The horticulture classifier apparatus is intended to provide users with a sifting and sorting device that can separate multiple sizes of plant material. To accomplish this, the device includes specific surface contours and multi-purpose handling structures to be described in relation to a sieve grid. Further, the apparatus includes critical functional elements relating to the separation of whole marijuana buds, specifically, that are presented as novelties. To that end, a sifting screen is included, which may be detachably mounted onto the main classifying grid. In addition, the apparatus includes means for mounting the device on multiple kinds of totes and bins, to sequentially separate the various tiers of consumable cannabis. This arrangement may also include attachment to an external collection bin or bag, depending on the individual application of the apparatus by a user.

The horticulture classifier apparatus is intended to provide users with a sifting and sorting device that can separate multiple sizes of plant material. To accomplish this, the device includes specific surface contours and multi-purpose handling structures to be described in relation to a sieve grid. Further, the apparatus includes critical functional elements relating to the separation of whole marijuana buds, specifically, that are presented as novelties. To that end, a sifting screen is included, which may be detachably mounted onto the main classifying grid. In addition, the apparatus includes means for mounting the device on multiple kinds of totes and bins, to sequentially separate the various tiers of consumable cannabis. This arrangement may also include attachment to an external collection bin or bag, depending on the individual application of the apparatus by a user.

A bale wrapping apparatus configurable between a single bale wrapping configuration and an inline bale wrapping configuration. The bale wrapping apparatus comprises a bale wrapping support assembly including support rollers spaced apart from one another to drive a bale in rotation along a rotation axis, when the bale wrapping apparatus is configured in the single bale wrapping configuration; and a longitudinal bale support configurable between an extended configuration where it extends above the support rollers and a retracted configuration where it extends away from the support rollers. The longitudinal bale support is positioned in the retracted configuration when the bale wrapping apparatus is configured in the single bale wrapping configuration and is configured in the extended configuration when the bale wrapping apparatus is configured in the inline bale wrapping configuration.

Systems and methods for providing power to and support bidirectional communications between one or more devices by injecting an alternating current into a primary conductive loop. The devices inductively couple to the loop to receive power, receive data, and transmit data. The coupling may occur at any position along the loop by passing one wire of the primary loop through the physical opening in a magnetic circuit.

A method and system of a pneumatic conveying system for moving separated grain and small plant material to an onboard storage tank or out of the combine harvester. The pneumatic conveying system having a gateway for introducing the material into an air flow channel, and with a diverter valve or an airlock directing separated grain and small plant material to the tank or outside of the harvester.

A grain storage arrangement, the arrangement including: a generally box-shaped grain storage receptacle enclosing a grain receiving space; the storage receptacle including a base, a top, two opposite sidewalls, a first end wall, and a second end wall opposite the first end wall; a receptacle support, wherein the receptacle support supports the receptacle such that the base slopes downwardly from the first end wall to the second end wall; a grain inlet provided on or proximate to the first end wall for adding grain to the receptacle; and a grain outlet provided on or proximate to the second end wall for removing grain from the receptacle.

A robot comprises an auger-based drive system, a memory, and a processor coupled with the memory and configured to control movement of the robot, via the auger-based drive system, relative to grain in a grain bin. The processor is further configured to direct traversal, by the robot, of a landing zone portion of a surface of a pile of the grain during load-in of the grain to disperse broken grain and foreign material away from the landing zone portion. The landing zone portion is located in a center of the grain bin where the grain lands as it is augured into the grain bin during load-in. The dispersal is affected in part by rotation of augers of the auger-based drive system.

A self-trailering grain bagging machine on four wheels for storing grains and seeds inside a silo bag. The machine has a grain receiving hopper within which a compression auger encased in an auger tube. The auger is driven by mechanical means powered from a tractor's power take-off. The machine is mounted on a frame fitted with paired crossmembers at its left and right hand sides. Each crossmember is mounted upon a pair of wheel supports. The wheel supports are capable of gyrating relative to the crossmembers. The wheel supports carry one wheel that wheel rotates along with said wheel support. A work tongue is attached to the front side of the frame. The work tongue pivots relative to a horizontal axis. A transport tongue is attached to one crossmember wherein the wheels remain aligned in the direction intended for work and when turning said wheel supports by 90 degrees.

A self-trailering grain bagging machine on four wheels for storing grains and seeds inside a silo bag. The machine has a grain receiving hopper within which a compression auger encased in an auger tube. The auger is driven by mechanical means powered from a tractor's power take-off. The machine is mounted on a frame fitted with paired crossmembers at its left and right hand sides. Each crossmember is mounted upon a pair of wheel supports. The wheel supports are capable of gyrating relative to the crossmembers. The wheel supports carry one wheel that wheel rotates along with said wheel support. A work tongue is attached to the front side of the frame. The work tongue pivots relative to a horizontal axis. A transport tongue is attached to one crossmember wherein the wheels remain aligned in the direction intended for work and when turning said wheel supports by 90 degrees.

A bagging assembly for bagging bales of fibrous material is disclosed. The bagging assembly incorporates a chute defining a channel for receiving a bale, which is pushed there between by a stuffing assembly. Aspects of the bagging assembly include raising a bale using a bale elevator to a higher elevation position so that the bale could be stuffed by the stuffing assembly and using a bag retrieving mechanism for retrieving a bag from a bag location for use in bagging the bale.