The present invention relates to a modular structure for provision of a raised garden planter bed. The structure includes at least first and second receptacles adapted to be juxtaposed and connecting means adapted to bind the juxtaposed receptacles together. The present invention also relates to a kit of parts and a method for building the modular structure.

A method of increasing interspace among plant containers. The method comprises: providing a set of plant containers, the set comprising first and second plant containers; arranging the first plant containers in a first structured grid formation along a horizontal plane; and arranging the second plant containers in a second structured grid formation along said horizontal plane, whereby when viewed from above the first and second plant containers are alternatingly arranged in a joint structured grid formation in a first area. The method comprises, for increasing the interspace among the plant containers, mutually simultaneously moving the second plant containers in their second grid formation away from the first plant containers in a vertical direction and subsequently placing the second plant containers in a second area.

The present invention relates to a modular personal growing system (PGS). The components of a PGS are designed to work in unison to grow plants hydroponically from seed to maturity. A PGS can be scaled and configured into a desired interior or exterior space requirement for residential or commercial use. The individual components of a PGS may include a stand, a trellis, a vessel, a luminaire and an enclosure.

A plant-growing tray comprises a plurality of cells, each cell for containing in use a substrate for a plant or a cylindrical stabilised medium for propagating a plant. Each cell is formed from injection-moulded plastic and comprises a cell base and eight inclined side walls extending upwardly from the cell base, and each cell comprises four corner side walls having a corner wall gradient, and four stepped side walls which comprise an upper portion having an upper gradient, a lower portion having a lower gradient, and a step having a step gradient. The step is positioned between the upper portion and the lower portion, and the step gradient is less steep than the gradients of the upper portion and the lower portion of the side wall. Each cell comprises a pair of ribs on each of the four stepped walls, the ribs extending upwards from the cell base. At least a lower portion of the ribs have a rib gradient which is steeper than the gradients of the inclined side walls, and the gradient of the corner side walls is less steep than the upper portion or the lower portion of the stepped walls.

A planting pot and tray system comprises a plurality of pots and a tray having multiple receptacles configured to receive the pots. Each pot includes at least one rounded side, and at least one generally flat side, with each receptacle including at least one curved wall and at least one generally straight wall. The receptacles are configured to receive the pots with the rounded and flat sides of the pot engaging with respective walls of the receptacle to whereby the respective shapes of the receptacles and pots orient the pots within the receptacles. A front wall of the receptacle is shorter than the pot whereby a portion of side of the pot is exposed and directed outwardly from the tray.

Plant tray comprising a series of columns and/or sets of columns of plant pockets, wherein at least two of said columns and/or sets of columns are movably connected to each other, such that they can move relative to each other between at least a first position in which they are relatively close to each other, preferably abutting, and a second position, in which they are spaced apart further than in the first position.

The tray (10) of the present invention is for use in hydroponics. The tray has a first end and a second end having a longitudinal axis defined therebetween. An inlet (20) is provided at the first end for receiving nutrient and an outlet (30) is provided at the second end for draining nutrient solution. A levee system comprising paddle assemblies (40) extending orthogonal to the longitudinal axis of the tray is disposed between the first end and second end of the tray. The paddle assemblies are adapted to partition the tray to define compartments and to impede the downstream flow of nutrient solution from the first end to the second end. The paddle assemblies are adjustable so as regulate depth of nutrient solution in each compartment to enable optimal irrigation of the plants cultivated in each compartment. To complete a hydroponic system, the tray of the present invention connects to at least one reservoir for holding nutrient solution. The reservoir comprises conduits in flow communication with the inlet of the tray or outlet of the tray. Nutrient solution held in the reservoir is supplied to the tray via the inlet, and nutrient solution in the tray is drained into the reservoir via the outlet.

An inexpensive wick watering system for potted plants and flowers is disclosed. An inner grower pot containing a plant/flower and soil has holes in its bottom surface along with a central indentation. The outer decorative pot into which the inner pot is inserted has a central protrusion which accepts the central indentation of the inner grower pot and a hole inserted into the center. A Wicking insert is inserted into the bottom of the outer decorative pot before inserting the inner grower pot with holes in its bottom surface. This wicking insert works to transfer water sitting in the volume created between the inner grower pot and the outer decorative pot when the inner grower pot is placed inside the outer decorative pot due to the soil's natural ability to be infiltrated and naturally hydrated by the water. Water that rises up to the hole in the center portion of the outer pot central protrusion drains from the outer pot.

The water containment system(s) disclosed herein may include one or more trays operably connected by piping. In some implementations, the trays may be configured to support plants thereon and to catch water used to irrigate these plants. In this way, the collected water may be reclaimed and reused. In some implementations, the water containment system may help prevent water from leaking onto adjacent surfaces. In this way, a potential water hazard may be eliminated. In some implementations, each tray may include a housing with at least one grate covering an interior opening. In some implementations, the housing of each tray may have one or more sloped surface located within its interior. In some implementations, a drain may be located at or near the lowest point within the interior of the housing. In this way, water flowing through the interior of a tray's housing may drain out.

A system and method for growing and protecting tree seedlings is provided. The system includes potting tubes that may function as a pot for growing seedlings and additionally as a tree guard for protecting transplanted tree seedlings from pests. The potting tubes are open at both ends and may be secured to a bottom end cap for use as a pot. After a growth period, the end cap can be removed and the tree can be transplanted with the tube surrounding the tree for use as a tree guard. The system includes a tray with end caps attached to the tray for transporting and transplanting large numbers of tree seedlings.