A plant processing system includes a mobile cart with a support rail, a rack with a rack rail, and a hanger configured to support one or more plants therefrom. The hanger is hangable from either the support rail or the rack rail. The hanger includes a first end having a hook deigned to engage either the support rail or the rack rail. A second end of the hanger includes a tab having a magnet that engages either the support rail or the rack rail to limit movement of the second end of the hanger. A series of crossbars can be attached to the hanger at select locations along the length of the hanger. Each crossbar is configured to support plants or other items along the length of the hanger.

A plant processing system includes a mobile cart with a support rail, a rack with a rack rail, and a hanger configured to support one or more plants therefrom. The hanger is hangable from either the support rail or the rack rail. The hanger includes a first end having a hook deigned to engage either the support rail or the rack rail. A second end of the hanger includes a tab having a magnet that engages either the support rail or the rack rail to limit movement of the second end of the hanger. A series of crossbars can be attached to the hanger at select locations along the length of the hanger. Each crossbar is configured to support plants or other items along the length of the hanger.

A drying rack having a stainless steel rectangular tubed frame with two vertical frame members and at least three horizontal frame members. The horizontal frame members have a plurality of rails extending from the horizontal members. The each rail of the plurality of rails is each equally spaced and extends from opposites sides of each horizontal member. The rails are configured to hold cannabis plant matter after harvest. The rails may be angled slightly for helping to retain the cannabis plant matter on the rails during use. The drying rack is on casters for mobility and rotation.

A hang harvesting system for deployment in a cargo container includes an anchor bar, a column bar, and a hanging bar. The anchor bar includes a first end portion and second end portion configured to engage sidewalls of the cargo container. The column bar includes a top end portion and a bottom end portion, wherein the top end portion is configured to couple to the anchor bar. The hanging bar is coupled to the column bar.

A hang harvesting system for deployment in a cargo container includes an anchor bar, a column bar, and a hanging bar. The anchor bar includes a first end portion and second end portion configured to engage sidewalls of the cargo container. The column bar includes a top end portion and a bottom end portion, wherein the top end portion is configured to couple to the anchor bar. The hanging bar is coupled to the column bar.

A method of manufacturing a dryer for plant material, which converts a caged intermediate bulk container tote into a dryer by adding wires from which plant material may be hung to dry. Intermediate bulk containers (IBCs) are widely available and offer the benefits of stackability and easy transport; the method creates plant material dryers with the same advantages. Any number of wire segments may be attached to the cage of the IBC tote. Illustrative configurations may place wires into two rows: one row of wires across the top of the cage, and a second row roughly at mid-height of the cage. Wires may be for example stainless steel wires with a gauge between 24 gauge and 30 gauge.

A method of manufacturing a dryer for plant material, which converts a caged intermediate bulk container tote into a dryer by adding wires from which plant material may be hung to dry. Intermediate bulk containers (IBCs) are widely available and offer the benefits of stackability and easy transport; the method creates plant material dryers with the same advantages. Any number of wire segments may be attached to the cage of the IBC tote. Illustrative configurations may place wires into two rows: one row of wires across the top of the cage, and a second row roughly at mid-height of the cage. Wires may be for example stainless steel wires with a gauge between 24 gauge and 30 gauge.

A plant curing and drying hanger apparatus for use with harvested plant material which includes a primary frame, a plant support bar and one or more separators arranged to space from one another plant sections positioned on the support bar. The plant support bar is hingedly coupled to the primary frame. A latch releasably joins the plant support bar to one end of the primary frame so that an end of the plant support bar can be dropped away from the primary frame to enable the insertion and removal of plant sections into the spaces between adjacent separators to allow for effective plant drying and efficient loading and unloading of plant material without damaging the product.

This invention relates to a stand for supporting hay bales above the ground. The inventive hay stand The device is formed in the shape of an rectangular prism or cuboid from an inert plastic, closed-cell, polyurethane structural foam that will not allow water or air to move through it. The devices are constructed by pouring the structural foam material into forms that are constructed to yield the desired shape. The structural foam has two chemicals that are mixed and then poured into the form. The foam then heats and rises to take on the shape of the interior of the form. Once the foam is fully cured, the forms are removed, and the device is ready for use. Hay stands constructed in accordance with the present invention are useful for protecting hay bales from spoilage due to ground moisture.

A vegetation hanger includes a crossbar and an arm coupled to an end portion of the crossbar. The crossbar defines a plurality of serrations configured to prevent the vegetation from sliding on the crossbar. The arm includes a handle and defines a slot configured for hanging the vegetation on a horizontal support bar.