The disclosed device accommodates and supports a pot plant, including a PLC communicating with an application on a mobile electronic apparatus. Sensors monitor the life cycle of the plant, and equipment provides the plant nourishment, hydration and light. Upon selecting the plant to be grown, the application creates an avatar of the plant. The application imports parameters of the selected plant from a database and communicates them to the PLC which, in turn, receives information from the sensors included in the device, operating the plant support apparatuses. Whenever the plant has a need, an “alert” appears in the application recreating an emotion of the plant as an emoticon and sends a push button. Pressing the button allows the PLC to issue commands for activating the apparatuses. The application further shows a dashboard providing updates regarding the current conditions of the plant and the residual availability of water and fertilizer.

An automated hydroponics system includes a plant housing, a power source, a microcontroller, and a handheld device. The plant housing includes a platform for supporting a plant, a main solution container for storing water to be supplied to the plant, and a plurality of supplemental solution containers including a low pH solution container, a high pH solution container, and a nutrient solution container. The main solution container is connected to the supplemental solution containers by one or more water-supply conduits. The main solution container can include a pH level sensor configured for detecting pH levels in the main solution, a TDS sensor for detecting a level of total dissolved solids in the main solution a temperature sensor for monitoring a temperature of the main solution, a water level sensor for monitoring a level of the main solution, and one or more pumps.

An apparatus for cultivating plants includes a cabinet having a cultivation space, a temperature control device provided in the cabinet to adjust a temperature of the cultivation space, a door configured to open and close the cultivation space, a cultivation shelf provided in the cabinet and configured to seat a seed package, a lighting device provided in the cabinet to radiate light onto the cultivation shelf, and a water supply pipe provided in the cabinet to supply water to the cultivation shelf. The cultivation shelf includes a shelf tray that supports the seed package, a shelf base provided under the shelf tray to accommodate the water supplied from the water supply pipe, and a shutter provided to be openable on the seat. The water accommodated into the shelf base is introduced to the inside of the seat by passing through the shutter when the shutter is opened.

Embodiments of the disclosure relate to apparatus and methods for monitoring plant development in aeroponic farming. The output from one or more sensors in the apparatus be used to modify the flow of one or more fluids to the developing plants.

A system for storing and cultivating plants and enhancing usable area, space or volume is provided. One or more racks are provided for housing plants, such as potted plants, in arrays extending in at least a vertical direction. Lighting is provided to provide ultraviolet and infrared radiation in the system. At least one rack is selectively moveable with respect to at least one lighting element, such that proximity between plants and at least one lighting element may be selectively varied.

An air purifying unit (52) includes a soil container (8) containing soil (5), an air flow generator (3) for drawing air from outside of the air purifying unit (52), through the soil (5) in the soil container (8), and out of the air purifying unit (52), and an automatic nutrient delivery system for delivering a nutrient to the soil (5).

A cabinet for growing plants has a divider. The divider hermetically separates a plant space of the cabinet from a control space of the cabinet. The divider has a plant side, a control side, and electro-magnetic radiation (EMR) emitters, mounted on the plant side of the divider. The EMR emitters are adapted to EMR frequencies primarily at or near visible light. There is a vent in the divider. A fan pulls air through the vent. A microprocessor controls the fan and the EMR emitters.

An apparatus for cultivating plants includes a cabinet having a cultivation space, a temperature control device provided in the cabinet to adjust a temperature of the cultivation space, a door configured to open and close the cultivation space, a cultivation shelf provided in the cabinet and configured to seat a seed package, a lighting device provided in the cabinet to radiate light onto the cultivation shelf, and a water supply pipe provided in the cabinet to supply water to the cultivation shelf. The cultivation shelf includes a shelf tray that supports the seed package, a shelf base provided under the shelf tray to accommodate the water supplied from the water supply pipe, and a shutter provided to be openable on the seat. The water accommodated into the shelf base is introduced to the inside of the seat by passing through the shutter when the shutter is opened.

An indoor gardening appliance includes a liner defining a grow chamber and a grow module rotatably mounted within the grow chamber and defining a root chamber. A hydration system is fluidly coupled to the root chamber for selectively implementing a hydration cycle where the root chamber is charged with mist and an air circulation system selectively urges a flow of air through the root chamber to maintain a desired temperature. A controller is configured for stopping the flow of air during the hydration cycle, e.g., to minimize disruption of the hydration cycle. The stopping of the flow of air may be time-based, e.g., based on the start/end times of the hydration cycle, or may be based on moisture level, e.g., as measured by an optical sensor.

A multifunctional infrared induction water sprinkler includes a water inlet pipe (10), an infrared induction control device (20) connected with the water inlet pipe (10), and a water outlet device (30), wherein the water outlet device (30) is connected with the infrared induction control device (20) through a universal joint (301); the infrared induction control device (20) includes an infrared pyroelectric probe, a pre-amplifier, a central processing unit, an electromagnetic valve actuator and an electromagnetic valve which are connected in sequence, and further includes an irrigating/repelling selection controller, a sprinkling duration regulator and a sprinkling interval regulator which are connected with the central processing unit. The multifunctional infrared induction water sprinkler can effectively repel animals to protect gardens, lawns and nursery gardens against damage and can also automatically spray water to irrigate gardens, lawns, nursery gardens and the like, and water resources can be saved.