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 at the same circumferential position but at different radial positions. The turntable includes a plurality of proximity indicators, such as magnets, positioned at each of three circumferential positions on the turntable and at different radiuses to define a two-digit binary code corresponding to each of the three circumferential positions that is detectable by the proximity sensors.

A closed loop system for growing vegetation is provided. The closed loop system includes at least a first transport conveyor and a second transport conveyor. Each of the first and second transport conveyors includes a front end opposite a rear end. The present invention further includes at least a first transfer conveyor. A lighting system is positioned to emit light towards the first transport conveyor and a second transport conveyor. The present invention further includes at least one terrace structure. The first transport conveyor transports at least one terrace structure from the front end to the rear end, the first transfer conveyor transfers the at least one terrace structure from rear end of the first transport conveyor to the front end of the second transport conveyor and the second transport conveyor transports the at least one terrace structure from the front end to the rear end.

A rotary garden apparatus, method and system for growing plants comprising an open rotatable cylindrical drum mounted within a structural frame is provided wherein said apparatus comprises an accessible front area permitting access to the drum and grow trays mounted on said drum from the front of the apparatus. The rotating drum portion comprises metal bars which form struts round the periphery of the drum on which grow trays can be mounted. The grow trays are inserted by sliding them along the struts of the drum and they are held in position by arms which extend below the metal struts over which the grow trays slide into position. The inverted T shaped fit between the tray and the strut holds the tray in position during rotation without further securing mechanisms required. The operation and most routine maintenance of the apparatus can all be done from the front of the apparatus thereby permitting multiple apparatus units to be placed side by side in a grow facility or against walls. The apparatus may be stacked one above the other all of which maximizes the number of units which can be present in a defined floor space in a grow facility. A light source comprising a holding tray, a sleeve and at least one bulb as part of a rotary garden apparatus is present in the rotary garden apparatus providing light for growing plants.

It relates to a straightforward system, which can be used in any greenhouse, as it is not linked to the greenhouse, and which can maximise the area of crop plants per hectare. For this purpose, the invention proposes a system that is supported by struts (1) with a horizontal shaft (3) on which a support mechanism (4) for pairs of supports (5) of the hydroponic crop in question swings, so that they can adopt a position in which they are aligned horizontally, and another position in which they are aligned vertically, so that this position allows access to the plants for harvesting their fruit and therefore not having to leave unused spaces when the plants are aligned horizontally.

It relates to a straightforward system, which can be used in any greenhouse, as it is not linked to the greenhouse, and which can maximise the area of crop plants per hectare. For this purpose, the invention proposes a system that is supported by struts (1) with a horizontal shaft (3) on which a support mechanism (4) for pairs of supports (5) of the hydroponic crop in question swings, so that they can adopt a position in which they are aligned horizontally, and another position in which they are aligned vertically, so that this position allows access to the plants for harvesting their fruit and therefore not having to leave unused spaces when the plants are aligned horizontally.

A multiple produce growth support apparatus comprises a plurality of growth supports having a growth substrate and produce arranged to grow within said respective growth substrate; a connection assembly, each of said plurality of growth supports connected to said connection assembly; an irrigation assembly arranged to irrigate said plurality of growth supports; and a rotation mechanism coupled to said connection assembly and arranged to rotate said plurality of growth supports about a predetermined rotation axis, wherein, when at least one of said growth support provides at least one growth substrate that is ready to be sold to the consumers said at least one growth substrate is moved to the section that is visible to present and deliver the produce to said consumers; whereby, said apparatus provides consumers with fresh produce directly from said growth substrate.

A load handling device for operating in a farming system, and an associated method of using the farming system to produce a crop are provided. The floor of the farming system includes a network of tracks based on a grid system. The load handling device includes: a first set of wheels, and a second set of wheels; and a support for receiving a growing tray, wherein the support pad can be raised and or lowered in a vertical direction to lift and lower a received growing tray. The method includes: preparing growing trays; depositing a growing tray in a growing booth; retrieving a growing tray from a growing booth; arranging growing trays in growing aisles according to life-cycle phase of the crop; controlling the environment using a hood; harvesting a crop; and/or transferring a harvested crop from the farming system to an integrated second system.

A plant cultivation apparatus including a conveyor that contains a conveying device for a cultivation bed and a blowing means that sends a flow of air to plants on the cultivation bed on the conveying device. The plant cultivation apparatus is provided with a space for causing the flow of air to pass between the cultivation bed adjacent in a conveying direction and pass through a bottom surface of the conveying device.

A plant cultivation apparatus including a conveyor that contains a conveying device for a cultivation bed and a blowing means that sends a flow of air to plants on the cultivation bed on the conveying device. The plant cultivation apparatus is provided with a space for causing the flow of air to pass between the cultivation bed adjacent in a conveying direction and pass through a bottom surface of the conveying device.

An indoor gardening appliance includes a liner defining a grow chamber and a grow tower mounted within the grow chamber for receiving a plurality of plant pods. A hydration assembly is positioned within a root chamber and includes an upper nozzle mounted to a top wall of the root chamber, an inverted tripod mounted to the top wall of the root chamber for supporting a lower fluid conduit, a lower nozzle mounted on the lower fluid conduit proximate a bottom of the root chamber, and a valve assembly for selectively and independently regulating the flow of fluid through the upper nozzle and the lower nozzle.