An electrically operated valve includes a rotor, a stator assembly, a sleeve, a valve assembly, a box body, a circuit board assembly, and a valve port. The stator assembly is disposed outside the rotor, and the stator assembly includes a coil assembly. The sleeve is configured to isolate the stator assembly from the rotor. The valve assembly includes a spool. The box body has a cavity, and the circuit board assembly is accommodated in the cavity. The rotor is configured to drive the spool to move close to or away from the valve port.

A solenoid valve manifold 10 has: a wiring block 26 including a connector; a pedestal block 27 disposed on a solenoid valve aggregate; a support pin 32 that is provided to a support wall 31 provided to the pedestal block 27; a support hole 33 rotatably supports the wiring block 26; operation parts 43 that are provided at tip parts of leg portions 42 provided to end wall portions 34 of both ends of the wiring block; an engaging convex part 44 provided on each operation part 43; an engaging concave part 45 provided to the pedestal block 27 and engaged with the engaging convex part 44 when a connector 25 is held at an upright position; and an engaging concave part 46 engaged with the engaging convex part 44 when the connector 25 is held at a lateral position.

A stator provided at a position facing an opening of a housing member. The stator includes a conical protrusion portion and a side surface made from a magnetic body. The side surface extends from an outer periphery of the reduced diameter portion in a direction away from the opening of the housing member. Also included is a yoke with a fixation hole having an inner peripheral surface to which a part of the side surface portion of the stator is fixed. A non-contact portion, where the yoke and the side surface portion are out of contact with each other, is formed on the housing member side of the fixation hole. Also included is a non-magnetic connection member joined by being heated between the housing member and the yoke, and a movable element provided axially movably in the housing member and made from a magnetic body.

A housing unit for a hydraulic valve with an actuating device includes a first housing part with an internal thread and a second housing part with an external thread. A valve piston is disposed in the first housing part and an actuating element of the actuating device is disposed in the second housing part. The actuating element is operatively connected to the valve piston in the axial direction. The second housing part is only partially screwed into the first housing part in the assembled state of the housing unit. The housing unit further includes a securing device, which prevents a relative movement between the internal thread and the external thread in the assembled state of the housing unit in such a way that an operating point of the actuating device is set.

The present disclosure relates to a solenoid valve. The solenoid valve includes an armature provided inside the sleeve, a plunger configured to ascend and descend by the operation of the armature, an elastic member configured to press the plunger toward the armature, a magnet core having a through hole in which the plunger and the elastic member are provided and forming an inner space in a longitudinal direction, a valve seat provided in the inner space and on which an orifice penetrating in an axial direction is formed to be opened and closed by the plunger, and a plurality of flow resistance members each including a ring body interposed between the valve seat and the magnet core to generate a flow resistance of a braking fluid, and a slot formed at one side of the ring body to penetrate through the ring body so that the braking fluid passes therethrough.

A valve base 15 has: a valve base main body 20 on which a connector accommodating portion 37 and a board installing hole 38 are formed; a board assembly 42 provided with a plurality of output terminals and a plurality of input terminals connected to the output terminals by output wirings, and attached to the board installing hole 38; a relay connector 41 provided with a solenoid-side connection portion connected to a solenoid terminal and a board-side connection portion connected to the output terminals, and attached to the connector accommodating portion 37; and a through hole 55 provided on the valve base main body 20 so as to communicate with the connector accommodating portion 37, and exteriorly exposing a part of the relay connector 41. A manifold electromagnetic valve is formed by striking the valve bases 15 against each other. A type of solenoid valve is indicated by the relay connector 41 attached to the valve base 15.

A system includes a manifold and a flow control valve. The flow control valve includes an inlet defining an inlet chamber, an outlet defining an outlet chamber, and a movable member positioned in a control chamber coupled with the inlet and the outlet. The manifold includes a valve actuator, an inlet port that connects with the inlet chamber, an outlet port that connects with the outlet chamber, and a control port that connects the valve actuator with the control chamber to cause the movable member to change from a sealed state that prevents fluid flow between the inlet and the outlet to an unsealed state that allows fluid flow between the inlet and the outlet responsive to operation of the valve actuator.

Fluid distribution valve (11), particularly for a vehicle screen wash system, characterized in that it comprises a body (41) defining a duct (43) for the passage of fluid and comprising at least one fluid inlet (45) and at least one fluid outlet (47, 49), a membrane (53) housed in the duct and configured to be deformed under the action of a magnetic field between a first position of at least partial closure of the duct and a second position of at least partial opening of the duct, and means (51) for generating a magnetic field within the duct in order to cause the membrane to deform.

An electrically controlled valve for the circulation of hot fluids is made up of an electromagnetic actuator and a valve. The valve has an opening provided with a movable sealing member driven by a rotation shaft perpendicular to the axis of the opening, the electromagnetic actuator driving the rotation of the shaft, the output shaft of the actuator being substantially coaxial with the rotation shaft. The front end of the rotation shaft and the front end of the output shaft are not in direct contact. The coupling between the rotation shaft of the valve and the output shaft of the actuator is provided by a coupling member placed between the front end of the output shaft and the front end of the shaft. The coupling member transmitting rotation torque with a misalignment tolerance between the output shaft and the rotation shaft of the valve. The valve also having thermally insulation for mechanical connection between peripheral areas of the body of the actuator and the body of the valve.

A solenoid proportional valve includes a valve body (12) defining an inlet (14) and an outlet (16) for a fluid flow through the valve body, and an armature (22) that is moveable along a longitudinal axis from a first closed position to a second open position to control the flow of fluid through the valve. The valve further includes a flux can (32) and a solenoid coil (30) positioned within the flux can. When the solenoid coil is energized, a magnetic field causes the armature to move away from the first position against the valve body, thereby opening the valve. The valve further includes a flux washer (28) that acts as a spring pivot for a spring (26) having an outer edge that is secured by the flux washer. When the solenoid coil is energized, the magnetic field causes the armature to move away from the first position against the spring force of the spring, thereby opening the valve.