A control valve for a multi-stage hydraulic actuator includes a valve body defining a translation axis, a spool disposed within the valve body and movable along the translation axis, and a flange. The flange is fixed relative to the spool and has an aperture disposed externally of the valve body to removably fix the spool to a spool of a redundant control valve independently connected to the multi-stage hydraulic actuator for mitigating force fights between actuators coupled to the control valve.

A valve assembly for controlling exhaust gas flow to a turbine housing interior of a dual volute turbocharger includes a first valve member, a valve shaft, and a second valve member. The first valve member is disposed about and extends along an axis between a first end and a second end and is movable between a first, a second, and a third position for controlling exhaust gas flow to the turbine housing interior. The first valve member defines a valve interior between the first and second ends. The valve shaft is partially disposed in the valve interior and is coupled to the first end of the first valve member. The second valve member has a base coupled to and disposed about the valve shaft and a projection extending from the base and about the shaft into the valve interior. The second valve member is movable between closed and open positions.

Valves, the components used to create valves and, more particularly, to piston-activated cartridge valves are disclosed. The valves include cartridge valve assemblies having a housing and a slidable member, the major part of which is located within the internal space of the housing. One end of the slidable member extends outward beyond the second end of the cartridge housing, and can be contacted by an actuator piston to open the valve. The interior surface of the cartridge housing and the sides of the slidable member are configured so that when the slidable member is in the open position, at least one fluid flow path is provided between the first and second openings of the cartridge housing so that fluid can flow either: (a) from the first opening to the second opening; or (b) from the second opening to the first opening. A system comprising a plurality of insertable devices that are used to create various valve configurations is also provided herein, as are various fluid circuits that can be created using the insertable devices described herein.

The water outlet device comprises a water outlet component and a control mechanism, the water outlet component comprises a spherical chamber, a bottom of the spherical chamber comprises a water outlet hole, a top of the spherical chamber comprises a first water inlet, a side wall of the spherical chamber comprises a second water inlet, discharging water spray from the water outlet hole is controlled by flow rate variations of the first water inlet and the second water inlet, and the control mechanism cooperates with the first water inlet and the second water inlet to steplessly adjust the flow rate variations of the first water inlet and the second water inlet.

A valve system for use with a cylinder having an extensible rod, includes first and second valve assemblies, each including an inlet/outlet port configured to selectively be coupled with a source of pressurized gas, a check valve biased toward a closed state and having a check valve body at least partially receivable within a first port of the cylinder, a flow control valve positioned in series between the inlet/outlet port and the check valve, and an inlet pilot port connected with the check valve for opening the check valve when supplied with pressurized gas. First and second pilot lines extend to the respective inlet pilot ports from respective outlet pilot ports of the opposite ones of the first and second valve assemblies. When pressurized gas is supplied to the inlet/outlet port of a valve assembly, pressurized gas is also supplied to the opposite inlet pilot port.

A selection valve for a beverage preparation machine comprises a valve body with a hot water inlet, an air inlet, and at least a first outlet. A selector member is movably mounted relative to the valve body for movement between a first position in which the hot water inlet is in fluid communication with the at least first outlet, and a second position in which both the hot water inlet and the air inlet are in fluid communication with the at least first outlet. A satellite element has a predefined limited amount of free relative movement relative to the selector member for allowing the satellite element to be independently positioned between the first and second positions of the selector member.

An evaporative emissions control system includes a first vent valve configured to selectively open and close a first vent, a second vent valve configured to selectively open and close a second vent, a fuel level sensor configured to sense a fuel level in the fuel tank, a pressure sensor configured to sense a pressure in the fuel tank, an accelerometer configured to measure an acceleration of the vehicle, and a controller configured to regulate operation of the first and second vent valves to provide pressure relief for the fuel tank. The controller is programmed to determine if a refueling event is occurring based one signals indicating the fuel level is increasing, the pressure in the fuel tank is increasing, and the vehicle is not moving, and open at least one of the first and second vent valves based on determining the refueling event is occurring.

A valve device includes an operating portion including an operating rod switchable between a first state where the operating rod is at a first position, a second state where the operating rod is displaced from the first position, and a third state where the operating rod is displaced from the first position, a push member that can advance by being pushed by the operating rod, a first valve that can be opened and closed in accordance with the amount of displacement of the operating rod and the push member from the first position, a housing storing the first valve, and a second valve that can open and close a communication passage allowing communication inside and outside the housing by switching operation of the operating rod so as to switch from the first state to the second state.

A two-phase valve is provided, including a valve body configured for being at least partially immersible in a liquid phase of a working fluid. The valve body includes a first valve arrangement and a second valve arrangement. The first valve arrangement defines a first flow path for enabling venting vapor phase of the working fluid therethrough when the first valve arrangement is open, and the first valve arrangement is configured for selectively closing the first flow path when the liquid phase of the working fluid has a liquid level not less than a first threshold value. The second valve arrangement defines a second flow path for enabling passage of the liquid phase of the working fluid therethrough when the second valve arrangement is open, and the second valve arrangement is configured for selectively closing the second flow path when the liquid level of the liquid phase of said working fluid is not less than a second threshold value. The second threshold value is lower than the first threshold value.

A dual volute turbocharger for use with an internal combustion engine includes a valve for controlling exhaust gas flow to a turbine housing interior of the dual volute turbocharger. The dual volute turbocharger also includes a first volute and a second volute each adapted for fluid communication with the internal combustion engine. The dual volute turbocharger further includes a wall separating the first and second volutes and a valve seat. The valve seat and the wall collectively define a valve cavity. The valve is movable between a closed position and an open position. The valve and the wall of the turbine housing collectively define a first cross-sectional flow area. The valve and the valve seat collectively define a second cross-sectional flow area. A method of controlling the valve of the dual volute turbocharger is also disclosed.