Valve positioner with pressure feedback, dynamic correction and diagnostics
First Claim
1. A valve positioner for providing a control pressure to an actuator diaphragm mechanically coupled to a valve spring, the valve spring requiring a preload force in order for the positioner to drive a valve stem between a first control pressure and a first corresponding valve stem position and a second control pressure and a second corresponding valve stem position, the positioner comprising:
- means for receiving communications representative of the first and second control pressures and their corresponding valve stem positions;
means for sensing the valve position and the control pressure;
transducer means receiving a supply of air, for providing the control pressure as a function of a command output;
benchsetting means receiving the sensed position and control pressure, the benchsetting means providing a command output corresponding to the first and the second control pressures and ramping therebetween, the benchsetting means storing the sensed control pressure at predetermined stem positions, and for providing the preload force as a function of the stored control pressures, the first and second control pressures and their corresponding positions; and
means for transmitting the preload force to a master;
wherein the benchsetting means calculates a spring constant according to the equation, ##EQU5## where ys is the valve position at 100% of stroke, y0 is the valve position at 0% of stroke, AE is the effective area of the diaphragm, PS is the control pressure at 100% stroke and PR is the control pressure at 0% stroke, FS is the static frictional force and FD is the dynamic frictional force.
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Accused Products
Abstract
In this invention, a valve positioner receives a setpoint from a master and provides a control pressure to a valve actuator for controlling a valve. A sensing circuit in the positioner senses the position of the valve and the control pressure, and a control circuit in the positioner uses both the sensed pressure and position to provide a command output to a pneumatic section which produces the control pressure. In another embodiment of the invention, a positioner receives a setpoint from a master and provides a control pressure to a valve actuator for controlling a valve. A sensing circuit in the positioner senses the valve position and pneumatics in the positioner provide the control pressure as a function of the sensed position and an output from a control circuit within the positioner. The positioner includes a diagnostic circuit which stores a valve attribute and provides a diagnostic output as a function of the stored valve characteristic and a selected one of the sensed variables. In another embodiment of the invention, a positioner includes a correction circuit for storing a valve attribute affected by one of a set of physical parameters and for receiving a selected one of the set of sensed physical parameters. The correction means compensates a command output from a control circuit as a function of the sensed physical parameter and the stored valve characteristic. In another embodiment, the positioner includes a benchset control circuit which ramps the control pressure between an initial control pressure and a final control pressure and back to the initial control pressure, while sampling specific control pressures and their corresponding positions, in order to provide an output indicating the proper spring preload force on an actuator spring.
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Citations
2 Claims
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1. A valve positioner for providing a control pressure to an actuator diaphragm mechanically coupled to a valve spring, the valve spring requiring a preload force in order for the positioner to drive a valve stem between a first control pressure and a first corresponding valve stem position and a second control pressure and a second corresponding valve stem position, the positioner comprising:
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means for receiving communications representative of the first and second control pressures and their corresponding valve stem positions; means for sensing the valve position and the control pressure; transducer means receiving a supply of air, for providing the control pressure as a function of a command output; benchsetting means receiving the sensed position and control pressure, the benchsetting means providing a command output corresponding to the first and the second control pressures and ramping therebetween, the benchsetting means storing the sensed control pressure at predetermined stem positions, and for providing the preload force as a function of the stored control pressures, the first and second control pressures and their corresponding positions; and means for transmitting the preload force to a master;
wherein the benchsetting means calculates a spring constant according to the equation, ##EQU5## where ys is the valve position at 100% of stroke, y0 is the valve position at 0% of stroke, AE is the effective area of the diaphragm, PS is the control pressure at 100% stroke and PR is the control pressure at 0% stroke, FS is the static frictional force and FD is the dynamic frictional force. - View Dependent Claims (2)
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Specification