A motor includes a rotor that is rotatable about a central axis extending in a vertical direction, a stator that is radially opposite to the rotor, and a housing to contain at least a portion of each of the rotor and the stator. The stator includes a core back and teeth each extending from the core back toward the central axis. The housing includes a top plate extending perpendicularly to the central axis, a tubular housing portion extending axially downward from a radially outer end of the top plate, and at least one projection extending axially downward from the top plate and located between adjacent ones of the teeth in a circumferential direction.

A vacuum pump is provided with which, even in the event of breakage of a rotor blade, broken pieces of the rotor blade are unlikely to scatter from an outlet port. A vacuum pump includes a rotor blade configured to rotate about a vertical axis and a casing housing the rotor blade, and is configured to exhaust sucked gas in a radial direction of the rotor blade by rotation of the rotor blade. An outlet port for the gas is provided at a position that is offset from a position of a gas exit portion of the rotor blade in a direction of the vertical axis.

A deposition substance monitoring device of a vacuum pump for rotatably driving a rotor by a motor to exhaust gas, comprises: a state determination section configured to determine whether or not the vacuum pump is in a predetermined exhaust state; and a deposition amount determination section configured to receive a deposition amount indicator for an amount of a deposition substance in the pump to determine as excessive deposition when the deposition amount indicator in the predetermined exhaust state is equal to or greater than an acceptable deposition threshold.

A vacuum pump rotor comprises at least one displacement element arranged on a rotor shaft. The rotor shaft comprises at least one shaft end for a bearing element to be arranged thereon. The rotor element, the at least one displacement element and the at least one shaft end are made from aluminum or an aluminum alloy.

In one or more arrangements, a pumping system is presented having a plurality of pumps with inlets and outlets, wherein liquid enters the pumps through the inlets and exists the pumps through the outlets. In one or more arrangements, the pumping system has a plurality of engines configured to provide power to the plurality of pumps. In one or more arrangements, the pumping system has a plurality of tubes connected to the plurality of pumps such that liquid exiting the plurality of pumps flows through the plurality of tubes. In one or more arrangements, the plurality of tubes, and liquid flowing through the plurality of tubes, converge at an intersection. In one or more arrangements, the pumping system has a baffle positioned at the intersection to smooth the convergence of the liquid flowing through the plurality of tubes.

In a vacuum pump, the proportion of hole portions at a distal end (outer peripheral side/outer peripheral portion) of a stator disc is locally increased. More specifically, hole portions of substantially the same size are provided in parallel from the inner peripheral side to the outer peripheral side of the stator disc, and the number of hole portions provided in the outermost row is set to be larger than the number of hole portions provided in an inner row. Hole portions of substantially the same size are provided in parallel from the inner peripheral side to the outer peripheral side of the stator disc, and some of hole portions provided in the outermost row are integrated to be a single hole portion. T-shaped hole portions are provided in the stator disc. L-shaped hole portions are provided in the stator disc.

A pump unit includes a pump housing having a valve assembly positioned on a wall thereof and adapted to be coupled to an inflatable device, and an air control assembly that is housed inside the pump housing. The air control assembly includes an impeller section that houses an impeller, and has an air inlet and an air outlet. The air control assembly further includes a motor housing that houses a motor, the motor housing having an air vent that communicates the interior of the motor housing with the air inlet and the air outlet, and a vent opening that communicates the interior of the motor housing to the environment. The air outlet is aligned with the valve assembly when the pump unit is operated in the inflation mode, and the air inlet is aligned with the valve assembly when the pump unit is operated in the deflation mode.

A vacuum pump, and a waterproof structure and a control apparatus applied to the vacuum pump which improve efficiency of on-site maintenance work and prevent water from penetrating into a connector connecting portion when a cover is removed during circuit separation or the like. When performing maintenance work, after a chassis of a control apparatus is lowered by around several tens of millimeters, the chassis of the control apparatus is pulled out in a radial direction of a pump. Accordingly, a pump main body and the control apparatus can be readily attached and detached even when sufficient empty space is not available in an axial direction of the vacuum pump. A wall portion is circumferentially protrusively provided in side portions of the base portion and the control apparatus. Furthermore, a sealing member and a lid are inserted into a gap. Therefore, water droplets cannot easily penetrate into the gap.

Disclosed herein is a cleaner having an improved structure configured to improve the cleaning performance. The cleaner comprises a suction unit provided inside a body. The suction unit includes an impeller configured to suction air by rotating about a shaft, and a diffuser configured to guide air discharged from the impeller. The impeller includes a hub, and a blade disposed on the hub, and provided with a leading edge disposed in an upstream side in a direction in which air introduced into the suction unit flows, and a trailing edge disposed in a downstream side in the direction in which the air introduced into the suction unit flows. The leading edge of the blade forms an inclination of 60 degrees or more and 80 degrees or less with respect to an axial direction.

An improved vacuum pump mechanism is described in which an intersecting solid or perforated element is arranged to intersect a channel member. Relative movement of the intersecting solid or perforated element and channel member causes gas molecules to be urged from inlet to an outlet of the pump. Gas molecules are constrained within the channel member and interaction of the gas molecules with the flat and smooth surfaces of the intersecting solid or perforated member influence momentum of the gas molecules so that they are directed towards the outlet. In one embodiment, the channel member is formed as a helix and the intersecting solid or perforated elements are disk-shaped. An alternative embodiment is provided having the channel member configured as a spiral and the perforated elements as cylindrical skirts. The pump provides significant improvements in pump capacity, reduced power consumption and size of pump.