A compactor includes a frame supporting a first roller assembly and a second roller assembly. At least one of the first roller assembly and the second roller assembly is moveable relative to the frame in a motion that includes an upward vertical component and a downward vertical component. An actuator is coupled to at least one of the first and second roller assemblies and is operable to repeatedly move at least one of the roller assemblies relative to the frame in both the upward vertical component and the downward vertical component to oscillate the roller assemblies relative to each other.

A container having a compactor and bin for waste is disclosed permitting on-premises and remote monitoring of the system and collection is disclosed. The system can also detect non-complaint materials placed therein and act thereon. Methods are further disclosed for inventorying identification tags for tracking packages, merchandise and tags disposed of.

Disclosed are embodiments of a system and method for baling recyclable materials and managing the baling of recyclable materials. The apparatus for baling includes a finger baler for continuous compressing and baling recyclable materials, a scale, label printer, and a processor. Certain embodiments further comprise at least one digital camera, RFID dispenser, and internet connection that allows the processor to transmit collected data to a remote database for further analysis. The disclosed method for baling recyclable materials comprising the steps of continuously adding and compressing materials; forming a completed bale; weighing the bale automatically using a digital scale operably connected to the processor; recording the bale weight automatically; and printing a label. Additionally, the method may comprise inputting information and/or automatically recording data, and/or automatically transmitting the data associated with a bale to a remote database.

Systems, methods, and apparatuses for controlling electrically-powered trash receptacles and monitoring fullness levels. The system can include a storage enclosure and a bin contained inside the storage enclosure, the bin configured to receive and store items deposited in the storage enclosure, wherein an inside portion of the bin is at least partially covered by a bag placed inside the bin to hold the items deposited in the storage enclosure. The system can also include a sensor configured to sense a content fullness state of the bin and a processor configured to control operations performed by the sensor. In addition, the system can include a sleeve configured to be installed over an inside portion of the bin and the bag, the sleeve at least partially restricting a movement of the bag.

A rectangular baler including a bale chamber having a plurality of walls including a movable wall section, an actuator for exerting a pressure on the movable wall section, a plunger for compressing crop material, and a control system configured to control the plunger to perform cyclic plunger strokes such that in each stroke the plunger force (F) exerted by the plunger on the crop material increases to reach a maximum plunger force (Fmax) to compress a newly inserted slice of crop material. The control system includes a first module to measure, at consecutive moments during a plunger stroke, a plurality of first values for the plunger force exerted by the plunger and/or for the pressure (Pd) in the actuator; and a control module to control at least one baling setting influencing the compressing of the crop material in the bale chamber as a function of the plurality of first values.

A baler for forming a pressed bale includes a baling chamber and a press mounted within the baling chamber. The press is operable in a bale formation cycle, where the bale formation cycle includes bale formation cycle parameters. A primary power source is operably coupled with the press to transmit a power to the press, and an auxiliary power source is coupled to the press. The auxiliary power source is operable in a power transmitting mode to transmit an auxiliary power to the press. A controller is electrically coupled to the auxiliary power source such that the controller is configured for controlling operation of the auxiliary power source. The operation of the auxiliary power source is operably controlled manually or by the controller according to the bale formation cycle parameters.

A trash compactor assembly includes a receptacle including a base connected to at least one wall having an upper edge. A retaining chamber is defined between the wall(s) and the upper edge. A compaction plate is disposed within the retaining chamber. The compaction plate is configured to be manually moved in an upward direction from the base towards the upper edge to compact trash within the retaining chamber.

A compacting system compacts particulate matter in open-top railroad gondola cars rolling on rails. The compacting system comprises a compacting station adjacent the rails and a scanning system that scans the gondola cars as they move along the rails toward the compacting station. The scanning system transmits data of the gondola car to an electronic control system. The compacting station has at least one compaction member, e.g., a plate structure or a roller, configured to contact an upper surface of the particulate matter in the gondola cars. The electronic control system controls the compacting station so that the compaction member engages with and applies force to the upper surface of the particulate matter in the gondola car so as to compress the particulate matter in the gondola. A method for compacting particulate matter in a gondola car is also shown.

Disclosed are embodiments of a system and method for baling recyclable materials and managing the baling of recyclable materials. The apparatus for baling includes a baler for compressing and baling recyclable materials, a scale, label printer, and a processor. Certain embodiments further comprise at least one digital camera, RFID dispenser, and an internet connection that allows the processor to transmit collected data to a remote database for further analysis.

The disclosed method for baling recyclable materials comprising the steps of baling materials; weighing the bale automatically using a digital scale operably connected to the processor; recording the weight of the bale automatically; and printing a label which displays the recorded weight of the bale. Additionally, the method may comprise inputting information and/or automatically recording data, and/or automatically transmitting the data associated with a bale to a remote database.

A system, controller, and method for decortication processing on one or more input units of hemp into one or more resultant products. The method includes: analyzing one or more characteristics of the input units; cutting the input units into a predetermined size; opening the cut input units; performing decortication on the opened input units to separate the hemp into components, the components including bast, fibre, and hurd; densifying the fibre into bales; pulverizing the hurd and bast; combining the pulverized hurd and bast with thermoplastic polymers into a resultant product; receiving analyzer data from at least one of the decortication, the densifying, the pulverizing, and the combining; training a machine learning model based on the analyzer data; using the trained machine learning model to adjust one or more aspects to achieve a desired resultant product.