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. A method of partitioning the storage system prevents the spread of fire or prevent damage caused by sprinkler activation.

A vertical garden planting panel includes single level and single hole. There are a upper hole (G) and a lower hole (E) connecting each other with soil. The upper hole (G) provides bigger than the lower hole (E), which can form a space for planting. Two side holes connect to a male drainage pipe (M) of a water box. A spur (J) at the lower end connects with the vertical garden planting panel strongly. A water retarding basin (R) uses for water collection and delays the speed of water flowing. There are also including a single level double holes vertical garden planting panel, a multiple levels single hole vertical garden planting panel, a multiple levels double holes vertical garden planting panel, a screen box and a water box. These vertical garden planting panels make planting easier and cost lower.

A system and method for handling shipping containers is described. The container handling system comprises a crane, the crane comprising crane load handling devices. The container handling system further comprises conveyance means, the conveyance means further comprising transversal load handling devices. The system further comprises storage and sortation means for storing the containers in a series of stacks disposed beneath a grid, the grid comprising a series of load handling devices operable thereon. The crane load handling device removes a container from a ship, transports it to transversal load handling means operable on a conveyor. The container is moved on the conveyor to a transfer point where it is collected by a robotic load handling device for transport to the storage and sortation area.

An interlocking tongue and groove vegetation planting assembly provides a self-supporting arrangement of pentagon-shaped plant containers and triangle-shaped plant containers that are alternatively stacked, and detachably fitted together with support blocks having a central tongue on one end and a pair of legs on an opposite end that fit together in a tongue-and-groove relationship through the support sleeve. Both the pentagon-shaped and triangle-shaped plant containers include a plant chamber, and an adjacent support sleeve. The plant chamber has multiple sidewalls sloped at an angle. The plant chamber also has a floor wall that forms drainage holes near the junction of the plant chamber and the support sleeve sidewalls. The pentagon-shaped plant container is half the width and length of the triangle-shaped plant container to allow sunlight to reach lower stacked triangle-shaped plant chambers. The tongue-and-groove stacking arrangement creates multiple points of contact throughout each sidewall for equal weight distribution.

An exemplary robotic parking device of the present disclosure includes a number of stacks of containers. The stacks being positioned within a frame structure including uprights and a horizontal grid disposed above the stacks. The grid having substantially perpendicular rails on which load handling devices can run. Cars or vehicles are positioned in containers and are moved into and out of the stacks by the robotic handling devices running on the grid. The cars are put into the grid at entry points that may be positioned at points under the stacks.

An indoor gardening appliance includes a liner positioned within a cabinet that defines a front display opening and an enclosed back portion. A grow module is rotatably mounted within the liner and include a central hub and a plurality of partitions defining a plurality of grow chambers. The grow module is selectively rotated to index the plurality of grow chambers between a sealed position between the grow module and the enclosed back portion of the liner and a display position aligned with the front display opening. An environmental control system regulates a temperature within the chamber when the chamber is in the sealed position.

A hydroponic tower cleaning and debris removal system is provided that is configured to automatically clean and remove plant and material debris from within a hinged, hydroponic tower as well as the plant containers contained within such a hydroponic tower. The hydroponic tower cleaning system utilizes a drive system to force the tower through the apparatus; an alignment system to ensure that the tower remains in proper alignment throughout the cleaning process; a brush system that initiates separation of plant debris from the tower/plant containers and ensures that the plant roots are torn apart; a plunger system to eject plant debris from within the plant containers; an air delivery system to blow away the debris; and rollers to maintain tower face alignment during the cleaning process.

The grow fence garden planter and bird and small animal feeder system for planting vegetation or bird and small animal feeder in limited space by stacking in standard vertical posts and horizontal rail is disclosed. The vertical posts provide structural support to the fence and horizontal rail provide base for growing vegetation. The vertical post can be provided with metallic support for fixing on hard floor. The vegetation can be planted directly in vegetation holes in horizontal rail or can be planted in the vegetation pots. If horizontal rails of grow fence are not being used either as bird and small animal feeder or growing vegetation, the faces of the horizontal rails with holes turned in downwards direction. A feeding platform and bird bath can be also installed in the same way as vegetation pots. A lighting arrangement is provided to illuminate the system in night.

A closed farm system for efficient plant production is provided. The closed farm system may have an air flow control system operable to direct air flow past plants growing within the system. The air flow control system may be operable to control heating and cooling of lighting panels and air flow ductwork within the closed farm system. The closed farm system may also have a plurality of LED lights mounted on one or more sheets supported by a frame assembly.

The described technology relates to a water culture block, which can be stacked in multiple stages along a wall surface, and a water culture device having the same. The water culture block can include a block body including side plates each having an opening, and a bottom plate connected to the side plates to form a receiving space, and at least one overflow tube having a hollow portion and configured to pass through the bottom plate to communicate an inside of the block body with an outside thereof. The water culture block can also include a water tray body formed at an upper portion of the block body and having a through hole for providing a fluid to the receiving space, and a pipe in communication with the through hole and coupled to the water tray body to support the water tray body on the bottom plate.