A system (100) for producing a plant (35), the system having an indoor environment, a plurality of plant holders (1) for growing and transporting a plant therein, a controller (105) for at least controlling temperature and humidity in the indoor environment. The plant holder has a semi-permeable foil (20) defining a non-planar boundary of an interior space and an exterior space, a reservoir (2), having an amount of liquid for feeding the plant. The reservoir (2) and the semi-permeable foil (20) are arranged to allow the plant to grow in the interior space. The semi-permeable foil (20) has permeation of water vapor.

A system (100) for producing a plant (35), the system having an indoor environment, a plurality of plant holders (1) for growing and transporting a plant therein, a controller (105) for at least controlling temperature and humidity in the indoor environment. The plant holder has a semi-permeable foil (20) defining a non-planar boundary of an interior space and an exterior space, a reservoir (2), having an amount of liquid for feeding the plant. The reservoir (2) and the semi-permeable foil (20) are arranged to allow the plant to grow in the interior space. The semi-permeable foil (20) has permeation of water vapor.

An assembly that provides an appearance of a potted plant and can be used for multiple purposes. The assembly includes an upper section mounted to a lower section. Each the upper section and the lower section having an inner volume. The upper section can be switched between an open state and a closed state. The upper section can be switched to the open state for gaining access to the inner volume of the lower section. An upstanding artificial plant extends from the inner volume of the upper section.

An assembly that provides an appearance of a potted plant and can be used for multiple purposes. The assembly includes an upper section mounted to a lower section. Each the upper section and the lower section having an inner volume. The upper section can be switched between an open state and a closed state. The upper section can be switched to the open state for gaining access to the inner volume of the lower section. An upstanding artificial plant extends from the inner volume of the upper section.

A modular vertical cultivation wall system includes at least two vertical posts, at least one planter shelf including a planter flange and a planter web, and a plurality of wall panels. Each of the at least two vertical posts may be anchored and may include a post web and at least one post flange coupled thereto. The at least one planter shelf may be coupled to one of a plurality of wall panels, and is horizontally disposed. The at least one planter shelf may extend between the at least two vertical posts. At least one of the plurality of wall panels may be disposed above and coupled to another one of the plurality of wall panels, and at least one of the planter flange and the planter web may be coupled to at least one of: the post web and the at least one post flange.

A quilted composite sheet containing seeds makes growing microgreens and other crops simple. Each sheet is a layered composite of multiple materials including seed, grow substrate and seed cover. A user can spread a seed quilt over the surface to be planted, water, wait, and harvest.

A vertical farming structure having vertical grow towers and associated conveyance mechanisms for moving the vertical grow towers through a controlled environment, while being exposed to controlled lighting, airflow, humidity and nutritional support. The present disclosure describes a reciprocating cam mechanism that provides a cost-efficient mechanism for conveying vertical grow towers in the controlled environment. The reciprocating cam mechanism can be arranged to increase the spacing of the grow towers as they are conveyed through the controlled environment to index the crops growing on the towers. The present disclosure also describes an irrigation system that provides aqueous nutrient solution to the grow towers.

A multi-level vertical farm comprises a lift apparatus configured to carry growth trays from a bottom to a top position adjacent to a conveyor. The conveyor is configured to transport trays downwardly to near the bottom position and normally is fully loaded with adjacent trays along the entire conveyor. A growth tray in the lowest, bottom position is discharged out of that position to an irrigation or harvesting station. The discharge of a tray from the bottom position causes preceding trays to move downward, thereby opening a space in the top position for another tray, which may be lifted there. A computer system may be connected to the apparatus and programmed to start a motor of the lift apparatus to move the growth trays. The apparatus enables simulating a day-night plant growth cycle, and using thermal convection to apply more warmth to higher positions, in a compact vertical arrangement.

Device for driving vertical units which are suspended from a guide rail for growing plants, wherein each unit comprises a first engagement element. Drive means cause the displacement members, each of which comprise a row of second engagement elements, to alternatively perform a first, outward movement and a second, inward movement. The first and second engagement elements are configured such that they engage with each other in such a way during this first movement that the units are displaced and are not displaced during the second movement. The second engagement elements are provided across the entire operating area of the one or more displacement members in such a way that the mutual distance increases. In this way, the units are guided through a growing space, with the mutual distance automatically being increased in order to give the plants more space as the growing process progresses.

A vertical farming system includes a storage structure having racks of storage shelves for housing plant-carrying containers. Mobile robots travel around the racks to transfer containers of plants to and from the storage shelves. Under direction of a central control system, one or more mobile robots may transport a container from a storage location to a workstation. Once there, care may be provided for the plant, including water and/or other nutrients, and data may be gathered on the plant. This may be done by an owner of the plant, or by an automated service robot positioned at the workstation. Data gathered on the plant, including for example photographs, may be sent by email or other communications schemes to an owner of the plant.