The apparatus disclosed allows a user to easily garden in a reduced area or confined space with limiting yard or space to garden. The apparatus comprises a collapsible and portable planter that allows for growth of plants upwards and downwards, the planter being collapsible for shipping and transport from one location to another, and further providing a hardware component to elevate oneself or items from a ground surface. The planter is placed upon a support frame, the support frame being collapsible into a relatively flat or two-dimensional structure easy to carry. The planter can be removably placed upon the support frame. Further, the planter and support frame together as the apparatus can be picked up and moved as desired by a user. Embodiments of the apparatus are simply designed to allow a user easy set-up, assembly, and use.

A modular building system or storage system can include a number of stacks of container, each stack being positioned within a frame structure having uprights and a horizontal grid disposed above the stacks. The grid can include substantially perpendicular rails on which load handling devices can run. Containers having functions associated with a number of residential or commercial uses are moved in to and out of the stacks by the robotic handling devices running on the grid. The containers disposed in the stacks are selected by function on demand by a user, the building being reconfigurable to take into account required uses.

A storage system is disclosed where goods can be stored in containers and the containers are stored in stacks. Above the stacks runs a grid network of rails (e.g., tracks) on which load handling devices can run. To take containers from the stacks and deposit then at alternative locations in the stacks or deposit then at stations where goods may be picked. The framework may be provided with one or more of the following exemplary services: power, power control, heating, lighting, cooling, sensors, and data logging devices. The provision of these services within the framework rather than across the system as a whole, can allow for flexibility in storage whilst reducing cost and inefficiency.

A system for growing plants, the system may include a substrate having one or more weakened areas or openings: one or more grow portions coupled to the substrate and situated at the one or more weakened areas or openings and having at least one seed or plant; and/or a fluid distribution portion coupled to the substrate and configured to provide fluid to the one or more grow portions. The system may further include a method of operation including one or more acts of: obtaining a weather forecast for a future time period; determining whether rain is expected during the future time period; and preventing, terminating, or restricting an irrigation cycle when it is determined that rain is expected during the fare time period. The restricting may restrict a flow of liquid during the irrigation cycle or shorten the irrigation interval.

A storage system is described where goods are stored in containers and the containers are stored in stacks. Above the stacks runs a grid network of tracks on which load handling devices run. The load handling devices take containers from the stacks and deposit then at alternative locations in the stacks or deposit then at stations where goods may be picked out. The framework may be provided with one or more of the following services: power, power control, heating, lighting, cooling, sensing, and data logging. The provision of these services within the framework rather than across the system as a whole, allows for flexibility in storage whilst reducing cost and inefficiency.

Assembly line grow pods, watering stations, and seeder components that include robotic applicators are disclosed. An assembly line grow pod includes a tray held by a cart supported on a track. The tray includes a plurality of sections. The assembly line grow pod further includes a watering component providing fluid and a robotic applicator including an articulating robot arm having one or more outlets that selectively dispense the fluid therefrom. The articulating robot arm is positioned to align the one or more outlets with a corresponding one or more of the plurality of sections such that the fluid is dispensable into each of the plurality of sections independently.

A modular building system or storage system is disclosed with a number of stacks of containers as shown in FIG. 2, the stacks being positioned within a frame structure having uprights and a horizontal grid disposed above the stacks, the grid having substantially perpendicular rails on which load handling devices can run. Containers having functions associated with a number of residential or commercial uses are moved in to and out of the stacks by the robotic handling devices running on the grid. The containers disposed in the stacks are selected by function on demand by a user. In this way the building is reconfigurable to take in to account required uses.

A new or improved modular plant display and storage system that reduces the risks of plants tipping over and of spillage of plant and soil (or other growing medium) out the top of the pot, as well as the risk of water (and soil/growing medium) seepage and mess from the bottom of the pot. The invention can house potted plants without the need to re-pot or transplant the plants into growing medium that sits within the modular structure.

The invention relates to a planter forming part of a hydroponic system. The planter includes a longitudinal body defining at least two longitudinally extending liquid channels and at least two plant holders defined in the body, the plant holders spaced on the outer circumference of the longitudinal body, each one of the at least two plant holders in fluid flow communication with one of the at least two longitudinally extending liquid channels.

An automated plant training system and related methods are designed to train medium to tall plants to grow in a height restricted space by adjusting the plant's direction of growth through the use of phototropism. The device can physically control the plant's main stem, branches and foliage from excessive vertical growth.