A rotary garden apparatus, method and system for growing plants comprising an open rotatable cylindrical drum mounted within a structural frame is provided wherein said apparatus comprises an accessible front area permitting access to the drum and grow trays mounted on said drum from the front of the apparatus. The rotating drum portion comprises metal bars which form struts round the periphery of the drum on which grow trays can be mounted. The grow trays are inserted by sliding them along the struts of the drum and they are held in position by arms which extend below the metal struts over which the grow trays slide into position. The inverted T shaped fit between the tray and the strut holds the tray in position during rotation without further securing mechanisms required. The operation and most routine maintenance of the apparatus can all be done from the front of the apparatus thereby permitting multiple apparatus units to be placed side by side in a grow facility or against walls. The apparatus may be stacked one above the other all of which maximizes the number of units which can be present in a defined floor space in a grow facility. A light source comprising a holding tray, a sleeve and at least one bulb as part of a rotary garden apparatus is present in the rotary garden apparatus providing light for growing plants.

Details of a planting vessel that includes a bottom-watering system specifically configured to help with care, maintenance, and root growth is described in accordance with examples of the present disclosure. The planting vessel includes a removable insert configured to regulate bottom water flow, aerate soil, and provide flexibility with respect to repotting plants. The planting vessel may include a base, the liner configured to be at least partially disposed within the base, a funnel configured from a portion of the liner and an inner surface portion of the base, the funnel extending from an upper area of the planting vessel to a lower area of the planting vessel, and a watering chamber portion configured from a lower portion of the liner and a portion of the base, the watering chamber portion coupled to the funnel such that a liquid can pass through the funnel to the watering chamber portion.

The present invention provides a plant pot tray and irrigation system that improves the efficiency of installation and removal of growing pots from the tray. The present invention includes a plant pot tray that includes an integrated irrigation system that does not install into the individual pots but may be installed into the tray itself outside of the pots. The integrated irrigation system allows for the pots to be installed and removed from the plant pot tray without disturbing the integrated irrigation system, thus making the installation and removal of the pots efficient and operable to be automated.

A garden system that include a garden box having at four walls and a floor. The walls and the floor form a plant receiving area. The each wall includes an internal cavity that holds water and acts together as a water tank. The water tank has an input and an output. The garden system also includes a watering system connected to the water tank and is positioned to provide water to the plant receiving area.

A watering system including a receptacle including a fluid flow generator and a fluid flow generator controller which releasably couples to a fluid reservoir containing a fluid which can be transferred by operation of the fluid flow generator from the fluid reservoir to a plurality of fluid flow meters which can be disposed in spaced apart relation to correspondingly deliver the fluid to a plurality of spaced apart locations. In particular embodiments, a plurality of potted plants can be disposed in spaced apart relation and one more of the plurality of fluid flow meters can be correspondingly located to deliver the fluid to each of the plurality of potted plants.

The invention disclosed herein relates to an automatic watering valve actuator assembly. The automatic watering valve actuator assembly comprises a bracket that can attach the assembly to a support member and a valve. In one embodiment, the bracket has an opening that can receive a hook from a hanging planter. When the hook is positioned in the bracket, an actuator button on a valve is engaged to allow fluid flow through an inlet opening to an outlet opening of the valve. In a different embodiment, the bracket also has a clip that can be an enclosed elongate rectangular shape. The clip can receive the hook from a hanging planter. When the hook is positioned on the clip, the actuator button of the valve is engaged allowing fluid flow there through.

An aeroponic plant-growth system includes growth space and a control unit that may be assembled using factory made modules. The growth space includes layers at different heights, and each layer includes plant holders and misters positioned to apply a mist to roots of plants in the plant holders. The control unit employs a controller to execute a program that operates a liquid supply system to provide liquid flows to the misters in the layers. Each of the liquid flows may be regulated according to the height of the layers.

A submersible member can include an elongated body defining an outer body surface, the body defining a top end and a bottom end; a base electrode extending through the outer body surface; a first conductive member extending through the body from the top end to the base electrode, the first conductive member connected in electrical communication with the base electrode; an indicator electrode extending through the outer body surface, the indicator electrode positioned between the top end and the base electrode; and a second conductive member extending through the body from the top end to the indicator electrode, the second conductive member connected in electrical communication with the indicator electrode.

A plant cultivation system includes: a first sensor configured to output a sensor signal corresponding to an amount of water in a plant; a second sensor configured to output a sensor signal corresponding to a measurement value of an environment condition; and a controller, wherein the controller is configured to, by using a sensor signal from the first sensor obtained by the first sensor measuring a plant to be cultivated and a sensor signal from the second sensor obtained by the second sensor measuring an environment for cultivating the plant to be cultivated, control a specific environment parameter corresponding to the environment condition and measured by the second sensor, in a cultivation environment for the plant to be cultivated.

A self-watering planter, and a method for watering a plant, are described. A self-watering planter may include a container defining a cavity, a platform in the container that separates the cavity into two environments, and a fill tube and a down tube extending through the platform.