A watering station includes a robotic watering device having a first swing arm having a first end opposite a second end, a rotatable robot arm rotatably coupled to a second end of the first swing arm, a first motor configured to pivot the first swing arm, a second motor configured to rotate the rotatable robot arm with respect to the first swing arm, and pump outlets positioned on the rotatable robot arm, one or more pumps fluidly coupled to the pump outlets positioned on the rotatable robot arm, and a fluid reservoir, where the one or more pumps comprises an inlet and an outlet, and the one or more pumps are fluidly coupled to the fluid reservoir such that when activated the one or more pumps draw fluid from the fluid reservoir and disperse a predetermined amount of fluid out the pump outlets.

There is provided by the present invention planting containers and associated trays for the production, distribution and display of plants where the planting containers have a channel in the base for engaging with a production or display tray for positioning plant pots in a desired orientation. In one embodiment, the plant container is a flower pot which comprises an upper part; a middle part connected at one end to the upper part; and a bottom part connected to an opposite end of the middle part; the bottom part having a channel extending from one side of the bottom part to the other side of the bottom part; said channel having an apex perpendicular to an axis of the pot, first and second sides, and a plurality of slots at the apex for engaging with a rail system on the tray having teeth.

A plant growing tray system, comprising a plurality of trays sequentially connected to each other via substantially impermeable inter-tray joints. Each of the plurality of trays extends between respective first and second lateral ends and has a respective plant growing space portion vertically recessed relative to respective first and second lateral ends in-between. Each inter-tray joint includes a male part positioned at a first horizontal longitudinal end of a tray and elongated between the respective first and second lateral ends of the tray, a female part complementary to the male part positioned at a second horizontal longitudinal end of an adjacent tray and elongated between the first and second lateral ends of the adjacent tray, and a substantially impermeable interstitial medium configured to be compressed between the male and female parts to generate residual stresses to at least partially support a tray load and mitigate leakage.

A cultivation assembly has a container, at least one first engaging structure facing outside of the container, and an engaging member. The engaging member is configured to connect the container of another cultivation assembly side by side. The engaging member has two second engaging structures facing opposite directions. Each one of the two second engaging structures is capable of engaging with one of the at least one first engaging structure. The container of the cultivation assembly is capable of being connected to the container of another cultivation assembly side by side via the engaging member and without wasting a lot of labor to move the container.

A weed barrier includes a rigid body defining a plurality of basins. The basins have bottoms with holes therethrough for planting garden plants. In a particular embodiment the bottom surface of the weed barrier includes a plurality of hose channels configured be positioned over a hose. Several example configurations of rigid weed barriers are disclosed.

A method and system for supporting containerized plants in an upright and stationary position and at customizable, uniform spacing therebetween. The system comprises a frame, pockets, stabilizers positioned within the pockets and spacers. The pockets, stabilizers and spacers provide both horizontal and vertical support to each containerized plant, holding it securely in place without stakes or cables. The pockets with stabilizers and the spacers may be arranged in various patterns to promote stability of the system and health of the containerized plants. An irrigation system may be coupled to the system for maintaining and nourishing plants. The length of the frame is greater than the width, thus creating a stable environment to combat winds and disruptive forces. Individual frames may be attached to form designated and defined uniform growing or display areas and provide greater stability.

A molecular air control system includes a shell including an enclosed area, a cart moving on a track within the enclosed area, an air supplier configured to output air into the enclosed area, and a controller. The controller includes one or more processors, one or more memory modules, and machine readable instructions stored in the one or more memory modules that, when executed by the one or more processors, cause the controller to: identify a plant on the cart; determine a target carbon dioxide concentration level for the identified plant based on a molecular recipe for the identified plant; receive a current carbon dioxide concentration level from a carbon dioxide sensor; compare the target carbon dioxide concentration level with the current carbon dioxide concentration level; and adjust carbon dioxide concentration level of the air output from the air supplier based on the comparison.

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.

This invention relates to a modular, scalable fogponic plant growth system for growing plants individually with roots physically and fluidly isolated from one another. A high-pressure fluid delivery system operates above 150 psi and is configured for fluidly connecting at least one spray nozzle positioned within each root enclosure to simultaneously deliver fluid to the roots of each plant within a zone of root enclosures. A passive drain system continuously removes any unabsorbed fluid, such that the roots of each and every plant are physically and fluidly isolated from one another.

An interlocking tongue and groove vegetation planting assembly provides a self-supporting arrangement of pentagon-shaped plant containers and triangle-shaped plant containers that are alternatively stacked, and detachably fitted together with support blocks having a central tongue on one end and a pair of legs on an opposite end that fit together in a tongue-and-groove relationship through the support sleeve. Both the pentagon-shaped and triangle-shaped plant containers include a plant chamber, and an adjacent support sleeve. The plant chamber has multiple sidewalls sloped at an angle. The plant chamber also has a floor wall that forms drainage holes near the junction of the plant chamber and the support sleeve sidewalls. The pentagon-shaped plant container is half the width and length of the triangle-shaped plant container to allow sunlight to reach lower stacked triangle-shaped plant chambers. The tongue-and-groove stacking arrangement creates multiple points of contact throughout each sidewall for equal weight distribution.