The present invention discloses a flat separator. The separator includes a circular base and a plurality of airflow guiding portions, where the airflow guiding portions protrude from or concave with respect to a surface of the circular base, and are evenly distributed along a circumferential direction of the circular base, and the airflow guiding portion is provided with a shell-type airflow guiding channel running through the circular base. The present invention further discloses a cleaner with the separator. The separator is disposed on the top of a dust cup. According to the present invention, a structure of a separation body is changed. This improves dedusting efficiency, realizes air-liquid separation, and avoids entwining by garbage.

The present invention discloses a flat separator. The separator includes a circular base and a plurality of airflow guiding portions, where the airflow guiding portions protrude from or concave with respect to a surface of the circular base, and are evenly distributed along a circumferential direction of the circular base, and the airflow guiding portion is provided with a shell-type airflow guiding channel running through the circular base. The present invention further discloses a cleaner with the separator. The separator is disposed on the top of a dust cup. According to the present invention, a structure of a separation body is changed. This improves dedusting efficiency, realizes air-liquid separation, and avoids entwining by garbage.

In order to prevent air from being sucked into the separation chamber (12) of a counter-current type of centrifugal separator through the liquid outlet (24) thereof during the normal operation the separator a liquid trap in form of a well (28) is provided in the bottom of the separator housing (10). An outlet conduit (32) opens into the lower part of the well (28), wherein the well (28), at least in its upper part, has a substantially larger cross-sectional area than that of the outlet conduit (32).

In order to prevent air from being sucked into the separation chamber (12) of a counter-current type of centrifugal separator through the liquid outlet (24) thereof during the normal operation the separator a liquid trap in form of a well (28) is provided in the bottom of the separator housing (10). An outlet conduit (32) opens into the lower part of the well (28), wherein the well (28), at least in its upper part, has a substantially larger cross-sectional area than that of the outlet conduit (32).

An oil separator includes a cylindrical housing that accommodates a rotor and is provided with a gas discharge portion (first exhaust portion), the oil separator being configured to introduce target gas from a rotation center side of the rotor to condense oil mist and emit condensed oil from an outer peripheral edge of the rotor and further being configured to discharge from the housing through the gas discharge portion the blow-by gas (target gas) after having the oil mist separated. The oil separator includes a dome portion (sectioning member) that covers from an outside of the housing the gas discharge portion and sections a closed space around the gas discharge portion and an outlet pipe (second exhaust portion) that is provided to the dome portion and that discharges the blow-by gas from the closed space that is sectioned by the dome portion.

An oil separator includes a cylindrical housing that accommodates a rotor and is provided with a gas discharge portion (first exhaust portion), the oil separator being configured to introduce target gas from a rotation center side of the rotor to condense oil mist and emit condensed oil from an outer peripheral edge of the rotor and further being configured to discharge from the housing through the gas discharge portion the blow-by gas (target gas) after having the oil mist separated. The oil separator includes a dome portion (sectioning member) that covers from an outside of the housing the gas discharge portion and sections a closed space around the gas discharge portion and an outlet pipe (second exhaust portion) that is provided to the dome portion and that discharges the blow-by gas from the closed space that is sectioned by the dome portion.

The invention relates to a vane diffuser for separating a gas/liquid/particulate-mixture flow in a gas phase fraction and a liquid/particulate phase fraction, comprising: a distribution chamber holding a plurality of curved vanes and an inlet for the gas/liquid/particulate-mixture wherein the vane diffuser also comprises a cyclone pre-separator located before the distribution chamber. The invention also relates to a method for separating a gas/liquid/particulate-mixture.

The invention relates to a vane diffuser for separating a gas/liquid/particulate-mixture flow in a gas phase fraction and a liquid/particulate phase fraction, comprising: a distribution chamber holding a plurality of curved vanes and an inlet for the gas/liquid/particulate-mixture wherein the vane diffuser also comprises a cyclone pre-separator located before the distribution chamber. The invention also relates to a method for separating a gas/liquid/particulate-mixture.

An air-oil separation system for a gas turbine engine system comprises a housing that extends circumferentially around an axis to define an interior chamber of the housing and a separation unit located in the chamber. The housing is formed to include an inlet configured to receive a mixture of air and oil, an oil outlet configured to conduct oil to exit the housing, and an air outlet configured to conduct air to exit the housing. The air-oil separation unit separates air from the oil.

An air-oil separation system for a gas turbine engine system comprises a housing that extends circumferentially around an axis to define an interior chamber of the housing and a separation unit located in the chamber. The housing is formed to include an inlet configured to receive a mixture of air and oil, an oil outlet configured to conduct oil to exit the housing, and an air outlet configured to conduct air to exit the housing. The air-oil separation unit separates air from the oil.