A forward secant swirl tube may be used to separate heavier particles such as oil and moisture from an air flow. The swirl tube includes a central hub having a centerline and a circular perimeter. An outer circular housing extends from an inlet edge to an outlet edge. A plurality of vanes extends from the central hub to the outer housing. The vanes are equally spaced around the central hub. Each vane has an inlet transition portion connected to a discharge portion. The top edge of the inlet transition portion of each vane is offset from the centerline of the central hub forming a forward secant line with respect to the centerline of the central hub and a direction of spin induced by the plurality of vanes.

An apparatus to separate water droplets from an air stream includes an elongated tube having a first end and a second end. The elongated tube includes an opening at a first end of the elongated tube, the opening may be positioned to accept the air stream. A reservoir is positioned at a second end of the elongated tube. A helix structure is positioned within the elongated tube. The helix structure includes an upper surface, a lower surface arranged opposite the upper surface, an outer edge, and a variable pitch along a length of the elongated tube. The variable pitch may provide a variable interior angle between an inner wall of the elongated tube and the upper surface of the helix structure.

A particle separator (1) for fluids has an outlet chamber (3) arranged within an inlet chamber (2) and is fluidically connected to same, wherein the inlet chamber (2) has a curved guide surface (5) extending around a main axis (4) running transverse to the main flow direction in the inlet chamber (2) for the fluid flowing into the inlet chamber (2) via an inlet channel (6). Particles can be filtered out of the fluid largely independently of the orientation of the particle separator relative to the gravitational vector and without entering the outlet channel even after separation of the fluid flow and possible positional change. The outlet chamber (3) is closed with respect to the inlet chamber (2) transverse to the direction of the main axis (4) and open in the direction of the main axis (4), and has an outlet channel (7) that extends through the inlet chamber (2).

A particle separator (1) for fluids has an outlet chamber (3) arranged within an inlet chamber (2) and is fluidically connected to same, wherein the inlet chamber (2) has a curved guide surface (5) extending around a main axis (4) running transverse to the main flow direction in the inlet chamber (2) for the fluid flowing into the inlet chamber (2) via an inlet channel (6). Particles can be filtered out of the fluid largely independently of the orientation of the particle separator relative to the gravitational vector and without entering the outlet channel even after separation of the fluid flow and possible positional change. The outlet chamber (3) is closed with respect to the inlet chamber (2) transverse to the direction of the main axis (4) and open in the direction of the main axis (4), and has an outlet channel (7) that extends through the inlet chamber (2).

A small particle removal module that comprises a length of tube having at least one helix shaped portion between opposite ends of the length of tube. The small particle removal module is designed to be attached to the inlet of a vacuum machine and used to vacuum-clean areas. Small particles that are drawn into the small particle removal module by the airflow created by the vacuum machine impact the inner surface of the length of tube. An adhesive coating provided on the inner surface of the length of tube particularly at the at least one helix shaped portion aids in capturing the small particles upstream of the vacuum machine.

A small particle removal module that comprises a length of tube having at least one helix shaped portion between opposite ends of the length of tube. The small particle removal module is designed to be attached to the inlet of a vacuum machine and used to vacuum-clean areas. Small particles that are drawn into the small particle removal module by the airflow created by the vacuum machine impact the inner surface of the length of tube. An adhesive coating provided on the inner surface of the length of tube particularly at the at least one helix shaped portion aids in capturing the small particles upstream of the vacuum machine.

A uniflow cyclone for a hand vacuum cleaner has a dirt chamber that is external to the cyclone chamber and vortex finder, which has a solid portion that is spaced from and faces a dirt outlet of the cyclone chamber and a porous section that is angularly spaced around the cyclone axis of rotation of the cyclone from the solid portion.

An apparatus to separate water droplets from an air stream. The apparatus includes an elongated tube, a reservoir, and a helix structure. The elongated tube has a first end, a second end, a longitudinal axis, an inner surface, an inlet opening at the first end of the elongated tube, the inlet opening arranged to accept the air stream tangentially relative to the longitudinal axis, and an outlet opening at the second end of the elongated tube. The reservoir is positioned at a second end of the elongated tube. The helix structure is positioned within the elongated tube and includes an upper surface, a lower surface arranged opposite the upper surface, an outer edge, and a variable pitch along a length of the elongated tube, the variable pitch providing a variable interior angle between an inner wall of the elongated tube and the upper surface of the helix structure.

The disclosure relates to an axial-flow centrifugal separator for separating particles from a dispersion, in particular a suspension, which contains the particles and a fluid, the separator including a hollow cylindrical pipe section for conducting the dispersion in a conducting direction. An inner wall of the hollow cylindrical pipe section may have an internal thread, the lead angle of which increases in the conducting direction.

A surface cleaning apparatus comprising a surface cleaning head, the surface cleaning head comprising a liquid separation stage having a separated liquid storage region; and, an air treatment stage that is downstream from the liquid separation stage, the air treatment stage having a separated solid storage region.