A valve core with a flow-through rod, has a valve seat, a valve shell, a certain valve plate, a movable valve plate, a valve plate, a connecting piece, a flow penetrating rod, a blocking piece and a detent structure, wherein the detent structure is used for stopping reciprocating actuation of the blocking piece, so that the water pressure forms a difference change; and the valve piece is elastically driven to change whether water flows out outwards, and the connecting piece is connected with the movable valve piece, so that the movable valve piece can be locked to rotate, and the water flowing out of the outside can be adjusted and controlled.

A valve includes a valve body with an inlet and an outlet coupled to a tubular conduit operable to circulate a flow of a process fluid, an actuator with an interior volume divided by a valve diaphragm into a first volume portion that encloses a working fluid and a second volume portion, and a plug coupled to the valve diaphragm and operable to move toward an open position or a closed position based on movement of the valve diaphragm relative to a pressure of the working fluid. A seal isolator is coupled to the tubular conduit and includes an isolator diaphragm having a first side exposed to the flow of the fluid and a second side fluidly coupled to the first volume portion through the working fluid. The isolator diaphragm is configured to transmit a pressure of the flow of the process fluid to the pressure of the working fluid.

A valve includes a valve body with an inlet and an outlet coupled to a tubular conduit operable to circulate a flow of a process fluid, an actuator with an interior volume divided by a valve diaphragm into a first volume portion that encloses a working fluid and a second volume portion, and a plug coupled to the valve diaphragm and operable to move toward an open position or a closed position based on movement of the valve diaphragm relative to a pressure of the working fluid. A seal isolator is coupled to the tubular conduit and includes an isolator diaphragm having a first side exposed to the flow of the fluid and a second side fluidly coupled to the first volume portion through the working fluid. The isolator diaphragm is configured to transmit a pressure of the flow of the process fluid to the pressure of the working fluid.

A pressure relief valve includes a first port that receives a first gas at an input pressure, a second port that receive a second gas at a regulating pressure, a third port in communication with the first port via an orifice and that outputs the first gas at an output pressure and a piston movable along an axis and configured to control the passage of gas through the orifice between the first port and the second port, such that the output pressure of the gas is dependent on the axial position of the piston. The valve also in include a resilient member configured to bias the piston and the valve comprises a chamber at least partly defined by the piston and in fluid communication with the second port, such that the force exerted by the gas within the chamber on the piston acts against the action of the resilient member.

The present invention intends to make it hard to distort a diaphragm at the time of assembling in a fluid control valve structured to screw a screw member to a plunger. The fluid control valve that makes an actuator move a valve body installed movably in a contacting/separating direction with respect to a valve seat includes: the plunger that is interposed between the valve body and the actuator to transfer the power of the actuator to the valve body; and the diaphragm connected to the circumferential surface of the plunger. In addition, the plunger includes: a first division body connected to the diaphragm; and a second division body that is arranged on an actuator side of the first division body and to which the screw member is screwed. Further, the second division body is configured to be rotatable with respect to the first division body in its circumferential direction.

The present invention intends to make it hard to distort a diaphragm at the time of assembling in a fluid control valve structured to screw a screw member to a plunger. The fluid control valve that makes an actuator move a valve body installed movably in a contacting/separating direction with respect to a valve seat includes: the plunger that is interposed between the valve body and the actuator to transfer the power of the actuator to the valve body; and the diaphragm connected to the circumferential surface of the plunger. In addition, the plunger includes: a first division body connected to the diaphragm; and a second division body that is arranged on an actuator side of the first division body and to which the screw member is screwed. Further, the second division body is configured to be rotatable with respect to the first division body in its circumferential direction.

A valve device includes valve elements each having a valve seat, a valve seat support, and a diaphragm provided so as to be able to abut on and separate from the seat surface of the valve seat, the diaphragm making the flow passage of the valve seat and the corresponding secondary flow path communicate through the gap between the diaphragm and the valve seat, and the valve seat support has seal surfaces that cooperate with a part of the inner wall surface of the corresponding accommodation recess to shut off the communication between the corresponding primary flow path and the secondary flow path, and a detour passage that connects the primary flow path and the flow passage of the valve seat, and the valve body defines a communication passage that makes the secondary flow paths communicates with each other.

A valve device includes valve elements each having a valve seat, a valve seat support, and a diaphragm provided so as to be able to abut on and separate from the seat surface of the valve seat, the diaphragm making the flow passage of the valve seat and the corresponding secondary flow path communicate through the gap between the diaphragm and the valve seat, and the valve seat support has seal surfaces that cooperate with a part of the inner wall surface of the corresponding accommodation recess to shut off the communication between the corresponding primary flow path and the secondary flow path, and a detour passage that connects the primary flow path and the flow passage of the valve seat, and the valve body defines a communication passage that makes the secondary flow paths communicates with each other.

This invention relates generally to the dispensing of a fluid. More specifically, the invention relates to an apparatus and method for remotely controlling the flow of an effluent fluid stream from a dispensing hose of a fluid dispenser. An actuator controls at least one valve assembly of the fluid dispenser and comprises a generator located remotely of the at least one valve assembly, for generating a low-pressure signal, and at least one receiver in fluid communication with the generator for receiving the low pressure signal of each receiver operably associated with each valve assembly. The actuator also facilitates the simultaneous, sequential and alternate control of the at least one valve assembly.

This invention relates generally to the dispensing of a fluid. More specifically, the invention relates to an apparatus and method for remotely controlling the flow of an effluent fluid stream from a dispensing hose of a fluid dispenser. An actuator controls at least one valve assembly of the fluid dispenser and comprises a generator located remotely of the at least one valve assembly, for generating a low-pressure signal, and at least one receiver in fluid communication with the generator for receiving the low pressure signal of each receiver operably associated with each valve assembly. The actuator also facilitates the simultaneous, sequential and alternate control of the at least one valve assembly.