A water-circulation irrigation system includes a water supply device and a planting device. The planting device includes a water storage container, an irrigation pipeline, a nozzle and a recycling pipeline. One end of the irrigation pipeline is in communication with the water storage container and has a water supply end. The planting device includes a water collection container, a planting tray and a shunting element. The water collection container has a water dispensing post. The planting tray is disposed at an opening of the water collection container. The planting tray has a fitting portion and a through hole and corresponds in position to a water collection space of the water collection container. The shunting element includes a fertilizer chamber and is disposed at the rim of the through hole of the fitting portion. Therefore, a fertilizer solution is produced in a manpower-efficient manner and thus conveniently.

An aeroponics system is provided which includes a rack with multiple shelves thereon and with a tray accommodated on each shelf. Light modules are located above each shelf. Each tray has a hood with openings therein leading into a hollow chamber and above a base which includes spray heads therein. Water from a reservoir upon the rack is pumped to each of the spray heads to provide a spray within the hollow chambers. Plant cuttings are placed passing through the openings in the hood so that lower portions of the cuttings can receive the spray (and nutrients added into the reservoir) for propagation of the plant cuttings.

A device and method that support and animate a plant disposed in an inner plant pot having an inner plant pot interior volume in such a way that the inner plant pot moves relative to an outer plant pot having an outer plant pot interior volume, and a gimbal mechanism disposed within the outer plant pot interior volume, controlling and instantiating, vertical longitudinal movement and rotational movement of the inner plant pot relative to the outer plant pot, programmable to provide physical response in the form of animation of the gimbal mechanism and the inner plant pot in response to receipt of predetermined data by the electronic processor control module from a plurality of sensors in communication with the electronic processor control module providing data collected by the plurality of sensors.

A window planter includes a first compartment including a first sidewall and a second sidewall. The first compartment is configured to house a first group of plants. A second compartment is slidably coupled to the first compartment. The first compartment includes a first outer sidewall. The second compartment is configured to house a second group of plants separated from the first group of plants by the first sidewall of the first compartment. A third compartment is slidably coupled to the first compartment. The third compartment includes a second outer sidewall. The third compartment is configured to house a third group of plants separated from the first group of plants by the second sidewall. At least the first compartment and the second compartment are configured to be secured to a window frame.

A planter system including a base container and a transparent water evacuation tube located at a bottom portion of the base container. The transparent water evacuation tube is movable from a position pointing up holding water in the base container and a position pointing down to drain water from the base container. A platform/transplanter insert is located in the base container and has handles that extend upward. The handles are shaped to provide a passage to allow for feeding, watering and aeration.

An improved insulating performance fabric has a double-knit body, formed with traditional, relatively smooth, outer surfaces, and an inner surface with the form of multiple fabric bubbles separated, e.g., by a grid pattern of intersecting grooves. An insulating, double-knit performance fabric of this disclosure may also be found in the form of a garment comprising the insulating, double knit performance fabric, or in the form of fabric article comprising the insulating, double knit performance fabric, etc.

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.

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 mobile, semi-automated, multilayered aquaponic appliance for the transport and cultivation of plants, aquatic animals, farm foul and bees. The multi-layered aquaponic appliance utilizes vertical orientation to increase product yield and can be deployed indoors or outdoors. The appliance decreases reliance on municipal resources by generating its own water from an atmospheric condenser, collecting rainwater and harnessing photovoltaic technology that stores energy generated from the sun. The mobile capability of the appliance, when used in plurality, reduces the amount of space used therefore maximizing collective production for commercial applications. The appliance can be assembled and disassembled which allows it to be stored, operated and transported in a variety of spaces. The appliance incorporates some of the design elements of the traditional greenhouse by utilizing porous, translucent cover panels that serve as seedling propagation surfaces and a means of ventilation for the interior of the appliance. The irrigation system utilizes an electrical aquatic pump that continually cycles nutrients to plants and aquatic life within the appliance. The irrigation system includes a seed incubator that is inundated with purified water generated by the atmospheric condenser and from excess water collected by an errant drip siphon. A digitally functioning visual monitoring and sound transmittance device allows the appliance to be operated from anywhere in the world that can receive an internet signal. The appliance contains a motorized rotary carousel that raises each growing tray to a specific height for irrigation and a lower height for ergonomic purposes. All of the electrically powered functions of the appliance can be controlled manually or through remote access of a mobile device.

The present invention provides a smart plant cultivation device and a smart plant cultivation system which, by using an Internet of things (IoT) technology, can automatically configure a cultivation environment according to a variety of plants, automatically perform zoning control of a light source module, and monitor and record a cultivation process of a plant through a user device.