tube;connecting said irrigation device to a water source;burying said irrigation device underground such that said tube is partially above ground and partially below ground, and wherein said copper coupling and said soaker hose are below ground; andpassing a flow of water through said irrigation device.

15. The method of promoting deep root growth of a plant of claim 14, wherein said water source is an existing drip irrigation system.

16. The method of promoting deep root growth of a plant of claim 15, wherein said irrigation device is buried by digging a hole, placing said irrigation device in said hole, and backfilling said hole with an aerating composition.

17. The method of promoting deep root growth of a plant of claim 16, wherein said irrigation device is buried next to a plant such that when said flow of water is passed through said irrigation device one or more roots of said plant are caused to grow downward towards a buried portion of said irrigation device.

18. The method of promoting deep root growth of a plant of claim 17, wherein an underground portion of said tube extends downward in said hole in a substantially vertical manner; wherein said copper coupling is placed in a low point of said hole and below said one or more roots of said plant; andwherein said soaker hose extends upward from said copper coupling towards said one or more roots of said plant in a substantially vertical manner.

19. The method of promoting deep root growth of a plant of claim 18, wherein said copper coupling repels said one or more roots of said plant and hinders said one or more roots of said plant from destroying said irrigation device.