Actuator apparatus with internal tubing and anti-rotation mechanism

The invention claimed is: 1. An apparatus comprising: a diaphragm plate defining a first pressure chamber and a second pressure chamber opposite the first pressure chamber; a first internal fluid passageway in fluid communication with atmosphere; a second internal fluid passageway to receive a control fluid from a controller; a tube fluidly coupling the first or second internal fluid passageway to the first pressure chamber via an opening in the diaphragm plate, a first center axis of the tube offset from a second center axis of the diaphragm plate, the tube passing through the diaphragm plate to prevent the diaphragm plate from rotating; an adjustable spring seat in contact with a spring at a first end of the spring, the spring in contact with the diaphragm plate at a second end of the spring opposite the first end; and a seal to seal an interface between the tube and the opening in the diaphragm plate on a side of the diaphragm plate to be pressurized, wherein the side of the diaphragm plate to be pressurized is adjacent the first pressure chamber in a direct-acting configuration and adjacent the second pressure chamber in a reverse-acting configuration. 2. The apparatus as defined in claim 1 , further including an adjuster that is threadably coupled to a valve body, the adjuster operatively coupled to the adjustable spring seat or the diaphragm plate. 3. The apparatus as defined in claim 1 , wherein the apparatus is alternatively configurable for direct-acting operation or reverse-acting operation. 4. The apparatus as defined in claim 1 , wherein, in a direct-acting configuration, the tube is fluidly coupled to the second internal fluid passageway to supply the control fluid to the first pressure chamber, and the second pressure chamber is in fluid communication with atmosphere via the first internal fluid passageway; and in a reverse-acting configuration, the tube is fluidly coupled to the first internal fluid passageway to provide fluid communication between the first pressure chamber and the atmosphere, and the control fluid is supplied to the second pressure chamber via the second internal fluid passageway. 5. The apparatus as defined in claim 1 , further comprising a bushing fixed in the opening in the diaphragm plate, the bushing having an inner surface to slidably receive the tube. 6. The apparatus as defined in claim 5 , wherein the seal is integrated with the bushing. 7. The apparatus as defined in claim 5 , wherein the diaphragm plate is a unitary member and wherein a diaphragm extends across a face of the diaphragm plate adjacent the pressurized side of the diaphragm plate. 8. The apparatus as defined in claim 5 , wherein the bushing includes a flange to retain a diaphragm. 9. The apparatus as defined in claim 8 , further comprising a retainer adjacent a face of the diaphragm plate opposite the side of the diaphragm plate to be pressurized, the retainer threadably coupled to the bushing to retain the diaphragm between the flange of the bushing and a face of the diaphragm plate adjacent the side of the diaphragm plate to be pressurized. 10. An apparatus, comprising: means for actuating a fluid valve; means for attaching the means for actuating to the fluid valve; first means for fluidly coupling a first pressure chamber to atmosphere, a portion of the first means for fluidly coupling being integrally formed with the means for attaching; and second means for fluidly coupling a second pressure chamber to a control fluid without the use of external tubing, a portion of the second means for fluidly coupling being integrally formed with the means for attaching, wherein the first or second means for fluidly coupling further includes means for preventing a valve stem of the fluid valve from rotating relative to the fluid valve, wherein the means for preventing the valve stem of the fluid valve from rotating is offset from a central axis of the valve stem; means for adjusting an amount of force acting on the actuating means; and means for sealing the means for preventing to prevent leakage between the first and second pressure chambers. 11. The apparatus as defined in claim 10 , wherein: in a direct-acting configuration, the second means for fluidly coupling includes the means for preventing; and in a reverse-acting configuration, the first means for fluidly coupling includes the means for preventing. 12. An apparatus comprising: an actuator casing; a diaphragm plate disposed within the actuator casing and defining a first pressure chamber and a second pressure chamber opposite the first pressure chamber; a yoke to couple the actuator casing to a fluid valve, the yoke including a first internal fluid passageway in fluid communication with atmosphere and a second internal fluid passageway to receive a control fluid from a controller; a tube fluidly coupling the first or second internal fluid passageway to the first pressure chamber via an opening in the diaphragm plate, a first center axis of the tube offset from a second center axis of the diaphragm plate, the tube passing through the diaphragm plate to prevent the diaphragm plate from rotating relative to the actuator casing; and an adjustable spring seat in contact with a spring at a first end of the spring, the spring in contact with the diaphragm plate at a second end of the spring opposite the first end. 13. The apparatus as defined in claim 12 , further including an adjuster that is threadably coupled to a valve body, the adjuster operatively coupled to the adjustable spring seat or the diaphragm plate. 14. The apparatus as defined in claim 12 , wherein the apparatus is alternatively configurable for direct-acting operation or reverse-acting operation. 15. The apparatus as defined in claim 12 , wherein, in a direct-acting configuration, the tube is fluidly coupled to the second internal fluid passageway to supply the control fluid to the first pressure chamber, and the second pressure chamber is in fluid communication with atmosphere via the first internal fluid passageway; and in a reverse-acting configuration, the tube is fluidly coupled to the first internal fluid passageway to provide fluid communication between the first pressure chamber and the atmosphere, and the control fluid is supplied to the second pressure chamber via the second internal fluid passageway. 16. The apparatus as defined in claim 12 , further comprising a seal to seal an interface between the tube and the opening in the diaphragm plate on a pressurized side of the diaphragm plate, wherein the pressurized side of the diaphragm plate is adjacent the first pressure chamber in a direct-acting configuration and adjacent the second pressure chamber in a reverse-acting configuration. 17. The apparatus as defined in claim 16 , further comprising a bushing fixed in the opening in the diaphragm plate, the bushing having an inner surface to slidably receive the tube. 18. The apparatus as defined in claim 17 , wherein the seal is integrated with the bushing. 19. The apparatus as defined in claim 17 , wherein the diaphragm plate is a unitary member and wherein a diaphragm extends across a face of the diaphragm plate adjacent the pressurized side of the diaphragm plate. 20. The apparatus as defined in claim 17 , wherein the bushing includes a flange to retain a diaphragm. 21. The apparatus as defined in claim 20 , further comprising a retainer adjacent a face of the diaphragm plate opposite the pressurized side of the diaphragm plate, the retainer thre