The present application discloses a self-watering pot base comprises a pot base, a lid and at least one absorbent. The lid is removably coupled to the pot to form an accommodation space, the lid comprises at least one leaking hole and at least one absorbent hole. The at least one absorbent passes through the at least one absorbent hole to reach the accommodation space. A method of using the aforementioned self-watering pot base is also disclosed, comprising coupling the lid and the pot base; and locating a fabric pot onto the lid.

A plant irrigation system for autonomous outdoor daytime-watering includes a rigid endothermic container having first and second ports in fluid communication with the container's interior volume. With the container on the ground, the first port is above the second port relative to the ground. An indicator coupled to the container identifies a fill level such that, when the container is on the ground, less than 50% of the container's interior volume lies below the fill level. A lid provides sealing engagement with the first port. An open-ended conduit has a first end and a second end. The first end is sealingly coupled to the second port, and the second end is adapted to be positioned near a plant. The conduit is configured to traverse a path such that a portion of the path is above the container's identified fill level when the container is on the ground.

A grow plant enclosure to maximize plant density for a given growing area has a perimeter frame, a first pane, and a second pane. The first pane and the second pane are removably attached to the perimeter frame about opposite sides to form a hollow enclosure. A plurality of plug holder openings traverses through the first pane and the second pane, wherein each of the plug holder openings is designed to receive one of a plurality of plant holders for growing various plant types. A plurality of supply tubes traverse into the perimeter frame through a plurality of supply tube openings and each has a plurality of spray nozzles to deliver nutrient solution to the root zone of the plants retained in the plurality of plant holders. Excess nutrient solution is released through a drain tray and a drain fixture positioned about the bottom of the perimeter frame.

A decorative yet useful watering device, configured to deliver water to plants for adequate irrigation below the soil is described. The device is equipped with at least one spike, configured to be placed in direct contact with the soil, and preferably partially buried. The spike is equipped with assorted holes of varying sizes which are configured to allow water to escape from a cavity disposed within an interior of the spike. A decorative element, disposed in communication with a top of a reservoir is present to disguise the device, while adding character to a garden's aesthetic. The large size of the reservoir ensures that a user need not fill the device frequently to ensure a well-watered garden or flowerbed.

A plant growing, transportation, display, and maintenance system including a plant pot and corresponding container having a selectable valve that controls the flow of liquid into and out of the container.

An apparatus for facilitating cultivation of plants. The apparatus comprises a top enclosure, a bottom enclosure, a vertical column, a cover, a tray, sensors, environmental actuators, a nutrition container, and a processing device. Further, the top enclosure houses a first component. Further, the bottom enclosure houses a second component. Further, the vertical column is interspersed between the top enclosure and the bottom enclosure is forming an interior space therebetween. Further, the cover is interspersed between the top enclosure and the bottom enclosure, encloses the interior space and allows light to enter from a surrounding of the apparatus into the interior space. Further, the tray holds a plant. Further, the sensors generate sensor data representing variables. Further, the environmental actuators control environmental variables. Further, the nutrition container contains a nutritional medium. Further, the processing device controls the environmental actuators based on the sensor data.

A pot with integrated irrigation that is provided in a single pot embodiment or in a networked embodiment having a plurality of pots wherein the present invention provides an ability to provide automated watering of plants disposed within the interior volume of the pots. The present invention includes a pot having a body wherein the body includes an upper circumferential edge. A peripheral fluid tube member is integrally formed into the upper circumferential edge and is operable to have water flow therethrough. A plurality of fluid distribution tube members are operably coupled to the peripheral fluid tube member and are oriented so as to distribute water into the interior volume of the pot. The fluid distribution tube members have fluid ejection ports and can be present in various quantities. A reservoir is provided to store water and includes a pump to move the water to the pots via tubes.

A grow plant enclosure to maximize plant density for a given growing area has a perimeter frame, a first pane, and a second pane. The first pane is adjacently connected to the perimeter frame, while the second pane is removably attached to the perimeter frame opposite the first pane to form a hollow enclosure. A plurality of plug holder openings traverses through the first pane, and optionally the second pane, being designed to receive a plurality of plant holders for growing various plant types. A plurality of supply tubes traverse into the perimeter frame through a plurality of supply tube openings and each have a plurality of spray nozzles to deliver nutrient solution to the root zone of the plants retained in the plurality of plant holders. Excess nutrient solution is released through a drain fixture positioned about the bottom of the perimeter frame.

A stackable modular planter includes an open top plant box with a base and four side walls adapted to receive a growing medium and plants. The open top plant box has a first width. An irrigation box below the open top plant box base has a second width larger than the first width. The irrigation box can be filled with irrigation fluid. An open top hopper on one side of the open top plant box on top of the irrigation box can receive irrigation fluid which drains into the irrigation box. An overflow drain aperture in the irrigation box lets excess irrigation fluid flow. When a plurality of the stackable modular planters are stacked above another planter, excess irrigation can flow from the overflow aperture into the hopper of the planter below.

A self-watering portable greenhouse is disclosed having a tubular frame constructed of light-weight, water-tight tubular members which serves as a combined structural skeleton for external walls, a platform for plant containers, and a reservoir for liquid nutrients provided to plants in plant containers by self-watering through a wick connecting the reservoir and the plant containers.