A system for recycling pocketed metal coil mattresses includes a primary shredding station that implements a primary shredder element having a housing with opposing shafts mounted to extend along sidewalls of the housing. Each shaft includes a plurality of opposing shredding knives configured to bypass each other for shredding materials in the housing into metal and fabric pieces. The knives each have a thickness in the range of 17-50 mm with the knives of each respective opposing shaft being spaced apart from each other along the respective shaft in the range of 17-50 mm. The primary shredder element is free of stationary elements in the spaces between the shredding knives at the sidewalls. A motion separation station utilizing motion of the fabric pieces and the metal pieces for separating the pieces follows the primary shredder station. An air separation station provides an airflow to separate fabric pieces from the metal pieces. A secondary shredding station for further shredding the material is used to further shred and separate materials. A magnetic separation station further separates the metal and fabric pieces.

A cooking apparatus can include an enclosure defining a heating chamber configured to be heated and used for cooking food, a burn box proximate to the enclosure and which is configured to provide heat to the heating chamber, a hopper fluidly coupled to the burn box and configured to hold fuel, and a fuel conditioner disposed between the hopper and the burner to condition the fuel prior to burning in the burner. The fuel conditioner can be, for example, a wood chipper configured to reduce the size of the fuel.

A cooking apparatus can include an enclosure defining a heating chamber configured to be heated and used for cooking food, a burn box proximate to the enclosure and which is configured to provide heat to the heating chamber, a hopper fluidly coupled to the burn box and configured to hold fuel, and a fuel conditioner disposed between the hopper and the burner to condition the fuel prior to burning in the burner. The fuel conditioner can be, for example, a wood chipper configured to reduce the size of the fuel.

A debucking machine, for use with processing industrial hemp or cannabis, is provided. Embodiments of the debucking machine include counter-rotating rollers equipped with rubberized combs for gently removing flowers, or buds, from harvested industrial hemp or cannabis. Embodiments of the debucking machine are portable and may be moved from location to location within a drying shed.

A debucking machine, for use with processing industrial hemp or cannabis, is provided. Embodiments of the debucking machine include counter-rotating rollers equipped with rubberized combs for gently removing flowers, or buds, from harvested industrial hemp or cannabis. Embodiments of the debucking machine are portable and may be moved from location to location within a drying shed.

An apparatus for removing flexible material from rotating equipment includes a cutter assembly integrated into the rotating equipment. The cutter assembly includes a cutter shaft, a cutter blade coupled to the cutter shaft, and a movement mechanism configured to move the cutter assembly along an axis of the rotating equipment to cut accumulated material from the rotating equipment.

An apparatus for removing flexible material from rotating equipment includes a cutter assembly integrated into the rotating equipment. The cutter assembly includes a cutter shaft, a cutter blade coupled to the cutter shaft, and a movement mechanism configured to move the cutter assembly along an axis of the rotating equipment to cut accumulated material from the rotating equipment.

The present invention relates to a crushing roll for a roll-type crusher has a shaft with at least one groove extending in the axial direction on its lateral surface, to receive formed elements. The formed elements serve to retain the crushing shells, for which purpose the formed elements form a form-interlockingly engaging combination with the groove in the shaft, in the radial direction. A form-interlockingly engaging combination in the radial direction is understood here to signify means of blocking of movement of the formed elements in the radial direction of the shaft. In this way, it is possible to anchor the crushing shells in the grooves by means of the formed elements. Advantageously, also axial forces from the crushing shells can be transmitted to the shaft via the formed elements in the grooves, which forces can thereby be borne by the shaft, given that a high pressing force can be transmitted via the combination of a crushing shell and formed element, resulting in high holding friction between the molded element and the shaft.

The present invention relates to a crushing roll for a roll-type crusher has a shaft with at least one groove extending in the axial direction on its lateral surface, to receive formed elements. The formed elements serve to retain the crushing shells, for which purpose the formed elements form a form-interlockingly engaging combination with the groove in the shaft, in the radial direction. A form-interlockingly engaging combination in the radial direction is understood here to signify means of blocking of movement of the formed elements in the radial direction of the shaft. In this way, it is possible to anchor the crushing shells in the grooves by means of the formed elements. Advantageously, also axial forces from the crushing shells can be transmitted to the shaft via the formed elements in the grooves, which forces can thereby be borne by the shaft, given that a high pressing force can be transmitted via the combination of a crushing shell and formed element, resulting in high holding friction between the molded element and the shaft.

A process and system for monitoring of wear on components of a grinding mill to determine an optimized future time for maintenance of the grinding mill. The system uses control circuitry for controlling the grinding mill, a sensory system for detecting measurement data on technical parameters relating to a wear condition of a component and an operating state of the grinding mill, analysis circuitry to analyze a wear behavior of the grinding mill, and a data transmitter and data receiver to exchange data. The sensory system detects measurement data on the wear condition of at least one component and the operating state of the grinding mill. The analysis circuitry derives from several pieces of measurement data detected at different times a future wear state at a time in the future and assigns the future wear state to a future degree of wear and a future maintenance loss.