Plural Inflows Patents (Class 137/111)
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Patent number: 6934643Abstract: An ultra accurate gas injection system with vehicle transient air simulation is provided. The device includes an input device, at least one mass flow device, an air flow device, a controller, such as a PC based controller, and an output device. The air flow device issues an air flow rate signal indicative of at least the actual air flow rate and receives an air flow control signal. The controller issues gas and air flow control signals, repeatedly reads the air flow rate signal and compares the actual air flow rate with the target air flow rate. The controller adjusts the air flow control signal such that the actual air flow rate is substantially equal to the target air flow rate. The mass flow device injects at least one gas into the air stream which is subsequently emitted into the external system to simulate exhaust gas from a vehicle.Type: GrantFiled: December 15, 2003Date of Patent: August 23, 2005Assignee: Delphi Technologies, Inc.Inventors: Krishnendu Kar, Robert Semidey
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Publication number: 20040065364Abstract: A manifold having a tubular body including effluent retention areas formed within the body and conduit portions having opposing ribs extending radially from an outside surface for use with a pipe anchoring mechanism when installing the manifold and connected flexible corrugated pipe within a septic tank drain field. The manifold includes longitudinally opposing input and output ports for connection to a cooperating manifold or pipe. Multiple transverse ports provide connection from the manifold to an effluent source such as a septic tank or drain field distribution pipe.Type: ApplicationFiled: July 15, 2003Publication date: April 8, 2004Inventor: Kelvin Todd Evans
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Patent number: 6708709Abstract: The disclosure relates to a method of regulating a steam injector. The injector is of the type which has an inlet for steam and an inlet for the product which is to be heat-treated, as well as an outlet for the ready-treated product. The injector further has a centrally placed regulator spindle around which are disposed concentric gaps for product and steam, respectively. The aperture in the gaps may be regulated in that the regulator spindle is protracted or retracted reciprocally. The regulator spindle is regulated by means of a switching device which is controlled via a regulator. The regulator registers the values from a pressure indicator in the product inlet and a pressure indicator in the product outlet.Type: GrantFiled: September 4, 2001Date of Patent: March 23, 2004Assignee: Tetra Laval Holdings & Finance S.A.Inventor: Bengt Palm
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Patent number: 6706438Abstract: The ejector includes a diffuser, a nozzle, a needle, and a drive section. A throat portion and an increasing diameter portion are formed in a third conduit of the diffuser, and the nozzle and the needle are arranged coaxially with the third conduit. A first taper section of the needle is inserted into an aperture portion of the nozzle, and a second taper section is housed in the increasing diameter portion. A gap between the aperture portion and the first taper section constitutes a first fluid conduit, and a gap between the increasing diameter portion and the second taper section constitutes a second fluid conduit. The needle is provided so as to be shiftable in its axial direction by the drive section, and, by shifting the needle in its axial direction, it is possible to change both the first fluid conduit and the second fluid conduit simultaneously.Type: GrantFiled: August 10, 2001Date of Patent: March 16, 2004Assignee: Honda Giken Kogyo Kabushiki KaishaInventors: Katsumi Sahoda, Ryoichiro Takahashi, Kuri Kasuya, Kazunori Fukuma
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Publication number: 20020185175Abstract: The subject invention is a valve for regulating the viscosity of fluid utilized by an integrated drive generator (IDG). The valve includes a housing defining a bore having a first inlet supplying “cold” hydraulic fluid at a first viscosity and a second inlet supplying “hot” hydraulic fluid at a second viscosity. A spool valve disposed within the bore has at least one land to proportionally control the flow of hydraulic fluid through the inlets. Hydraulic fluid from the first and second inlets mixes within the valve and exits the valve through an outlet at an optimum viscosity for the operation of the IDG. A flow restrictor creates a pressure force on the spool valve that is proportional to the viscosity of the hydraulic fluid flowing to the IDG.Type: ApplicationFiled: June 6, 2001Publication date: December 12, 2002Inventors: Gerald P. Dyer, Richard Hector Bostiga
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Patent number: 6412514Abstract: A check valve for placement in a fluid conduit, includes a separator element with at least one opening; the opening allows fluid flow through the separator element. A pliant sealing member is attached to a downstream side of the separator element, covering the opening. During forward flow, this pliant sealing member deforms, allowing fluid to pass around it. However, during reverse fluid flow, this pliant sealing member flattens and covers the opening, preventing reverse fluid flow through the opening.Type: GrantFiled: October 26, 2000Date of Patent: July 2, 2002Assignee: Red Valve Company, Inc.Inventor: Spiros G. Raftis
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Patent number: 6318400Abstract: The hydraulic shuttle valve has two coaxial supply ports and a transverse function port to direct fluid coming from alternative control sources to a blow out preventor (BOP). The valve includes a moveable shuttle with opposing tapered metal sealing surfaces to alternatively engage opposing coaxial metal valve seats. The shuttle moves back and forth into alternative sealing engagement depending on which supply port has the highest fluid pressure. As the shuttle moves from engagement with one metal seat to engagement with another, there is low or no interflow from one supply port to the other, thus maximizing the amount of fluid directed to the function port. An obtuse metal point is formed on each metal valve seat which comes into contact with a respective outward tapered sealing surface on the shuttle. Repeated movement of the shuttle to and fro displaces a portion of the metal point into a recessed chamfer.Type: GrantFiled: December 1, 1999Date of Patent: November 20, 2001Assignee: Gilmore Valve CompanyInventors: Rodney C. Hope, Richard R. Watson, F. Harold Hollister
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Patent number: 6308724Abstract: A switchover device for providing a continuous supply of a gas such as chlorine to a water system. The switchover device includes an outlet in communication with a chamber as well as with a vacuum source and two inlets also in communication with the chamber. The switchover device further contains a shuttle that may be positioned to isolate the first inlet, the second inlet, or neither inlet.Type: GrantFiled: May 11, 2000Date of Patent: October 30, 2001Assignee: United States Filter CorporationInventors: David Haruch, Mario D. Cabrera, Albert Van Grouw, Gregory Stockinger
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Patent number: 6299657Abstract: In the reaction process, at least two educts A, B are divided by a system, assigned to each of them, of slit-like microchannels 1a, 1b into spatially separate fluid lamellae, which then emerge into a common mixing and reaction space 4. The fluid lamellae here have a thickness <1,000 &mgr;m, preferably <100 &mgr;m, at a width thickness ratio of at least 10. It is essential here that educts A, B can emerge as thin fluid lamellae 6a, 6b into the mixing/reaction space 4, each fluid lamella 6a of an educt A being led into the mixing/reaction space 4 in the immediate vicinity of a fluid lamella 6b of another educt B. The adjacent fluid lamellae 6a, 6b then subsequently mix by diffusion and/or turbulence. As a result, the mixing operation is accelerated substantially compared with conventional reactors. In the case of rapid chemical reactions, the formation of undesirable by-products or secondary products is largely prevented in this manner.Type: GrantFiled: October 15, 1999Date of Patent: October 9, 2001Assignee: Bayer AktiengesellschaftInventors: Klaus Schubert, Wilhelm Bier, Gerd Linder, Erhard Herrmann, Bernd Koglin, Thomas Menzel, Christine Maul
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Patent number: 6293777Abstract: A hydraulic positive displacement machine has rotating conveying elements whose end faces are sealed by pressure plate. This pressure plate is loaded by a control valve with hydraulic pressure in order to adjust the size of the sealing gap. The control valve has a hollow piston in which a metering orifice is located. A return connector, a connector communicating with a consumer, and a hydraulic control connector connected to the pressure plate can be controlled by the hollow piston with its metering orifice.Type: GrantFiled: April 19, 2000Date of Patent: September 25, 2001Assignee: Hydraulik-Ring GmbHInventor: Manfred Unsöld
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Patent number: 6273125Abstract: A lockout device (12) operable to lock a valve (8) into a particular operating position and to prevent further actuation of the valve (8) until removed. The preferred lockout device (12) comprises two lock couplings (16,18), two lock plates (20,22), and two keys (24,26). Each lock coupling (16,18) presents first contact surfaces (40) and is threadably located upon and secured by a set screw (30,32) to an actuator shaft portion (14) of the valve (8) at shaft locations corresponding, respectively, to open and closed valve positions. Each lock plate (20,22) presents second contact surfaces (42) and is stationarily secured relative to the shaft (14) and operable to slidably pass the shaft (14) and receive a corresponding lock coupling (16,18). The keys (24,26) are substantially wedge-shaped and held parallel to one another by a spacer (38).Type: GrantFiled: November 1, 2000Date of Patent: August 14, 2001Assignee: SPX CorporationInventors: Robert A. Blenkush, Keith V. Warzecka
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Patent number: 6257268Abstract: The pressure biased shuttle valve assembly in the pressure biased shuttle valve operates in conjunction with a remote operated vehicle (ROV) to actuate blow-out preventers and thus shut in the well during emergency situations. The pressure biased shuttle valve assembly opens in response to fluid pressure from the ROV. It requires little or no flow to open. These pressure biased shuttle valves are typically located subsea on a lower marine riser platform (LMRP). These platforms are sometimes brought to the surface for a periodic testing and maintenance. The pressure biased shuttle valve assembly is also used as a repair kit which facilitates easy maintenance and repair when the LMRP is brought to the surface. In one embodiment, the shuttle is rigidly connected to a piston rod. In another embodiment, there is a flexible connection between the piston rod and shuttle. The purpose of the flexible connection is to encourage a better seal in smaller size valves.Type: GrantFiled: September 1, 2000Date of Patent: July 10, 2001Assignee: Gilmore Valve CompanyInventors: Rodney C. Hope, F. Harold Hollister
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Patent number: 6131596Abstract: An automatic vacuum isolation valve network for use in a vacuum collection system having at least two branches connected to a main vacuum pipe maintained under negative pressure. The network includes a first valve located in each branch adapted to close in response to vacuum loss in the main vacuum pipe, thereby preserving a vacuum level in the associated branch. The network further includes a shut-off valve located in each branch upstream of the first valve, the shut-off valve adapted to close in response to vacuum loss in an upstream portion of a branch. The shut-off valve thereby isolates a broken branch, and allows a remainder of the vacuum collection system to return to normal operation. The isolation valve network further facilitates location of a breach in the vacuum collection system by rendering a faulty branch inoperable, thereby identifying the immediate vicinity of the breach.Type: GrantFiled: July 9, 1999Date of Patent: October 17, 2000Assignee: Evac International OyInventor: Timothy W. Monson
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Patent number: 6120606Abstract: The present invention provides a gas vent system for a vacuum chamber. The particle placed onto the wafer after loading out from a vacuum chamber can be greatly reduced by the system design. The gas vent system has a gas supply, an anti-vibrating tube, a gas regulator, a first line, a second line, a vent valve, and a filter. The anti-vibrating tube is connected after the gas supply for transferring gas without introducing vibration. The gas regulator is connected after the anti-vibrating tube for controlling a flow rate of the gas. The first line is connected after the gas regulator and has a first metering valve. The second line is connected after the gas regulator and is also connected in parallel with the first line. The second line has a second metering valve and an in-line valve in series. The vent valve is connected after the first line and the second line. The filter is connected between the vent valve and the vacuum chamber.Type: GrantFiled: June 26, 1998Date of Patent: September 19, 2000Assignee: Acer Semiconductor Manufacturing Inc.Inventor: Ming-Tang Peng
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Patent number: 6048453Abstract: A skimmer valve system for a swimming pool includes a skimmer mounted in a wall of the swimming pool that has an intake port coupled via a primary suction pipe to the suction system of the swimming pool, and further includes a valve mounted in the intake port of the skimmer, and a secondary suction pipe coupled into the primary suction pipe. The other end of the secondary suction pipe terminates at a coupling in a wall of the pool or a similarly convenient location for connecting a conventional pool cleaner. Adjusting the valve controls the division of the total suction between the skimmer and the pool cleaner.Type: GrantFiled: August 25, 1998Date of Patent: April 11, 2000Inventor: Kenneth W. King, Jr.
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Patent number: 5896882Abstract: A rapid acting flow limiting valve is provided for an autoclave processing system. In this environment, each of a plurality of parts is placed in immediate proximity with a tool, then impressed into congruent engagement with the tool by an overlying vacuum bag, the interior of the vacuum bag being subjected to a vacuum via a vacuum manifold connecting all of the parts to a source of the vacuum, the interior of the vacuum bag being subjected to pressure. A first conduit leads from the chamber of the valve housing to the interior of the vacuum bag for its associated part, and a second conduit leads from the chamber to the vacuum manifold. An annular seal is positioned concentrically with an opening from the chamber into the first conduit. A flexible disk-shaped floating piston diaphragm assembly is peripherally fixed to the housing and is movable between an open position distant from the seal and a closed position engaged with the seal to thereby block flow through the first conduit.Type: GrantFiled: June 27, 1996Date of Patent: April 27, 1999Assignee: Northrop Grumman CorporationInventor: Patrick J. McGrath, Jr.
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Patent number: 5850844Abstract: A pressure reduction valve for reducing the pressure in double-acting, closed hydraulic systems when they are not attended. The valve comprises a valve housing (1) with a boring (6), whose ends communicate with the respective circuits, and wherein there are provided two slide valves (21, 22), which are attempted to be forced away from each other by a spring device (39). Each slide valve (21, 22) has a seat (28, 29) for a valve body (31, 32) which is influenced by springs (37, 38) which are also arranged to move the slide valves (21, 22) towards each other. Between the valve bodies (31, 32) there extends slidably a rod (40), whose ends can influence the valve bodies, and whose length is adapted to the slide valves (21, 22) possible distances of movement, thus enabling it to bring the valve bodies alternately away from their seats when the slide valves are forced towards each other under the influence of the pressures in the respective hydraulic circuits.Type: GrantFiled: November 5, 1997Date of Patent: December 22, 1998Assignee: Kongsberg Automotive ASAInventor: Bj.o slashed.rn Scholz Iversen
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Patent number: 5810042Abstract: A device for ensuring the safety of the oxygen and gas supply to a welding and cutting torch (4). The object of the device is to prevent accidental escape of oxygen and/or gas when the torch is not in use. For this purpose, the device is characterized in that the oxygen supply line and the gas supply line each contain a controlled regulating valve (10, 12), which valves are connected to a common control line (14). The oxygen supply line, downstream of the regulating valve (12), viewed in the direction of flow of the oxygen, contains a starting tank (20), and a flow-pressure switch (21) which operates a regulating slide valve (16) accommodated in the control line, said control line being in communication by way of the regulating slide valve and a line (30) with the part of the oxygen supply line situated upstream of said regulating valve (12).The invention is also embodied in a flow-pressure switch, which is suitable in particular for use in the above device.Type: GrantFiled: January 7, 1997Date of Patent: September 22, 1998Inventor: Bastiaan van der Plaat
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Patent number: 5632299Abstract: The invention relates to a device for the mixing of water and steam introduced via seperate closable supply lines into a mixing vessel wherein the water-to-steam ratio can be changed and wherein the steam supply can be automatically stopped if the water pressure drops below a given value.Type: GrantFiled: February 15, 1995Date of Patent: May 27, 1997Inventor: Karl Weinhold
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Patent number: 5435132Abstract: The invention relates to a method for, in a hydrostatic transmission having a preferably variable displacement hydraulic pump (P) feeding a number of hydraulic motors (M1, M2, M3, M4) provided in association with respective drive wheels, drive tracks or corresponding drive apparatus, mutually balancing the flow of hydraulic fluid through the different hydraulic motors (M1-M4) by individually controlling of the flow from and/or to the same, whereby the individual flows of hydraulic fluid through the respective hydraulic motors (M1-M4) are detected and compared across respective restrictions (14, 15) being variable dependent on the total flow but being of mutually equal size and whereby, for optimum control or balancing, the detected differences in flow through the different hydraulic motors are in themselves used directly for the balancing.Type: GrantFiled: May 13, 1994Date of Patent: July 25, 1995Inventors: Jan Lindholm, Thomas Lindholm
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Patent number: 5190356Abstract: An AND-type control valve useful in a vehicle braking system to prevent application of the vehicle brakes when only the right-hand or left-hand vehicle brakes are applied for the purpose of steering the vehicle. The control valve has two input flowpaths corresponding to the hydraulic braking circuit on different sides of the vehicle and a control output port for connection to the vehicle brake valve. Each input flowpath contains a non-return valve having associated therewith a flow sensitive device to provide a restricted flowpath which gives rise to a pressure drop which will tend to close or assist in closure of the non-return valve. A device is provided to prevent simultaneous closure of both non-return valves.Type: GrantFiled: November 14, 1991Date of Patent: March 2, 1993Assignee: Wabco Automotive U.K. LimitedInventor: James G. Knowles
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Patent number: 5146944Abstract: Apparatus for dilution of one liquid with another, such as a pesticide concentrate diluted with water, wherein dual piston displacement pumps are each actuated respectively by a coil spring and by an opposed hydraulic actuator with a piston powered by the flow of the diluting liquid, the hydraulic actuator being controlled by a control means for alternating reciprocation of the respective pistons of each hydraulic actuator responsive to the rate of flow of the diluting liquid so that a constant dilution ratio is maintained regardless of the pressure of the liquid supply. The control means includes a vane that is pivoted alternately by the action of the hydraulic actuator pistons to direct the flow thereto of liquid for dilution.Type: GrantFiled: October 3, 1991Date of Patent: September 15, 1992Assignee: DowElancoInventor: John E. Waldrum
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Patent number: 5070813Abstract: Disclosed is a coating apparatus, comprising a gas exhaust rate controller disposed within an exhaust pipe connected to a cup which houses a substance to be treated, and a branch pipe connected to the exhaust pipe. The flow speed of the fluid within the branch pipe is measured, and the driving of the exhaust rate controller is controlled based on the measured value of the flow speed in accordance with the state of treatment of the object to be treated.Type: GrantFiled: January 31, 1990Date of Patent: December 10, 1991Assignees: Tokyo Electron Limited, Tel Kyushu LimitedInventors: Hiroyuki Sakai, Eiichi Shirakawa, Chizo Yamaguchi, Takashi Takekuma
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Patent number: 5018547Abstract: A pressure actuated valve is normally closed by the action of an externally manually adjustable spring that acts against the back side of the valve element. The valve element surface opposite that of the adjustment spring is exposed to a first port in the valve body, which first port is connected to a primary fluid flow line. At a location on the valve body there may be one or more side ports that communicate with the interior of the valve body in which pressure at side port/s will not affect the valve element. When flowing fluid back pressure is exposed to the valve element at the first port, said pressure overcomes the spring force and opens the valve element. Wherein it exposes a pressurized fluid/s to the valve interior through one or more side ports that will then establish a communication to the first port. Metered high pressure fluid/s then flow into the side port/s, forced through the valve and into the primary flowing fluid that created the initial back pressure to open the valve.Type: GrantFiled: April 30, 1990Date of Patent: May 28, 1991Inventor: Arlo S. Alcorn
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Patent number: 4917137Abstract: A mixing valve for two fluids under pressure at different temperatures. The mixing valve has a body with means defining a valve chamber, separate inlet ports for each of the fluids to be mixed, and an outlet port. A main mixing valve unit projects into the valve chamber. The mixing valve also has a means for causing axial movement of the main mixing valve unit within the main valve chamber while preventing rotation of the main valve unit relative to the valve chamber.Type: GrantFiled: September 7, 1988Date of Patent: April 17, 1990Assignee: Symmons Industries, Inc.Inventor: Paul C. Symmons
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Patent number: 4622992Abstract: Forms of a reaction control valve are disclosed utilizing various control signals with linear and rotary displacement structures to balance flow reaction forces and attain desired signal-responsive positioning. Different flow passage configurations attain different degrees of damping. An embodiment of the valve functions as a flow proportioner.Type: GrantFiled: January 17, 1983Date of Patent: November 18, 1986Inventor: Ivan E. Sutherland
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Patent number: 4605160Abstract: Apparatus for blending and destratification of outside and return air streams which are cooled or heated, as by fluid containing heat transfer coils, and discharged into a building. Gates control the flow and blending of outside and inside air in a casing in a region defined at its downstream end by the coils and at its upstream end by the gates which project into the region. The gates are pivotally mounted and vary the volume in the region, and also increase the velocity of air therein to prevent stratification. An array of sensors monitors the temperature of the air passing through the coils and controls the gates, especially when the velocity is low, thereby preventing any freezing of the fluid in the coils which can cause damage. The gates may be panels filled with insulation which provide a seal to protect the coils when the apparatus is not in use.Type: GrantFiled: June 8, 1984Date of Patent: August 12, 1986Inventor: James L. Day
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Patent number: 4591095Abstract: In a single-pressure actuated control system for compressed air spraying of water, a rising pressure of an air supply line actuates an air valve to supply the air to the nozzle and to a tank, and a water valve is subsequently actuated by the pressure from the air valve to supply water to the nozzle. As the air supply pressure falls, first the air valve and then the water valve closes, and the air stored in the tank drains water downstream of the water valve to prevent dripping from the nozzle.Type: GrantFiled: June 8, 1984Date of Patent: May 27, 1986Assignee: Joseph T. FamaInventor: Joseph T. Fama
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Patent number: 4535678Abstract: The invention relates to a steering control unit for a bidirectional servomotor which is connectable to steerable wheels. A steering wheel controlled quantity setting unit of a known type has ports connectable to a pump and a return tank and two control ports through which metered quantities of fluid flow to opposite sides of the servomotor and to other parts of the apparatus for actuating the servomotor. A directional control valve for selectively directing pressurized fluid from a power circuit to opposite sides of the servomotor is controlled by a control circuit containing the setting unit. A utility valve having the pressure regulating and control and power valve capabilities required for this type of apparatus is characterized by having only a single slide spool for performing all of these functions.Type: GrantFiled: September 16, 1982Date of Patent: August 20, 1985Assignee: Danfoss A/SInventors: Svend E. Thomsen, Thorkild Christensen
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Patent number: 4531536Abstract: A novel flow divider-combiner valve unit is disclosed. A valve body includes fluid passageway means for controlling fluid flow through the divider-combiner valve unit. The fluid passageway means comprises: a cavity, first, second and third passageways; first and second pressure-responsive elements; and biasing elements for retaining the pressure-responsive elements substantially in open positions until a predetermined substantial pressure differential exists in the divider-combiner valve unit. The biasing elements also enable the pressure-responsive elements to move substantially independently of each other toward closed positions when a first pressure differential in the divider-combiner valve unit exceeds the predetermined pressure differential. The biasing elements additionally cause the pressure-responsive elements to move substantially in unison when a second pressure differential in the divider-combiner valve unit exceeds the predetermined pressure differential.Type: GrantFiled: September 6, 1984Date of Patent: July 30, 1985Assignee: Modular Controls CorporationInventor: Constantine Kosarzecki
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Patent number: 4519413Abstract: The invention relates to a pressure averager for providing an averaged working pressure from the operating pressures of at least two sources of pressure medium, there being provided to average the operating pressures a differential piston of which the number of step faces which face the same direction and which are of equal size corresponds to the number of operating pressures to be averaged, of which the oppositely directed working face is equal to the sum of the step faces, and which is displaceably guided in a correspondingly stepped housing which is provided with supply lines for the operating pressures, and its object is to develop the pressure averager in such a way that an additional pressure relief valve is not required for its function within a hydraulic installation.Type: GrantFiled: March 26, 1984Date of Patent: May 28, 1985Assignee: Hydromatik GmbHInventors: Ludwig Wagenseil, Hermann Hoffmeister
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Patent number: 4476803Abstract: An apparatus for indicating tire pressure is disclosed which indicates whether the tire pressure in a pair of pneumatic tires is low, normal or excessive. The apparatus includes a valve body which is operatively connected to each of the tires and comprises a valve which longitudinally moves in the apparatus responsive to air pressure. The valve is operatively connected to a scale pan having an arcuate display portion at one end thereof. The display portion on the scale pan includes colored rectangular segments which are visible through a sight window in the apparatus. The scale pan pivots in response to valve movement and the colored segment visible in the sight window indicates whether the tire pressure is low, normal or excessive.Type: GrantFiled: June 3, 1983Date of Patent: October 16, 1984Assignee: Dual Dynamics, Inc.Inventor: Jerry P. Malec
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Patent number: 4473088Abstract: A hot and cold water pressure regulating mixing faucet with automatic hot water shut-off in the event of cold water failure. The faucet maintains a predetermined discharge pressure less than the supply pressure regardless of the amount of water issuing from the faucet in combination with parts in a flat face slide valve surface to regulate the amount of water issuing from the faucet or the proportionate mixture of different or hot and cold water, and in combination with a concentric rotary proportioning selector valve having an axial bore containing the pressure regulator valve operable axially within the bore of the rotary selector valve. The pressure regulator valve is operable to completely shut off the hot water in the event of cold water failure. The slide valve and the rotary proportioning valve and the pressure regulating valve are coaxially concentric to each other cooperating in performing their valvular function upon the water entering the housing and discharging axially.Type: GrantFiled: May 28, 1981Date of Patent: September 25, 1984Inventor: John H. Dotter
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Patent number: 4465089Abstract: A flow divider and combiner for delivering and receiving fluid under pressure to and from independent motors which are linked together for operation by an external force. The unit includes sliding flow control spools and relief valves operable within an orifice to provide a variable orifice for the control of flow with regard to pressure differentials. Through selection of the relief valve shapes and structures, the unit can be programmed for differential pressures existing between the inlet or outlet portions of the device and the differential pressures associated with the chambers connected to the independent motors versus the flow volume to the motors. This structure provides for a high degree of control at relatively low pressures and volume flow where such control is critical to proper operation and allows for less control and pressure loss at higher speed where such control is less critical to proper operation.Type: GrantFiled: September 29, 1982Date of Patent: August 14, 1984Assignee: Mag-Dynamics, Inc.Inventor: Harold Inhofer
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Patent number: 4463775Abstract: A hydrostatic power steering control system with variable feedback compensation employing a unique compensating valve. The steering control system includes first and second hydraulic cylinders, each having two internal chambers denoted as head and feedback chambers. A piston is movably retained in each of the cylinders and is attached to a piston rod which extends outwards. The pair of piston rods are connected to a pair of steerable wheels by a mechanical linkage. Fluid contained in a reservoir is pressurized by a supply pump and is selectively passed to a head chamber of one of the cylinders by a control valve. The control valve is actuated by pressure differences in two interconnected fluid passages which connect to the feedback chambers of the two cylinders. A pressure difference in these passages is created by manually operating a steering wheel which actuates a metering pump positioned across the fluid passages.Type: GrantFiled: February 6, 1984Date of Patent: August 7, 1984Assignee: Deere & CompanyInventor: Richard A. Wittren
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Patent number: 4405030Abstract: A hydrostatic power steering control system with variable feedback compensation employing a unique compensating valve. The steering control system includes first and second hydraulic cylinders, each having two internal chambers denoted as head and feedback chambers. A piston is movably retained in each of the cylinders and is attached to a piston rod which extends outwards. The pair of piston rods are connected to a pair of steerable wheels by a mechanical linkage. Fluid contained in a reservoir is pressurized by a supply pump and is selectively passed to a head chamber of one of the cylinders by a control valve. The control valve is actuated by pressure differences in two interconnected fluid passages which connect to the feedback chambers of the two cylinders. A pressure difference in these passages is created by manually operating a steering wheel which actuates a metering pump positioned across the fluid passages.Type: GrantFiled: March 16, 1981Date of Patent: September 20, 1983Assignee: Deere & CompanyInventor: Richard A. Wittren
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Patent number: 4402336Abstract: The invention relates to hydraulic flow dividing and integrating equipment, having a regulating slide valve in its flow path and calibrated throttlings in an admission channel of the flow path. The calibrated throttlings are adjustable as a function of entering liquid flow. Mobile rings are arranged on the regulating slide valve. With these simple technical arrangements, the field of application of hydraulic systems, e.g. for gear synchronization, is considerably enlarged.Type: GrantFiled: May 7, 1981Date of Patent: September 6, 1983Assignee: Danuvia Kozponti Szerszam es KeszulekgyarInventors: Gabor Kalmanczhelyi, Pal Kiss
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Patent number: 4364302Abstract: The invention relates to a steering control unit for a bidirectional servomotor which is connectable to steerable wheels. A steering wheel controlled quantity setting unit of a known type has ports connectable to a pump and a return tank and two control ports through which metered quantities of fluid flow to opposite sides of the servomotor and to other parts of the apparatus for actuating the servomotor. A directional control valve for selectivity directing pressurized fluid from a power circuit to opposite sides of the servomotor is controlled by a control circuit containing the setting unit. A utility valve having the pressure regulating and control and power valve capabilities required for this type of apparatus is characterized by having only a single slide spool for performing all of these functions.Type: GrantFiled: August 14, 1980Date of Patent: December 21, 1982Assignee: Danfoss A/SInventors: Svend E. Thomsen, Thorkild Christensen
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Patent number: 4357953Abstract: An apparatus for introducing powdered solids into a liquid stream at a controlled rate to form a slurry. Solids are metered to an eductor where they are educted into the liquid stream. An automatic cycle timer-controller purges eductor, hopper and piping of residual solids before solids flow is initiated, and following solids flow. Pressure sensors detect low water pressure and/or plugging, shutting off liquid and solids flow.Type: GrantFiled: February 26, 1981Date of Patent: November 9, 1982Assignee: Sterling Drug Inc.Inventor: Donald E. Patterson
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Patent number: 4335736Abstract: A double piping type hydraulic pressure control device in which hydraulic pressure control of a hydraulic pressure channel A is transmitted to another channel B in such a manner that the hydraulic pressure to be exerted on a balance piston for hydraulic pressure control is obtained solely from the hydraulic pressures of the two output chambers while two input hydraulic pressures are arranged to have nothing to do with the control action.Type: GrantFiled: July 17, 1980Date of Patent: June 22, 1982Assignee: Akebono Brake Industry Company LimitedInventors: Toshifumi Maehara, Tomohiro Fujita
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Patent number: 4325400Abstract: A fluid flow equalizing valve has two coupled valve devices for controlling flow to or from a common connection to respective ones of a pair of actuators. Control elements of the valve devices are responsive to intermediate pressures in flow paths to or from the actuators, and move in unison to reduce any difference in the intermediate pressures, and thereby to maintain the flows to or from the respective actuators substantially equal.Type: GrantFiled: December 5, 1979Date of Patent: April 20, 1982Inventor: John R. Wynne
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Patent number: 4311160Abstract: This fluid mixing valve is particularly adapted to mix steam and water to operate a liquid nozzle gun as for instance in the food processing industry to wash utensils and equipment. This valve is adapted to be connected upstream of the gun in particular to prevent burns by the steam, to minimize the waste of steam, and to minimize the occurrence and effects of water hammers resulting from mixing steam with water. This valve comprises a body defining a steam inlet, a water inlet, a heated water outlet, a heat exchanger connecting both inlets to the outlet, a piston chamber, and a venturi nozzle merging the chambers of the heat exchanger for flow of water under suction by the steam flow. A valve closes the steam inlet under the action of a piston responsive to the pressure in the liquid inlet and a bleed valve and passage are arranged to bleed unintentional flow of water when the mixing valve is closed to prevent unintentional opening of the valve.Type: GrantFiled: September 16, 1980Date of Patent: January 19, 1982Inventor: Leo Charland
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Patent number: 4301825Abstract: A plurality of fuel valve injectors for a diesel engine combustion chamber in which a fuel flow control valve assembly having a high pressure fuel inlet is intermittently pressurized, and a low pressure supply pump inlet connected to a fuel pressurization chamber and to a prechamber fuel injector, the high pressure fuel moving a plunger to unseat a ball valve and pressurize the fuel to the injector to inject fuel through it, the stroke of the plunger being determined by the spacer, seating of the ball valve against a seat terminating flow to the injector, continued pressurization in inlet then opening the pressure relief mechanism of the main chamber injector.Type: GrantFiled: December 8, 1978Date of Patent: November 24, 1981Assignee: Ford Motor CompanyInventor: Aladar O. Simko
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Patent number: 4298017Abstract: An Automatic fluid component Shut Off System which automatically shuts off the flow of one component in a plural component system when the pressure in another component falls below a predetermined amount. The system is comprised of pneumatically operated sources of fluid components such as a catalyst and a resin which are mixed as they are sprayed on an article. The automatic shut off system is comprised of a pressure sensing valve which is connected to one of the components to provide a pressure control point and controls the supply of air to an air operated servo valve controlling the flow of the other fluid component. The pressure control point is established by adjusting an air pressure regulator connected in series with the pressure sensing valve.Type: GrantFiled: February 4, 1980Date of Patent: November 3, 1981Assignee: Poly-Glas SystemsInventor: Robert D. Hetherington
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Patent number: 4286749Abstract: An automatic fluid mixing valve comprises temperature sensing means provided in a body of the valve for automatically mixing high and low temperature fluids to provide a mixed fluid having a predetermined temperature, and pressure control means for controlling the pressure ratio of said low temperature fluid to the high temperature fluid at a predetermined value. The pressure control means serves to maintain a ratio of fluid flow of the low and high temperature fluids at a predetermined value thereby maintaining the temperature of the mixed fluid.Type: GrantFiled: July 27, 1979Date of Patent: September 1, 1981Assignee: Aisin Seiki Kabushiki KaishaInventor: Tomio Oguma
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Patent number: 4214601Abstract: A single small safety valve is furnished for use with hazardous machinery that requires simultaneous actuation and continuous pressure on two hand valves at points out of the danger zone of such machinery. Operating characteristics are achieved by a housing having an axial bore, a piston moving within that axial bore, input ports, output ports and an exhaust port located at suitable positions on the housing. The arrangement of these ports is such that open fluid communication can exist between the two input and output ports only if the input ports are pressurized within a small time interval necessary to retain the piston in a neutral position in the axial bore, and if said inputs are held to maintain pressurization during the time that it is desired to maintain pressure in the output ports. Operation of the hazardous machinery is contingent upon continuous pressurization at the output ports.Type: GrantFiled: January 29, 1979Date of Patent: July 29, 1980Inventor: Nicholas Sama
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Patent number: 4174727Abstract: A vacuum and atmospheric air pressure actuated valve assembly which prevents re-energization of the servomotor of a vacuum actuated vehicle road speed control system after the brakes have been applied and the road speed control system de-energized. The device requires manual opening movement of the throttle valve by movement of the accelerator pedal, or stopping of the engine, to decrease the amount of vacuum sufficiently to let the device re-set to a condition which will permit the road speed control system to be re-energized.Type: GrantFiled: September 8, 1978Date of Patent: November 20, 1979Assignee: General Motors CorporationInventor: John W. Riddel
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Patent number: 4161184Abstract: Linear motion fluid-actuated valves in which all elements are in rolling contact. Two major rollers are prevented from moving apart by a retainer belt, a separator roller depressing the belt between the two major rollers to prevent them from moving towards each other; two inner, opposite sides of the rectangularly cross sectioned valve-body holding the separator roller in position with respect to the retainer belt, the other two sides being in contact with the ends of the assembly of movable elements. Admission of fluid into an end of the valve body causes the assembly to move and thus expose a port in the valve body. Accumulators, pressure relief valves and fluid flow control valves are among the useful applications.Type: GrantFiled: August 5, 1977Date of Patent: July 17, 1979Inventor: Earl W. Traut
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Patent number: 4150684Abstract: A mixing valve comprising a rigid structure containing an interior recess and inlet and discharge ports in communication therewith, and weir plates and a slide plate confined in the recess for movement of the weir plates transversely of the recess with respect to the ports and for movement of the slide plate longitudinally of the recess with respect to the ports, said weir plates and slide plate containing openings which in predetermined positions of the plates are aligned in exact registration with the ports, and which can be moved relative to each other and to the ports to vary both the ratio of the fluids to be mixed to each other and the total flow of the fluids through the mixing valve.Type: GrantFiled: January 25, 1977Date of Patent: April 24, 1979Inventor: Willis D. Kervin
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Patent number: 4148311Abstract: Apparatus for supplying a mixture of oxygen and air for respiratory purposes and comprising a supply regulator having a first chamber with an inlet and an outlet for oxygen and a second chamber with an inlet and an outlet for air, control means responsive to a higher pressure in said first than said second chambers to permit air to enter said second chamber, adjustment means for modifying the action of said control means, first and second restrictors in the first and second outlets respectively, the second restrictor bore being larger than that of the first, said first and second outlets leading to a common supply duct and then to a first demand regulator responsive to an inspiration pressure drop to permit a flow of gas therethrough.Type: GrantFiled: May 18, 1977Date of Patent: April 10, 1979Assignee: The Secretary of State for Defence in Her Britannic Majesty's Government of the United Kingdom of Great Britain and Northern IrelandInventors: Richard C. London, Alexander J. F. MacMillan, Henry L. Roxburgh