A corn cob harvesting machine includes a tractor, cob harvester, and trailer that together lift, clean, and separate corn cobs from a corn harvester combine chaff windrow. The cob harvester has a floating cob lift immediately adjacent to and through various skirts engaging the earth that is supported by and floats with respect to a support frame. The floating cob lift has a rotary paddle that lifts and throws cobs into the first cross draft separator. The first cross draft separator has a blower that generates a vacuum within the floating cob lift. An adjustable flap intermediate between rotary paddle and blower deflects cobs and other heavier matter out of the air stream, while lighter matter is removed. A first cross draft separator removes chaff, a rock trap separates rocks, and a second cross draft separator removes additional chaff. A discharge conveyor transfers cleaned corn cobs to the trailer.

A screening apparatus comprising a body, a drive system for imparting vibrations to the body, and screen media that is coupled to the body by a resilient coupling mechanism that allows oscillatory movement of the screen media with respect to the body. In response to vibration of the body, the resilient coupling mechanism causes the screen media to oscillate in a manner that is amplified with respect to the vibration of the body. The amplification may depend on the frequency of the vibrations of the body and/or on the mass of any material gathered on the screen media.

A aerodynamic particle separator for an Additive Manufacturing System (AMS) has an air supply device to entrain a mixed powder in an airstream flowing through a housing. Each particle in the mixed powder is imparted with a momentum dependent upon the particle weight and size. Utilizing this momentum characteristic, the heavier particles are capable of crossing streamlines of the airstream at a bend portion of the housing and the lighter particles generally stay within the streamlines. Utilizing this dynamic characteristic, the particles of specific weight ranges are collected through respective offtake holes in the housing and controllably fed to a spreader of the AMS.

Apparatus (200) for sorting mixed waste materials, comprising: a housing (260) configured to be vibrated to assist sorting; a screen (210) supported by the housing (260) and having an inlet end (212) for receiving waste materials and an outlet end (214) for discharging at least some waste received at the inlet end (212), the screen (210) comprising at least one portion (220) pivotally coupled adjacent the inlet end (212) to a substantially horizontal axle (222) mounted in the housing (260); and drive means (224,228) configured to pivot the at least one portion (222) of the screen (210) about the axle (222) with a controlled reciprocating action.

Apparatus (1) for homogenization and separation of substance mixtures composed of particles, having two or more material discharges, wherein a rotating drum (5) is provided, which comminutes and homogenizes the substance mixture, on the one hand, and accelerates the particles in a predetermined direction.

A method and related apparatus for liberating particles with specific dimensions from a moist Municipal Solid Waste Incinerator ash (MSWI ash) material comprising particles with differing dimensions. In an aspect, the method comprises feeding an amount of the material in a particle stream, striking the particle stream with a striking body to impart a sudden change in direction of the particle stream, receiving at least a part of the stricken particle stream on a moving surface, and transporting the received particle stream to an outlet beyond the receiving area where the particle stream is divided in a first fraction rich of particles of a first group of particle dimensions, and at least a second fraction rich of particles of a second group of particle dimensions, which second fraction is substantially depleted of particles of the first group of particle dimensions.

The invention relates to a separation-apparatus for separating from a particle-stream at least a first fraction with particles of a first group of dimensions, and a second fraction with particles of a second group of dimensions, comprising an infeed-device for the particle-stream, a rotatable drum having at its circumference plates, each plate having a radially extending hitting surface for the particles, at least a first receiving area proximal to the drum for receipt therein of particles of the first fraction, and at least a second receiving area distant from the drum for receipt therein of particles of the second fraction, wherein the apparatus has a housing so as to protect the particles from outside weather-conditions, allowing that the particles of the particle-stream to be processed by said apparatus have dimensions in the range 0-15 mm.

The invention relates to a separation-apparatus for separating from a particle-stream at least a first fraction with particles of a first group of dimensions, and a second fraction with particles of a second group of dimensions, comprising an infeed-device for the particle-stream, a rotatable drum having at its circumference plates, each plate having a radially extending hitting surface for the particles, at least a first receiving area proximal to the drum for receipt therein of particles of the first fraction, and at least a second receiving area distant from the drum for receipt therein of particles of the second fraction, wherein the apparatus has a housing so as to protect the particles from outside weather-conditions, allowing that the particles of the particle-stream to be processed by said apparatus have dimensions in the range 0-15 mm.

A component sorting mechanism is disclosed. The component sorting mechanism includes a vibrating plate, a feeding tray having a plurality of grooves in an inner bottom surface thereof, the feeding tray mounted on the vibrating plate, and a first driving device connected to the feeding tray. The first driving device drives the feeding tray to swing within a predetermined angle range.

A component sorting mechanism is disclosed. The component sorting mechanism includes a vibrating plate, a feeding tray having a plurality of grooves in an inner bottom surface thereof, the feeding tray mounted on the vibrating plate, and a first driving device connected to the feeding tray. The first driving device drives the feeding tray to swing within a predetermined angle range.