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. Each container may be provided with connectors having a push fit male connector located at a top edge of the container and a female connector at a bottom edge of the container. Adjacent containers in a stack can be linked by routing means, which form moldings on each container. The connectors can also have spring-loaded contacts. The provision of these services within individual containers rather than across the system as a whole, allows for flexibility in storage whilst reducing cost and inefficiency.

Top furling automated retractable greenhouse cover is a retractable cover for a greenhouse that is mounted on top of the greenhouse. Top furling automated retractable greenhouse cover comprises: a spine clamp, a left furling cover assembly, a right furling cover assembly, a hinge pin assembly, and an electrical control box. Left and right furling assemblies each comprise a curtain or cover, a furling rod, a furling motor, and a support arm. Electrical control box sends electronic signals to cause left and right covers or curtains to furl above the greenhouse when retracted and to unfurl down to the ground when extended to cover the greenhouse. The top-mounted design allows efficient use of gravity to apply tension to the furled rolls.

Top furling automated retractable greenhouse cover is a retractable cover for a greenhouse that is mounted on top of the greenhouse. Top furling automated retractable greenhouse cover comprises: a spine clamp, a left furling cover assembly, a right furling cover assembly, a hinge pin assembly, and an electrical control box. Left and right furling assemblies each comprise a curtain or cover, a furling rod, a furling motor, and a support arm. Electrical control box sends electronic signals to cause left and right covers or curtains to furl above the greenhouse when retracted and to unfurl down to the ground when extended to cover the greenhouse. The top-mounted design allows efficient use of gravity to apply tension to the furled rolls.

A storage system is described where goods are stored in containers (10) and the containers (10) are stored in stacks. Above the stacks runs a grid network of tracks on which load handling devices run. The containers (10) may be provided with one or more of the following services: power, power control, heating, lighting, cooling, sensing means, and data logging means. The provision of these services within individual containers rather than across the system as a whole, allows for flexibility in storage whilst reducing cost and inefficiency.

A tent configuration having a base unit, a plurality of wall panels removably attached to the base unit and a roof panel removably attached to the base unit. The wall panels and roof panel include a layer of insulation.

A horticultural plant growing assembly includes a pair of casings, each with a bottom and a side wall. Each side wall includes an upper edge configured to engage one another to define a cavity between the casings. The plant growing assembly further includes a light system, and a plurality of frame members that are connectable together to form a frame, with the light system being attachable to the frame. The plant growing assembly is configurable into a packaged configuration and an assembled configuration. In the packaged configuration, the frame members and the light system are contained within the cavity, and in the assembled configuration the frame members are connected together to form the frame with the light system attached to the frame. One of the casings includes a shelf adapted to support a plant with the light system disposed above the shelf.

A horticultural plant growing assembly includes a pair of casings, each with a bottom and a side wall. Each side wall includes an upper edge configured to engage one another to define a cavity between the casings. The plant growing assembly further includes a light system, and a plurality of frame members that are connectable together to form a frame, with the light system being attachable to the frame. The plant growing assembly is configurable into a packaged configuration and an assembled configuration. In the packaged configuration, the frame members and the light system are contained within the cavity, and in the assembled configuration the frame members are connected together to form the frame with the light system attached to the frame. One of the casings includes a shelf adapted to support a plant with the light system disposed above the shelf.

A six device-in-one robot-assembled arthritic-assisting noise-canceling friction-reducing dog-run-adaptable anti-wobbling gazebo which includes an adjustable canopy, foldable trusses and posts, and robotically formed connectors which connect the trusses and include a rivet tail fare noise canceling connector system, a robot assembled heat expandable, cold contractible interlocking anti-wobbling spiral saw screw system, a cone shielding intersector system, and post centering, tick preventing water discharging sleeve system.

A six device-in-one robot-assembled arthritic-assisting noise-canceling friction-reducing dog-run-adaptable anti-wobbling gazebo which includes an adjustable canopy, foldable trusses and posts, and robotically formed connectors which connect the trusses and include a rivet tail fare noise canceling connector system, a robot assembled heat expandable, cold contractible interlocking anti-wobbling spiral saw screw system, a cone shielding intersector system, and post centering, tick preventing water discharging sleeve system.

Two embodiments of a roll-up door system, based on deployable shell designs, are disclosed. Each embodiment consists of: an axle providing continuity to the embodiment, a door panel assembly, two mounting and support assemblies, and two door alignment and support tracks. Each embodiment has the following attributes: large lateral load strength to weight ratio, good natural heat flow insulation, weather tightness and, with proper jamb seals, differential pressure boundary capability.