HYDROPONIC GROWING SYSTEM

Abstract

A hydroponic growing system that comprises a plurality of parallel horizontal pipes, a vertical drain pipe, and a plurality of nutrient-delivering tubes. The horizontal pipes are adapted to support crops that receive nutrients from the nutrient-delivering tubes and grow in high density. The horizontal pipes have opposite first and second ends, as well as a plurality of openings along a length, and a plurality of pipe segments extending angularly from an outer surface. The vertical drain pipe has a plurality of angular pipe extensions along a length, which mate with one of the first and second ends of the horizontal pipes. The nutrient-delivering tubes have openings along a length and extend from the vertical drain pipe, branching through the pipe segments extending from the horizontal pipes.

Claims

1. A hydroponic growing system comprising: a plurality of parallel horizontal pipes each having opposite first and second ends, a plurality of openings along a length between said first and second ends on one side thereof through which crops grow, and a plurality of pipe segments extending angularly from an outer surface on an opposing side thereof; a vertical drain pipe having a plurality of angular pipe extensions along a length thereof, said pipe extensions mating with one of said first and second ends of said plurality of parallel horizontal pipes; and a plurality of nutrient-delivering tubes having openings along a length thereof and extending from said vertical drain pipe and branching through said plurality of pipe segments, wherein each of said horizontal pipes being adapted to support crops that receive nutrients from said nutrient-delivering tubes, thereby producing crops in high density.

2. A hydroponic growing system according to claim 1, further comprising: a plurality of parallel vertical support members having a plurality of circular openings along a length; and at least one horizontal support member coupled to a bottom end of each of said plurality of vertical support members, wherein each of said opposing ends of said horizontal pipes rests within said circular openings of said parallel vertical support members, and at least one end of said horizontal pipes extends through said circular openings.

3. A hydroponic growing system according to claim 1, wherein said horizontal pipes are substantially cylindrical.

4. A hydroponic growing system according to claim 1, wherein said plurality of nutrient-delivering tubes extend vertically up one of said plurality of parallel vertical support members.

5. A hydroponic growing system according to claim 1, further comprising a reservoir for storing said nutrient-enriched water.

6. A hydroponic growing system according to claim 1, further comprising a water pump coupled to one of said plurality of nutrient-delivering tubes.

7. A hydroponic growing system according to claim 1, wherein said plurality of pipe segments have opposing circular openings at one end to receive said nutrient-delivering tubes.

8. A hydroponic growing system according to claim 1, wherein a portion of said plurality of pipe segments are coupled to adjacent said horizontal pipes.

9. A hydroponic growing system according to claim 1, wherein said nutrient-delivering tubes include nutrient-enriched water.

10. A hydroponic growing system according to claim 1, wherein said angular pipe extensions on said vertical drain pipe are perpendicular.

11. A hydroponic growing system according to claim 1, wherein said horizontal pipes and said vertical and horizontal support members are slanted to allow for reuse of said nutrient-enriched water.

12. A method of growing crops using a hydroponic growing system, comprising the steps of: providing, a plurality of parallel horizontal pipes each having opposite first and second ends, a plurality of openings along a length between said first and second ends on one side thereof, and a plurality of pipe segments extending angularly from an outer surface on an opposing side thereof; a vertical drain pipe having a plurality of angular pipe extensions along a length thereof, said pipe extensions mating with one of said first and second ends of said plurality of parallel horizontal pipes; and a plurality of nutrient-delivering tubes having openings along a length thereof and extending from said vertical drain pipe and branching through said plurality of pipe segments, wherein each of said horizontal pipes being adapted to support crops that receive nutrients from said nutrient-delivering tubes, thereby producing crops in high density; placing said crops in said horizontal pipes adjacent to said openings; filling said vertical drain pipe with nutrient-enriched water; and pumping said nutrient-enriched water from said vertical drain pipe through said nutrient-delivering tubes, whereby water exits said openings in said nutrient-delivering tubes, feeds crops, and drains back to said vertical drain pipe through said horizontal pipes and said pipe segments for recycling.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0008] A more complete appreciation of the invention and many of the attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:

[0009] FIG. 1A is a front perspective view of a hydroponic growing system in accordance with an exemplary embodiment of the invention, and FIG. 1B is a front plan view of the hydroponic growing system of FIG. 1A constructed on a slant in accordance with an exemplary embodiment of the invention;

[0010] FIG. 2 is a rear perspective view of the hydroponic growing system illustrated in FIG. 1A;

[0011] FIG. 3A is a rear perspective view of the hydroponic growing system illustrated in FIG. 1A, and FIG. 3B is a cross-sectional view of the interior of the pipe segment of the hydroponic growing system illustrated in FIG. 1A;

[0012] FIG. 4 is a plan view of the hydroponic piping system in accordance with an exemplary embodiment of the present invention; and

[0013] FIG. 5 is a perspective view of the vertical drain in accordance with an exemplary embodiment of the present invention; and

[0014] FIG. 6 is a perspective view of the vertical drain and reservoir in accordance with an exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

[0015] Hydroponic systems where the roots of the plants are sustained only in solution are known as solution cultures. Within the category of solution cultures, there are three different types of systems: static solution cultures, continuous-flow solution cultures, and aeroponics. In a continuous-flow solution culture, the nutrient-rich solution constantly flows past the roots, which requires some automation, but allows for adjustments to the temperature and composition of the solution.

[0016] Referring to the Figures, the hydroponic growing system 100 of the present invention is a continuous-flow solution culture that generally comprises a plurality of parallel horizontal pipes 102, a vertical drain pipe 108 and a plurality of nutrient-delivering tubes 112. The horizontal pipes 102 are adapted such that they house the crops or plants which are to be grown in the system. The crops or plants are grown from seed in a support structure, e.g., a starter tray, and when they reach approximately four inches in height, they are transferred to the horizontal pipes 102. The vertical drain pipe 108 allows for the recycling of nutrient-enriched water, which is supplied to the crops via the nutrient-delivering tubes 112. The entire system is preferably designed to fit into a small footprint, such as a 12 foot12 foot area, and provides for the high-density growth of crops, e.g., up to 850 small crops, such as bell peppers, tomatoes, cucumbers, zucchini, squash and the like.

[0017] As seen in FIGS. 1A-1B, 2 and 5, the horizontal pipes 102 have opposite first and second ends 103 and 105, respectively, and a plurality of openings 104 along a length between the first and second ends 103 and 105 on one side. The horizontal pipes 102 may be substantially cylindrical. The crops grow inside of the horizontal pipes 102 and extend outward through the openings 104. A plurality of pipe segments 106 extend angularly, preferably substantially perpendicularly, from an outer surface on an opposing side of the horizontal pipes 102. As seen in FIG. 5, the vertical drain pipe 108 is situated adjacent to the second ends 105 of the horizontal pipes 102 and has a plurality of angular pipe extensions 110 along a length thereof. The angular pipe extensions 110 mate with the second ends 105 of the horizontal pipes 102.

[0018] As seen in FIGS. 3A and 4, a plurality of nutrient-delivering tubes 112 having openings 113 along a length thereof branch through a portion of the plurality of pipe segments 106 extending from the horizontal pipes 102. The nutrient-delivering tubes 112 preferably extend from the base of the vertical drain pipe 108, where they receive recycled nutrient-enriched water. As depicted in FIG. 3B, the nutrient-delivering tubes 112 are fed through opposing circular openings on the pipe segments 106, which hold the nutrient-delivering tubes 112 in place. In use, the nutrient-rich water travels through the plurality of nutrient-delivering tubes 112, exits through the openings 113 into pipe segments 106 and travels down into the horizontal pipes 102 where the crops are stored.

[0019] As the nutrient-enriched water flows through the nutrient-delivering tubes 112, it exits through the openings in the nutrient-delivering tubes 112, flows down the pipe segments 106 to the crops and provides nutrients for their growth. The depleted water then drains through the remaining portion of the pipe segments 106, which are coupled to adjacent horizontal pipes 102, and then drains through the horizontal pipes 102 returning back to the vertical drain pipe 108. As shown in FIG. 5, the nutrient-delivering tubes 112 may be capped at their ends such that there is no escape of the nutrient-enriched water from the hydroponic growing system 100. The horizontal pipes may be slanted to help the depleted water flow back to the vertical drain pipe 108 to be recycled. As seen in FIG. 6, the hydroponic growing system 100 may have a reservoir 114 in which the nutrient-enriched water is stored. The depleted water may also drain back to the reservoir 114. The system may also comprise a water pump coupled to one of the nutrient-delivering tubes to provide adequate water pressure.

[0020] As seen in FIGS. 1A-B and 2, the hydroponic growing system 100 may have a plurality of parallel vertical support members 101, which have a plurality of openings 107 along their length. The openings 107 receive the first and second ends 103 and 105 of the horizontal pipes 102, and the second end 105 of the horizontal pipes 102 extend through the openings 107 of one of the vertical support members 101.

[0021] As seen in FIG. 4, the nutrient-delivering tubes 112 may extend vertically up one of the parallel vertical support members 101 before branching through the pipe segments 106. As best shown in FIGS. 1A-B, the system 100 may also have a horizontal support member 109 coupled to the bottom end of each of the plurality of vertical support members 101. As illustrated in FIG. 1B, the vertical and horizontal support members, 101 and 109 respectively, may be slanted to aid in the recycling of the depleted water.

[0022] The method of growing crops in a hydroponic system 100 comprises a first step of placing young crops in the horizontal pipes 102 adjacent to the openings 104 in the horizontal pipes 102. The vertical drain pipe 108 is then filled with nutrient-enriched water, which is pumped through the nutrient-delivering tubes 112. The nutrient-enriched water exits the nutrient-delivering tubes 112 through the openings on the nutrient-delivering tubes 112 and feeds the crops by draining down the pipe segments 106 extending from the horizontal pipes 102. The depleted water then drains back to the vertical drain pipe 108, going through the pipe segments 106 and horizontal pipes 102, through the angular pipe extensions 110, and back into the vertical drain pipe 108 where it is recycled.

[0023] While particular embodiments have been chosen to illustrate the invention, it will be understood by those skilled in the art that various changes and modifications can be made therein without departing from the scope of the invention as defined in the appended claims.