A drum (100) for sorting objects is provided. The drum has a cylindrical shape, and said drum (100) comprises a cylindrical body (101), with an inner and an outer envelope surface. A plurality of pockets (104) are arranged on the inner envelope surface of the cylindrical body (101), and said pockets (104) are provided with openings (105) opening up into the outer envelope surface. At least one groove (106) is arranged on the outer envelope surface, said groove (105) interconnecting at least two openings (105). A machine (1000) comprising such a drum (100) and a method for manufacturing such drum (100) are also provided.

A flexible scraper for a grader or other solid object processing system. The flexible scraper is adjustably mounted to a frame and contacts a rotating roller to clean the rotating roller or prevent components from wrapping around the roller, as well as maintain products within designated lanes. Connectors allow insertion and release of the scraper into and from the frame. The flexible scraper is inserted into slots in the frame and held against the rotating roller by gravity.

A rake assembly for use with an agitating screen of a mechanical screening bucket is provided. The rake assembly may include a rake bar and a plurality of tines coupled to the rake bar. Each tine may include a first end comprising an arc shaped surface, wherein the arc shaped surface is configured to engage a circular disc spacer between agitating discs of an agitating shaft of an agitating screen. The arc shaped surface corresponds to an arc shape of the circular disc spacer. Each tine may further include a second end opposite the first end, wherein the second end may include a notch formed therein. Each tine may be coupled to the rake bar by the notch. The rake assembly scrapes debris stuck in the agitating shafts in response to operation of the agitating screen.

The disclosure relates to a self-actuating debris removal or disruption device for use on a punch plate or other like water screening instrument.

A nut sorter includes a support frame with a rotatable cage connected thereto. The rotatable cage is comprised of support rings with a plurality of longitudinally extending rods connected thereto. The outer periphery of the longitudinally extending rods extends inwardly into a center space defined by the inner diameter of the support rings. The nut sorter also has a plurality of scrapers utilized to dislodge stuck debris and nuts as the cage rotates under the scrapers.

A magnetic separator apparatus for the removal of magnetic particles from gold bearing sands provides one or more magnetic separator assemblies along a sluice box channel to remove the magnetic particles using spinning strong earth magnets within a magnetic separator assembly, removing the magnetic particle where they are removed from the apparatus and evacuated as waste, while the valuable non-magnetic particles are left within the sluice for further separation, classification and processing to remove the precious metal particles contained therein, the apparatus used in a wet or dry application.

A leaf screen cleaner system to remove crop material such as leaves and stalks from one or more leaf screens of a combine harvester, the system including a slotted carriage movable in opposing directions, a screen having plural members, each of the plural members disposed in a respective slot of the carriage. A pulley assembly is coupled to the carriage and a feeder house is coupled to the pulley assembly. Based on pivotal motion of the feeder house, the carriage moves relative to the screen along the plural members.

[Object] To provide a building material manufacturing apparatus that is suitable for suppressing clogging of a screen that screens a building raw material. [Solution] A building material manufacturing apparatus X1 includes at least a screen part 10 and a cleaning mechanism part 40. The screen part 10 includes at least one screen sheet 12 that has an inclination and that has a screen mesh. The cleaning mechanism part 40 includes a scraping part 40a. When the apparatus operates in a building material manufacturing mode in which a building raw material M is supplied to the screen sheet 12 and the screen sheet 12 is performing a wave motion, the scraping part 40a is separated from the screen sheet 12, and, when the apparatus operates in a cleaning mode in which the building raw material M is not supplied to the screen sheet 12 and the screen sheet 12 is not performing a wave motion, the scraping part 40a rotates in contact with the screen sheet 12.

A device for retaining and removing filaments of plastic material, or angel's hairs, from a flow of plastic material in form of granules, powders or flakes is disclosed. The device includes a main body defining a through channel through which the plastic material flows, a plurality of retractable elements carried by the main body and are movable between a retracted position, in which they leave the through channel unobstructed, and an extracted position, in which they protrude into the through channel for trapping the angel's hairs flowing together with the flow of plastic material along the through channel, and an actuating system for moving each retractable element between the retracted and extracted positions.

A scrap collection device according to the embodiment includes a mesh conveyor, a peeler, and one or more collection containers. The mesh conveyor includes a mesh belt configured to receive a fluid mixture of a liquid and scraps from above to trap at least a portion of the scraps and to allow the liquid to pass, and moves the mesh belt. The peeler peels the scraps from a face of the mesh belt in a state where the face of the mesh belt is directed downward. The collection containers collect the peeled scraps.