An automated farm includes a cloning room and an environmentally controlled nursery with a storage and retrieval system, child storage racks, and child conveyor trays. The automated farm has environmentally controlled grow rooms, environmentally controlled lighted and unlighted flower rooms, a trimming or pruning room, and a harvest room. The automated farm includes specialized parent plant pots with training devices, and tray and trellis systems with rotation plant holders and removable trellis combs. Plant tending robots are configured to clone, trim, prune, harvest, and maintain plants. The automated farm includes a transport mechanism configured to transport the child conveyor trays, the parent plant pots, and the tray and trellis systems between the cloning room, the nursery, the grow rooms, the flower rooms, the trimming or pruning room, and/or the harvest room. The automated farm also includes a farm control and data management system.

An automated farm includes a cloning room and an environmentally controlled nursery with a storage and retrieval system, child storage racks, and child conveyor trays. The automated farm has environmentally controlled grow rooms, environmentally controlled lighted and unlighted flower rooms, a trimming or pruning room, and a harvest room. The automated farm includes specialized parent plant pots with training devices, and tray and trellis systems with rotation plant holders and removable trellis combs. Plant tending robots are configured to clone, trim, prune, harvest, and maintain plants. The automated farm includes a transport mechanism configured to transport the child conveyor trays, the parent plant pots, and the tray and trellis systems between the cloning room, the nursery, the grow rooms, the flower rooms, the trimming or pruning room, and/or the harvest room. The automated farm also includes a farm control and data management system.

A scalable precision distribution aeroponic system, including a modular frame mount constructed of a lightweight, rigid material, the frame mount including a pair of generally vertically oriented support members and at least one generally horizontally oriented crossmember positioned between the vertically oriented support members, the pair of generally vertically oriented support members operably coupled to the generally horizontally oriented crossmember via couplings, the couplings including a generally horizontally oriented support configured to extend substantially orthogonal to the horizontally oriented crossmember, and an interchangeable growth media operably coupled to the modular frame mount, the interchangeable growth media comprising a nourishment layer and a surface film, the nourishment layer defining one or more channels into which the generally horizontally oriented supports of the couplings are positioned for support of the interchangeable growth media.

A scalable precision distribution aeroponic system, including a modular frame mount constructed of a lightweight, rigid material, the frame mount including a pair of generally vertically oriented support members and at least one generally horizontally oriented crossmember positioned between the vertically oriented support members, the pair of generally vertically oriented support members operably coupled to the generally horizontally oriented crossmember via couplings, the couplings including a generally horizontally oriented support configured to extend substantially orthogonal to the horizontally oriented crossmember, and an interchangeable growth media operably coupled to the modular frame mount, the interchangeable growth media comprising a nourishment layer and a surface film, the nourishment layer defining one or more channels into which the generally horizontally oriented supports of the couplings are positioned for support of the interchangeable growth media.

A trellis has a first ring circumnavigating a container, such as a level of pockets of a vertical gardening system. The first ring can be connected with arms to the container and one or more second rings can extend upwardly from an uppermost first ring to connect to second ring(s) which can extend above the first rings, possibly parallel thereto, and extend the second rings above the first rings and container.

A trellis has a first ring circumnavigating a container, such as a level of pockets of a vertical gardening system. The first ring can be connected with arms to the container and one or more second rings can extend upwardly from an uppermost first ring to connect to second ring(s) which can extend above the first rings, possibly parallel thereto, and extend the second rings above the first rings and container.

The present invention provides structures that maximize the use of minimal ground space or pot soil by providing a height-adjustable, outward-expanding string or net trellis. A compact kit can be assembled into a tall plant support structure which may be at least twice as wide at the top as at the base where the plants begin growing. A multiplicity of elongated flaccid cords secured adjacent the base at one end are inclined generally outward and attached at an opposing end to a suspended top horizontal frame support to help support plants as they grow generally vertically.

The present invention provides structures that maximize the use of minimal ground space or pot soil by providing a height-adjustable, outward-expanding string or net trellis. A compact kit can be assembled into a tall plant support structure which may be at least twice as wide at the top as at the base where the plants begin growing. A multiplicity of elongated flaccid cords secured adjacent the base at one end are inclined generally outward and attached at an opposing end to a suspended top horizontal frame support to help support plants as they grow generally vertically.

The invention involves a growing medium support apparatus comprising a frame with a plurality of legs and an aperture. The aperture receives a first grow block, and the legs anchor the apparatus to a second grow block so that the second is situated and secured below the first. In exemplary embodiments, the frame of the apparatus is configured such that a bottom surface of the first grow block and a top surface of the second grow block touch to form at least a portion of a growing medium for a plant. As one grow block is placed on top of the other, a plant growing on the first grow block can expand its roots between the grow blocks secured together with the growing medium support apparatus. In some exemplary embodiments, multiple support apparatus may be utilized to secure multiple grow blocks to form a growing medium for the plant.

The invention involves a growing medium support apparatus comprising a frame with a plurality of legs and an aperture. The aperture receives a first grow block, and the legs anchor the apparatus to a second grow block so that the second is situated and secured below the first. In exemplary embodiments, the frame of the apparatus is configured such that a bottom surface of the first grow block and a top surface of the second grow block touch to form at least a portion of a growing medium for a plant. As one grow block is placed on top of the other, a plant growing on the first grow block can expand its roots between the grow blocks secured together with the growing medium support apparatus. In some exemplary embodiments, multiple support apparatus may be utilized to secure multiple grow blocks to form a growing medium for the plant.