GB2393376A - System for domestic cultivation of exotic plants - Google Patents

Abstract

A system for cultivating tropical plants. A hole 12 is dug to a depth of approximately three feet (0.9m). A layer of ceramic tiles 22 is established at the bottom of the hole 12, and is covered with a layer of small rocks 24. A tank 50 having a plurality of wick assemblies(60 fig. 4) extending upward therefrom is positioned within the hole 12. A layer of vegetative cuttings and manure is established thereabove. Then fertile topsoil originally from the hole 12 is replaced in a mix with sand to a depth of substantially one foot (0.3m). The contents are allowed to settle and are thoroughly watered, the tank 50 is filled using a fill hose 58. The plant is then planted in potting soil thereabove, and is maintained and irrigated. When necessary, the tank is refilled through the fill hose 58. The plant 75 may be planted in a pot (100 figure 6) which is mounted on the tank 50.

Description

1 2393376

SYSTEM FOR DOMESTIC CULTIVATION OF EXOTIC PLANTS INCLUDING

IN-GROUND IRRIGATION AND AERATION SYSTEM

5 BACKGROUND OF THE INVENTION

The invention relates to a system for domestic cultivation of exotic plants. More particularly, but not exclusively, the invention relates to a system that allows exotic 10 plants to grow in colder climates, in which such plants would not ordinarily thrive or even survive, by providing an ordered soil layering an in-ground irrigation and aeration system.

15 Some of the most beautiful plants are found in exotic settings. In particular, many sought-after species of flowers are only found growing in The Orient. When western gardeners seek to grow these plants under the climate conditions of their own locale, such plants will 20 not thrive, and will typically die. Even if these plants live during the summer, they will not typically survive the winter, even in the warmest climates in the United States. 25 One attempted solution is to grow such plants indoors.

However, indoor nurseries can only cultivate a plant and keep it healthy while it remains indoors. Thus, they are suitable for commercial production of plants for medical uses and the like. They still do not allow these plants 30 to be enjoyed in a more natural outdoor garden setting.

My previous patent application, US serial number 09/642,415, describes a cultivation system which helps

maintain proper temperature and soil moisture, and thereby provides proper conditions for cultivating exotic plants in otherwise unsuitable environments. However, the invention as described therein relies upon periodic manual 5 irrigation. What is needed is a system that can provide all of the benefits of my previous invention, yet also provides timereleased irrigation and provides the additional benefits associated with soil aeration.

10 United States Patent No. 4,920,694 to Higa discloses a method for culturing plants, which involves creating a soil filled cavity within the ground, sealing it from the surroundings with a moisture-proof barrier, extending a pipe through the cavity, and providing continuous 15 irrigation to the plants with permeable portions of the pipe. Accordingly, while these units may be suitable for the particular purpose employed, or for general use, they 20 would not be as suitable for the purpose of the present invention as disclosed hereafter.

SUMMARY OF THE INVENTION

25 It is an aim of preferred aspects of the invention to produce a system, which allows exotic plants to be cultivated in colder and dryer domestic settings.

Accordingly, preferred embodiments of the present invention provide a system that allows these plants to 30 thrive despite the colder weather encountered in climates such as those found in the United States, and dryer climates found therein.

It is a further aim of preferred embodiments of the invention to provide a system that allows exotic plants to grow at a faster rate. Accordingly, preferred embodiments of the present invention provide unique moisture, 5 aeration, heat retention, and nutritive properties, which are ideally suited to the cultivation of exotic plants.

It is another aim of preferred embodiments of the invention to provide a system that substantially increases lo the moisture within the soil and allows the plants to be irrigated automatically. Accordingly, preferred embodiments of the system provide an elongated underground tank, which holds water and releases the water into the soil over a period of time. The tank may be automatically 15 filled by a solenoid working in conjunction with a moisture sensor when the moisture level within the tank drops below a calibrated level.

It is still another aim of preferred embodiments of the 20 invention to provide a system that provides constant moisture to the plants. Accordingly, a plurality of wick assemblies may extend upward from the water tank, to slowly carry moisture to the plant roots by capillary action. It is a still further aim of preferred embodiments of the invention to provide a system that aids in the aeration of the plants. Accordingly, when the tank is empty it may contain air. As the tank is filled the air therein is 30 forced to release into the soil. As the tank slowly empties air is pulled into the tank. In this regard, the

fill hose can act as a vent to the region underneath the planting area. Accordingly, the use of the tank promotes aeration of the soil.

5 It is still another aim of preferred embodiments of the invention to provide a system that is simple to implement.

Accordingly, preferred embodiments of the system require the installation of a small tank and the careful, ordered layering of the specified materials. The tank and the lo controlled layering according to preferred embodiments of the present invention provide an idealized environment for exotic plants to thrive.

According to the present invention in a first aspect, 5 there is provided a system for cultivating exotic plants in a garden having a ground surface, using a tank having a tubular side wall having a top surface, an internal volume, a plurality of wick assemblies, and a fill hose in communication with the internal volume, the wick 20 assemblies are in communication with the internal volume through the top surface, comprising the steps of: digging a hole in the garden while saving topsoil from said hole; establishing a base layer of ceramic tiles; establishing a layer of small rocks thereabove; positioning the tank 25 thereon with the fill hose extending out of the hole and the wick assemblies oriented upward; establishing a layer of vegetative cuttings thereabove; establishing a layer of manure thereabove; establishing a layer made of the top soil mixed with sand thereabove; allowing the layers to 30 settle; thoroughly watering the layers; filling the tank by adding water to the fill hose, and planting an exotic plant near the ground surface.

There is provided a system for cultivating exotic plants, wherein the layer of tank has a tubular side wall having a top surface and a pair of end caps, the fill hose is connected at the top surface so that the tank will 5 maintain a quantity of water therein after it is filled.

Suitably, the step of filling the tank further comprises connecting the fill hose to a water supply, and disconnecting the fill hose from the water supply; and lo wherein the steps as recited is followed by the steps of waiting for the tank to substantially empty, and then repeating the steps of filling the tank.

Suitably, the hole is dug to a depth of substantially 15 three feet, wherein the layer of manure is substantially two feet deep, and wherein the layer of top soil is substantially one foot deep.

Suitably, each wick assembly further comprises a wick 20 wrapped tightly in copper wire, defining a head at one end, a small tube through which the wick and copper wire extend up to the head, wherein the top surface of the tank has a plurality of wick openings, and wherein the wick assemblies extend through the wick openings to communicate 25 water from the tank interior to the head.

According to the present invention in a second aspect, there is provided a system for cultivating exotic plants in a garden having a ground surface, using a tank having a 30 top surface, an internal volume, a plurality of wick assemblies, and a fill hose in communication with the internal volume, the wick assemblies are in communication with the internal volume through the top surface,

comprising the steps of: digging a hole in the garden while saving topsoil from said hole; establishing a base layer of ceramic tiles; establishing a layer of small rocks thereabove; positioning the tank thereon with the 5 fill hose extending out of the hole and the wick assemblies oriented upward; establishing a layer made of a sheet of filter material thereabove; establishing a layer made of the top soil mixed with sand thereabove; thoroughly watering the layers; filling the tank by adding lo water to the fill hose; planting an exotic near the ground surface; allowing water to seep out of the tank into the soil above the tank through the wick assemblies; and refilling the tank.

15 Suitably, a moisture sensor is in communication with the tank interior and a solenoid valve connected between the fill hose and a water supply, and wherein the step of refilling the tank further comprises waiting until the moisture sensor reads below a calibrated level, and 20 opening the solenoid valve to allow water to flow into the fill tube.

Suitably each wick assembly further comprises a wick wrapped tightly in copper wire, defining a head at one 25 end, a small tube through which the wick and copper wire extend up to the head, wherein the top surface of the tank has a plurality of wick openings, and wherein the wick assemblies extend through the wick openings to communicate water from the tank interior to the head.

Suitably, the filter layer is covered by a layer of vegetative cuttings further comprises leafs, branches, and twigs and the layer of vegetative cuttings is covered by a

layer of manure selected from chicken manure, steer manure and horse manure.

5 Suitably, the hole is dug to a depth substantially three feet, wherein the layer of manure is substantially two feet deep, and wherein the layer of top soil is substantially one foot deep.

lo According to the present invention in a third aspect, there is provided a system for cultivating exotic plants in a pot having hole, using a tank having a top surface, an internal volume, a plurality of wick assemblies, and a fill hose in communication with the internal volume, the 15 wick assembles are in communication with the internal volume through the top surface, comprising the steps of: establishing a base layer of at least one ceramic tile within the pot; establishing a layer of small rocks thereabove; positioning the tank thereon with the fill 20 hose extending out of the hole and the wick assemblies oriented upward; establishing a layer made of a sheet of filter material thereabove; establishing a layer made of the top soil mixed with sand thereabove up to a ground surface; planting an exotic plant near the ground surface; 25 positioning the pot onto the tank with one of the wick assemblies in communication with the hole; allowing water to seep out of the tank into the pot through the wick assemblies; and refilling the tank.

30 The system suitably further uses a moisture sensor in communication with the tank interior and a solenoid valve connected between the fill hose and a water supply, and wherein the step of refilling the tank further comprises

level, and opening the solenoid valve to allow water to flow into the fill tube.

Suitably, the filter layer is covered by a fertilizer 5 layer selected from vegetative cuttings and manure.

The invention is a system for cultivation tropic plants in a garden having a ground surface. A hole is initially dug to a depth of approximately three feet below the ground lo surface. A layer of ceramic tile is established at the bottom of the hole, and is covered with a layer of small rocks. A water tank having a tank interior is placed on the top of the rocks, the water tank having a plurality of wicking mechanisms in communication with the tank 15 interior. Then layers of vegetative cuttings and manure are established on top of the tank. Then fertile topsoil originally from the hole is replaced in a mix with sand to a depth of substantially one foot. The contents are allowed to settle and are thoroughly watered. The tank is 20 filled with water through a fill hose, which extends above the ground surface. The exotic plant is then planted in potting soil thereabove, and is maintained and allowed to thrive by moisture rising through the wicking devices, as well as nutritive and thermodynamic properties established 25 by the various layers.

To the accomplishment of the above and related aims of preferred embodiments of the invention may be embodied in the form illustrated in the accompanying drawings.

30 Attention is called to the fact, however, that the drawings are illustrative only. Variations are contemplated as being part of the invention, limited only by the scope of the claims.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings, like elements are depicted by like 5 reference numerals. The drawings are briefly described as follows. FIG 1 is a diagrammatic perspective view, illustrating early steps of the inventive system, wherein a hole has been dug and soil removed from the ground, and wherein a lo base layer of tiles has been placed at the bottom of the hole. FIG 2 is a cross sectional view, wherein the tiles have been covered by small rocks, and the water tank has been 15 placed above the rocks according to the present invention.

FIG 3 is a diagrammatic perspective view illustrating one of the wicking devices according to the present invention.

20 FIG 4 is a perspective view, illustrating the wicking devices partially extend upward from the water tank.

FIG 5 illustrates one portion of a frame used to partially enclose the water tank when configured for use with potted 25 plants.

FIG 6 is a diagrammatic perspective view, illustrating the water tank mounted within the frame, wherein a fill hose is in communication with the water tank through a 30 solenoid, and a water sensor is also in communication with the water for selectively activating the solenoid when moisture within the tank is detected as being below a calibrated moisture level.

FIG 7 is a cross sectional view of a planting area, illustrating the water tank installed underground, between the ordered layers as forth by the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIG 1 illustrates a planting area 10, having a ground surface IDS. A hole 12 has been dug within said planting 10 area 10. The hole 12 preferably extends about three feet below the ground surface IDS. When the hole 12 is dug, topsoil 15 extending approximately one foot of the soil depth is stored in a storage bin such as a wheelbarrow.

The remaining soil will not be used and should be set 15 aside. The hole 12 is illustrated in FIG 1 as having finite boundaries. However the hole 12 may in fact be a trench or canal of considerable length.

Once the hole 12 has been dug to a satisfactory depth, a 20 base layer 20 is created using ceramic tiles 22. The tiles 22 are preferably standard four inch by four inch shiny (glazed) tiles, and are place close together, with a gap between tiles which is preferably on half inch.

25 Referring to FIG 2, once the base layer 20 has been created using the tiles 22, a layer of small rocks 24, which may comprise gravel or broken cement, is placed directly over the tiles 22 of the base layer 20. A water tank 50 is placed longitudinally within the hole 12.

Referring to FIG 4, the water tank 50 is substantially cylindrical and hollow, having a tubular sidewall 52 and a pair of end caps 54 which together define an interior

volume. The sidewall 52 has a bottom surface 53 and a top surface 54. The top surface 54 has a plurality of wick openings 56 which are periodically spaced longitudinally along the water tank 50. In addition, a fill hose 58 is 5 attached to the water tank 50 at the top surface, in communication with the interior volume, for adding water to said water tank 50.

A plurality of wick assemblies 60 extend in the wick lo openings 56, and extend both downwardly into the interior volume and upward from the top surface 54.

FIG 3 details one of the wick assemblies 60. In particular, each wick assembly has small tube 62 having 15 two open ends 64 with a wick 66 extending therethrough.

Each wick 66 has a head 63 at its uppermost point. In particular, the wick 66 is a soft absorbent material, such as cotton, and may be similar to air conditioner filter material. The wick 66 is bound tightly with fine copper 20 wire 68 to facilitate its insertion into the small tube 62. The copper wire 69 wraps around the wick 66 in a spiral substantially from end to end, extending to nearly the head 63. Preferably the wick 66 is substantially five inches long, and the small tube 62 is approximately one 25 inch long, and one-quarter inch in diameter.

The small tubes 62 are inserted partially into the wick openings 56 and are secured thereat. Accordingly the small tubes 62 extend transverse to the tubular sidewall 30 52 of the tank. Typically, both the tank and the small tubes 62 are made of plastic. Accordingly, each tube 62 is preferably secured to the tank top surface 64 with a cyanoacrylicate adhesive applied around wick openings 56.

Preferably, the tank is a PVC tube having a diameter of approximately 4 inches. Preferably, the small tubes 62 are attached to the tank midway on said tube 62.

5 Accordingly, the wick assembly 60 extends to nearly the tank bottom 53 so as to fully utilize any water contained therein. The wick assemblies 60 act as a moisture accumulator, lo siphoning water upward into the soil by capillary action, and slowly release the water into the soil. Accordingly, the water is released in a time-released fashion.

Referring to FIG 7, once the tank 50 is in place, the fill 15 hose 58 is positioned so that it extends to above the ground surface 105, the fill hose 58 may also be networked with fill hoses 58 attached to other tanks 50 to irrigate other adjacent planting areas 10.

20 After the tank 60 has been positioned within the hole, it is covered with a filter sheet 70. The filter sheet 70 is preferably made of air conditioning filter material. The filter sheet 70 helps spread out moisture from the wick assemblies 60. In addition, the filter sheet 70 helps 25 remove chemicals from the water (such as chlorine) before it reaches the upper soil and roots.

Additional layers are added thereabove to supply the nutritive and physical base for allowing the plants to 30 grow. Accordingly, a layer of vegetative cuttings 26 is placed over the tank 50. The vegetative cuttings 26 can be cut branches, leaves, twigs, or the like.

A layer of manure 28 is placed over the vegetative cuttings 26. The layer of manure can be up to two feet deep. Chicken, steer, or horse manure can be used -

whichever is most convenient.

Above the manure 28, the topsoil 15 is replaced. However, the topsoil 15 is preferably mixed with sand, and then is used to create the uppermost one-foot layer, which should reach the same level as the original ground surface IDS.

10 Only fertile topsoil 15 should be used. Non-fertile soil should be discarded elsewhere. The topsoil and sand layer 15 should be covered with bark 29, which helps keep moisture in the soil.

15 Once all layers have been established, the contents must settle in order to create a stable environment for planting. The easiest way to compact the soil is for the gardener to step on it with his own body weight. Then, the garden 10 must be watered well, using an ample 20 quantity of water 31, as seen in FIG 3. Watering the soil will not only add moisture to the various layers, but will also help the components thereof settle properly. In addition the tank 50 should be filled with water, using the fill hose 58. Generally, the tank 50 should be 25 refilled every two weeks. However, each gardener can determine the frequency that the tank is filled based upon experience with his/her plants and climate.

When planting, potting soil should be used. As seen in 30 FIG 7, an ecosystem is created. Accordingly, heat from the sun penetrates the various layers, and reaches the tiles 22 of the base level 20. The heat is reflected by the shiny surface of the tiles 22, carrying moisture

upward from the surrounding area. The layer of small rocks 24 act as a heat accumulator - they are capable of storing a large quantity of heat. However, the topsoil layer 15, which includes sand particles, will help hold 5 the heat below, thus creating a warm and moist subterranean region, which can be easily tapped by an exotic plant 70.

In addition, water seeps up through the wick assemblies 60 lo by capillary action, where it is distributed to the plants and roots. Aeration occurs through the fill hose 58, which also acts as a vent to the subterranean region.

Aeration of the soil occurs as the tank empties, and as it fills. Such aeration helps prevent the roots from rotting 15 and promotes root growth and expansion.

Condensation occurs both inside and outside the tank due to colder air reaching the water tank 50 at night, including through cooled air travelling into the tank 50 20 through the fill hose 58. This moisture is extremely healthy for plants since it is pure water.

Embodiments of the present invention may also be used with a potted plant 75. Accordingly, the tank 50 is cradled 25 within a frame 80, comprising two complementary L-shaped portions 82, one of which is being assembled with nails 85 in FIG 5. The tank 50 is shown connected within the frame 80 in FIG 6. The frame 80 is substantially open at the top to allow the wick assemblies 60 to extend upward 30 therefrom. Straps 84 may extend across the top 80T of the frame 80 to hold the tank 50 securely within the frame 80.

In use, potted plants are placed immediately above or on top of the frame 80. The potted plants 75 are contained within pots 100, which have a hole 102 at the bottom. The pot is positioned upon the tank 50 so that the wick 5 assemblies 60 are in communication with the pot holes 102, so that they can impart moisture to the plants, similar to the 'in-ground' configuration shown in FIG 7.

Accordingly, a similar ordering of layers within the pot should be established, except that the tank 50 is lo positioned below the tiles 22 which are at the bottom of the pot 100. Thus, the tiles 22 are covered by small rocks 24, the filter sheet 70, the vegetative 26 and/or manure 28 layers, and the topsoil mixed with sand layer 15. The ground surface 105 is preferably covered with 15 bark 29.

In accordance with a further embodiment of the invention, a solenoid valve 90 may be interposed between a water source 59, and the fill hose 58 and tank 50. In addition, 20 a water sensor 92 is mounted to monitor the moisture within the tank 50 interior. The solenoid valve 90 is operable in response to a low moisture level to fill the tank 50. Thus, when a moisture level below a predetermined, calibrated level is measured within the 25 tank 50, the solenoid valve 90 is operated to fill the tank 50. Accordingly, irrigation can take place automatically. Accordingly, the ordered establishment of the layers and 30 the integral irrigation tank as recited helps create a cultivation system having unique thermodynamic and nutritive properties which keep the exotic plant warm, moist, and well nourished. The environment thus created

allows the exotic plants to not only survive, but to thrive, growing faster than they would in their natural habitats. 5 Preferred embodiments of the invention have been described by example using the accompanying drawing figures and foregoing description. It should be understood, however,

that such illustrations are exemplative only. Numerous variations are possible, while adhering to the principals lo of the invention. Such variations are contemplated as being a part of the present invention.

Attention is directed to all papers and documents which are filed concurrently with or previous to this 15 specification in connection with this application and

which are open to public inspection with this specification, and the contents of all such papers and

documents are incorporated herein by reference.

20 All of the features disclosed in this specification

(including any accompanying claims, abstract and drawings), and/or all of the steps of any method or process so disclosed, may be combined in any combination, except combinations where at least some of such features 25 and/or steps are mutually exclusive.

Each feature disclosed in this specification (including

any accompanying claims, abstract and drawings) may be replaced by alternative features serving the same, 30 equivalent or similar purpose, unless expressly stated otherwise. Thus, unless expressly stated otherwise, each

feature disclosed is one example only of a generic series of equivalent or similar features.

The invention is not restricted to the details of the 5 foregoing embodiment(s). The invention extends to any novel one, or any novel combination, of the features disclosed in this specification (including any

accompanying claims, abstract and drawings), or to any novel one, or any novel combination, of the steps of any lo method or process so disclosed.

Claims (14)

1. A system for cultivating exotic plants in a garden 5 having a ground surface, using a tank having a tubular side wall having a top surface, an internal volume, a plurality of wick assemblies, and a fill hose in communication with the internal volume, the wick assemblies are in communication with the internal lo volume through the top surface, comprising the steps of:. digging a hole in the garden while saving topsoil from said hole; establishing a base layer of ceramic tiles; establishing a layer of small rocks thereabove; 15 positioning the tank thereon with the fill hose extending out of the hole and the wick assemblies oriented upward; establishing a layer of vegetative cuttings thereabove; 20 establishing a layer of manure thereabove; establishing a layer made of the top soil mixed with sand thereabove; allowing the layers to settle; thoroughly watering the layers; 25 filling the tank by adding water to the fill hose, and planting an exotic plant near the ground surface.

2. The system for cultivating exotic plants, wherein the layer of tank has a tubular side wall having a top 30 surface and a pair of end caps, the fill hose is

connected at the top surface so that the tank will maintain a quantity of water therein after it is filled. 5

3. The system for cultivating exotic plants as recited in claim 2, wherein the step of filling the tank further comprises connecting the fill hose to a water supply, and disconnecting the fill hose from the water supply; and wherein the steps as recited is followed by the lo steps of waiting for the tank to substantially empty, and then repeating the steps of filling the tank.

4. The system for cultivating exotic plants as recited in claim 3, wherein the hole is dug to a depth of 15 substantially three feet, wherein the layer of manure is substantially two feet deep, and wherein the layer of top soil is substantially one foot deep.

5. The system for cultivating exotic plants as recited in 20 claim 4, wherein each wick assembly further comprises a wick wrapped tightly in copper wire, defining a head at one end, a small tube through which the wick and copper wire extend up to the head, wherein the top surface of the tank has a plurality of wick openings, 25 and wherein the wick assemblies extend through the wick openings to communicate water from the tank interior to the head.

6. A system for cultivating exotic plants in a garden 30 having a ground surface, using a tank having a top surface, an internal volume, a plurality of wick assemblies, and a fill hose in communication with the internal volume, the wick assemblies are in

communication with the internal volume through the top surface, comprising the steps of: digging a hole in the garden while saving topsoil from said hole; 5 establishing a base layer of ceramic tiles; establishing a layer of small rocks thereabove; positioning the tank thereon with the fill hose extending out of the hole and the wick assemblies oriented upward; lo establishing a layer made of a sheet of filter material thereabove; establishing a layer made of the top soil mixed with sand thereabove; thoroughly watering the layers; filling the tank by adding water to the fill hose; planting an exotic near the ground surface; allowing water to seep out of the tank into the soil above the tank through the wick assemblies; and refilling the tank.

7. The system for cultivating exotic plants as recited in claim 6, further using a moisture sensor in communication with the tank interior and a solenoid valve connected between the fill hose and a water 25 supply, and wherein the step of refilling the tank further comprises waiting until the moisture sensor reads below a calibrated level, and opening the solenoid valve to allow water to flow into the fill tube.

8. The system for cultivating exotic plants as recited in claim 7, wherein each wick assembly further comprises a wick wrapped tightly in copper wire, defining a head

at one end, a small tube through which the wick and copper wire extend up to the head, wherein the top surface of the tank has a plurality of wick openings, and wherein the wick assemblies extend through the 5 wick openings to communicate water from the tank interior to the head.

9. The system for cultivating exotic plants as recited in claim 8, wherein the filter layer is covered by a lo layer of vegetative cuttings further comprises leafs, branches, and twigs and the layer of vegetative cuttings is covered by a layer of manure selected from chicken manure, steer manure and horse manure.

15

10. The system for cultivating exotic plants as recited in claim 3, wherein the hole is dug to a depth substantially three feet, wherein the layer of manure is substantially two feet deep, and wherein the layer of top soil is substantially one foot deep.

11. A system for cultivating exotic plants in a pot having hole, using a tank having a top surface, an internal volume, a plurality of wick assemblies, and a fill hose in communication with the internal volume, the 25 wick assembles are in communication with the internal volume through the top surface, comprising the steps of: establishing a base layer of at least one ceramic tile within the pot; 30 establishing a layer of small rocks thereabove; positioning the tank thereon with the fill hose extending out of the hole and the wick assemblies oriented upward;

establishing a layer made of a sheet of filter material thereabove; establishing a layer made of the top soil mixed with sand thereabove up to a ground surface; 5 planting an exotic plant near the ground surface; positioning the pot onto the tank with one of the wick assemblies in communication with the hole; allowing water to seep out of the tank into the pot through the wick assemblies; and lo refilling the tank.

12. The system for cultivating exotic plants as recited in claim 6, further using a moisture sensor in communication with the tank interior and a solenoid 15 valve connected between the fill hose and a water supply, and wherein the step of refilling the tank further comprises waiting until the moisture sensor reads below a calibrated level, and opening the solenoid valve to allow water to flow into the fill 20 tube.

13. The system for cultivating exotic plants as recited in claim 7, wherein the filter layer is covered by a fertilizer layer selected from vegetative cuttings and 25 manure.

14. A system for cultivating exotic plants, substantially as described herein, with reference to the drawings that follow.