An aeroponic planter for use in-ground includes a top strip for receiving plugs that are designed for holding plants. The planter has a rooting chamber capable of enabling aeroponic growth of plant roots, the rooting chamber having a base with a drain. A drain chamber mounts at the base of the rooting chamber for receiving liquid from the rooting chamber. At least one anchor mounted on each of the rooting chamber and the drain chamber for securing the aeroponic planter in soil. In an alternate embodiment, the at least one anchor is integral with the top strip.

An aeroponic planter for use in-ground includes a top strip for receiving plugs that are designed for holding plants. The planter has a rooting chamber capable of enabling aeroponic growth of plant roots, the rooting chamber having a base with a drain. A drain chamber mounts at the base of the rooting chamber for receiving liquid from the rooting chamber. At least one anchor mounted on each of the rooting chamber and the drain chamber for securing the aeroponic planter in soil. In an alternate embodiment, the at least one anchor is integral with the top strip.

The present disclosure relates to a plant cultivating apparatus. The plant cultivating apparatus according to an aspect of the present disclosure includes a body configured to have a cultivation chamber therein, a water storage configured to be disposed in the body and store water, a water supply bed configured to be disposed at one side of the cultivation chamber and have a water supply flow path receiving water from the water storage, and a cultivation port configured to be seated on the water supply bed and receive water from the water supply flow path, in which the cultivation port includes a suction member disposed in the cultivation port and suctioning water stored in the water supply flow path, and a medium disposed above the suction member, receiving water from the suction member, and storing nutrients required for plant growth.

A growth system includes growth trolleys each having at least one carrier configured to support products for growing, and a growth hub including equipment facilitating growth of products from a group comprising fluid supply, nutrient supply, and the like. At least one of the growth hub and the growth trolleys is displaceable relative to the other of the growth trolleys and the growth hub to furnish at least one growth facilitating function to products in at least one of the trolleys, when the at least one of the growth trolleys is adjacent to the growth hub.

In order to reduce a possibility of damaging a seedling in the event of transplant of unit nursery beds when the seedlings are replanted from a seedling tray that supports unit nursery beds individually planted with seedlings germinated from seeds to a hydroponic panel capable of securing a longer seedling-to-seedling distance, a seedling transplanter (1) includes: a seedling tray (3) supported by a frame (2) and configured to support a nursery bed (7) having unit nursery beds (71) separable from each other and arranged in two directions on a plane; a hydroponic panel (4) supported by the frame (2) and provided with holes (41) for storing the unit nursery beds (71), the hydroponic panel (4) serving as a transplant destination of the unit nursery beds (71) on the seedling tray (3); and a holding member (5) supported by the frame (2) pivotally around a vertical axis and vertically movably to separate the unit nursery bed (71) from the nursery bed (7) by holding any one or a plurality of the unit nursery beds (71) on the seedling tray (3) arranged in the outermost side of the nursery bed (7) from a lateral face side of the unit nursery bed (71) in a width direction of the unit nursery bed (71), insert the unit nursery bed (71) into the hole (41) of the hydroponic panel (4), and release the unit nursery bed (71).

This invention pertains to a plant container. The plant container is characterised, essentially, by: a rigid frame (1) formed by at least two mounting supports (2), one for each side of the container, a top ring (3) preferably in a quadrilateral shape, supplemented with lateral and transverse (5) and longitudinal reinforcing beams (4); a soil, water or plant substrate reservoir (6) , supported on said frame; a water deposit (7); and a water transmission system to said substrate.

This invention pertains to a plant container. The plant container is characterised, essentially, by: a rigid frame (1) formed by at least two mounting supports (2), one for each side of the container, a top ring (3) preferably in a quadrilateral shape, supplemented with lateral and transverse (5) and longitudinal reinforcing beams (4); a soil, water or plant substrate reservoir (6) , supported on said frame; a water deposit (7); and a water transmission system to said substrate.

Provided is a planting cup for hosting growing plants, for use in conjunction with hydroculture systems, and a development for producing same. The planting cup may be configured with a side wall formed with a plurality of openings and extending between an open bottom base and an open top base. The planting cup may also be constructed out of a sheet of pliable material.

Provided is a planting cup for hosting growing plants, for use in conjunction with hydroculture systems, and a development for producing same. The planting cup may be configured with a side wall formed with a plurality of openings and extending between an open bottom base and an open top base. The planting cup may also be constructed out of a sheet of pliable material.

An aeroponic system for supporting efficient low-resource-usage plant growth comprises a housing comprising one or more openings and one or more root chambers; one or more sealing members configured to substantially conform to a stalk of a plant and to substantially isolate a canopy of the plant from the one or more root chambers; one or more root chamber sensors; one or more nutrient storage reservoirs for storage of plant nutrients; one or more air-assisted nozzles configured to introduce atomized nutrient solution into the one or more root chambers; a temperature control system configured to control a temperature of the one or more root chambers; and a control system configured to control the temperature control apparatus and the one or more air-assisted nozzles to maintain environmental parameters associated with the one or more root chambers within desired parameter ranges.