Expansible Chamber Pump Distributor Operation Modified Patents (Class 417/297)
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Patent number: 6120260Abstract: A fluid pumping apparatus (10) includes a soft start valve (16) coupled with the outlet of a pump (14) driven by an electric motor (12) for reducing the startup current of the motor (12). The preferred valve (16) includes a fluid chamber (32), a valve operator in the nature of a ball (22) shiftable in the chamber (32) between the inlet (36) and a valve seat (48), and a biasing assembly (24) including an axially shiftable rod (54) and a spring (56) for biasing the rod (54) against the ball (22) in order to bias the ball (22) toward the chamber inlet (36). Upon startup, the valve (16) provides a reduced start pressure, less than the pump pressure under load, at the inlet (36) as the operator (22) moves toward the seat (48). The chamber (32) presents a volume sufficient for the valve (16) to provide the start pressure long enough for the motor (12) to achieve synchronous speed, thereby reducing motor startup current.Type: GrantFiled: March 4, 1999Date of Patent: September 19, 2000Assignee: SPX CorporationInventor: James E. Jirele
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Patent number: 6109885Abstract: A vacuum system, particularly for vacuum grippers, has a fluid entrainment pump for generating the vacuum which, when the required vacuum is built up, is supplied with a throttled compressed-air flow. For the throttling of the compressed-air flow, a controlled throttle device is used which, as a function of the detected vacuum value, throttles the compressed-air flow to the fluid entrainment pump when the desired vacuum value has been reached or exceeded.Type: GrantFiled: July 27, 1998Date of Patent: August 29, 2000Assignee: Schuler Pressen GmbH & Co.Inventors: Michael Micklisch, Guenter Cieslok
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Patent number: 6077052Abstract: A system and method for controlling the temperature of the compressed fluid flowing through a compressor aftercooler. The system includes a compression module flow connected to an aftercooler and at least one repositionable fluid flow regulating member upstream from the aftercooler for modifying the volume of ambient fluid supplied across the aftercooler. The system further includes a temperature sensor for sensing the ambient temperature, and an actuator connected to the at least one fluid flow regulating member. A controller is in signal receiving relation with the temperature sensor and is in signal transmitting relation with the actuator. If the sensed ambient temperature is outside a predetermined range, a repositioning signal is sent by the controller to the actuator, extending or retracting the actuator the amount required to achieve the required fluid flow rate across the aftercooler and thereby maintain the desired aftercooler fluid discharge temperature for the ambient operating temperatures.Type: GrantFiled: September 2, 1998Date of Patent: June 20, 2000Assignee: Ingersoll-Rand CompanyInventors: John T. Gunn, Devin D. Biehler
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Patent number: 6062826Abstract: A pulsating vibration air generator in which wave height, frequency and wave shape of the pulsating vibration air can be optionally modified and such pulsating vibration air can be periodically and continuously emitted. The pulsating vibration air generator has a valve chamber with an inlet port and an outlet port where a valve plug and a valve seat with a control opening are provided and a cam mechanism which moves the valve plug to open or close the opening of the valve seat, whereby positive or negative pulsating vibration air is emitted from the outlet port while pressurized air is supplied into the inlet port or air is sucked from the inlet port.Type: GrantFiled: September 16, 1996Date of Patent: May 16, 2000Assignees: Kyowa Hakko Kogyo Co., Ltd., Kabushikikaisha Matsui SeisakushoInventors: Kiyoshi Morimoto, Yasushi Watanabe, Yoshika Sanada, Sanji Tokuno, Kazue Murata
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Remote steering system with a single rod cylinder and manual hydraulic piston pump for such a system
Patent number: 6055809Abstract: A hydraulic piston pump 1 includes a distributing valve 11 having a pair of arcuate or circular ports 11a and 11b formed through it. The arcuate port 11b is shorter circumferentially than the arcuate port 11a to reduce, by a predetermined amount, the amount of pressure oil to be discharged from and sucked into the pump through it. The valve 11 also has a pair of tank ports 11c and 11d formed through it circumferentially on both sides of the shorter port 11b. The circumferential dimensions of the tank ports 11c and 11d correspond to the predetermined amount of oil.Type: GrantFiled: February 17, 1998Date of Patent: May 2, 2000Assignee: Marol Kabushiki KaishaInventors: Seiichi Kishi, Taizo Kitano -
Patent number: 6042348Abstract: A protective shutter assembly for a fan of a forced air cooling system includes lightweight shutter members mounted for pivoting motion about vertical axes. When the fan is operative, its shutter members are pivoted in a first direction to expose the fan and allow air to be exhausted therefrom. When a fan is inoperative, its shutter members pivot in a second direction toward the fan and overlap to prevent air from being reversely drawn into the fan.Type: GrantFiled: May 11, 1998Date of Patent: March 28, 2000Assignee: Lucent Technologies Inc.Inventors: Nandakumar G. Aakalu, Woodly Maurice
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Patent number: 6012907Abstract: A flow-regulating arrangement for a hydraulic transport device such as a vane-cell pump includes partial-transport flow throttles which operate independently of one another and which are arranged in parallel to deliver output of the hydraulic transporting device to a hydraulic load. One of the partial transport flow throttles responds to the pressure difference between working pressure of the hydraulic transporting device and pressure within a pressure chamber internal to the device.Type: GrantFiled: December 8, 1997Date of Patent: January 11, 2000Assignee: Luk Fahrzeug-Hydraulik GmbH & Co. KGInventors: Van Doan Nguyen, Peter Breuer
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Patent number: 5980210Abstract: A diaphragm-type pressurizing pump having a water stopper structure, in which an upper lid of the pump having a pressurizing room being provided on top of the pressurizing pump, wherein the water stopper structure including mainly a valve body and a valve lid is provided on the upper lid of the pump, a water stopper valve set is provided between the water stopper structure and the upper lid of the pump, wherein communicating water inlet holes are provided on the upper lid of the pump and the valve body and are located on the side of the water inlet, a guide groove having a pressurizing hole is formed on the top of the valve body, a water outlet of the upper lid of the pump is provided with a hole communicating with the pressurizing room, the hole is under the water stopper valve set, the flow between the pressurizing room and the water outlet are blockaded with the water stopper valve set so that the upper lid of the pump has the function of stopping water, and also can save space and save cost.Type: GrantFiled: April 6, 1998Date of Patent: November 9, 1999Inventor: Ho Chiu-Chiung Tseng
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Patent number: 5980219Abstract: In a piston-type compressor, especially for generating compressed air in motor vehicles, there is a suction plate on the underside of a valve support, clamped between the cylinder and cylinder head, facing the compressor piston. The suction plate consists of an active and an inactive section. The active section, preferably consisting of a tongue-shaped active plate fitted in the center, operates in relation to suction apertures in the valve support while the inactive section of the suction plate has at least one delivery aperture in active connection with at least one delivery aperture in the valve support. The suction plate takes the form of a disc, thus virtually eliminating waste space. The suction plate can be fitted between the cylinder and the valve support without additional components; when used in an energy-saving system, the suction plate can be rotated to produce differing degrees of overlap between suction and delivery apertures.Type: GrantFiled: February 6, 1998Date of Patent: November 9, 1999Assignee: Knorr-Bremse Systems fur Nutzfahrzeuge GmbHInventor: Dieter Spurny
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Patent number: 5947699Abstract: Fuel pump for delivering high pressure fuel to a fuel injection system of an internal combustion engine is provided. The fuel pump has a body, a drive shaft rotatably mounted in the body, at least one cam on the drive shaft, a plurality of pumping plungers mounted in the body for movement in the radial direction relative to the axis of rotation of the drive shaft, a pumping chamber defined radially outwardly of each plunger, and a delivery valve associated with each pumping chamber. Each pumping plunger is mounted in a support member which provides sliding support for its associated plunger in the circumferential direction of the drive shaft over substantially the entire length of the plunger in all working positions thereof. Each plunger is coupled to at least one cam by a pin which is secured to the plunger and extends outwardly from the plunger through a slot which extends through the support member in the axial direction of the drive shaft.Type: GrantFiled: July 17, 1997Date of Patent: September 7, 1999Assignee: Lucas Industries PlcInventor: Michael Peter Cooke
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Patent number: 5947701Abstract: Simplified capacity control mechanisms for scroll compressors include a fork operable to open and close vents associated with a pair of scroll compression chambers. A single fork opens and closes both vents simultaneously. In the past, separate members have been utilized to open and close the two individual valves, and they have sometimes been actuated in a non-synchronous manner. A control associated With the fork is operable to move the fork between the open and closed positions by simple electronic controls. In several embodiments, the electronic controls are operated simply to stop and start the electric motor for driving the compressor. Pressure forces on and associated valve element move the fork to the desired position between the open and closed positions. No separate control wires, or separate electronic valves, need to pass into the scroll housing. In another embodiment, an electric solenoid is actuated to move the fork between open and closed positions.Type: GrantFiled: September 16, 1998Date of Patent: September 7, 1999Assignee: Scroll TechnologiesInventor: Jason J. Hugenroth
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Patent number: 5868557Abstract: Disclosed is a method and apparatus for the continuous remediation of a site contaminated with a hazardous substance. The remediation apparatus includes a material selectively permeable to the hazardous substance located at the site. Once isolated, the hazardous substance is removed to a remote vessel by mechanical means or by utilization of an gas-injection system. The invention also contemplates a valve configured to protect remediation apparatuses from detrimental overloadings of hazardous substances during a remediation procedure.Type: GrantFiled: February 26, 1998Date of Patent: February 9, 1999Inventor: Peter J. Tolan
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Patent number: 5846060Abstract: A pump which has a piston (30) which is reciprocatingly moved vertically inside a tubular housing (32) to extract fluid from the bottom of a well (29). The piston (30) is attached to a motor (12) for driving it and has a horizontally extending base plate (50) with a central opening (52) provided with a plug (64) functioning as a check valve. As the fluid is pumped, the plug (64) is raised and the fluid flows into a high pressure reservoir (35) above the base plate (50). When the pressure inside the reservoir (35) exceeds a specified level, the base plate (50) is moved downward against an upward biasing force. This opens an annular port (51) exposing bleed ducts (56) and allows some of the fluid in the reservoir (35) to flow back into low pressure chamber (37) located below the base plate (50).Type: GrantFiled: August 3, 1995Date of Patent: December 8, 1998Inventors: Ernesto Y. Yoshimoto, Carlos Y. Yoshimoto
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Patent number: 5678983Abstract: Discharge valve actuating system for hermetic compressors of the type having a piston (3) reciprocating inside a cylinder (2) which pumps gas to a discharge chamber (22) maintained in selective fluid communication with the cylinder (2) through a discharge orifice (12) provided on a valve plate (10) and closed by a respective reed discharge valve (40). There is at least one subchamber (70) which maintains with the discharge chamber (22) a fluid communication that is constantly blocked by a movable blocking element (60) which moves between an operative position of contact with the discharge valve (40) when at a closed position and an inoperative position of spacing from said discharge valve (40). The inoperative and operative positions are defined as a function of the pressure inside the discharge chamber (2) in relation to the pressure existing in the subchamber (70) during each pumping cycle of the piston (3).Type: GrantFiled: February 26, 1996Date of Patent: October 21, 1997Assignee: Empresa Brasileira De Compressores S/A - EmbracoInventor: Dietmar Erich Bernhard Lilie
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Patent number: 5651267Abstract: A refrigeration system having a compressor with a check valve on the high pressure side to prevent refrigerant migration when the compressor shuts down; the improvement comprising a slot at the discharge valve plate forming an equalizing volume to provide gas leakage to the low pressure side during a stoppage so as to reduce starting torque.Type: GrantFiled: May 5, 1995Date of Patent: July 29, 1997Assignee: Empresa Brasileira de Compressores S/A - EmbracoInventors: Marcio Luiz Todescat, Dietmar Erich Bernhard Lilie, Manfred Krueger
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Patent number: 5642753Abstract: A plate mounted to a reciprocable shaft has a plurality of straight fingers (a) coupled thereto and (b) extending perpendicularly therefrom, and each of the fingers is separately detachable from the plate to simplify and facilitate maintenance and repair. Further, the fingers are identical, whereby manufacturing and stocking requirements are minimized.Type: GrantFiled: July 1, 1996Date of Patent: July 1, 1997Assignee: Dresser-Rand CompanyInventors: Ethan P. Thistle, Michael A. DeCerbo, John R. Metcalf
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Patent number: 5613840Abstract: A pump comprising a pump body having a control valve for controlling working fluid flow from the pump body to an actuator through a joint. The joint is connected mechanically to the pump body through a washer made of a material different from that of the pump body. The washer has a side surface held in contact with the pump body at a junction. The pump also includes an annular seal member provided to keep the junction from exposure to the environment. In an embodiment of the invention, the seal member is placed in an annular groove formed in the outer peripheral surface of the pump body. The seal member may have a side surface in fluid-sealing contact with the surface of the washer so as to keep the junction between the pump body and the washer from exposure to the environment.Type: GrantFiled: April 20, 1995Date of Patent: March 25, 1997Assignee: Unisia Jecs CorporationInventors: Kazuyoshi Ishizaki, Masateru Yamamuro, Atsushi Ishizuka, Shouji Ohya, Miyoko Hamao
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Patent number: 5588809Abstract: Metering pumps for the metered feed of liquids are fitted with an intake valve built into an intake line from an intake container, a pump chamber downstream of it with a pumping component altering its displacement volume, a pressure valve leading to the metering connector and a vent and by-pass valve built into a return line leading to the intake container. In order to keep the quality of by-passed metering liquid as small as possible while maintaining adequate venting, there is valve chamber between the pressure valve and the pump chamber and separated from the latter by a return valve and a movable control wall, in which is incorporated the vent controlled by the control wall, opening on the suction stroke of the pumping component and closing on its delivery stroke. .There is also preferably in the valve chamber a prestressed displacement wall altering the volume of the valve chamber in the opposite direction to that of the control wall.Type: GrantFiled: August 7, 1995Date of Patent: December 31, 1996Assignee: Lang Apparatebau GmbHInventors: Joachim Klein, Herbert Hunklinger
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Patent number: 5540566Abstract: A pump comprising a pump body having a control valve for controlling working fluid flow from the pump body to an actuator through a joint. The joint is connected mechanically to the pump body through a washer made of a material different from that of the pump body. The washer has a side surface held in contact with the pump body at a galvanic junction. The pump also includes an annular seal member provided to keep the junction from exposure to the environment.Type: GrantFiled: August 10, 1993Date of Patent: July 30, 1996Assignee: Unista Jecs CorporationInventors: Kazuyoshi Ishizaki, Masateru Yamamuro, Atsushi Ishizuka, Shouji Ohya, Miyoko Hamao
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Patent number: 5520521Abstract: In a hydraulic control device for a viscous fluid pump with at least one feed cylinder (11) drivable by a hydraulic cylinder (12), the feed chamber (17) of which can be alternately connected via a hydraulically operable inlet valve (18) a hydraulically operable outlet valve (21) to a reservoir (19) and a feed line (22), whereby in the loading phase of the feed cylinder (11) the inlet valve (18) is open and the outlet valve (21) closed and in the feed phase of the feed cylinder, in which its piston is driven so as to reduce the volume in the feed chamber (17), the outlet valve is open and the inlet valve is closed, and with a hydraulic sequence control actuating the correct cyclic changeover between the inlet and outlet valves and the changeover of the pump drive, a valve forming part of the changeover control device of the sequence control and relieving the pressure in the feed chamber of the control cylinder (53) designed to actuate the outlet valve (21) takes the form of an electrically or hydraulically actType: GrantFiled: February 15, 1994Date of Patent: May 28, 1996Assignee: Putzmeister-Werk Maschinenfabrik GmbHInventors: Hartmut Benckert, Hans Renz, Werner Muenzenmaier
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Patent number: 5409354Abstract: A variable discharge pump (3) comprises a piston (4) reciprocable within a cylinder (2), a displaceable inlet valve (5) adapted to control admission of lower pressure hydraulic fluid (9) to the swept volume areal (10) of the piston (4) and cylinder (2), a displaceable outlet valve (7) adapted to control delivery of higher pressure fluid (9) from the swept volume area (10), and means (13, 13A, 26-28, 29-44) to control the position of the inlet valve (5) so as to control the volume of fluid (9) delivered by the pump (3) in accordance with demand.Type: GrantFiled: August 26, 1994Date of Patent: April 25, 1995Assignee: ER Fluid Developments LimitedInventor: James E. Stangroom
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Patent number: 5356269Abstract: A variable displacement pump (3) comprises a piston (4) reciprocable within a cylinder (2), a displaceable inlet valve (5) adapted to control admission of lower pressure hydraulic fluid (9) to the swept volume area (10) of the piston (4) and cylinder (2), a displaceable outlet valve (7) adapted to control delivery of higher pressure fluid (9) from the swept volume area (10), and means (13, 13A, 26-28, 29-44) to control the position of the inlet valve (5) so as to control the volume of fluid (9) delivered by the pump (3) in accordance with demand.Type: GrantFiled: August 17, 1993Date of Patent: October 18, 1994Assignee: ER Fluid Developments LimitedInventor: James E. Stangroom
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Patent number: 5282738Abstract: The liquid fuel burning apparatus includes a fuel tank, a burning unit for burning the fuel, an electromagnetic pump for sucking the fuel from the tank, a feeding pipe for feeding the sucked fuel to the burning unit, and a control unit for controlling the electromagnetic pump. The electromagnetic pump has a plunger which is reciprocated by a plunger solenoid to suck the fuel in the fuel tank and discharge the sucked fuel therefrom in the associative motion of a suction and a discharge valves incorporated therein. The control unit opens the valves for a predetermined time when the fuel supply is stopped. Thus, fuel remained at an end of the feeding pipe is collected from so that the unburnt gas or strange smell which would be generated when the unnecessary liquid fuel is supplied to the burning means can be restricted.Type: GrantFiled: April 24, 1992Date of Patent: February 1, 1994Assignee: Matsushita Electric Industrial Co., Ltd.Inventors: Hiroo Oshima, Takehiko Shigeoka
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Patent number: 5190446Abstract: Displacement control of a multi-piston fluid pump is achieved by real time control of electrically selectable inlet poppet valves in one or more of the cylinders. Microprocessor control permits desired variable output characteristics to be matched. An electrically actuable poppet valve using an annular permanent magnet to latch to a solenoid is described.Type: GrantFiled: March 25, 1991Date of Patent: March 2, 1993Assignee: The University Court of the University of EdinburghInventors: Stephen H. Salter, William H. S. Rampen
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Patent number: 5032061Abstract: Hydraulic pump with axial pistons (1) in which each piston (1) forces the hydraulic liquid through a nonreturn valve, said nonreturn valves being connected to a control jack (20) by means of which the nonreturn valves can be made inactive, characterized by the fact that the nonreturn valves are placed in a chamber (10) and consist of a sliding support (15) inside of which there is disposed a spring (17) acting on an organ (16) serving as valve, which slides inside the sliding support (15), the latter being able, at will, to be coupled by any suitable means to the control jack (20).Type: GrantFiled: February 19, 1988Date of Patent: July 16, 1991Assignee: Hydro Rene LeducInventor: Louis C. Porel
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Patent number: 4993922Abstract: A compressor unloaded system for use in compressed air supply systems having reciprocating type air compressor means supplied with atmospheric or turbocharged air is shown. Means are provided to block off the air intake of such compressors, and to maintain back pressure against the exhaust valve of said air compressor during an unloading cycle, thereby preventing operation of the intake and exhaust valves of such compressor, and creating an "air spring" in the cylinder of such air compressor during an unloading cycle.Type: GrantFiled: November 30, 1988Date of Patent: February 19, 1991Assignee: Holset Engineering Company, Inc.Inventors: Jerre F. Lauterbach, Nathan Ritchie, Richard F. Miller
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Patent number: 4990076Abstract: A pressure control apparatus suitable for controlling pressures in autoclaves permits a plurality of autoclaves to be selectably pressurized from a single pressurizing circuit. The apparatus can be externally controlled to more efficiently multiplex autoclaves to the pressurizing circuit and to more efficiently implement different pressure schedules for the autoclaves. Once a pressure has been set for an autoclave maintained in communication with the main pressurizing circuit, the apparatus automatically monitors the position of the pump piston and resets it from either of its extreme limits of movement to maintain pressure at a desired set point. Corresponding methods are also disclosed.Type: GrantFiled: May 31, 1989Date of Patent: February 5, 1991Assignee: Halliburton CompanyInventors: Michael J. Lynch, G. Allen Turner, Mark Ehlert, Jim B. Surjaatmadja
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Patent number: 4869291Abstract: A compressor plate valve has a valve seat, a valve guard and at least one valve plate which is mobile to-and-fro therebetween to control passage channels provided in the valve seat. To enable the compressor to be switched to idle running, a lifting device is provided for keeping the valve open. This comprises a seating plate which is disposed mobile between the valve seat and the valve plate in the direction of the lifting movement and has valve ports aligned with the passage channels in the valve seat and connection apertures corresponding with the passage apertures in the valve plate. The lifting force is applied to the seating plate by means of a control device.Type: GrantFiled: October 26, 1988Date of Patent: September 26, 1989Assignee: Hoerbiger Ventilwerke AktiengesellschaftInventor: Hans Hrabal
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Patent number: 4834621Abstract: In a submerged pump system for pumping liquid from a well or vessel the vertical pipe through which the liquid is pumped by a submerged impeller pump is typically fitted at its upper end with an air valve. The air valve vents air from the pipe to atmosphere upon pump start up, then closes so that only water passes through a check valve to a pipe system and subsequently allows air to re-enter the pipe when the pump stops. A special throttling valve associated with the air valve restricts the outward rate of flow of air to atmosphere to thereby reduce the rate of the rising liquid and thus the shock of this liquid on the air valve and on the check valve but allows essentially unrestricted re-entry of atmospheric air to thereby allow the vertical pipe to fill with air rapidly. One form of throttling valve includes a valve plug mounted for axial movement into and out of a vent opening and spring-biased into the opening.Type: GrantFiled: November 24, 1987Date of Patent: May 30, 1989Assignee: Apco/Valve and Primer CorporationInventors: Keith Hall, Robert L. Esvang, Jr., Ralph N. DiLorenzo
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Patent number: 4799507Abstract: To adapt a compressor valve to varying operational conditions of the compressor particularly to varying numbers of revolutions and/or the respective specific weight of the transported gas, a process and a compressor valve for executing the process are provided. The process is that a compressor drive at various numbers of revolutions or transporting gas with varying specific weight, the spring force--possibly resulting from several spring forces--acting during operation on the plug in a closing direction and/or the lift of the plug is forcefully reduced with falling number of revolutions or increasing specific weight the process is reversed either continuously or in steps.Type: GrantFiled: April 8, 1987Date of Patent: January 24, 1989Assignee: Hoerbiger Ventilwerke AktiengesellschaftInventor: Hans Hrabal
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Patent number: 4553907Abstract: A pressure gas generating system including the compressor which is switched to a no-load condition when a predetermined pressure level is reached. The system employs either a regulator or a governor to allow the free exchange of gas between the suction chamber and the compression chamber to prevent the development of high temperatures. In the pressure regulator control system, the opening of the discharge valve is enlarged and is vented into the atmosphere by the pressure regulator so that the compressor continues to operate with reduced drive power and generates less heat during the no-load condition. In the pressure control system, the pressure discharge valve as well as the suction valve are opened during the no-load condition.Type: GrantFiled: November 2, 1984Date of Patent: November 19, 1985Assignee: WABCO Fahrzeugbremsen GmbHInventors: Werner Heger, Wolfgang Kaltenthaler, Helmut Wilke
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Patent number: 4547133Abstract: A variable capacity compressor has a low-pressure chamber, a high-pressure chamber receiving the discharge of some cylinders and a discharge chamber receiving the discharge of other cylinders. An on-off valve between the discharge chamber and low-pressure chamber is actuated by an electric device, such as a servo motor. An electric circuit controls the servo motor so that it is driven for a certain time period in response to a signal to change the compressor capacity. A device operative with the on-off valve moves the valve forward or backward according to the rotation of the servo motor and makes the motor idle when it reaches the fore or back end of movable space.Type: GrantFiled: March 3, 1983Date of Patent: October 15, 1985Assignee: Nippondenso Co., Ltd.Inventors: Kazutoshi Nishizawa, Masashi Takagi, Yasuyuki Nishi
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Patent number: 4505648Abstract: A pressure gas generating system including the compressor which is switched to a no-load condition when a predetermined pressure level is reached. The system employs either a regulator or a governor to allow the free exchange of gas between the suction chamber and the compression chamber to prevent the development of high temperatures. In the pressure regulator control system, the opening of the discharge valve is enlarged and is vented into the atmosphere by the pressure regulator so that the compressor continues to operate with reduced drive power and generates less heat during the no-load condition. In the pressure control system, the pressure discharge valve as well as the suction valve are opened during the no-load condition.Type: GrantFiled: September 13, 1982Date of Patent: March 19, 1985Assignee: WABCO Fahrzeugbremsen GmbHInventors: Werner Heger, Wolfgang Kaltenthaler, Helmut Wilke
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Patent number: 4473048Abstract: A fuel injection pump is proposed which has a distributor in which both the injection quantity and the onset of injection are variable. The distributor is axially displaced via electric servomotors and is rotated relative to the drive shaft.Type: GrantFiled: April 7, 1983Date of Patent: September 25, 1984Assignee: Robert Bosch GmbHInventors: Jean Leblanc, Jean Pigeroulet
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Patent number: 4413955Abstract: A swash plate compressor especially suited for automotive vehicles. The inner housing may be moved in the rear housing in the front and rear direction, as the occasion may demand, for adjusting the compression capacity or performance of the compressor. A partition wall is projectingly projected at the front side of the inner housing for defining an inner or discharge chamber and an outer or suction chamber. A plurality of clamp bolts for fixedly clamping together a rear cylinder block and the rear housing are passed through said suction chamber. The rear wall of the inner housing is formed with an annular thin-walled portion lesser in thickness than the valve plate on the front surface of said inner housing. By the function of said thin-walled portion, the inner housing may be flexed readily to absorb valve plate strain.Type: GrantFiled: March 19, 1982Date of Patent: November 8, 1983Assignee: Kabushiki Kaisha Toyoda Jidoshokki SeisakushoInventors: Kimio Kato, Hisao Kobayashi, Takamitsu Mukai, Hiroya Kono, Taku Yamamoto
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Patent number: 4403921Abstract: A multi-cylinder variable delivery compressor containing a plurality of compression chambers is adapted for use in compressing a refrigerant gas of a cooling circuit. The compressor has a first delivery chamber communicating with the compression chambers by way of a fixedly arranged delivery valve means and a second delivery chamber communicating with the compression chambers by way of a movably arranged delivery valve means.The movable delivery valve means is urged from its closing position toward its opening position, and is moved back to its closing position when a delivery pressure from the cooling circuit is applied to the movable delivery valve means.Type: GrantFiled: October 21, 1981Date of Patent: September 13, 1983Assignee: Kabushiki Kaisha Toyoda Jidoshokki SeisakushoInventors: Kimio Kato, Hiroya Kono, Hisao Kobayashi
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Patent number: 4265600Abstract: A pump for transferring precise amounts of fluid from a container to a patient. A pump apparatus has a defined volume pump chamber divided by a diaphragm into a pumping fluid portion and a pumped fluid portion. The pumped fluid portion receives and exhausts pumped fluid in response to a decrease or increase in pressure in the pumping fluid portion of the pump chamber. The diaphragm and the defined volume pumping chamber provide accurate per cycle pumping volumes. The pumping fluid pressure is varied by periodically electrically heating a ribbon filament in a pumping fluid chamber thereby increasing the temperature and therefore the pressure and/or volume of the pumping fluid. The pumped fluid enters the pumping chamber through a one-way valve as the pumped fluid portion volume expands and is exhausted through a second one-way valve as the volume of the pumped fluid portion contracts. Control circuitry is provided to allow variations in the pulse repetition rate and pulsewidth.Type: GrantFiled: September 5, 1978Date of Patent: May 5, 1981Inventor: Harold Mandroian