Inlet Pressure Patents (Class 417/44.3)
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Patent number: 11079402Abstract: Provided is an automatic analyzer that has a plurality of mechanisms including a mechanism that suctions reaction waste liquid and a mechanism that suctions cleaning liquid, etc. on a sample and a probe surface, the automatic analyzer reducing pressure in a vacuum tank using a pressure-reducing pump, etc., and suctioning waste liquid by negative pressure in the vacuum tank. A contact point of a vacuum switch that is provided in the vacuum tank is closed when the pressure in the vacuum tank reaches a specified negative pressure, and then the analyzer becomes ready for analysis. If any flow path portion of any mechanism that connects with the vacuum tank becomes clogged, suctioning operation cannot be performed properly and analysis performance is affected. The vacuum pump is switched off at a timing at which each solenoid valve connecting to the vacuum pump is individually opened, and the time that elapses before the pressure in the vacuum tank reaches the specified negative pressure is measured.Type: GrantFiled: January 23, 2019Date of Patent: August 3, 2021Assignee: HITACHI HIGH-TECH CORPORATIONInventors: Yudai Fukushi, Takamichi Mori
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Publication number: 20150078917Abstract: A converterless motor-driven pump system includes an off-grid prime mover. The off-grid prime mover has a rotational driveshaft and operates in response to a throttle control command to control a rotation speed of the rotational driveshaft. An electric power generator is driven by the off-grid prime mover to generate AC power. A variable speed induction motor is directly powered by the electric power generator. A pump that may be submersible is driven by the at least one variable speed induction motor. A system controller that may be local or remote is programmed to generate the throttle control command in response to one or more pump operating characteristics such that the off-grid prime mover, the electric power generator, and the variable speed induction motor together operate to regulate a pressure at the inlet of the electric pump.Type: ApplicationFiled: September 19, 2013Publication date: March 19, 2015Applicant: GENERAL ELECTRIC COMPANYInventors: David Allan Torrey, Deepak Aravind
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Patent number: 8444392Abstract: A method and apparatus is disclosed for determining pressure provided by a pump of a topical negative pressure (TNP) system. The method includes the steps of determining a value associated with a measured pressure, determining a difference between the measured pressure value and a predetermined desired value and increasing or decreasing a speed of pumping of the pump responsive the to difference.Type: GrantFiled: June 20, 2008Date of Patent: May 21, 2013Assignee: Smith & Nephew PLCInventors: Jake Turner, Stephen Jacob
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Publication number: 20130095745Abstract: A damper blade is moved within an air control module connected to the discharge of a high-velocity blower, thereby modulating the electric power consumption of the blower motor.Type: ApplicationFiled: December 7, 2012Publication date: April 18, 2013Inventor: FARHAD DAVLEDZAROV
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Patent number: 8348624Abstract: A method for controlling the motor of an air handling system to provide a desired output of flowing air therefrom while minimizing the power used by the motor, including operationally connecting a switched reluctance electric motor to a blower, operationally connecting an electronic controller to the switched reluctance electric motor, operationally connecting at least one sensor to the electronic controller, measuring at least one environmental parameter with the at least one sensor, inputting the desired air flow into the electronic controller, calculating the minimum motor speed necessary to provide the desired air flow, and sending a control signal from the electronic controller to the motor to control the motor to the minimum motor speed necessary to provide the desired air flow.Type: GrantFiled: February 12, 2010Date of Patent: January 8, 2013Assignee: Universal Blower Pac, Inc.Inventors: Andrew Carl Frey, Andrew Martin Placek
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Patent number: 8311691Abstract: An HV-ECU performs a step of detecting an atmospheric pressure, a step of calculating a maximum value of a boost voltage corresponding to the atmospheric pressure by using a map, and a step of setting the maximum value as a system voltage value and controlling a DC/DC converter. Moreover, the HV-ECU may calculate a resistance value of a gate resistance of a switching element corresponding to the atmospheric pressure by using the map and control the gate resistance to achieve the set resistance value.Type: GrantFiled: September 8, 2006Date of Patent: November 13, 2012Assignee: Toyota Jidosha Kabushiki KaishaInventor: Katsunari Matsumoto
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Patent number: 8210826Abstract: A liquid injection and ratio control system is provided for blending an additive into a main flow line at a controlled ratio. The system automatically detects variances in temperature, pressure, and additive concentration and provides compensation thereto. The system also provides for automatic flow detection, calibration responsive to a level gauge, automated data collection, and wireless bi-directional communication.Type: GrantFiled: April 15, 2006Date of Patent: July 3, 2012Inventor: William Freeman
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Patent number: 7758315Abstract: A system for automatically controlling a pumping unit used in fire suppression comprises a pumping unit, a water flow sensor and a pump controller. The pumping unit has a pump with a suction inlet configured to receive water from an upstream pumping unit and an engine to run the pump. The water flow sensor senses water flow into the suction inlet of the pumping unit. The pump controller receives a water flow sensor signal from the water flow sensor and controls an on/off state of the engine based on the water flow sensor signal.Type: GrantFiled: April 6, 2006Date of Patent: July 20, 2010Assignee: Ansul Canada LimitedInventor: Peter Moskun
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Publication number: 20100092307Abstract: Embodiments of methods and systems for monitoring of pumps are provided. According to one embodiment of the invention, there is disclosed a method for determining operating states of pumps. The method may include receiving, by a controller from a first sensor communicating with a first pump, a first vibration measurement. Further, the method may include receiving, by the controller from a second sensor communicating with a second pump, a second vibration measurement. Operating states of the first pump and the second pump may be thus determined based at least in part on comparing the first vibration measurement to a first operating condition and comparing the second vibration measurement to a second operating condition. A control action may be transmitted responsive to determining the respective operating states of the first pump and the second pump.Type: ApplicationFiled: October 13, 2008Publication date: April 15, 2010Applicant: General Electric CompanInventors: Olga Malakhova, John Wesley Grant
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Patent number: 6902378Abstract: A vacuum system comprises, as an integral assembly, a vacuum pump with drive motor, a purge valve, a roughing valve and an electronic control module. A cryogenic vacuum pump and a turbomolecular vacuum pump are disclosed. The control module has a programmed processor for controlling the motor and valves and is user programmable for establishing specific control sequences. The integral electronic control module is removable from the assembly and is connected to the other devices through a common connector assembly. In the turbomolecular pump system proper introduction of a purge gas through the purge valve is detected by detecting the current load on the pump drive or by detecting foreline pressure. To test the purge gas status, the purge valve may be closed and then opened as drive current or pressure is monitored. After power failure, the controller will continue normal drive of the turbomolecular pump so long as the speed of the pump has remained above a threshold value.Type: GrantFiled: March 8, 2002Date of Patent: June 7, 2005Assignee: Helix Technology CorporationInventors: Peter W. Gaudet, Robert J. Lepofsky, Alan L. Weeks, Gerald J. Fortier, Stephen R. Matté, Martin Stein, Steven C. Rosner
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Patent number: 6893227Abstract: A method and apparatus which provides a pressure sensor and/or temperature sensor connected to the low pressure side of a refrigeration system, or the discharge line of a scroll compressor. When the scroll compressor rotates backward, the change of pressure or temperature immediately sends a signal to work with a time-delay relay and a normally closed relay to immediately cut off the electrical power supply to the compressor. Thus, causing the scroll compressor to stop rotating in the undesirable direction.Type: GrantFiled: March 21, 2002Date of Patent: May 17, 2005Assignee: Kendro Laboratory Products, Inc.Inventor: Chuan Weng
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Publication number: 20030006891Abstract: A vacuum chamber (22) of a pneumatically operated servo unit (30) of a motor vehicle is subjected to vacuum by an electric suction pump (28). In order to monitor the vacuum chamber (22) and the electric suction pump (28), the invention proposes that a starting pressure in the vacuum chamber (22) be determined. In addition, after a certain time interval, an ending pressure in the vacuum chamber (22) is determined. Furthermore, the difference between the ending pressure and the starting pressure is calculated and compared to a limit value. If this difference falls below the limit value, a signal is generated, in particular a warning and/or alarm signal.Type: ApplicationFiled: April 1, 2002Publication date: January 9, 2003Inventors: Ernst Wild, Kristina Eberle, Lutz Reuschenbach
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Patent number: 6487903Abstract: A method and system for determining pump cavitation is disclosed. In accordance with the principle of the invention, changes in dynamic fluid pressure within a pump are monitored and compared to a determined cavitation alarm pressure. The determined cavitation pressure is determined as a known percentage of a known non-cavitation pressure. Fluid cavitation is determined when the change in dynamic fluid pressure falls below the determined cavitation alarm pressure. In a further aspect of the invention, a remaining mechanical seal operational life can be determined by maintaining a total time of fluid cavitation and reducing the expected life by the known operational time of the pump and the time the pump is in cavitation.Type: GrantFiled: April 24, 2001Date of Patent: December 3, 2002Assignee: ITT Manufacturing Enterprises, Inc.Inventors: Eugene P. Sabini, Jerome A. Lorenc, Oakley Henyan, Kenneth L. Hauenstein
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Patent number: 6461113Abstract: A vacuum system comprises, as an integral assembly, a vacuum pump with drive motor, a purge valve, a roughing valve and an electronic control module. A cryogenic vacuum pump and a turbomolecular vacuum pump are disclosed. The control module has a programmed processor for controlling the motor and valves and is user programmable for establishing specific control sequences. The integral electronic control module is removable from the assembly and is connected to the other devices through a common connector assembly. In the turbomolecular pump system proper introduction of a purge gas through the purge valve is detected by detecting the current load on the pump drive or by detecting foreline pressure. To test the purge gas status, the purge valve may be closed and then opened as drive current or pressure is monitored. After power failure, the controller will continue normal drive of the turbomolecular pump so long as the speed of the pump has remained above a threshold value.Type: GrantFiled: December 3, 1999Date of Patent: October 8, 2002Assignee: Helix Technology CorporationInventors: Peter W. Gaudet, Robert J. Lepofsky, Alan L. Weeks, Gerald J. Fortier, Stephen R. Matté, Martin Stein, Steven C. Rosner
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Patent number: 6186744Abstract: A device for measuring and automatically controlling the volumetric rate of air through an air handling system used in connection with clean rooms. A desired volumetric air rate is maintained by measuring air pressure differentials between different locations in the system. The volumetric air rate is adjusted by using a variable frequency drive to adjust the speed of the fan in response to a measured pressure differential.Type: GrantFiled: June 15, 1998Date of Patent: February 13, 2001Assignee: Synetics Solutions Inc.Inventor: Mark C. Wolochuk