An indoor plant growing system that includes a casing subsystem, a containers chamber, a water containers subsystem, an ultrasonic humidifier, a ventilation system and a lighting system. The casing subsystem includes a roots chamber, a plants chamber and a partition element that separates the roots chamber from the plants chamber. The water containers subsystem includes a humidifying tank, a terminal connection to a main water thank and a water pump that pumps water from the main water thank to the humidifying tank. The ultrasonic humidifier is positioned inside the humidifying tank. The system may include a fertilizer spray system or a cooling system for cooling the water in humidifying tank. The system may include a rotational mechanism which is designed to rotate the casing subsystem so that the plants will grow downward.

An apparatus for effecting water potential in a water-containing media comprising a water-permeable housing, a volume changing material that can retain water, a compressible insert and a receiver for receiving and transducing a signal, is provided.

A mixed media farm may include a tray for holding water at a prescribed water level. A cell may be placable on the tray, with the cell defining a cavity and having at least one opening in communication with the cavity. The cell may be sized such that when the cell is placed on the tray, a lower portion of the cell resides below the prescribed water level and an upper portion of the cell resides above the prescribed water level. Soil may be in the cavity, with the soil having a lower portion below the prescribed water level, and an upper portion above the prescribed water level when the cell is placed in the tray. A plurality of seeds may be planted in the upper portion of the soil, with the plurality of seeds defining a seed density of greater than 5 seeds per square inch.

A conveyor system (4, 5) moves vertical poles (2) in an agricultural facility between a growing area (20) and a workstation (W). Each pole carries plant growing containers (3) at multiple levels (H1-H9). An irrigation reservoir (30) may be mounted atop each pole. Irrigation lines (31-33) from the reservoir may be individually metered (35) at each level to compensate for differing water pressure with height. Sensors (40) in the reservoir and at each level of the poles may provide a controller (36) with data input. The controller may impose different growing conditions in different areas of the facility, including vertically different grow areas (20A, 20B), and controls pole movements and locations selectively to provide a sequence of poles at the workstation ready to harvest on a demand schedule. The workstation may have multiple heights (W1, W2, W3) for tall poles that increase plant density per facility footprint.

A hydroponic growing apparatus may include a housing, a water reservoir, and a lighting system. The housing may include a bottom surface and an open top surface. The apparatus may also include a pump, the pump comprising an inlet and an outlet, and a sprayer coupled to the outlet of the pump. Also, the apparatus may include a support structure configured to fit into an open top surface of the housing. The support structure may define a plurality of openings. The apparatus may include at least one cover plate configured to fit over the support structure in the open top surface of the housing.

An air freshening system, including: an air compressor, for flowing air; a water inlet, for supplying water; a central pipe, for receiving the air from the air compressor, and for receiving the water from the water inlet; and a plurality of end devices, each including: a water dripper, including an inlet, for communicating with the central pipe; a filter, for filtering the air; and an outlet, for supplying filtered air, thereby allowing cleaning the filters of the plurality of end devices by supplying the water thereto.

A plant pot insert includes a water filling chamber having a fill opening to receive water, a water outlet to provide water to a water reservoir, and an overflow conduit to discharge excess water through a weep hole on a sidewall of the plant pot. The water reservoir provides water to a root system of a plant to be grown in the plant pot by capillary action. A water level sensing unit detects a water level of the water reservoir.

A method of monitoring at least one aspect in a vegetation wall system and an apparatus for doing the same. The method comprising measuring, by a sensor, a first component and a second component in the vegetation wall system; determining, by a processor, a change in the at least one aspect based on: the first component, the second component, and an amount of time between the measurement of the first component and the second component; determining whether the change in at least one aspect is outside a threshold range; and in response to determining the change in the at least one aspect is outside the threshold range, determining an anomalous condition exists.

An intelligent web-enabled plant growing system controls environmental conditions inside it to grow sprouts, microgreens and plants from seeds placed in it without much intervention of humans through the growing process. Photographs of the sprouts, microgreens and plants are taken periodically by a camera. A computer then uploads the photographs to a server. The server runs artificial intelligence programs to determine the state of the growth and suggests back to the computer how to operate the controls for environment. A user application program on a remote computer or mobile device reports the state of the box, enables the user to buy seeds, enables the user to make own recipes, and enables multiple users to share their growing experience and custom recipes.

A drip irrigation device for a flower pot is provided with a main member including a central aperture, porous top and bottom layers around the central aperture, an intermediate layer around the central aperture and sandwiched between the top and bottom layers, and a slit extending from the central aperture to an edge of the main member and cutting through the intermediate layer and the top and bottom layers; and a base including at least one curved member, a central hole, a plurality of first compartments in an outer portion of each curved member, a plurality of holes through a bottom of each first compartment, a second compartment in an inner portion of each curved member, a drip hole through a bottom of each second compartment, and a plurality of spaced legs extending downward from a bottom of the base.