Abstract: A drawer-type plant cultivation apparatus according to an embodiment of the present invention includes: a body unit configured such that a hexahedral frame is erected on the ground and a plurality of support bar pairs is symmetrically installed on inner surfaces of both sides of the hexahedral frame to be vertically spaced apart from each other; plant units each configured to provide at least one plant box that is provided such that both sides of the top end thereof are inserted into the body unit, so that the plant box is seated on a corresponding one of the support bar pairs; and piping units each disposed inside the plant box, and each comprising a piping part connected to the rear of the plant box to supply a nutrient solution and supply oxygen and one or more corrugated pipe parts connected to the bent points of the piping part.

Abstract: A modular piping-type plant cultivation apparatus includes: a body unit configured such that a hexahedral frame is erected on the ground in a vertical direction; plant units vertically spaced apart from each other in the inside of the body unit, and each configured to provide at least one plant box that is configured such that a soil is contained therein and an air circulation space is formed in the lower end thereof; nutrient solution modules installed in the respective plant boxes, each provided such that external irrigation pipes and underground irrigation pipes are connected to each other, and configured to supply a nutrient solution; oxygen modules installed in the respective plant boxes, disposed inside the soil, and connected and disposed in a plurality of columns under the underground irrigation pipes; and drainage modules disposed in the respective air circulation spaces, and configured to collect and discharge a nutrient solution.

Abstract: According to an embodiment of the present invention, there is provided a plant cultivation device, including: a body part configured such that a growth space in which a soil and plants are accommodated and to which a nutrient solution is supplied and an auxiliary space which is disposed under the growth space, into which air is introduced and through which a nutrient solution supplied to the soil is discharged are formed therein; a fertilization part disposed inside the body part and configured to supply a nutrient solution to the soil; and a separation part disposed between the growth space and the auxiliary space, configured to prevent the inflow of the soil into the auxiliary space, and provided with a plurality of openings having a smaller diameter; wherein the air introduced into the auxiliary space is introduced into the soil through the openings and promotes the growth of the plants.