A self-watering tray device having an integral internal irrigation system, and a method of watering allowing water to be supplied by a garden water hose and a water faucet. A plurality of said self-watering trays capable of being daisy-chained in a serial configuration to allow a single source of water from a water faucet and a plurality of garden water hoses to provide irrigation water to all of said plurality of self-watering trays and non-self-watering planters positioned thereon.

A plant growing vessel includes an impervious outer vessel, a cover, a first permeable membrane, a nutrient chamber, and a pocket. The impervious outer vessel includes an inert substrate in a root zone. The cover is positioned over the impervious outer vessel. The first permeable membrane is in contact with the inert substrate. The nutrient chamber includes solid nutrients. The nutrient chamber is between the cover and the first permeable membrane or between the first permeable membrane and a bottom of the impervious outer vessel, and the solid nutrients are in contact with the first permeable membrane. The pocket is configured to allow seeds, seedlings, or shoots of plants access to the inert substrate through an aperture in the cover.

An indoor gardening appliance includes a liner positioned within a cabinet that defines a front display opening and an enclosed back portion. A grow module is rotatably mounted within the liner and include a central hub and a plurality of partitions defining a plurality of grow chambers. The grow module is selectively rotated to index the plurality of grow chambers between a sealed position between the grow module and the enclosed back portion of the liner and a display position aligned with the front display opening.

A plant-growing tray for containing cylindrical stabilised media for growing plants comprises an array of flared columns, a lower end of the columns being wider than an upper end. The columns define an array of cells therebetween for containing cylindrical stabilised media, and a column comprises one or more contact edges defined by an intersection between a wall of the flared column and a virtual cylindrical surface in a cell, such that the contact edges are suitable for contacting a cylindrical stabilised medium positioned in the cell.

A storage assembly includes a body with a space defined axially therethrough. A tray is connected to the top of the body and multiple pivotable members are pivotably connected to the body and the tray. Each member includes a reception portion for storage purpose, and a cover is mounted to the reception portion. A tube is inserted in a connection portion of the tray and receives fishes and plants in the tube. A base is connected to the underside of the body and is connected with a light device on the top thereof. The pivotable members can be pivoted to enclose the tube or to be pivoted outward around the tube.

An air-root-pruning container for growing a plant and a unitary flat including a plurality of the containers. The air-root-pruning container includes a base and a sidewall upwardly extending from the base. The sidewall includes inwardly projecting ribs, each rib extending in an upward direction along the sidewall, and each rib having a first side and a second side. The sidewall further includes ledges extending from the first side of each rib, ledges extending from the second side of each rib, and holes through the sidewall, each hole being positioned adjacent a location where one of the ledges extends from one of the ribs. For each rib, each of the ledges extending from the first side of the rib extend from the rib at a location that is vertically offset from a location where each of the ledges extending from the second side of the rib extend from the rib.

The invention is a plant growth chamber. Specifically, the plant growth chamber is multi-chambered and has the ability to grow multiple plants in several stages such that plant harvesting can occur every thirty to sixty days.

A plant holder and method is disclosed. The plant holder has a connecting surface and a plurality of receptacles. The plant holder is configured to be received in a first pot. Each of the plurality of receptacles is configured to receive a plant-containing second pot. The plurality of receptacles interrupt the connecting surface. The plurality of receptacles each have a receptacle bottom wall and a receptacle sidewall defining a partially enclosed receptacle interior space. The receptacle bottom walls support the plant holder on a first bottom wall of the first pot within a first interior of the first pot. The connecting surface has a peripheral edge configured to face the first sidewall of the first pot.

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 planting container has a first basin and a second basin forming a yin-yang shape. The first basin is configured to contain soil, the second basin is configured to hold water and provided with a plastic floating board. The plastic floating board has a plurality of receiving holes with a planting basket. An inner side of the plastic floating board faces the first basin and has at least one opening allowing at least one fiber strip to pass through the opening and enter the second basin, and another end of the fiber strip passes behind the first and second basin and placed on or in the soil of the first basin.