The present invention relates to a container in which one or more plants can be held. The invention relates in particular to a container in which plants and/or seeds are able to grow. The invention also relates to a method for growing plants. According to the invention, the container comprises a container base having a growth medium in which one or more plants can be grown, a container lid that is coupled to the container base, and a cutting member for cutting through the one or more plants. According to the invention, the cutting member can be actuated prior to or during an action of at least substantially breaking the coupling between the container lid and the container base.

A pot for containing a plant having a bottom peripheral edge adapted for insertion or installation into a garden bed. In one embodiment, the pot is a normal truncated conical shape and the lower peripheral edge is irregular so as to use that bottom edge to more securely position the pot within a hole in the ground. The irregularity of the lower peripheral edge can be a plurality of teeth that bite into the ground and position the pot in the hole when the user rotates the pot while forcing it downwardly toward the ground. The bottom edge is thus used to cause the pot to settle firmly within the hole dug in the ground. In another embodiment, the pot is empty and is installed in the garden to provide decoration, by positioning the pot against the garden bed, and then pushing the pot into place. The upper rim of the pot may be decorative and may be located above the level of the ground.

A potting system and method are provided in which a flexible pot side includes two sets of bottom panel apertures, each set receiving tabs from a bottom panel. The potting system is assembled by positioning mutually engaging panel mesh structures on the bottom panels while folding the flexible pot side so that a plurality of first lacing apertures aligns with a plurality of second lacing apertures, and then inserting a pull lace through the aligned apertures to mechanically interlock them. Additionally, the pot system may be easily disassembled by disengaging the pull lace from the lacing apertures which causes the pot side to unbend and allows the bottom panel tabs to disengage. The pot system may then be reassembled by reengaging the bottom panels, repositioning the lacing apertures and inserting the pull lace.

A plant pot with separable halves including a first container half having an upright first interior shell and an upright first exterior shell. A plurality of first aeration openings is disposed within the first interior shell. A second container half has an upright second interior shell, an upright second exterior shell, and a base unit having an upper surface, a lower surface, and a cavity disposed between the upper surface and the lower surface. A plurality of second aeration openings is disposed within the second interior shell. A plurality of dowell pins is disposed on each of a pair of second side portions of the second container half, and a plurality of slots is disposed on each of a pair of first side portions of the first container half. One of the plurality of dowell pins is selectively engageable within one of the plurality of slots.

A propagation tray for growing a plurality of plug plants in bounded transplantable growing media has two spaced apart aperture plates. The plug plants are held loosely in the apertures in a top plate while retained at the apertures in the bottom plate over air cells associated with and under the apertures in the bottom plate. The air cells provide a volume into which roots from the plug plant may grow, and the air cells have at least one port for drainage and/or ventilation and toward which roots are guided to be air pruned. The propagation tray maximizes air flow around the plug for air pruning of roots, while minimizing contact of the plug with the structures on the tray to reduce the formation of root defects.

A method and an environment simulating system are disclosed which includes a database comprising a library of climate recipes characterizing growing environments for different plants and trees; a micro-controller electrically coupled to receive specific climate recipes when orders for different plants and trees are received from customers; an environment actuating system, electrically coupled to the micro-controller, operable to receive the specific climate recipes from the database; a sub-controller electrically coupled to receive the specific climate recipes from the micro-controller to drive the environment actuating system to generate specific growing environments in a growing enclosure in accordance with the specific orders; an array of web-based sensors, coupled to the growing enclosure and the micro-controller, operable to sense growing conditions of the specific growing environments and to feedback the growing conditions to the micro-controller; and a network server adapted to couple the Database, the micro-controller, the sub-controller, the array of web-based sensors, the growing enclosure, and the customers to a network.

By providing a high-density grow rack system, mechanized through the use of tracks and trays for conveyance, non-productive space in vertical farms is minimized, and optimization for space in vertical farms is achieved. Advantages of the system include: flexibility and integration, allowing adaptability to various vertical farming layouts and seamless transition between growing and processing phases; modular processing units for assembly-line-style crop processing, enhancing operational efficiency; interconnected crop trays on tracks, eliminating non-productive gaps and significantly improving space utilization; adjustable layer heights catering to different crop growth stages; and independent climate control with insulating boards between units, reducing energy consumption and waste. Overall, this system significantly advances vertical farming efficiency and productivity.

An agricultural container that is easily assembled and disassembled through the use of comparatively few panels and a locking system that enables the fasteners to be removed or released from outside of the agricultural container that is filled with agricultural materials.

A seedling nursery member for grafting according to an aspect of the present disclosure includes at least one seedling nursery unit. At least one seedling nursery unit includes a stem storage section configured to store a stem of a plant and a stem holder configured to hold the stem of the plant. At least a portion of the stem storage section of the at least one seedling nursery unit is configured to be openable so as to allow communication between an inside of the stem storage section and an outside of the at least one seedling nursery unit in a direction different from a growth direction of the plant.

A zippered transplant grow pot used for transplanting consists of a lateral wall, at least two slits, a base section, an opening, at least two zippers, and at least two flaps. The lateral wall and the base section construct the planting pot body that is used to hold the plant and soil surrounding the roots of the plant. The opening is used to place the plant within the area designated by the lateral wall and the base section. When the transplanting process is to be executed, the user widens the slit with the use of the zipper. By doing so, the hold on the root ball is removed so that the plant and soil surrounding the roots can be removed without damaging the roots of the plant. The flap is used to prevent the roots from growing into the zipper.