A sifter includes a screen including a cylindrical portion. A helix is positioned within the cylindrical portion and extends between a first end of the helix and a second end of the helix. The helix defines a volume, such as an annular gap extending between the first end of the helix and a second end of the helix and extending inwardly from an inner surface of the helix by at least 25 percent of an inner diameter of the inner surface of the helix, the volume being available to receive particles sifted by the sifter. The helix may be a metal coil secured at ends thereof to a shaft driven by a motor. The screen and/or endcaps secured to the screen includes an opening through which particles that do not pass through the screen are urged by the helix.

A dispersion machine for removing impurities from a fiber which includes a housing, a feed port and a discharge port arranged on the housing, and several processing components arranged in the housing wherein the processing component includes a connection portion and a scraping portion. When the processing component moves, the scraping portion is adapted to contact the fiber and moves relative to a surface of the fiber so as to remove impurities from the fiber surface. A feed screw rod and a discharge screw rod for processing material are also arranged in the housing to repeatedly feed material, discharge material and remove impurities form the fiber surface. The dispersion machine can be used to remove impurities from fiber in the papermaking field, textile field and the like, so as to obtain a raw material with a low impurity content.

The present disclosure is directed to rotors for pressure screens with cylinders for screening solid contaminants from a solid slurry. The rotor includes a cylindrical hub, a plurality of foils spaced radially outward from the hub, and a plurality of struts coupling the plurality of foils to the hub. The struts include a forward edge having a forward-swept shape that creates streamlines that move contaminants and fibers from the general local flow field and those dislodged from the inner surface of the pressure screen cylinder radially inboard towards the hub. The streamlines produced by the forward-swept struts can reduce or prevent deposition of solid contaminants on the forward edge of the strut and on the leading edge of the foil. The struts can also include a release region proximate the inboard end of the strut.

The present disclosure is directed to rotors for pressure screens with cylinders for screening solid contaminants from a solid slurry. The rotor includes a cylindrical hub, a plurality of foils spaced radially outward from the hub, and a plurality of struts coupling the plurality of foils to the hub. The struts include a forward edge having a forward-swept shape that creates streamlines that move contaminants and fibers from the general local flow field and those dislodged from the inner surface of the pressure screen cylinder radially inboard towards the hub. The streamlines produced by the forward-swept struts can reduce or prevent deposition of solid contaminants on the forward edge of the strut and on the leading edge of the foil. The struts can also include a release region proximate the inboard end of the strut.

A flour sifting device (1), having a flour sifting tank provided with a flour sifting trough with flour sifting holes at the bottom, and a rotating brush located inside the flour sifting tank having a rotating shaft (7*) and devised to brush the flour sifting holes. The rotating brush hasa first plurality of discrete flexible brush elements (12c*) that are distributed on said rotating shaft (7*) and extend therefrom in a radial direction with respect to said rotating shaft (7*) such that collectively they form a screw conveyor with a circular outer contour. The brush elements (12c*) are arranged on a second plurality of separate identical brush modules (12*), each brush module (12*) including a number of said brush elements (12c*), preferably an equal number of said brush elements (12c*), and the brush modules (12*) are individually and removably mounted or mountable on the rotating shaft (7*).

A flour sifting device (1), having a flour sifting tank provided with a flour sifting trough with flour sifting holes at the bottom, and a rotating brush located inside the flour sifting tank having a rotating shaft (7*) and devised to brush the flour sifting holes. The rotating brush hasa first plurality of discrete flexible brush elements (12c*) that are distributed on said rotating shaft (7*) and extend therefrom in a radial direction with respect to said rotating shaft (7*) such that collectively they form a screw conveyor with a circular outer contour. The brush elements (12c*) are arranged on a second plurality of separate identical brush modules (12*), each brush module (12*) including a number of said brush elements (12c*), preferably an equal number of said brush elements (12c*), and the brush modules (12*) are individually and removably mounted or mountable on the rotating shaft (7*).

The present disclosure is directed to rotors for pressure screens with cylinders for screening solid contaminants from a solid slurry. The rotor comprising a cylindrical hub, at least one foil spaced radially outward from the cylindrical hub, and at least one strut coupling the at least one foil to the cylindrical hub, wherein the at least one strut is a forward-swept strut having a forward edge. Additionally disclosed are methods of using the rotor.

The present disclosure is directed to rotors for pressure screens with cylinders for screening solid contaminants from a solid slurry. The rotor comprising a cylindrical hub, at least one foil spaced radially outward from the cylindrical hub, and at least one strut coupling the at least one foil to the cylindrical hub, wherein the at least one strut is a forward-swept strut having a forward edge. Additionally disclosed are methods of using the rotor.

Aqueous slurry which includes solid foreign matter and paper dust is pressed by means of a screw press, provided with a mesh having openings not less than 1.5 mm and not greater than 3 mm, to separate the aqueous slurry into the solid foreign matter and the paper dust, and liquid component passing through the mesh. Then, the liquid component is sieved by means of a sieve having openings not greater than 1 mm to separate from the liquid component the solid foreign matter and the paper dust.

An electrode material containing active material powder is prepared. Dry classification of the electrode material is performed by a classifier. An electrode is manufactured by using the electrode material subjected to the dry classification. The classifier includes a mesh screen, a blade, and a motor. Breakage of the mesh screen is detected by monitoring either or both of an operation sound of the classifier and torque of the motor. The electrode material contained in the classifier will no longer be used for manufacturing of the electrode when breakage of the mesh screen is detected.