Patents Examined by Leonard J Weinstein
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Patent number: 7540718Abstract: A hermetic compressor comprises a hermetic container, an electric motor installed inside of the hermetic container, a compressing mechanism disposed within the hermetic container and driven by the electric motor, and an oil surface detector disposed to the compressing mechanism for detecting an oil surface of lubricating oil contained inside of the hermetic container. Here, the hermetic compressor is so constructed as to maintain a constant supply of the lubricating oil to the compressing mechanism by way of controlling operation in a manner to keep a surface level of the lubricating oil stable based on a detected result of the oil surface detector.Type: GrantFiled: April 12, 2005Date of Patent: June 2, 2009Assignee: Panasonic CorporationInventors: Hitoshi Funami, Katsunori Onobayashi
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Patent number: 7540719Abstract: A power transmission for a compressor includes a driven member rotable by an engine. The power transmission includes a drive member rotable coaxially with the driven member to rotate a shaft of a compressor for regulating displacement of the compressor. The power transmission includes a link interconnecting the driven member and the drive member with each other in a crossing direction relative to the drive shaft. The link is disengageable from one member of the driven member and the drive member.Type: GrantFiled: October 20, 2003Date of Patent: June 2, 2009Assignee: Calsonic Kansei CorporationInventor: Yukio Umemura
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Patent number: 7530795Abstract: A fluid control mechanism includes a laser irradiation control unit to control irradiation of a light beam generated by a laser generation unit, and a liquid tank, having at least one liquid passing port and a lens to collect the light beam in the liquid tank, to hold liquid. The laser irradiation control unit emits the light beam to the lens to collect the light beam by the lens, thereby causing thermal expansion of the liquid in the liquid tank, to control inflow/outflow of the liquid via the liquid passing port.Type: GrantFiled: June 10, 2004Date of Patent: May 12, 2009Assignee: Canon Kabushiki KaishaInventor: Hirohito Ito
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Patent number: 7527595Abstract: A diaphragm is provided in a pump case so as to define a pump chamber communicated with an external member having an air chamber. The actuator is provided in the pump chamber. An exhaust valve is provided with a valve body, formed with a slit through which air the pump chamber is exhausted, and a screw member, screwed into a first wall of the pump case to adjust an opening amount of the slit by a screwed amount thereof, thereby adjusting an exhausting rate of the air in the pump chamber. The pump case is formed with a ventilation hole communicated with the pump chamber to allow the air exhausted from the slit to pass through.Type: GrantFiled: June 30, 2004Date of Patent: May 5, 2009Assignee: Mitsumi Electric Co., Ltd.Inventor: Kenichi Hori
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Patent number: 7520736Abstract: A cover assembly for covering a vessel comprising a main cover comprising at least a first outlet opening adapted for connection to a pipe, and a second opening surrounded by a flat region adapted for placement of a gasket; an access cover comprising a flat region adapted for mating with the flat region of the main cover; and provisions for the sealing of at least one cord passing between the main cover and the access cover. In other embodiments, the cover assembly is provided with an engagement feature adapted for engagement with a hook-shaped hanger rod. Sewage basin assemblies are also provided which incorporate these cover assemblies.Type: GrantFiled: March 29, 2005Date of Patent: April 21, 2009Assignee: Liberty Pumps Inc.Inventor: Donald M. Pohler
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Patent number: 7497670Abstract: A reciprocating fluid transfer pump in which a pilot valve assembly block can be mounted to a main body block in a simple, easy and reliable manner. In the reciprocating fluid transfer pump, a fluid, which has been suctioned into a fluid delivering chamber (19), is discharged therefrom by causing an expanding and contracting action of a barrier membrane (6) which is attached to either end of a center rod (5). The center rod is capable of reciprocating with respect to the main body block (2). A peripheral portion of the barrier membrane (6) is clamped fixedly to the main body block (2) via a main ring (30), and a pilot valve assembly block (17) having an integrated pilot valve (16) for detecting the reciprocating motion of the center rod (5) is pressed against and thus fixedly secured to the main ring (30) via a sub ring (34).Type: GrantFiled: December 8, 2003Date of Patent: March 3, 2009Assignee: Yamada CorporationInventor: Shigeru Murata
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Patent number: 7497671Abstract: By adopting a construction in which a first balance weight is provided at the side end portion of the eccentric shaft portion of the auxiliary shaft portion and a second balance weight is provided at the side end portion of the eccentric shaft portion of the main shaft portion, it becomes possible to provide sufficient first balance weight and second balance weight, without spoiling the compact size of the compressor, thus enabling the reduction of noise and vibrations.Type: GrantFiled: May 18, 2004Date of Patent: March 3, 2009Assignee: Panasonic CorporationInventors: Takashi Kakiuchi, Takeshi Kojima
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Patent number: 7462020Abstract: A concrete pump with a pivoting valve and hopper assembly is provided with a novel wear plate and wear ring. The wear plate is mounted on the frame of the pump and remains mounted on the frame as the valve and hopper assembly pivots between open and closed positions. When the valve and hopper assembly is open, the wear plate is accessible for examination and replacement. The hopper is provided with an opening through which the wear plate extends when the valve and hopper assembly is closed. A seal on the hopper around the opening sealingly engages the frame. A wear ring on the valve engages the wear plate when the valve and hopper assembly is closed. A cam plate on each side of the frame is engageable with the valve and hopper assembly as the assembly pivots to a closed position to ensure alignment between the valve and hopper assembly and the frame.Type: GrantFiled: May 28, 2004Date of Patent: December 9, 2008Assignee: Reinert Manufacturing Inc.Inventor: Gerald H. Reinert
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Patent number: 7452191Abstract: According to the invention, a vacuum pump is disclosed comprising a screw-rotor pump having a compression section (8) and an expansion section (7), and wherein a discharge (10) from the compression section communicates with at least one ejector (1) for discharge of compressed gas through the ejector, and wherein the expansion section (7) is connectable via a first valve means (5), to a drive-gas source (P) for operating the screw,-rotor pump and the ejector in parallel. Also, a method for providing sub-pressure to an industrial process is disclosed wherein at least one ejector (1) is used initially to reduce the pressure to a predetermined lower level, from where the pressure is further reduced by means of a screw-rotor pump (7, 8) that is arranged to operate through, and in parallel with the ejector.Type: GrantFiled: April 29, 2003Date of Patent: November 18, 2008Assignee: PIAB ABInventor: Peter Tell
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Patent number: 7445429Abstract: A hydrocarbon well pump has impellers and diffusers configured with inner and outer sections. The central section contains impeller passages configured for pumping liquid. The outer section contains turbine blades for compressing gas. A cylindrical sidewall separates the two sections. A driven shaft rotates the central and outer sections in unison.Type: GrantFiled: April 14, 2005Date of Patent: November 4, 2008Assignee: Baker Hughes IncorporatedInventors: Brown Lyle Wilson, Donn J. Brown
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Patent number: 7442014Abstract: A fluid transfer systems described herein. The fluid transfer system generally includes a centrifugal multistage pump, a holding tank for holding the fluid operably connected to the pump body via a first conduit, an inlet for receiving the fluid, wherein the fluid is pressurized to form the pressurized fluid, a manifold for passing the pressurized fluid to a second location and an outlet for receiving fluid operably connected to the manifold.Type: GrantFiled: October 28, 2004Date of Patent: October 28, 2008Inventors: Paul Craig Mellinger, Melvyn Wayne Mellinger, Mark Wayne Mellinger, Case Crowther
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Patent number: 7442012Abstract: Improvements to a compressor which consists in that, as soon as the measured outlet temperature (TO) reaches a certain hysteresis upper temperature limit (HMAX), the actual rotational speed of the compressor element is either lowered with a speed jump (DS) when the measured rotational speed is situated in the higher speed range close to the maximum rotational speed (SMAX), or is increased with a speed jump (DS) when the measured rotational speed is situated in the lower speed range close to the minimum rotational speed (SMIN).Type: GrantFiled: July 24, 2003Date of Patent: October 28, 2008Assignee: Atlas Copco Airpower, naamloze vennootschapInventor: Erik Eric Daniƫl Moens
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Patent number: 7413417Abstract: In a motor vehicle drive arrangement oil is supplied to a drive gear mechanism and other drive elements by an oil pump which is driven only by an electric motor and is arranged in a space in which one or more torque transmission devices such as a hydrodynamic torque converter, an operable drive clutch and at least one electric motor for forming a hybrid drive are disposed and which is formed between the oil pump and electric motor, on the one hand, and the vehicle travel drive motor on the other, the oil pump is disposed around a shaft transmitting the drive torque to the transmission and is surrounded by the electric motor driving the pump.Type: GrantFiled: April 20, 2005Date of Patent: August 19, 2008Assignee: Daimler AGInventors: Andreas Klaus, Tobias Ostertag
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Patent number: 7410348Abstract: A pumping/compressing apparatus for use in a fluid handling system transferring a fluid from one location, e.g., a tank, to another location or to an end use is provided. The apparatus basically includes a motor and a multistage, e.g., two stage, device including at least one reciprocating piston, an inlet stage chamber, an outlet stage chamber, an inlet, and an outlet. The piston is arranged to be reciprocated at multiple, e.g., respective first and second, speeds. The second speed is higher than the first speed, whereupon when the piston is reciprocated at the first speed the device effectively pumps liquid or mostly liquid to the outlet. When the piston is reciprocated at the second speed the device effectively compresses gas or mostly gas fluid and provides it to the outlet. A blowby port may be provided to provide blowby fluid back to the tank or the device.Type: GrantFiled: August 3, 2005Date of Patent: August 12, 2008Assignee: Air Products and Chemicals, Inc.Inventors: David Jonathan Chalk, David John Farese
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Patent number: 7396215Abstract: A water pump comprises a pump body, a cylindrical supporting portion, a pulley, a shaft portion, an impeller, a seal member, a pulley cylinder portion, a wall portion, a through-hole formed, a cover covering the wall portion and the pulley cylinder portion of the pulley from one side of the pulley, and the cover formed in a cylindrical shape with a bottom portion and including a reservoir for receiving fluid that has leaked through the seal member.Type: GrantFiled: April 13, 2005Date of Patent: July 8, 2008Assignee: Aisin Seiki Kabushiki KaishaInventors: Yasuo Ozawa, Yojiro Koga, Atsushi Chiba, Itsuro Hashiguchi
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Patent number: 7381035Abstract: A pump for use with a dispensing unit of a liquid hot melt adhesive system, dispensing units including the pump, and a method of operating a pump for pumping a liquid like liquid hot melt adhesive. The pump has a piston movable within a pumping chamber for transferring liquid from an inlet to an outlet. A valve body, which is resiliently biased relative to the piston, is moved out of contact with the inlet when the piston moves in a first direction and into contact with the inlet when the piston moves in a second direction. When the piston is moved in the first direction, the resilient biasing actively lifts the valve body out of contact with the inlet for overcoming any attractive adhesive force acting between the valve body and inlet.Type: GrantFiled: February 11, 2005Date of Patent: June 3, 2008Assignee: Nordson CorporationInventor: John Matthew Riney
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Patent number: 7377756Abstract: A diaphragm is provided in a pump case so as to define a pump chamber communicated with an external member having an air chamber. A motor actuates the diaphragm to introduce air to the air chamber. An exhaust valve exhausts air in the pump chamber to lower a pressure in the air chamber. In the exhaust valve, an exhaust port is communicated with the pump chamber. A flexible valve body having a larger size than the exhaust port is disposed so as to close the exhaust port from a side facing the pump chamber. An actuator is disposed in an opposite side to the valve body relative to the exhaust port, and driven by the motor so as to be movable between a first position retracted from the exhaust port and a second position passing through the exhaust port so that the valve body is actuated so as to open the exhaust port. An urging member always urges the actuator to the first position thereof.Type: GrantFiled: November 30, 2004Date of Patent: May 27, 2008Assignee: Mitsumi Electric Co., Ltd.Inventor: Kenichi Hori
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Patent number: 7371056Abstract: A fluid pump includes a case including a pump chamber, a reserve tank for storing spare liquid and located in the case but outside the pump chamber and formed so that a space independent of the pump chamber is defined by the reserve tank, a fluid path forming member arranged inside the reserve tank and including a discharge path communicating between a discharge port and the pump chamber, and a communication hole which is formed in a side of the fluid path forming member so as to assume such a position that the communication hole faces an inside of the reserve tank so that the hole communicates between the discharge path and the inside of the reserve tank, the communication hole being sized so that air in the pump chamber is allowed to flow through the hole into the reserve tank.Type: GrantFiled: March 30, 2005Date of Patent: May 13, 2008Assignee: Kabushiki Kaisha ToshibaInventors: Kenichi Ito, Katsuya Seko, Kentaro Tomioka, Tomonao Takamatsu, Fumihide Nagashima, Takahiro Kojima
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Patent number: 7364409Abstract: A piston assembly for a hydraulic machine is formed with a part spherical cavity in the piston to receive a spherical bearing of a slipper assembly. The spherical bearing is secured in the cavity by swaging the walls of the piston and subsequently working the wall to provide a clearance to allow relative rotation.Type: GrantFiled: February 11, 2004Date of Patent: April 29, 2008Assignee: Haldex Hydraulics CorporationInventor: George Kadlicko
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Patent number: 7354252Abstract: A pressure intensifier for fluids has an intensifier piston with a high-pressure piston and a low-pressure piston having a greater diameter than the high-pressure piston. The pistons are moveable in a high-pressure cylinder and a low-pressure cylinder, respectively, and move together. The high-pressure cylinder is connected to a high-pressure connection. A first control line is connected to a supply connector. A second control line is connected to a control valve having first and second switching positions. A first connection connects the control lines. The low-pressure cylinder is connected via the control valve in the first switching position to a supply connector and in the second switching position to a return connector. The switching positions are controlled by the intensifier piston. The intensifier piston opens or closes the first connection between the control lines. The first connection is arranged completely within a movement stroke of the high-pressure piston.Type: GrantFiled: October 22, 2003Date of Patent: April 8, 2008Assignee: miniBooster Hydraulics A/SInventors: Johannes V. Baatrup, Christen Esperson