An enclosed garden bed system comprising a garden bed framework, a container, a net enclosure framework, and a netting material. The garden bed framework has a plurality of members joined together by a plurality of member connectors, and sits inside of the container. The container is made of a breathable non-woven fabric and has a plurality of sleeves. The top members of the garden bed framework extend through the plurality of sleeves. The net enclosure framework is coupled to the top of the garden bed framework and also has a plurality of members joined together by a plurality of member connectors. The netting material wraps around and over a portion of the net enclosure framework and protects plants within the container. Each of the lower corners of the netting material comprises an elastic material configured to stretch when the netting material is placed over the net enclosure framework.

A system and method for generating high-yield plant production is disclosed. The system includes a container, a growing station, and a monitoring system. The growing station includes vertical racks, a lighting system, an irrigation system, a climate control system, and a ventilation system. The monitoring system monitors all of the systems in the growing station, as well as the environment within the container, to provide real-time data and alerts to a user.

A system and method for generating high-yield plant production is disclosed. The system includes a container, a growing station, and a monitoring system. The growing station includes vertical racks, a lighting system, an irrigation system, a climate control system, and a ventilation system. The monitoring system monitors all of the systems in the growing station, as well as the environment within the container, to provide real-time data and alerts to a user.

A three-way sleeve includes a first sleeve, a second sleeve and a third sleeve that intersect with each other, and every two of a length direction of the first sleeve, a length direction of the second sleeve and a length direction of the third sleeve are perpendicular to each other. The first sleeve, the second sleeve and the third sleeve are each provided with an assembling through hole. At least one of an inner wall and an outer wall of the first sleeve, the second sleeve and the third sleeve are each provided with a circumferentially arranged limit protrusion. The first sleeve, the second sleeve and the third sleeve are integrally formed.

A greenhouse facility can include greenhouses such as a first greenhouse and a second greenhouse. The greenhouse facility can also include work units such as a first work unit and a second work unit. The greenhouses and work units can be organized as tenant units that each include at least one greenhouse and at least one work unit. A common roof can cover all the greenhouses and work units. The common roof can include greenhouse canopies and work unit roofs. The greenhouses can be environmentally isolated from the outside environment and from the other greenhouses. The tenant units can be secured from entry via the other tenant units. The greenhouse facility can be formed with shipping containers as architectural elements such as the work units, controlled entry units, etc. The controlled entry units can be used for providing secured access to the greenhouses, work units, and tenant units.

A greenhouse facility can include greenhouses such as a first greenhouse and a second greenhouse. The greenhouse facility can also include work units such as a first work unit and a second work unit. The greenhouses and work units can be organized as tenant units that each include at least one greenhouse and at least one work unit. A common roof can cover all the greenhouses and work units. The common roof can include greenhouse canopies and work unit roofs. The greenhouses can be environmentally isolated from the outside environment and from the other greenhouses. The tenant units can be secured from entry via the other tenant units. The greenhouse facility can be formed with shipping containers as architectural elements such as the work units, controlled entry units, etc. The controlled entry units can be used for providing secured access to the greenhouses, work units, and tenant units.

Portable ground cover devices, kits, and methods of assembly and use. A ground cover device includes a frame that may be assembled to a size suitable for use to cover a garden. A cover may be attached to the frame such that the cover is within an interior of the frame when assembled. When in an expanded configuration, the device may be placed over the garden to encourage plant growth and protect the garden from adverse weather, wildlife, and other environmental stressors. The device may be transitioned from the expanded configuration to a retracted configuration for storage or transport of the device when not in use.

Portable ground cover devices, kits, and methods of assembly and use. A ground cover device includes a frame that may be assembled to a size suitable for use to cover a garden. A cover may be attached to the frame such that the cover is within an interior of the frame when assembled. When in an expanded configuration, the device may be placed over the garden to encourage plant growth and protect the garden from adverse weather, wildlife, and other environmental stressors. The device may be transitioned from the expanded configuration to a retracted configuration for storage or transport of the device when not in use.

An indoor gardening appliance includes a grow module that is seated on a turntable that is rotatably mounted within a grow chamber and is rotated by a drive assembly. A position sensing assembly monitors an angular position using two proximity sensors, such as Hall-effect sensors, mounted below the sump, and the turntable includes a plurality of proximity indicators, such as magnets, positioned at various circumferential positions on the turntable. A controller is configured to initiate rotation of the turntable from a first angular position, determine that the turntable should have reached a second angular position, e.g., based on the operating duration or drive signal of the drive motor, and identify a drive assembly fault upon determining that the turntable has not reached the second angular position.

An indoor gardening appliance includes a plant support frame defining a plurality of apertures for supporting one or more plant pods above a collection reservoir that collects excess water. A pump recirculates water from the collection reservoir onto the plant support frame where it is distributed among plants through distribution channels. A light assembly is positioned above the plant support frame and selectively illuminates the plant support frame based on ambient lighting conditions as measured by a light sensor.