An automated outdoor modular vertical plant cultivation system forming a vertical structure is provided. The system includes a plurality of shelves, each shelf having a web and flanges; two posts, each post having a web and flanges. Each shelf of the plurality of shelves is mounted between the two posts with incremental spacing between each adjacent shelf along a vertical length of the two posts. The web of each shelf includes a plurality of openings for retaining planter vessels. The flanges of each shelf retain an embedded structural member. The system includes a fluid circulatory system including shelf irrigation piping extending longitudinally above the web of each shelf; and power or power and data and fluid members for the system distributed from vertical risers located in proximity to the web of the posts, wherein the flanges of the shelves have provisions to retain the fluid circulatory system.

There is provided an off-ground plant growing system providing an electronic monitoring system and also providing a thin layer of high porosity organic compost and providing the steps of adding a precise amount of vermicompost to the soil phase, immediately followed by addition of arbuscular mycorhizae, and followed by regular weekly addition of beneficial micro-organisms for plant development, including mycorhizae associated bacteria, plant growth promoting fungi, soil conditioning bacteria, purple non-sulphur bacteria and probiotic disease-preventing bacteria, in order to promote the creation of a well differentiated, dense and ramified root system and complete microrhizobiome in the compost phase, that can effectively assist the functions of plant roots for optimal precision greenhouse, green walling or homegrown crop production of all kinds, without the use of chemical pesticides or fungicides.

A plant grower is disclosed and includes a base, an upper cover having a surface parallel to an upper surface of the base, the upper cover being disposed above the base so as to be spaced apart from the upper surface of the base, a plurality of growing panels disposed along the circumference of the upper surface of the base, the plurality of growing panels being rotatably disposed at the base and the upper cover, and a lighting bar extending vertically upwards from the center of the upper surface of the base to the upper cover, the lighting bar emitting light in a direction in which the plurality of growing panels is disposed, and a plurality of growing holders, into each of which a plant is inserted, disposed at one surface of each of the plurality of growing panels.

A device for growing plants is provided. The device has a panel assembly on which a one or a plurality of nutrient flow channels is supported to provide nutrient flow passages from an inlet at an upper region to an outlet at a lower region of the support panel. A plurality of grow pockets is supported on an opposite side face of the support panel, the grow pockets in alignment with the nutrient flow channels. Each grow pocket has a plant access opening. A fluid aperture in the support panel is disposed at a lower region of each grow pocket for fluid communication between an interior of the grow pocket and the aligned nutrient flow passage.

The present invention relates to a suspended flowerpot adapted to automatic water supply and, more specifically, to a plant cultivation system wherein multiple flowerpots can be suspended on a horizontal member, and the system has a water supply structure enabling automatic water supply to the flowerpots by means of buoyancy, thereby facilitating management for plant cultivation. The present invention, as described above, comprises: at least one flowerpot comprising a mounting portion that can be suspended on a horizontal member, and a body portion having a containing space therein and having a water supply hole in the lower portion thereof; a plant planting portion having an open supper portion through which soil and plants are contained therein, the planting portion being contained in the flowerpot; and a water supply portion having a water storage space for storing water supplied from the outside, having a drain hole formed in the lower portion of the water storage space such that a water supply hose connected to the water supply hole is mounted therein, and having a buoyancy opening/closing portion driven by buoyancy according to the water level, thereby opening/closing the water supply hole.

A disclosed vertical planter box assembly includes perimeter walls defining an interior space for holding plants. The perimeter wall includes openings aligned around the interior space. A water basin is provided at a top side for communicating water into the interior space. A drip tray is supported below a bottom side for capturing draining water from the interior space. A plurality of pins extend through the openings and across the interior space to hold the plant structures in place within the interior space.

A wall-mounted planter apparatus incorporates a housing with a container storage allowing multiple removable containers to be positioned on cleats within the housing. The apparatus employs gravity to equally distribute a volume of fluid to the removable containers through an irrigation assembly. The irrigation assembly couples to the rear of the housing and incorporates a top-positioned reservoir and vertical channels, portions of which couple to emitter cavities of the housing and facilitate flow through individual apertures of the emitter cavities. The diameter of the apertures is calculated based on each apertures' vertical distance from the reservoir. The removable container can also be reoriented to manipulate plant growth and manage reservoir resources. Additionally, a lid configured to cover the removable container and foster, e.g., ideal germination conditions, can also be used a drip tray if the removable container is removed from the housing and used separately as a planter.

A plant plug holding unit is provided, the plant plug holding unit including at least one plant plug holder. The plant plug holding unit, which is configured to be inserted into a cut-out in a hydroponic tower face plate, includes an edge member that encircles the unit and is sealed to the rear surface of the front tower face. Each individual plant plug holder of the plant plug holding unit includes (i) a base member configured to support a plant plug and which extends rearward from the edge member and into the hydroponic tower cavity; (ii) a top shroud member that inhibits leakage as well as plug erosion; (iii) a pair of side members that maintain the position of the plant plug within the plug holder; and (iv) a plurality of open regions configured to promote water drainage from the plant plug.

A block used for constructing a wall, where the block is configured with a front wall angled inward and downward, forming a triangular interior space into which soil can be placed, such that plants placed in the soil will have access to the sun and rain due to the angled front wall of the block placed above it, thereby providing an integrated vegetated wall.

Certain exemplary embodiments can provide a system, machine, device, and/or manufacture adapted for and/or resulting from, and/or a method configured for, activities that can comprise and/or relate to, installing a support system for a green wall, the support system comprising a plurality of trays that are configured to interface with a securement system.