A control assembly for converting a “fail-close” regulator to a “fail-open” regulator, or vice versa, without having to modify or reconfigure a casing of the regulator includes a control member, a central rod, and a spring disposed between first and second spring seats. A regulator including the con
A control assembly for converting a “fail-close” regulator to a “fail-open” regulator, or vice versa, without having to modify or reconfigure a casing of the regulator includes a control member, a central rod, and a spring disposed between first and second spring seats. A regulator including the control assembly includes a valve body and an actuator casing, the valve body defining a fluid flow-path. The control member is slidably disposed within the actuator casing and adapted for displacement relative to the valve body for controlling the flow of fluid through the flow-path. The spring and spring seats are disposed about the central rod, such that the spring biases the control member into a predetermined position relative to the regulator casing.
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1. A control assembly for regulating the flow of a fluid through a fluid flow-path of a regulator, the control assembly comprising: a hollow control member moveable between an open position and a closed position;a seat ring disposed outside of the hollow control member and adapted to be engaged by t
1. A control assembly for regulating the flow of a fluid through a fluid flow-path of a regulator, the control assembly comprising: a hollow control member moveable between an open position and a closed position;a seat ring disposed outside of the hollow control member and adapted to be engaged by the control member when the control member occupies the closed position to prevent the flow of fluid through the fluid flow-path;a diaphragm subassembly connected to the control member and including a diaphragm, the diaphragm extending radially outward from the control member and adapted to respond to pressure changes on opposing sides thereof for moving the control member when installed within a regulator;a central rod extending at least partly through and concentric with the hollow control member and adapted to be disposed through a casing of the regulator;a first spring seat removably disposed in the hollow control member and defining an opening receiving the central rod, the first spring seat fixed relative to and disposed concentric with the central rod;a second spring seat removably disposed in the hollow control member and defining an opening receiving the central rod, the second spring seat being fixed relative to the control member and disposed concentric with the central rod, wherein the first spring seat and the second spring seat are each removably disposed on the central rod; anda spring disposed in the hollow control member and being disposed between the first and second spring seats, the spring biasing the control member away from the seat ring and into the open position. 2. The control assembly of claim 1, wherein the control member defines a central bore adapted to be in fluid communication with the flow-path of the regulator, and the first spring seat, the second spring seat, and the spring are disposed inside the central bore. 3. The control assembly of claim 2, wherein the second spring seat is slidably disposed relative to the central rod. 4. The control assembly of claim 3, wherein the first spring seat and the second spring seat each define an aperture adapted to be in fluid communication with the fluid flow-path of the regulator. 5. The control assembly of claim 1, further comprising a nut threadably disposed on the central rod adjacent the first spring seat, wherein rotating the nut relative to the central rod causes the first spring seat to move along an axis of the central rod for adjusting the pre-loading of the spring. 6. A regulator, comprising: a valve body defining a flow-path for a fluid;an actuator casing coupled to the valve body;a hollow control member disposed at least partly within the actuator casing and adapted for displacement relative to the valve body between an open position and a closed position for regulating a flow of the fluid through the flow-path;a seat ring carried by the valve body and disposed outside of the hollow control member, the seat ring adapted to be engaged by the control member when the control member occupies the closed position to prevent the flow of fluid through the fluid flow-path;a diaphragm subassembly connected to the control member and including a diaphragm extending radially outward from the control member and fixed to the actuator casing, the diaphragm adapted to respond to pressure changes on opposing sides thereof for moving the control member;a central rod disposed through the actuator casing and extending at least partly through and concentric with the hollow control member;a first spring seat removably disposed in the hollow control member and fixed relative to the central rod and disposed concentric with the central rod;a second spring seat removably disposed in the hollow control member and fixed relative to the control member and disposed concentric with the central rod, wherein the first spring seat and the second spring seat are each removably disposed on the central rod; anda spring disposed in the hollow control member between the first spring seat and the second spring seat, the spring biasing the control member away from the seat ring and into the open position. 7. The regulator of claim 6, wherein the control member defines a central bore in fluid communication with the flow-path and the first spring seat, the second spring seat, and the spring are disposed inside the central bore. 8. The regulator of claim 7, wherein the second spring seat is slidable displaceable relative to the central rod. 9. The regulator of claim 7, wherein the first spring seat and the second spring seat each define an aperture in fluid communication with the fluid flow-path of the regulator. 10. The regulator of claim 6, further comprising a nut threadably disposed on the central rod adjacent the first spring seat, wherein rotating the nut relative to the central rod causes the first spring seat to move along an axis of the central rod for adjusting the pre-loading of the spring. 11. A regulator, comprising: a valve body defining a flow-path for a fluid;an actuator casing coupled to the valve body;a hollow control member disposed within the actuator casing and adapted for displacement relative to the valve body between an open position and a closed position for regulating a flow of the fluid through the flow-path;a seat ring carried by the valve body and disposed outside of the hollow control member, the seat ring adapted to be engaged by the control member when the control member occupies the closed position to prevent the flow of fluid through the fluid flow-path;a diaphragm subassembly connected to the control member and including a diaphragm extending radially outward from the control member and fixed to the actuator casing, the diaphragm adapted to respond to pressure changes on opposing sides thereof for moving the control member; anda positioning device assembly disposed in the hollow control member and comprising a central rod and a spring disposed concentrically about the central rod, at least a portion of the central rod disposed within and concentrically with the control member, the spring biasing the control member into the open position, the positioning device assembly further comprising:a first spring seat removably disposed in the hollow control member and fixed relative to the central rod and disposed concentric with the central rod; anda second spring seat removably disposed in the hollow control member and fixed relative to one of the control member and the actuator casing and disposed concentric with the central rod, wherein the spring is disposed between the first and second spring seats, wherein the first spring seat and the second spring seat are each removably disposed on the central rod. 12. The regulator of claim 11, wherein the control member defines a central bore in fluid communication with the fluid flow-path, and the first spring seat, the second spring seat, and the spring are disposed inside the central bore. 13. The regulator of claim 12, wherein the second spring seat is slidably displaceable relative to the central rod. 14. The regulator of claim 13, wherein the first spring seat and the second spring seat each define an aperture in fluid communication with the fluid flow-path of the regulator. 15. The regulator of claim 11, further comprising a nut threadably disposed on the central rod adjacent the first spring seat, wherein rotating the nut relative to the central rod causes the first spring seat to move along an axis of the central rod for adjusting the pre-loading of the spring.
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