Abstract: To provide a vacuum pump capable of performing temperature control using one or more heating devices or cooling devices fewer than the number of temperature sensors arranged in the pump. One temperature sensor is arranged for each target in the pump, while only one set consisting of a heater and a magnetic valve is arranged. One set consisting of a heater and a magnetic valve is controlled based on output signals from a plurality of temperature sensors, based on the priorities set for the temperature sensors. As stated above, by setting priorities for the temperature sensors, the temperature of a target provided with a temperature sensor given a higher priority is settled within a control range by performing quick ON/OFF control, and then the temperature of a target provided with a temperature sensor given a lower priority is settled within the control range.

Abstract: An object of the present invention is to enhance the capacity of a turbomolecular pump. A turbomolecular pump is a composite-type vacuum pump that combines a blade portion and a thread groove portion. Openings are formed at a joint portion between a rotor blade holding portion that holds rotor blades and a stepped portion that holds a rotor cylinder portion, such that the openings span both the rotor blade holding portion and the stepped portion. Part of the gas that is evacuated by the blade portions is evacuated by a thread groove portion that is formed of the rotor cylinder portion and a stator thread groove, and the rest of the gas is led into the rotor cylinder portion via the openings, and is evacuated by a thread groove portion that is formed of the rotor cylinder portion and another stator thread groove. Stress derived from rotation of a rotor can be withstood when the openings are formed at the joint portion between the rotor blade holding portion and the stepped portion.

Abstract: A vacuum pump is provided, which suppresses occurrence of a gas product in an exhaust side outlet of a thread groove and maintains pump performance over a long period. The vacuum pump includes inflow suppressing walls formed by widening greater an exhaust side end portion of ridge portions, extended along a gas exhaust direction on an outer circumferential surface of an inner circumference side stator, forward in a rotor rotating direction than an intake side end portion, the inflow suppressing walls suppressing retention of gas in exhaust side outlets of thread grooves engraved among the ridge portions.

Abstract: An object of the present invention is to enhance the capacity of a turbomolecular pump. A turbomolecular pump is a composite-type vacuum pump that combines a blade portion and a thread groove portion. Openings are formed at a joint portion between a rotor blade holding portion that holds rotor blades and a stepped portion that holds a rotor cylinder portion, such that the openings span both the rotor blade holding portion and the stepped portion. Part of the gas that is evacuated by the blade portions is evacuated by a thread groove portion that is formed of the rotor cylinder portion and a stator thread groove, and the rest of the gas is led into the rotor cylinder portion via the openings, and is evacuated by a thread groove portion that is formed of the rotor cylinder portion and another stator thread groove. Stress derived from rotation of a rotor can be withstood when the openings are formed at the joint portion between the rotor blade holding portion and the stepped portion.

Abstract: To provide a vacuum pump capable of performing temperature control using one or more heating devices or cooling devices fewer than the number of temperature sensors arranged in the pump. One temperature sensor is arranged for each target in the pump, while only one set consisting of a heater 147 and a magnetic valve 163 is arranged. One set consisting of a heater and a magnetic valve is controlled based on output signals from a plurality of temperature sensors, based on the priorities set for the temperature sensors. As stated above, by setting priorities for the temperature sensors, the temperature of a target provided with a temperature sensor given a higher priority is settled within a control range by performing quick ON/OFF control, and then the temperature of a target provided with a temperature sensor given a lower priority is settled within the control range.

Abstract: To provide a vacuum pump in which possibilities of decreased exhaust performance and gas leakage at the time of breakage of a rotor are lessened, in the case where a rotating part closes the inside opening portion of an exhaust outlet portion to decrease the height dimension of the vacuum pump, and further a connector lead wire is installed, easily. An inside opening edge portion of a gas discharge passage for combining the downstream space of the rotor with the exhaust outlet portion is caused to take a shape such that the opening edge portion has no blind portion when a gas exhaust passage forming member is viewed from at least either of an upper side or an oblique upper side, or from at least either of an lower side or an oblique lower side. Furthermore, the inner corner portion of this opening edge portion is formed into a rounded shape to reduce stress concentration.

Abstract: A turbo-molecular pump has a main body and a pump case for covering the main body. A first flange is integrally formed with the pump case for connection to a second flange integrally with a vacuum chamber. The flange of the pump case and the flange of the vacuum chamber are integrally connected together with fastening bolts. A clamping structure separately clamps the first and second flanges together by surrounding a portion of each of the first and second flanges.

Abstract: A turbo-molecular pump has components including a stator column, a rotary shaft, and a blade connected to the rotary shaft for rotation therewith. A radiation temperature measuring apparatus has a radiation thermometer for measuring a temperature of a preselected one of the components of the turbo-molecular pump disposed within a view angle range of the radiation thermometer and in accordance with heat energy radiated from the preselected component. A hood is connected to the radiation thermometer so as to not interfere with the view angle range of the radiation thermometer and is configured to block heat energy radiated from components of the turbo-molecular pump disposed outside of the view angle range of the radiation thermometer.

Abstract: A molecular pump for exhausting a chamber has a casing, a stator mounted in the casing, and a rotor mounted in the casing for undergoing rotation relative to the stator during exhaustion of the container. The rotor has a surface disposed opposite to and confronting a surface of the stator. A thread groove is formed in at least one of the opposite and confronting surfaces of the stator and the rotor. A clearance varying device varies a magnitude of a clearance between the opposite and confronting surfaces of the stator and the rotor. An exhaust controlling device controls a degree of exhaustion of the chamber by adjusting the magnitude of the clearance between the opposite and confronting surfaces of the stator and the rotor to a preselected target value during operation of the molecular pump.

Abstract: A vacuum pump adopts a positioning structure in which stator blades and spacers are arranged in the radial direction of a pump case by the contact between the outer peripheries portion of the stator blades and the inner periphery portion of the pump case and the contact between the outer periphery portions of the spacers and the inner periphery portion of the pump case. Accordingly, the spacer interposed between the upper and lower stator blades can have a simplified shape that serves a function of only setting the spacing between the stator blades to a prescribed length, thus decreasing the number of steps and costs of processing the spacer, and accordingly reducing the costs of the entire vacuum pump.

Abstract: A thread-groove pump mechanism portion PB employs a turn-back structure including a rotor formed of a multiple cylinder having an inner cylindrical rotor and an outer cylindrical rotor and a stator formed of a multiple cylinder having an inner cylindrical stator and on outer cylindrical stator. Gaps g1 and g3 defined by the outer walls of the rotor and the stator walls, and a gap g2 defined by the inner cylinder wall of the rotor and the stator wall during the rest of the pump are formed such that they increase with the distance from the rotor shaft center and g1>g2 and g1>g3 are satisfied. Thus, even if displacement occurs by the centrifugal force and thermal expansion during the operation of pump, predetermined gaps can be provided therebetween.

Abstract: Provided are a turbo-molecular pump equipped with a radiation temperature measuring apparatus capable of measuring the temperature of a measurement object based on infrared rays constituting heat energy radiated from the measurement object and improved in terms of accuracy in temperature measurement, and a turbo-molecular pump equipped with the radiation temperature measuring apparatus. The radiation temperature measuring apparatus includes: a radiation thermometer for measuring the temperature of a measurement object based on infrared rays from the measurement object; and a hood arranged so as not to interfere with a view angle range of the radiation thermometer and adapted to block radiation heat from a non-measurement object. Further, a groove is formed in the measurement object so as to include a range enclosed through crossing of an imaginary line defined by imaginarily extending the leading edge of the hood and the measurement object.

Abstract: The present invention provides a turbo-molecular pump which does not fall even when its rotating body is broken and its pump-chamber fastening bolts are consequently broken. The pump includes support-stays for additionally connecting both flanges of a vacuum chamber and the pump. With this structure, even in case that the pump-chamber fastening bolts are broken, the support-stays keep sandwiching the two flanges, thereby preventing the pump from falling.

Abstract: A vacuum pump adopts a positioning structure in which stator blades and spacers are arranged in the radial direction of a pump case by the contact between the outer peripheries portion of the stator blades and the inner periphery portion of the pump case and the contact between the outer periphery portions of the spacers and the inner periphery portion of the pump case. Accordingly, the spacer interposed between the upper and lower stator blades can have a simplified shape that serves a function of only setting the spacing between the stator blades to a prescribed length, thus decreasing the number of steps and costs of processing the spacer, and accordingly reducing the costs of the entire vacuum pump.

Abstract: A multiple cylinder having a plurality of cylinders arranged concentrically and a rotor shaft rotatably disposed on the center axis of the multiple cylinder are provided in a pump casing. Each of the cylinders that constitute the multiple cylinder has a mounting portion, through which the cylinders are integrally fixed to the rotor shaft.

Abstract: A thread-groove pump mechanism portion PB employs a turn-back structure including a rotor formed of a multiple cylinder having an inner cylindrical rotor and an outer cylindrical rotor and a stator formed of a multiple cylinder having an inner cylindrical stator and on outer cylindrical stator. Gaps g1 and g3 defined by the outer walls of the rotor and the stator walls, and a gap g2 defined by the inner cylinder wall of the rotor and the stator wall during the rest of the pump are formed such that they increase with the distance from the rotor shaft center and g1>g2 and g1>g3 are satisfied. Thus, even if displacement occurs by the centrifugal force and thermal expansion during the operation of pump, predetermined gaps can be provided therebetween.

Abstract: A clearance between a rotor and a stator is adjusted by forming the outer peripheral surface of the rotor and the inner peripheral surface of the stator into a conical shape, and relatively moving the rotor and the stator in the thrust direction. When the rotor is rotatably supported by a magnetic bearing, the magnitude of the clearance between the rotor and the stator may be adjusted by offsetting the position at which the rotor is held in the thrust direction. The stator may be moved in the thrust direction by forming the bottom of the stator of electrostrictive material and expanding and contracting the electrostrictive member. When the outer peripheral surface of the rotor and the inner peripheral surface of the stator is cylindrical, the inner diameter of the stator may be increased and decreased by forming a part of the stator of electrostrictive material.