A semi-automated crop production system featuring a growing module with grids of cells for growing plants and a lighting and airflow fixture positioned above each cell. The lighting and airflow fixtures feature a fan disposed in a housing, a light emitting diode (LED) assembly board comprising LEDs
A semi-automated crop production system featuring a growing module with grids of cells for growing plants and a lighting and airflow fixture positioned above each cell. The lighting and airflow fixtures feature a fan disposed in a housing, a light emitting diode (LED) assembly board comprising LEDs disposed below the fan; a light diffuser disposed below the LED assembly board, and an adjustable airflow nozzle extending downwardly from the fan and protruding through the LED assembly board and the light diffuser. The adjustable airflow nozzle provides directed airflow downwardly toward a bottom area of the housing. The growing module and lighting and airflow fixtures are housed in a shell. The growing module may be slidably attached to the interior wall of the shell via mounting components.
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1. A semi-automated crop production system (100) comprising: (a) a growing module (200) comprising a growing module container (210), a grid (220) disposed inside the growing module container (210), the grid (220) comprises a plurality of cells (230) adapted to hold a plant; and(b) a plurality of lig
1. A semi-automated crop production system (100) comprising: (a) a growing module (200) comprising a growing module container (210), a grid (220) disposed inside the growing module container (210), the grid (220) comprises a plurality of cells (230) adapted to hold a plant; and(b) a plurality of lighting and airflow fixtures (300) disposed inside the growing module container (210) and positioned above the grid (220), each lighting and airflow fixture (300) comprises: a housing (310); a fan (320) disposed in the housing (310) and positioned to blow air downwardly; a light emitting diode (LED) assembly board (330) comprising LEDs (332) disposed below the fan (320) in the housing (310); a light diffuser (340) disposed below the LED assembly board (330), the light diffuser (340) comprises airflow orifices (342); and an adjustable airflow nozzle (350) extending downwardly from the fan (320) and protruding through the LED assembly board (330) and the light diffuser (340), the adjustable airflow nozzle (350) provides directed air flow downwardly toward a bottom area of the housing (310), wherein the plurality of lighting and airflow fixtures (300) are arranged such that each lighting and airflow fixture (300) is positioned above a cell (230) and air flow from the fan (320) and light from the LEDs (332) of the lighting and airflow fixture (30) is directed downwardly towards its respective cell (230); wherein the growing module slidably engages a mounting component (140) disposed in a wall of an interior shell (110). 2. The semi-automated crop production system (100) of claim 1, wherein the mounting component (140) is disposed in a side wall (112) of the interior shell (110). 3. The semi-automated crop production system (100) of claim 1, wherein a mounting component flange (142) is disposed on the growing module container (210), the mounting component flange (142) slidably engages the mounting component (140) of the shell (110). 4. The semi-automated crop production system (100) of claim 1, wherein the interior shell (110) is slidably disposed in an exterior shell (120). 5. The semi-automated crop production system (100) of claim 1 further comprising a boom system (500), the boom system (500) comprises an X/Y track (502) along an X/Y direction and a Z track (501) along a Z direction, and a moveable boom (503) that can move along the X/Y direction (502) and the Z direction (501), the boom system (500) provides a horticultural function. 6. The semi-automated crop production system (100) of claim 5, wherein the horticultural function comprises irrigation, fertilization, air ducting, vacuum creation, lighting, or contacting. 7. The semi-automated crop production system (100) of claim 5, wherein the boom system (500) further comprises a data acquisition system (504) comprising sensors and cameras, the sensors and cameras are mounted on the moveable boom (503) or on the X/Y track (502) or Z track (501). 8. A semi-automated crop production system (100) comprising: (a) a growing module (200) comprising a growing module container (210), a grid (220) disposed inside the growing module container (210), the grid (220) comprises a plurality of cells (230) adapted to hold a plant;(b) an internal irrigation system (400) for continuous recirculation of water through the growing module (200), the internal irrigation system (400) connects to an inlet connection (410) and an outlet connection (420) disposed in the growing module container (210); and(c) a plurality of lighting and airflow fixtures (300) disposed inside the growing module container (210) and positioned above the grid (220), each lighting and airflow fixture (300) comprises: a housing (310); a fan (320) disposed in the housing (310) and positioned to blow air downwardly; a light emitting diode (LED) assembly board (330) comprising LEDs (332) disposed below the fan (320) in the housing (310); a light diffuser (340) disposed below the LED assembly board (330), the light diffuser (340) comprises airflow orifices (342); and an adjustable airflow nozzle (350) extending downwardly from the fan (320) and protruding through the LED assembly board (330) and the light diffuser (340), the adjustable airflow nozzle (350) provides directed air flow downwardly toward a bottom area of the housing (310), wherein the plurality of lighting and airflow fixtures (300) are arranged such that each lighting and airflow fixture (300) is positioned above a cell (230) and air flow from the fan (320) and light from the LEDs (332) of the lighting and airflow fixture (30) is directed downwardly towards its respective cell (230); wherein the growing module (200), irrigation system (400), and lighting and airflow fixtures (300) are housed in a shell (110). 9. The semi-automated crop production system (100) of claim 8 further comprising a sterilizing system (450) for sterilizing water of the internal irrigation system (400). 10. The semi-automated crop production system (100) of claim 9, wherein the sterilizing system (450) comprises a sterilizing lamp, an anti-microbial light, a chemical system, an ultraviolet light system, or an ozone-generating system. 11. The semi-automated crop production system (100) of claim 8 further comprising a boom system (500), the boom system (500) comprises an X/Y track (502) along an X/Y direction and a Z track (501) along a Z direction, and a moveable boom (503) that can move along the X/Y direction (502) and the Z direction (501), the boom system (500) provides a horticultural function. 12. The semi-automated crop production system (100) of claim 11, wherein the horticultural function comprises irrigation, fertilization, air ducting, vacuum creation, lighting, or contacting. 13. The semi-automated crop production system (100) of claim 11, wherein the boom system (500) further comprises a data acquisition system (504) comprising sensors and cameras, the sensors and cameras are mounted on the moveable boom (503) or on the X/Y track (502) or Z track (501).
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