A system includes one or more machines carrying out steps in a plant production process using growing towers, beginning after harvest and concluding immediately after transplanting. These steps include media removal, plant waste disposal, media cleaning, tower cleaning, and tower re-transplanting. A material handling scheme may be used to manage the flow of towers to and from the machine and across the growing system.

A plant support assembly for facilitating the growing of plants includes a plate and a frame that is octagonally shaped. A net is coupled to and extends inwardly from the frame. A plurality of rods is coupled to and extends between the plate and the frame. Each rod comprises a plurality of nested sections so that the rod is selectively extensible. A plurality of rollers is coupled to a lower surface of the plat. The net is configured to support stems and leaves of a plant that is growing from a container that is positioned on an upper surface of the plate. The rollers are configured to roll on a horizontal surface to selectively position the plate.

A new or improved modular plant display and storage system that reduces the risks of plants tipping over and of spillage of plant and soil (or other growing medium) out the top of the pot, as well as the risk of water (and soil/growing medium) seepage and mess from the bottom of the pot. The invention can house potted plants without the need to re-pot or transplant the plants into growing medium that sits within the modular structure.

A new or improved modular plant display and storage system that reduces the risks of plants tipping over and of spillage of plant and soil (or other growing medium) out the top of the pot, as well as the risk of water (and soil/growing medium) seepage and mess from the bottom of the pot. The invention can house potted plants without the need to re-pot or transplant the plants into growing medium that sits within the modular structure.

An aeration container system for plants having aerial roots, comprising an aeration container comprising a plurality of elongate curved vanes, each vane comprising a top portion, lower portion, a first planar side and a second planar side opposing the first planar side, the planar sides connecting a front edge, outer edge and the top and bottom portions. A reservoir is also provided wherein each vane is equidistantly spaced and attached perpendicular to an outside surface of the reservoir and focus light and ambient airflow from outside the aeration container to inside the aeration container.

An aeration container system for plants having aerial roots, comprising an aeration container comprising a plurality of elongate curved vanes, each vane comprising a top portion, lower portion, a first planar side and a second planar side opposing the first planar side, the planar sides connecting a front edge, outer edge and the top and bottom portions. A reservoir is also provided wherein each vane is equidistantly spaced and attached perpendicular to an outside surface of the reservoir and focus light and ambient airflow from outside the aeration container to inside the aeration container.

A stackable grow pot system including a plant pot having an inner volume, a plurality of side-walls, and a base including a selectively removeable disc. The selectively removeable disc is configured to be removed to allow plant roots to extend through an aperture. The plant pot is stackable. When stacked, the plant pot provides for volume expansion for growth of a plant and the plant roots through the aperture into a second-plant-pot. The device allows for quick and efficient transplanting.

To achieve a structure that prevents water from spilling from a receiving tray when the receiving tray is pulled out from a pot stand. A receiving tray for a pot stand is adapted to receive drained water from a pot stand that includes an upper surface part having a hole and an opening. The receiving tray includes a main body that is movable with respect to the opening in a predetermined direction X, and a plurality of wave suppressing members that extend in a width direction Y on a bottom surface of the main body and are arranged at an interval in the predetermined direction X. The plurality of wave suppressing members include first wave suppressing members and a second wave suppressing member 32 that extends from a side wall surface of the main body in a gap between the first wave suppressing members in the predetermined direction X.

A plant cultivating apparatus according to an embodiment of the present disclosure includes a main body, a shelf, a cultivation bed, and a cultivation container. The shelf is disposed in the cultivation space formed in the main body, the cultivation bed is disposed on the shelf, and the cultivation container is seated in the cultivation bed. The cultivation bed includes a water supply part for receiving a predetermined amount of water. In addition, the shelf includes a water level sensor. The water level sensor is positioned vertically below the water supply part to measure an amount of water stored in the water supply part.

A planter includes an interior surface and a riser extending from a bottom of the interior surface and including a space between the riser and lateral walls of the planter. The riser includes an open-top recess formed in a top portion of the riser. A plate including a protrusion extending from a bottom side of the plate and forming an open-top reservoir on a top side of the protrusion. The protrusion is configured to be coupled with the recess to secure the plate to the riser.