A multilevel indoor mobile gutter system for growing vegetation including at least a first level and a second level is provided. Each level may include a first level conveyor and a second level conveyor respectively. A transfer conveyor is operable to convey from the first level to the second level. A plurality of lights are positioned to emit light towards the first level and the second level. At least one gutter is operable to support a plant within. The first level conveyor transports the at least one gutter from the front end to the rear end of the first level, the transfer conveyor transfers the at least one gutter from rear end of the first level to the front end of the second level, and the second level conveyor transports the at least one gutter from the front end to the rear end of the second level.

A multilevel indoor mobile gutter system for growing vegetation including at least a first level and a second level is provided. Each level may include a first level conveyor and a second level conveyor respectively. A transfer conveyor is operable to convey from the first level to the second level. A plurality of lights are positioned to emit light towards the first level and the second level. At least one gutter is operable to support a plant within. The first level conveyor transports the at least one gutter from the front end to the rear end of the first level, the transfer conveyor transfers the at least one gutter from rear end of the first level to the front end of the second level, and the second level conveyor transports the at least one gutter from the front end to the rear end of the second level.

A hydroponic grow assembly including an assembly base and at least one plant structure removably connectable to the assembly base to form a plant wall for growing plants. The plant structure includes a plurality of plant wells opened to a root chamber and the base includes a bottom structure enclosed by a perimeter wall to form an inner cavity of a reservoir tank to supply water to the root chamber of the plant structure. The bottom structure includes a support feature within the inner cavity of the reservoir tank to support the at least one plant structure in an upright position to form the plant wall of the assembly.

A hydroponic grow assembly including an assembly base and at least one plant structure removably connectable to the assembly base to form a plant wall for growing plants. The plant structure includes a plurality of plant wells opened to a root chamber and the base includes a bottom structure enclosed by a perimeter wall to form an inner cavity of a reservoir tank to supply water to the root chamber of the plant structure. The bottom structure includes a support feature within the inner cavity of the reservoir tank to support the at least one plant structure in an upright position to form the plant wall of the assembly.

An automatic vertical farming system including: vertical supports adapted to accommodate a plurality of tray-receptacles in a vertically-stacked arrangement showing a plurality of tray positions, the tray-receptacles each being adapted for farming plants in a soilless growing environment, wherein the vertical supports provide a tray position being an irrigation station for the tray-receptacles, and a tray-receptacle transport device arranged and adapted to move the tray receptacles along the vertical supports between different tray positions. The plant irrigation station includes: an irrigation device adapted to deliver a liquid into a tray-receptacle being accommodated in the irrigation station, and a tray manipulator arranged and adapted to manipulate the spatial orientation of the tray-receptacle being accommodated in the irrigation station by a movement of the tray-receptacle such that the liquid in the accommodated tray-receptacle is accelerated by gravity and/or the movement caused by the tray manipulator towards an edge of the tray receptacle.

An automatic vertical farming system including: vertical supports adapted to accommodate a plurality of tray-receptacles in a vertically-stacked arrangement showing a plurality of tray positions, the tray-receptacles each being adapted for farming plants in a soilless growing environment, wherein the vertical supports provide a tray position being an irrigation station for the tray-receptacles, and a tray-receptacle transport device arranged and adapted to move the tray receptacles along the vertical supports between different tray positions. The plant irrigation station includes: an irrigation device adapted to deliver a liquid into a tray-receptacle being accommodated in the irrigation station, and a tray manipulator arranged and adapted to manipulate the spatial orientation of the tray-receptacle being accommodated in the irrigation station by a movement of the tray-receptacle such that the liquid in the accommodated tray-receptacle is accelerated by gravity and/or the movement caused by the tray manipulator towards an edge of the tray receptacle.

Storage, growing system and methods for storing, germinating, propagating and or growing living organisms, exemplary systems including stackable growth tray(s) containing: a drainage system, the drainage system including: an inclined growing surface, inclined in a direction to at least one drainage hole; a drainage routing structure positioned over the at least one drainage hole, and having a down-pipe and a connecting routing pipe, wherein the down-pipe is for receiving fluid from an adjacent-above stackable item and transmitting the fluid to an adjacent-below down-pipe or a drain-pipe, and the connecting routing pipe is for receiving fluid from an adjacent-above drainage hole and routing the fluid to the down-pipe, and wherein fluid propagating from the inclined growing surface or an adjacent-above stackable item is directed through the growth tray to a down-steam point in the drainage system.

Storage, growing system and methods for storing, germinating, propagating and or growing living organisms, exemplary systems including stackable growth tray(s) containing: a drainage system, the drainage system including: an inclined growing surface, inclined in a direction to at least one drainage hole; a drainage routing structure positioned over the at least one drainage hole, and having a down-pipe and a connecting routing pipe, wherein the down-pipe is for receiving fluid from an adjacent-above stackable item and transmitting the fluid to an adjacent-below down-pipe or a drain-pipe, and the connecting routing pipe is for receiving fluid from an adjacent-above drainage hole and routing the fluid to the down-pipe, and wherein fluid propagating from the inclined growing surface or an adjacent-above stackable item is directed through the growth tray to a down-steam point in the drainage system.

A pole system for racking, storing, germinating, propagating and growing living organisms on a growth tray, the pole system including: a substantially vertical support structure, the support structure including at least one utility system for supporting propagation or growth of a living organism; one or more vertically-spaced interface positions, each for interfacing with a growth tray; and one or more openings in the support structure, corresponding to one or more of the interface positions, for providing services to interfaced growth tray(s) is disclosed. Further, a hydroponic system and method using the pole system are disclosed.

A pole system for racking, storing, germinating, propagating and growing living organisms on a growth tray, the pole system including: a substantially vertical support structure, the support structure including at least one utility system for supporting propagation or growth of a living organism; one or more vertically-spaced interface positions, each for interfacing with a growth tray; and one or more openings in the support structure, corresponding to one or more of the interface positions, for providing services to interfaced growth tray(s) is disclosed. Further, a hydroponic system and method using the pole system are disclosed.