A wall mounted agricultural assembly includes a first planter and a second planter below the first planter, and a water supply arrangement that includes a fluid supply delivering fluid from a fluid supply to the first and second planters and a first valve configured to allow or prevent fluid flow to the planters, and a second valve configured to prevent or allow fluid to bypass the planters.

A drainage device, system and arrangement for a plant pot, including: (a) a tray adapted to receive drainage fluid from the plant pot; (b) a cover for the drainage tray, the cover being permeable and adapted for a base of the plant pot to stand thereon, further adapted for the drainage fluid from the plant pot to pass there-through, into the tray; (c) an outlet port disposed in a sidewall of the tray; and (d) a drainage tube connected to the outlet port, the drainage tube adapted to provide a conduit for conveying the drainage fluid out of the tray.

A system and method are provided for the indoor and outdoor cultivation of larger fruiting plants. Improved lighting techniques, plant layouts, and space utilization are provided to improve the quality and yields of harvested products from large fruiting plants on a per plant and unit area basis. The uniformity of artificial light is improved from the top to the bottom of tall plants and vines, and overcome the lack of light penetration through the canopy of the plant by changing the orientation of lights from a horizontal to vertical alignment along the side of the plant verses over the top of the canopy, as well as increasing the number of light sources to reduce shading. Plants are trained to grow in specific directions and orientations in a grid system to enable an optimal and uniform light distribution and to improve space utilization in a given growing area.

A vertical farming structure having vertical grow towers and associated conveyance mechanisms for moving the vertical grow towers through a controlled environment, while being exposed to controlled lighting, airflow, humidity and nutritional support. The present disclosure describes a reciprocating cam mechanism that provides a cost-efficient mechanism for conveying vertical grow towers in the controlled environment. The reciprocating cam mechanism can be arranged to increase the spacing of the grow towers as they are conveyed through the controlled environment to index the crops growing on the towers. The present disclosure also describes an irrigation system that provides aqueous nutrient solution to the grow towers.

A hydroponic plant cultivation apparatus includes a reservoir with an opening. A plurality of planting modules can be stacked above the opening. Each module includes at least one planting port, a module conduit aperture, a top end, and a bottom end configured to releasably engage the opening or the top end of another module. A conduit fluidly communicable with the reservoir is receivable through the module conduit apertures. A fluid distributor is engageable with a top end of the conduit. A fluid contained in the reservoir is selectively circulatable from the reservoir through the conduit to the fluid distributor, where the fluid is redirected down the interior of the modules and back to the reservoir when the modules are stacked above the opening in the reservoir, the conduit is received in the module conduit apertures and fluidly communicated with the reservoir, and the fluid distributor is engaged with the conduit.

A hydroponic plant cultivation apparatus includes a reservoir with an opening. A plurality of planting modules can be stacked above the opening. Each module includes at least one planting port, a module conduit aperture, a top end, and a bottom end configured to releasably engage the opening or the top end of another module. A conduit fluidly communicable with the reservoir is receivable through the module conduit apertures. A fluid distributor is engageable with a top end of the conduit. A fluid contained in the reservoir is selectively circulatable from the reservoir through the conduit to the fluid distributor, where the fluid is redirected down the interior of the modules and back to the reservoir when the modules are stacked above the opening in the reservoir, the conduit is received in the module conduit apertures and fluidly communicated with the reservoir, and the fluid distributor is engaged with the conduit.

Floral architecture offers us technological solutions for convenient plant growing in pots, easy fitting into the given spaces with its size and design, modularity. A combination of components that create various systems are: pot with mats for plant growing (1), supporting structures (2), meshes (3), flexible water tank (4), water pump (5), time switch (7) or a computer (10), plug (8), irrigation system (9), door (11), filling hole (12), water purifier (13), system for tank filling (14), exterior masks or wall claddings (15), pergola (16), advertising space (17), seating area (18), lighting (19, 19.a), solar system (20), traffic signalling (21), water fountain (22), a storage box (23), drainage of excess water (24), fixer for pots (25), distribution box with a cover (26), drainage water hose (27), water supply hose (28), fence (29), distribution channel (30), divider (31), stretching system (32), flexible supporting structure for flower pots (33).

A plant air purifier with filter material within a filter bed container, wherein the filter material can both allow air to pass through it during the unit's air purification phase and for water to submerge the filter material during its remoisturization phase The unit itself passes through various phases and sub phases: an air purification phase; followed by a remoisturization phase, which includes an immersion of the filter material sub phase, and a draining away of the water during its drainage sub phase. And in some cases, a soaking sub phase of the filter material for some time. Three different embodiments of the unit are provided: a unit with a separate soaking; chamber outside the unit; one with an outer pot surrounding the filter container; and one with a flapper below the filter bed container.

A vertical farming structure having vertical grow towers and associated conveyance mechanisms for moving the vertical grow towers through a controlled environment, while being exposed to controlled lighting, airflow, humidity and nutritional support. The present disclosure describes a reciprocating cam mechanism that provides a cost-efficient mechanism for conveying vertical grow towers in the controlled environment. The reciprocating cam mechanism can be arranged to increase the spacing of the grow towers as they are conveyed through the controlled environment to index the crops growing on the towers. The present disclosure also describes an irrigation system that provides aqueous nutrient solution to the grow towers.

Disclosed are embodiments of an apparatus for displaying and watering vegetation, which watering can be automated. The apparatus can include a base portion, a support member coupled with the base portion and extending generally upwardly away from the base portion, a bracket, a tray supported by the bracket, a container, at least one conduit in fluid communication with the container and configured to communicate a liquid from the container to the tray, and a pump comprising electronic circuitry configured to control an operation of the pump. The pump can be configured to pump a liquid from the container through the conduit to the tray to water at least one plant that can be supported by the tray.