A blowing device is equipped with a blowing portion and a holder. The blowing portion has a cylindrical body that stores a rotating body, and includes: a suction inlet arranged on a side surface perpendicular to the axial direction of the cylindrical body; and an exhaust outlet arranged on a part of the peripheral surface of the cylindrical body. The holder has a wall that faces the peripheral surface of the blowing portion with a gap between the wall and the peripheral surface, and holds the blowing portion inside. The holder includes: a suction portion that communicates with the suction inlet; and an exhaust portion that causes the exhaust outlet to communicate with the outside and the gap.

A blower configured to be positioned in confined spaces and to provide ventilation of a fluid, such as temperature controlled air, is disclosed. In various embodiments, the blower is configured to have a reduced axial thickness, which can be desired in such confined spaces. In some embodiments, the blower has an integral filter, a wire channel for the routing of one or more wires, and/or an exposed backplate. In some embodiments, the blower has a snap-fit circuit board, containment system for mounting the motor, one or more vanes for directing fluid flow, shrouded impeller, and/or integrated connector.

A blower configured to be positioned in confined spaces and to provide ventilation of a fluid, such as temperature controlled air, is disclosed. In various embodiments, the blower is configured to have a reduced axial thickness, which can be desired in such confined spaces. In some embodiments, the blower has an integral filter, a wire channel for the routing of one or more wires, and/or an exposed backplate. In some embodiments, the blower has a snap-fit circuit board, containment system for mounting the motor, one or more vanes for directing fluid flow, shrouded impeller, and/or integrated connector.

A centrifugal pump assembly includes a pump housing that encloses a rotor unit that includes an impeller. The pump housing includes an inlet that defines a first passageway that is aligned with the rotor rotational axis, an outlet that defines a second passageway that is aligned with a second axis, and a volute that is provided on an inner surface of the pump housing. An exit opening of the volute faces the outlet and at least a portion of the fluid exiting the volute moves along a volute discharge axis. The volute discharge axis is tangential to a portion of fluid flow exiting the volute at the volute exit opening and is offset relative to the rotational axis. When viewed in a direction perpendicular to the first axis, the second axis is acutely angled relative to the volute discharge axis.

A centrifugal pump assembly includes a pump housing that encloses a rotor unit that includes an impeller. The pump housing includes an inlet that defines a first passageway that is aligned with the rotor rotational axis, an outlet that defines a second passageway that is aligned with a second axis, and a volute that is provided on an inner surface of the pump housing. An exit opening of the volute faces the outlet and at least a portion of the fluid exiting the volute moves along a volute discharge axis. The volute discharge axis is tangential to a portion of fluid flow exiting the volute at the volute exit opening and is offset relative to the rotational axis. When viewed in a direction perpendicular to the first axis, the second axis is acutely angled relative to the volute discharge axis.

A device and method for precise measurement of erosion of compressors, without removing an engine, and with easy positioning. A centrifugal compressor of a gas turbine with a radial air inlet includes an impeller including blades and a casing for an air stream to flow in the blades of the impeller. The casing, covered with an abradable coating, includes an annular elbow zone in a substantially median part. Marking depressions of predetermined depths, preferably in groups, are machined in the abradable coating of the zone. Examinations by endoscopy are successively performed to provide an image signal of the markers. Processing the endoscopic signal supplies a number of remaining markers and a criterion for decision on removing the engine is applied thereto. Erosion occurs in the elbow of the casing and evolution thereof may enable monitoring of erosion of other components of the compressor, in particular the blades of the impeller.

A device and method for precise measurement of erosion of compressors, without removing an engine, and with easy positioning. A centrifugal compressor of a gas turbine with a radial air inlet includes an impeller including blades and a casing for an air stream to flow in the blades of the impeller. The casing, covered with an abradable coating, includes an annular elbow zone in a substantially median part. Marking depressions of predetermined depths, preferably in groups, are machined in the abradable coating of the zone. Examinations by endoscopy are successively performed to provide an image signal of the markers. Processing the endoscopic signal supplies a number of remaining markers and a criterion for decision on removing the engine is applied thereto. Erosion occurs in the elbow of the casing and evolution thereof may enable monitoring of erosion of other components of the compressor, in particular the blades of the impeller.

A fan assembly having a reduced dimension formed by several modifications is described. The fan assembly includes a stator having stator coils positioned within a recessed portion of a pillow that receives the motor. The stator may include wire connections positioned between adjacent stator coils and designed to terminate wires of the stator coils. The wire terminations may be on a protrusion or a post positioned between adjacent stator coils, or alternatively, the wire terminations may be disposed on protruding features of a bushing. The protrusion may be formed from an electrically conductive material and electrically connected to a motor control circuit via a flexible printed circuit. In some embodiments, the protrusion is part of an electrically neutral stator bushing having several pins. Also, a gap region between the bushing and a flange feature is designed to improve an adhesive joint.

A fan assembly having a reduced dimension formed by several modifications is described. The fan assembly includes a stator having stator coils positioned within a recessed portion of a pillow that receives the motor. The stator may include wire connections positioned between adjacent stator coils and designed to terminate wires of the stator coils. The wire terminations may be on a protrusion or a post positioned between adjacent stator coils, or alternatively, the wire terminations may be disposed on protruding features of a bushing. The protrusion may be formed from an electrically conductive material and electrically connected to a motor control circuit via a flexible printed circuit. In some embodiments, the protrusion is part of an electrically neutral stator bushing having several pins. Also, a gap region between the bushing and a flange feature is designed to improve an adhesive joint.

An assembly for moving a fluid includes: a housing having an inlet and an outlet; a first shaft member fixedly coupled to the housing, the first shaft member having a central axis; a stator assembly fixedly coupled to the housing, disposed around the central axis and spaced radially outward from the first shaft member; and a driven assembly. The driven assembly includes: a second shaft member having a first end, a second end, and a cylindrical cavity defined therein extending inward from the first end; a magnetic ring fixedly coupled to the second shaft member at or about the first end; and an arrangement fixedly coupled to the second shaft member at or about the second end. A bearing system is disposed between the first shaft member and the second shaft member such that the driven assembly is rotatably coupled to the first shaft member.