A gas pump and processes for preparing the gas pump are presented. The gas pump includes a bottom Holweck stage with internal heaters for cleaning deposits resulting from exhausting gases from a semiconductor manufacturing chamber. One example gas pump includes a turbomolecular stage on a top section of the gas pump and a Holweck stage below the turbomolecular stage. The Holweck stage comprises a rotor element, a stator element with an opening in the center, and one or more heaters. The opening has a substantially cylindrical shape and an inside surface with a plurality of grooves separated by threads. Each heater is situated on a surface of one of the plurality of grooves. The heaters may be turned on to clean the deposits accumulated on the gas pump during the processing of a substrate.

A vacuum pump comprises: a rotor provided with multiple stages of rotor blades; a base including a ball bearing configured to rotatably support the rotor; an outer cylinder covering the rotor and connected to the base; and a control device including an electronic circuit having a heat generation element. The control device is provided in contact with the outer cylinder.

A vacuum pump includes a housing with an inlet port, a rotor part in the housing, the rotor part including a recess part facing the inlet port, and a plurality of rotating blades, a rotating shaft overlapping the recess part, and a capping part overlapping the rotating shaft and covering the recess part.

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.

Turbomolecular stator components include an array of stator blades, arranged to interact with pumped gases. Spacers are used to locate the stator blade array and couple the stator blade array to a housing. The stator components include an outer section that is resilient and arranged to cooperate with the spacers.

Disclosed is a mass-spectrometry leak detector including a multi-stage turbomolecular pump, a mass spectrometer connected to the suction side of the turbomolecular pump, a preliminary vacuum pump connected to the pressure side of the turbomolecular pump, and a booster pump stage. The suction side of the booster pump stage has a connection for a test object and the pressure side is connected to the pressure side of the turbomolecular pump and to the suction side of the preliminary vacuum pump by means of a gas line path. The stages of the turbomolecular pump and the booster pump stage are arranged on a common shaft and have a common drive and the gas line path is interrupted, by means of a separation, between the pressure side of the booster pump stage and the suction side of the pump stage of the turbomolecular pump connected to the mass spectrometer.

A vacuum pump component includes a stationary disk that is formed with a spiral groove (helical groove) having a ridge portion and a valley part and has a projecting (protruding) portion on both or either one of an inner-diameter portion of the disk which faces a rotary cylinder (rotator cylinder-shaped portion) and an inner-diameter side of a stationary cylinder disposed on an outer peripheral side of the stationary disk. A second vacuum pump component includes rotary disk formed with a spiral groove having a ridge portion and a valley part and having a projecting (protruding) portion on both or either one of an outer-diameter portion of a rotary cylinder disposed on an inner peripheral side of the rotary disk and an outer-diameter portion of the rotary disk which faces a spacer.

An exhausting system capable of preventing gas condensation and early overheat in a vacuum pump without causing an increase in the costs of the entire exhausting system and suitable for relaxing the operable conditions of the entire exhausting system including a flow rate at which gas is successively exhausted. An exhausting system is predicated on a constitution including: at least a first vacuum pump and a second vacuum pump connected in series; and a connecting portion disposed therebetween, the exhausting system exhausting gas containing a condensable gas via the vacuum pumps and the connecting portion. In the exhausting system, an environment inside the connecting portion is set to an environment having a vapor phase region below a vapor pressure curve of the condensable gas flowing through an inside of the connecting portion by providing the second vacuum pump near the first vacuum pump.

A stator disk includes a connection hole for improving exhaust efficiency in a vacuum pump including a Seigbahn type molecular pump portion, and a vacuum pump including the stator disk. The vacuum pump according to an embodiment includes a Seigbahn type molecular pump portion and includes, in a stator disk disposed therein, a connection hole that connects an upper space (an inlet port side region, an upstream side region) with a lower space (an outlet port side region, a downstream side region) in the axial direction of the stator disk.

A vacuum pump comprises a screw groove exhaust section including a rotor cylindrical section and a stator; a base; an inner stator forming an inner gas discharge path between an inner peripheral surface of the rotor cylindrical section and the inner stator; an outer stator forming an outer gas discharge path between an outer peripheral surface of the rotor cylindrical section and the outer stator, and being thermally coupled to the inner stator; a communication opening formed on the rotor, and allowing the outer gas discharge path and the inner gas discharge path to communicate with each other on an upstream side; an exhaust opening discharging the joined gas of the gas passing through the outer gas discharge path and the gas passing through the inner gas discharge path from the screw groove exhaust section toward the exhaust port.