Patents Examined by Geoffrey S Lee
-
Patent number: 11976663Abstract: A vacuum pump includes: a casing formed with an inlet port or outlet port; a stator disposed inside the casing; and a rotor enclosed in the casing and including a shaft rotatably supported on the stator, and a rotor blade formed in a cylindrical shape with a plurality of blades arranged in multiple stages on an outer circumferential portion thereof, and secured to the shaft such as to be integrally rotatable therewith. The rotor blade is provided with a rupture location control groove as a rupture location control means that locally reduces rigidity of the rotor blade to control a location where the rotor blade ruptures.Type: GrantFiled: July 10, 2020Date of Patent: May 7, 2024Assignee: Edwards Japan LimitedInventor: Shunsuke Takeda
-
Patent number: 11971032Abstract: A vane rotary compressor may include a main bearing and a sub bearing provided with a plurality of back pressure pockets each having a different pressure formed on a surface facing the cylinder, a rotational shaft radially supported by the main bearing and the sub bearing, a roller provided with a back pressure chamber that communicates with the plurality of back pressure pockets and having a plurality of vanes configured to divide a compression space into a plurality of compression chambers. At least one of the main bearing or the sub bearing is provided with an oil supply passage that communicates with a back pressure pocket having a relatively low pressure among the plurality of back pressure pockets. Accordingly, oil may be smoothly supplied to a back pressure pocket having a low pressure.Type: GrantFiled: October 17, 2022Date of Patent: April 30, 2024Assignee: LG ELECTRONICS INC.Inventors: Kiyoul Noh, Seokhwan Moon, Joonhong Park
-
Patent number: 11973381Abstract: A fluid machine includes an electric motor, a pump, an inverter, and a housing having a motor chamber and an inverter chamber. The housing has a cooling passage having an inverter cooling passage and a motor cooling passage through which cooling fluid flows. After the cooling fluid is introduced to the inverter cooling passage, a flow of the cooling fluid is divided at the inlet into a flow of the cooling fluid flowing through the inverter cooling passage and a flow of the cooling fluid flowing through the motor cooling passage, the flow of the cooling fluid flowing through the inverter cooling passage and the flow of the cooling fluid flowing through the motor cooling passage are joined together at the outlet and discharged from the inverter cooling passage. The inverter cooling passage has a passage expanded portion in which a vortex flow is generated.Type: GrantFiled: January 26, 2022Date of Patent: April 30, 2024Assignee: KABUSHIKI KAISHA TOYOTA JIDOSHOKKIInventors: Katsutoshi Shiromaru, Tatsushi Mori, Rieko Harada, Shintaro Kashiwa
-
Patent number: 11965513Abstract: A system and method for operating centrifugal pumps related to net positive suction head (NPSH), including identifying a group of centrifugal pumps and deriving an equation for the group based on manufacturer data of the centrifugal pumps collectively in the group, the equation correlating NPSH required (NPSHr) with flowrate of pumped fluid, wherein the manufacturer data includes NPSHr for each centrifugal pump of the group as a function of the flowrate of the pumped fluid. The technique includes specifying a NPSH margin for NPSH available (NPSHa) above the NPSHr.Type: GrantFiled: September 14, 2021Date of Patent: April 23, 2024Assignee: Saudi Arabian Oil CompanyInventors: Khalid Alkad, José Rosario Leal Vargas
-
Patent number: 11965498Abstract: A method for operating a pressure control system having a multistage compressor includes outputting, by the multistage compressor in order to fill a pressure medium store or pressure medium chambers of the pressure control system, a pressure medium compressed multiple times. Outputting the pressure medium compressed multiple times includes providing, by a first compression stage, a precompressed pressure medium and further compressing, by a second compression stage, the precompressed pressure medium to form a compressed pressure medium and then outputting the compressed pressure medium. Alternatively, outputting the pressure medium compressed multiple times includes providing a compression pressure medium, which is obtained from additional compression of an already compressed charge pressure medium from the pressure medium reservoir or the pressure medium chambers of the pressure control system, wherein the compression pressure medium is output without additional compression by the second compression stage.Type: GrantFiled: April 11, 2018Date of Patent: April 23, 2024Assignee: ZF CV SYSTEMS EUROPE BVInventors: Joerg Scharpenberg, Uwe Stabenow
-
Patent number: 11898565Abstract: A vacuum pump which can prevent lowering of an exhaust performance of the vacuum pump, even if a linked-type thread groove spacer is fastened by a fixing bolt, is provided. The linked-type thread groove spacer according to an embodiment of the present invention includes a structure for linking a Siegbahn pump portion and a thread-groove pump portion. When this linked-type thread groove spacer is to be fastened, a countersunk hole is provided in advance in an exhaust channel portion, and the linked-type thread groove spacer is fastened to a base by a fixing bolt. As a result, a head part of the fixing bolt does not protrude to the exhaust channel, and the head part of the fixing bolt does not make resistance against an exhaust gas. Thus, lowering of the exhaust performance of the vacuum pump can be suppressed.Type: GrantFiled: May 22, 2020Date of Patent: February 13, 2024Assignee: Edwards Japan LimitedInventors: Kengo Saegusa, Nahoko Yoshihara, Yoshinobu Ohtachi
-
Patent number: 11867187Abstract: A vacuum pump comprises: a rotor cylindrical portion; a motor configured to rotate the rotor cylindrical portion; a stator cylindrical portion, the rotor cylindrical portion and the stator cylindrical portion together forming a screw groove pump; a base housing the rotor cylindrical portion and the stator cylindrical portion; a heater configured to heat the base or the stator cylindrical portion; a cooling device attached to the base; and a cover member arranged at an outer peripheral side of the stator cylindrical portion and an outer peripheral side of the base, covering the base through an air insulating layer, and contacting the cooling device.Type: GrantFiled: March 22, 2022Date of Patent: January 9, 2024Assignee: Shimadzu CorporationInventor: Tomoki Yasuda
-
Patent number: 11852130Abstract: A pump system contains a pair of pumps each of which contains a vibration actuator vibrated by electromagnetic drive and can discharge fluid due to drive of the vibration actuator. The pump system has a vibration suppression mode in which the pair of the pumps are driven so that vibration of the vibration actuators of the pair of pumps is cancelled each other and a vibration generation mode in which the pair of the pumps are driven so that the vibration of the vibration actuators of the pair of pumps is superimposed with each other.Type: GrantFiled: March 23, 2022Date of Patent: December 26, 2023Assignee: MINEBEA MITSUMI INC.Inventors: Yuta Yoshii, Chikara Sekiguchi, Shigenori Inamoto, Yuki Takahashi, Daisuke Kodama, Kenta Ueda, Takahiko Irie, Daisuke Kurita
-
Patent number: 11846290Abstract: A method of operating a system (16) for pumping a fluid, which system comprises a pump (17) comprising a suction side (18) and a discharge side (19); a motor (20) for driving the pump, which motor is drivingly connected to the pump via a shaft; a recirculation conduit (23) providing a fluid path for the fluid from the discharge side to the suction side of the pump; and a control valve controlling the flow of the fluid through the recirculation conduit, which method comprises the steps of: mapping a plurality of minimum torque diagrams for the pump, where each minimum torque diagram identifies the minimum allowable torque of the pump as a function of an operational parameter of the pump, e.g.Type: GrantFiled: August 12, 2019Date of Patent: December 19, 2023Inventor: Karen Todal
-
Patent number: 11841009Abstract: A hydrostatic machine comprising a stator and a rotor. The stator comprises an inner cylindrical surface with a constant diameter and a cam ring comprising a cam track on the inner circumference thereof, the outer circumference of the cam ring being mounted in the aforementioned inner cylindrical surface. The hydrostatic machine also comprises two bearings that allow the rotation of the rotor in relation to the stator and that are mounted on the inner cylindrical surface of the stator, axially on either side of the cam ring, the cam ring and the two bearings having the same outer diameter.Type: GrantFiled: July 3, 2019Date of Patent: December 12, 2023Inventor: Laurent Eugene Albert
-
Patent number: 11802568Abstract: A vacuum pump includes a linked-type thread-groove spacer which is a structure for linking a Siegbahn pump portion and a thread-groove pump portion, and when an outlet position of a thread groove which is an exhaust channel portion of this linked-type thread-groove spacer is in a vicinity of the stator portion (stator bolt) of the stator column, conductance of the exhaust channel is lowered. Thus, phases in a circumferential direction of installation positions of a thread ridge of the linked-type thread-groove spacer and the stator portion of the stator column are aligned as much as possible. In other words, the thread groove of the linked-type thread-groove spacer which is the exhaust channel is provided between the installation positions of the stator portions in the circumferential direction of the stator column so that lowering of the conductance of the exhaust channel is suppressed.Type: GrantFiled: July 10, 2020Date of Patent: October 31, 2023Assignee: Edwards Japan LimitedInventors: Shunsuke Takeda, Yoshiyuki Sakaguchi
-
Patent number: 11802566Abstract: A tank for transporting and spraying a liquid having a plurality of walls forming a receptacle configured to receive the liquid and a pump system supported by at least one of the plurality of walls. The pump system has a liquid end and a power frame with at least a portion of the power frame being disposed in the receptacle. In some implementations, the tank has a reservoir disposed in proximity to one of the plurality of walls. The reservoir provides a working fluid to the portion of the power frame disposed in the receptacle.Type: GrantFiled: February 23, 2021Date of Patent: October 31, 2023Inventor: Roger Hayes
-
Patent number: 11781542Abstract: A mechanical rod rotator assembly comprising a mechanical rod rotator and an actuating mechanism for a mechanical pumping rod rotator, wherein the mechanism comprises a connecting arm and a guide member that slidably embraces the pumping rod, in order to allow a pivoting lever that is in connection with said connecting arm, to interact with the internal mechanism of the rod rotator to gradually rotate the pumping rod and thus avoid impartial wear caused by the constant up and down reciprocating movement of the same within the well, being in turn that the mechanism of the invention does not require special tools for its assembly and installation.Type: GrantFiled: May 5, 2022Date of Patent: October 10, 2023Assignee: DALTEC OIL TOOLS SRLInventors: Nicolás Gayubas, Martin Ruiz Palero
-
Patent number: 11767851Abstract: A magnetic bearing control apparatus and a vacuum pump which do not require a displacement sensor, which enable control with high accuracy, and which are small and low cost. A rate of change (di/dt) that is a time derivative of a current value Im flowing through an electromagnet varies in accordance with a magnitude of a displacement of a gap between a target member and the electromagnet. The rate of change (di/dt) can be obtained by detecting a voltage value Vs that is generated at both ends of an inductive element. Therefore, by detecting the voltage value Vs, the magnitude of the displacement of the gap can be estimated by calculation. Inductive elements are connected in series to electromagnets and the voltage Vs between the inductive elements is detected by the differential input amplifier. A single period of switching of a PWM switching amplifier is constituted by a current control period of the electromagnet and a displacement detection period for detecting the rate of change (di/dt).Type: GrantFiled: November 5, 2018Date of Patent: September 26, 2023Assignee: Edwards Japan LimitedInventor: Masayuki Yamamoto
-
Patent number: 11761437Abstract: A piston of an air compressor is actuated by a motor to move in a cylinder. The piston includes a head, an air stop sheet having a first bending section which is a boundary line of an acting area and a positioning zone of the air stop sheet, and a back surface of the acting zone backing the top of the cylinder bends relative to a plane of a top of the head at an open angle. The acting zone has a noncircular spacing groove, a neck, and a second bending section. The head includes a piston rod having a cavity, an air conduit, a column, and a spring. The air stop sheet is forced by the spring to locate in the acting zone backing the cylinder and a plane of a top of the head at an open angle.Type: GrantFiled: March 30, 2022Date of Patent: September 19, 2023Inventors: Wen-San Chou, Cheng-Hsien Chou
-
Patent number: 11754083Abstract: A motor for a fan, a ventilator, a pump or a compressor includes integrated motor electronics and at least one sensor unit for pressure or volume flow control. The at least one sensor unit may be a module that can be plugged onto or into the integrated motor electronics or may be at least partly integrated into the motor electronics. The motor may be an electronically commutated motor. The integrated motor electronics may be configured to supply the at least one sensor unit with energy.Type: GrantFiled: September 20, 2016Date of Patent: September 12, 2023Assignee: ZIEHL-ABEGG SEInventors: Sven Hofmann, Ruben Kollmar
-
Patent number: 11754065Abstract: A peristaltic pump can include a chassis and a chassis retaining portion forming a cavity. The pump can also include a rotor, a cover, and a linkage. The rotor can be disposed within the cavity such that tubing can be held between the rotor and the chassis and/or the chassis retaining portion. The linkage can couple the cover to the chassis. The linkage can include an arm. When opening the cover, the arm can pivot such that the chassis moves away from the chassis retaining portion to widen the cavity. When closing the cover, the arm can pivot such that the chassis moves toward the chassis retaining portion. When closed, a stop can restrict further movement of a corresponding member toward the chassis retaining portion.Type: GrantFiled: April 16, 2021Date of Patent: September 12, 2023Assignee: Blue-White Industries, Ltd.Inventors: John T. Nguyen, Robert E. Gledhill, III
-
Patent number: 11746771Abstract: The invention relates to an actuator valve 136 of an air operated double diaphragm pump 100. The actuator valve 136 includes a valve housing 138, an inlet 142 for receiving air, a first set of ports 144a,144b for exchanging the air with air chambers 132a,132b, and a second set of ports 146a,146b for exhausting the air received from the air chambers 132a,132b into the atmosphere. The actuator valve 136 further includes a valve piston 148 accommodated within the valve housing 138. The valve piston 148 is configured to reciprocally slide within the valve housing 138 and has a bore 152 at one end. The actuator valve 136 further includes an end plate 156a,156b at each end of the valve housing 138, and has a boss 158 at the corresponding end. The boss 158 and the bore 152 are arranged such that the boss 158 mates with the bore 152.Type: GrantFiled: June 15, 2021Date of Patent: September 5, 2023Inventor: Terence Valentine DCunha
-
Patent number: 11739745Abstract: A micropump system (100) for a compressible fluid (102) includes a plurality of micropumps (110), rigid flow duct elements (120), a control unit (130), and one or two printed circuit boards (140). The micropumps have an intake opening (112) and an outlet opening (114). The rigid flow duct elements are connected to a respective micropump via a respective, elastically sealed port (122) and with the micropumps form a flow path (104) for the fluid. The one or two printed circuit boards are arranged and configured to electrically connect the control unit to the plurality of micropumps. Each micropump is rigidly fastened to the one or two printed circuit boards via a respective fastening device. A pressure build-up of the fluid flowing through the plurality of micropumps during the use, which is cascaded due to the plurality of micropumps, is provided at a system outlet (106) of the micropump system.Type: GrantFiled: June 25, 2020Date of Patent: August 29, 2023Assignee: Drägerwerk AG & Co KGaAInventor: Hans-Ullrich Hansmann
-
Patent number: 11742191Abstract: Within an ion pump, accelerated ions leave the center portion of an anode tube due to the anode tube symmetry and the generally symmetrical electric fields present. The apparent symmetry within the anode tube may be altered by making the anode tube longitudinally segmented and applying independent voltages to each segment. The voltages on two adjacent segments may be time varying at different rates to achieve a rasterizing process.Type: GrantFiled: June 28, 2021Date of Patent: August 29, 2023Assignee: Hamilton Sundstrand CorporationInventors: Ben D. Gardner, David E Burchfield