A method for pumping seeds to an assembly line grow pods includes releasing seeds to a pipe in fluid communication with a pump, moving water from a water source to the pipe in fluid communication with the pump, combining the seeds released from the tank with the water from the water source in the pipe, and pumping the combination of the seeds released from the tank and the water from the water source to a grow pod line in fluid communication with the pump, and moving the seeds from the grow pod line to one or more carts of an assembly line grow pod.

A method for pumping seeds to an assembly line grow pods includes releasing seeds to a pipe in fluid communication with a pump, moving water from a water source to the pipe in fluid communication with the pump, combining the seeds released from the tank with the water from the water source in the pipe, and pumping the combination of the seeds released from the tank and the water from the water source to a grow pod line in fluid communication with the pump, and moving the seeds from the grow pod line to one or more carts of an assembly line grow pod.

The present invention may relate to Aeroponic Systems and their individual elements. More particularly to automated systems capable of monitoring and adjusting some if not all of the light, nutrient, water quality and environmental factors required for the propagation and sustained growth of all types of plants. It may also describe methods to support the plants during propagation from seeds and for growth and harvesting. It may describe various methodologies for reducing space requirements and for increasing plant density without detriment to the growth cycles.

The present invention provides a flower pot which may be easily opened to facilitate placing or removing of the potted plant therein. The flower pot has at least one of the sidewall divided into two sidewall portions, and an opposing sidewall is provided with a hinge arrangement to allow for separating the two sidewall portions from each other, such that a front of the flower pot is opened for convenient placing or removing of the potted plant inside therein as desired without damaging the plant. Further, a locking arrangement is provided to hold together the two sidewall portions after the transplantation operation has been performed.

A horticulture apparatus and method for planting, growing, and harvesting plants may include a platform having a width axis and a length axis, a gantry sized to straddle and move across at least one of the platform's width and length axes, and a controller. The gantry may comprise a frame, a motor mounted to the frame, a container bin operatively connected to the frame, and a modular tool operatively connected to the frame. The controller may engage the motor of the gantry to move the gantry across the platform, thereby providing the modular tool with access to different locations on the platform.

A conveyor system (4, 5) moves vertical poles (2) in an agricultural facility between a growing area (20) and a workstation (W). Each pole carries plant growing containers (3) at multiple levels (H1-H9). An irrigation reservoir (30) may be mounted atop each pole. Irrigation lines (31-33) from the reservoir may be individually metered (35) at each level to compensate for differing water pressure with height. Sensors (40) in the reservoir and at each level of the poles may provide a controller (36) with data input. The controller may impose different growing conditions in different areas of the facility, including vertically different grow areas (20A, 20B), and controls pole movements and locations selectively to provide a sequence of poles at the workstation ready to harvest on a demand schedule. The workstation may have multiple heights (W1, W2, W3) for tall poles that increase plant density per facility footprint.

A plant holder includes at least one cell which defines a plant position and which is configured to receive plant material during use. A clamp includes a clamping position in which plant material is to be clamped in the cell and an open position in which plant material is to be arranged in and/or removed from the clamp. The clamp is provided with at least one actuator which is configured to be engaged externally in order to open the clamp. A system includes such a plant holder. A method of processing a plant holder including a clamp, includes the steps of: opening the clamp; arranging plant material in the clamp and/or removing it therefrom; and closing the clamp.

An apparatus having an automatically adjustable pot seedling feed rate and a method therefor are provided. In some embodiments, the apparatus comprises a pot seedling scooper, a conveyance unit, a detection sensor, a controller, a seedling sorting unit, side panels, and brackets. The conveyance unit comprises a servomotor, a transmission shaft, a conveyor belt, a tension shaft, and a bearing. The seedling sorting unit comprises a seedling sorting rod, a reset spring, a guide post and a support seat.

A portable bale breaker and potting apparatus is provided. Soil bales or blocks may be loaded onto an inclined bed and conveyed to rotating breaker bars that break the soil apart into loose soil. The loose soil is conveyed by an auger into a chute which deposits the loose soil into pots on a conveyor belt positioned below the chute. Rotating brush heads downstream of the chute remove excess soil from each pot. The apparatus includes a soil management system for recycling loose overflow soil back to an upstream position on the bed.

A selective transplanter is provided for transplanting seedlings from a tray to seedling planting apparatus. The tray includes a plurality of cells for holding plugs of growing medium containing seedlings. The transplanter is arranged to eject plugs from the cells of the tray to a conveyor which conveys the plugs to the seedling planting apparatus. The transplanter is arranged to remove plugs that do not contain germinated seedlings from the conveyor at a removal position before they are transferred to the seedling planting apparatus. A seedling retention roller engages with plant material of the seedlings projecting from the plugs at the removal position before the plugs are transferred to the seedling planting apparatus, preventing removal of plugs containing seedlings with projecting plant material. The transplanter provides the advantage that the plugs containing seedlings can be planted in rows in a field without dud plugs being planted, leaving the rows substantially gap free.