A cannabis growth support apparatus is provided. A cannabis growth support apparatus, for controlling one or more climate systems and monitoring growth of one or more cannabis plants coupled to one or more grow tents, comprising an enclosure housing said one or more climate systems coupled to a power source and a computing device. The computing device having a processor coupled to a computer memory and non-transitory computer readable media and a controller configured to power and regulate the one or more climate systems and a database, coupled to the computing device, for storing climate data from the one or more climate systems. The one or more climate systems is selected from the group consisting of a carbon dioxide enrichment and ventilation system, a humidifier, a dehumidifier, a heater and an air conditioning unit.

A cannabis growth support apparatus is provided. A cannabis growth support apparatus, for controlling one or more climate systems and monitoring growth of one or more cannabis plants coupled to one or more grow tents, comprising an enclosure housing said one or more climate systems coupled to a power source and a computing device. The computing device having a processor coupled to a computer memory and non-transitory computer readable media and a controller configured to power and regulate the one or more climate systems and a database, coupled to the computing device, for storing climate data from the one or more climate systems. The one or more climate systems is selected from the group consisting of a carbon dioxide enrichment and ventilation system, a humidifier, a dehumidifier, a heater and an air conditioning unit.

The present invention provides an intelligent cultivating system, which is used for monitoring and identifying a current cultivating status of a cultivating creature, and includes a processing center, a remote monitoring system and a harvesting system. The processing center is used for providing a cultivating regulation and controlling process for monitoring and identifying a current cultivating status. The remote monitoring system is used for regulating and controlling an automatic cultivating parameter of the cultivating regulation and controlling process. The harvesting system is used for preparing a dispatching process to the cultivating creatures, and used for collecting the automatic cultivating parameter of the cultivating regulation and controlling process.

The present invention provides an intelligent cultivating system, which is used for monitoring and identifying a current cultivating status of a cultivating creature, and includes a processing center, a remote monitoring system and a harvesting system. The processing center is used for providing a cultivating regulation and controlling process for monitoring and identifying a current cultivating status. The remote monitoring system is used for regulating and controlling an automatic cultivating parameter of the cultivating regulation and controlling process. The harvesting system is used for preparing a dispatching process to the cultivating creatures, and used for collecting the automatic cultivating parameter of the cultivating regulation and controlling process.

A growing system is described where plants are grown 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 them at alternative locations in the stacks or deposit them at stations where goods may be picked out. The containers may be provided with one or more of the following services: power, power control, heating, lighting, cooling, sensing means, data logging means, growing means, water and nutrients.

A growing system is described where plants are grown 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 them at alternative locations in the stacks or deposit them at stations where goods may be picked out. The containers may be provided with one or more of the following services: power, power control, heating, lighting, cooling, sensing means, data logging means, growing means, water and nutrients.

A greenhouse for isolating one or more grow spaces containing a plant or plants from outside elements includes a frame structure that seats a plurality of smart glass panels that are adjustable relative to a state of translucence from transparency to complete opacity via an operable control on a control panel or by an automated process routine, the nature of the adjustment based on sensor input processed against static data resident on the control panel.

An air flow system for a horticulture application is configured to facilitate simplified, reconfigurable air flow. Via use of adaptable and reconfigurable inlet ports, outlet ports, and a number and/or configuration of ventilation socks, the air flow system may be customizable to each respective application and/or produce increased plant density and/or health in horticultural applications.

An air flow system for a horticulture application is configured to facilitate simplified, reconfigurable air flow. Via use of adaptable and reconfigurable inlet ports, outlet ports, and a number and/or configuration of ventilation socks, the air flow system may be customizable to each respective application and/or produce increased plant density and/or health in horticultural applications.

A plant grower includes a base, an upper cover having a surface parallel to an upper surface of the base, the upper cover being disposed above the base so as to be spaced apart from the upper surface of the base, a plurality of growing panels disposed along the circumference of the upper surface of the base, the plurality of growing panels being rotatably disposed at the base and the upper cover, and a lighting bar extending vertically upwards from the center of the upper surface of the base to the upper cover, the lighting bar emitting light in a direction in which the plurality of growing panels is disposed, and a plurality of growing holders, into each of which a plant is inserted, disposed at one surface of each of the plurality of growing panels.