An indoor gardening appliance includes a grow module that is rotatably mounted within a grow chamber and that defines pod apertures for receiving a plurality of plant pods. A hydration system includes a discharge nozzle positioned within the grow chamber for selectively discharging a mist of nutrients. An electrostatic charging assembly is coupled to the discharge nozzle for selectively charging the mist of nutrients. By contrast, the plant pods may be electrically coupled to a grounding assembly for selectively grounding the root end of the plant pods. In this manner, the roots of the plants may have an opposing charge relative to the mist of nutrients such that the mist of nutrients are attracted to and deposited on the roots of plants.

A system including components and electronic modules that together form a transportation and growing system for plants and fungi is provided, the system including at least two components, the components further including one or more of pallets, liquid collectors, posts, rails for trays, and accessories useful for managing use of the trays; and one or more electronic modules, the electronic modules further including one or more of processors, logic systems and/or controllers useful for controlling functionality of the system.

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.

An automatic vertical farming system may include at least one growth area configured to support a plurality of vertical plant growth structures. The system may include at least one piece of farming equipment configured to plant crops within the at least one growth area, maintain the crops within the at least one growth area, harvest the crops within the at least one growth area, or a combination thereof. The system may include a control system including at least one processor in communication with at least one network, the at least one processor being configured to receive a configuration message from a remote computing device through the at least one network and automatically control the at least one piece of farming equipment according to content of the configuration message.

A portable street planter that is positionable in a street to divert or divide traffic. The portable street planter provides an aesthetic traffic divider that also serves as a planter basin for plants and trees. The traffic divider may also provide foot and arm support for a bicyclist at rest.

A portable street planter that is positionable in a street to divert or divide traffic. The portable street planter provides an aesthetic traffic divider that also serves as a planter basin for plants and trees. The traffic divider may also provide foot and arm support for a bicyclist at rest.

A system for cultivating a plurality of plants includes a tray configured to receive and support the plurality of plants, a rack that supports the tray, and a removable drainage directing insert. The rack includes a first side, an opposite second side, and first beam and a second beam that each extend between the first side and the second side to thereby define a front and a rear of the rack. The first beam and the second beam are vertically offset from each other such that the tray slopes towards the front of the rack. The removable insert is positioned between a front edge of the tray and the rack and extends along the first beam. The insert tapers in a first direction from the second side of the rack to the first side of the rack such that the tray slopes toward the first side of the rack.

The present invention provides a fixing structure for collecting and assembling flower, especially used for collecting and placing potted plants such as potted orchids, mainly including a flower holder main body and a collecting sleeve assembly sleeved at a top end of the flower holder main body; a central accommodating slot and position limiting members annularly arranged along an inner edge are formed in the collecting sleeve assembly, two crossed adjacent abutting surfaces are respectively formed in the plurality of position limiting members, and an outer edge of central accommodating slot is formed with concave arc-shaped abutting surfaces at locations corresponding to the adjacent position limiting members, and the position limiting members is connected to a bottom edge of the central accommodating slot via a rib sheet, so that an accommodating slot zone is formed through each set of the three abutting surfaces.

A horticultural fill system comprises a biodegradable outer packaging and a plurality of biodegradable bipyramidal horticultural fill elements. The plurality of biodegradable bipyramidal horticultural fill elements are removably disposed within the biodegradable outer packaging, and a group of the plurality of biodegradable bipyramidal horticultural fill elements is configured to be positioned in a horticultural planter container, as horticultural fill, beneath growth medium in which a plant is to be grown.

The present disclosure includes foldable forms that are foldable between a first planar state and a second non-planar state. The form can include at least two sectors, each comprising first and second sub-sectors that each comprise a set of cuts. The set of cuts can include first through fourth cuts, where a portion of the form between the first cut, second cut, third cut, a theoretical line connecting the second and third cuts, and the edge forms a flap. The form can be folded, with the flaps received through the fourth cuts to make a container. The container can be usable as a planter.