A mountable plant cultivation apparatus capable of being mounted on an outer surface of a mounting object, according to the present invention, comprises: a housing disposed along an outer surface of a mounting object to have an adjustable length; and a planting part which is disposed in one side of the housing and in which a plant is planted.

An article for use with an associated vertically oriented, generally planar surface may include a generally horizontal top member supported by first and second planar supporting members, which selectively receive the associated vertically oriented, generally planar associated surface therebetween.

Disclosed is a pot suspension apparatus that allows a user to safely, efficiently, and easily hang multiple pots from each other through its center drain hole so that the pots are suspended along the same vertical axis. The pot suspension apparatus features a rod with a hook and an eye, wherein the hook from one rod and can hang off of the eye of a second rod. The pot suspension apparatus also features multiple flanges that secure a pot in place along a rod and allow for organized and directed drainage of water through the suspended pots.

A frame including at least two hangers and at least two vertical members, each of the vertical members attached to at least one of the hangers on a first side of the vertical members, and a bottom attached to a second side of the each of the vertical members.

Generally described, a growing container for a vertical rack system includes an inner container portion with a plurality of inlet perforations across a sidewall, an opening for plant growth, and a base panel with a plurality of outlet perforations. An outer container portion is configured to at least partially surround the inner container portion, and having a fluid inlet port and a fluid drain port. An upper seal and a lower seal are disposed between the inner container portion and the outer container portion on either side of the plurality of inlet perforations to allow a fluid from the fluid inlet port to cover the plurality of inlet perforations at any tilt angle of the growing container. The fluid drain port allows excess fluid drainage. A racking handle protrudes from the outer container portion with an internal angle corresponding to the tilt angle when coupled to a vertical rack system.

A system for suspending and self-balancing containers of crops includes first and second support rods and two cables tensioned between them. The two cables are connected to each other to form a closed-loop cable system. Support members for supporting the closed-loop cable system are coupled to the first and second support rods. Each support member includes a first arc-shaped surface. The closed-loop cable system is tensioned against the first arc-shaped surfaces. When the closed-loop cable system is under stress, it can facilitate the self-adjustment of the height of the cables by a relative sliding motion between the closed-loop cable system and the first arc-shaped surfaces.

Divided jardiniére suspension and/or watering systems for vandaceous orchids. In some embodiments, the system may comprise two receptacle pieces that may be coupled together to define a complete receptacle for a vandaceous orchid. Some embodiments may further comprise one or more watering elements, such as a watering manifold that may deliver water through one or more outtake ports through water delivery members that may extend from the watering manifold and be wrapped around the roots of the vandaceous orchid to deliver water and/or nutrients continuously via capillary action.

A planting structure includes a water filtering bag, a plurality of hanging ears mounted on an outer face of the water filtering bag, and a plurality of planting sources placed in the water filtering bag. The water filtering bag is made of permeable material with a permeation effect. The water filtering bag has an interior provided with a receiving space. The planting sources are received in the receiving space of the water filtering bag. Thus, the planting structure is directly hung on a cup by the hanging ears, so that the user plants and takes out the planting sources at any time according to the practical requirement.

Disclosed is a customizable in-ground stand that retains its position in response to off-center, leaning, and/or top-heavy forces imposed onto it by a retained object. The stand includes an elongated tube. The stand includes an interchangeable retention ring with a downward extension that attaches to a top of the elongated tube, and with a length of tube that extends laterally in front of the elongated tube as an incomplete ring from the downward extension. The stand further includes an interchangeable base with a rod that attaches to a bottom of the elongated tube, and with support members that extend outwards from each side of the rod. Each of the support members has a vertical triangular plate that extends perpendicularly from the rod and that narrows to a particular point towards a bottom of the rod, and a lip that extends perpendicularly over each vertical triangular plate.

It relates to a straightforward system, which can be used in any greenhouse, as it is not linked to the greenhouse, and which can maximise the area of crop plants per hectare. For this purpose, the invention proposes a system that is supported by struts (1) with a horizontal shaft (3) on which a support mechanism (4) for pairs of supports (5) of the hydroponic crop in question swings, so that they can adopt a position in which they are aligned horizontally, and another position in which they are aligned vertically, so that this position allows access to the plants for harvesting their fruit and therefore not having to leave unused spaces when the plants are aligned horizontally.