Actuator apparatus having integral yoke tubing

What is claimed is: 1. An actuator apparatus for a control valve, comprising: an actuator comprising an upper casing and a lower casing defining a cavity and an actuating device disposed at least partially within the cavity and dividing the cavity into an upper chamber and a lower chamber; and a yoke having a first end connected to the actuator and a second end arranged for connection to the control valve and comprising an actuator spring disposed within a body of the yoke, the yoke including a cylindrical portion and a continuous yoke tube having a first portion extending longitudinally through and formed within the cylindrical portion of the yoke and directly connected to the cavity of the actuator via an aperture in one of the upper casing or the lower casing, and a second portion extending perpendicular to the first portion at a location proximate the second end, the yoke tube extending from the aperture in the actuator, through the first portion and the second portion, and providing an air passage that fluidly connects the cavity of the actuator and a controller; the controller including an outlet port; wherein the second portion of the yoke tube is connected to the outlet port of the controller adjacent a second end of the yoke; and wherein the yoke tube has a material melting temperature that is greater than a material melting temperature of the body of the yoke. 2. The actuator apparatus of claim 1 , wherein the upper casing of the actuator comprises a vent assembly. 3. The actuator apparatus of claim 1 , wherein the actuating device is a diaphragm. 4. The actuator apparatus of claim 3 , further comprising: a diaphragm plate disposed adjacent the diaphragm; and an actuator stem extending at least partially through the body of the yoke and connected to the diaphragm plate to operatively connect the diaphragm to the actuator stem. 5. The actuator apparatus of claim 4 , further comprising a spring seat mounted on the actuator stem and a spring adjuster threaded onto the actuator stem to adjust the position of the spring seat and the pre-load of the actuator spring. 6. The actuator apparatus of claim 4 , further comprising a second diaphragm plate disposed adjacent the diaphragm opposite the diaphragm plate. 7. The actuator apparatus of claim 1 , further comprising a travel indicator mounted to the body of the yoke proximate the second end of the yoke and operatively connected to an actuator stem. 8. The actuator apparatus of claim 7 , wherein the yoke tube is cast into the body of the yoke. 9. The actuator apparatus of claim 8 , wherein the body of the yoke is cast iron and the yoke tube is stainless steel. 10. The actuator apparatus of claim 1 , wherein the yoke tube is integrally formed in the body of the yoke and wherein the yoke tube is made from a dissimilar metal than the yoke. 11. A control valve assembly, comprising: an actuator apparatus, the actuator apparatus comprising: an actuator comprising an upper casing and a lower casing defining a cavity and an actuating device disposed at least partially within the cavity and dividing the cavity into an upper chamber and a lower chamber; a yoke connected to the actuator and comprising an actuator spring disposed within a body of the yoke, the body of the yoke including a first end secured to the lower casing of the actuator and a second end, the yoke including a cylindrical portion and a yoke tube extending longitudinally through the cylindrical portion of the yoke; the yoke tube including a first portion and a second portion, the first portion formed within the cylindrical portion and directly connected to the cavity of the actuator via an aperture in the lower casing, the second portion extending at an angle relative to the first portion at a location proximate the second end; and a controller mounted to the body of the yoke adjacent the second end and having an outlet port, the yoke tube extending from an aperture in the lower casing of the actuator to the outlet port of the controller and providing an air passage that fluidly connects the lower chamber of the actuator and the outlet port of the controller, the second portion of the yoke tube connected to the outlet port of the controller adjacent the second end of the yoke; wherein the yoke tube is integrally formed in the body of the yoke and wherein the yoke tube is made from a dissimilar metal than the yoke; and a fluid valve connected to the second end of the yoke and operatively connected to the actuator. 12. The control valve assembly of claim 11 , wherein the upper casing of the actuator comprises a vent assembly. 13. The control valve assembly of claim 11 , wherein the actuating device is a diaphragm. 14. The control valve assembly of claim 13 , further comprising: a diaphragm plate disposed adjacent the diaphragm; and an actuator stem extending at least partially through the body of the yoke and connected to the diaphragm plate to operatively connect the diaphragm to the actuator stem. 15. The control valve assembly of claim 14 , further comprising a spring seat mounted on the actuator stem and a spring adjuster threaded onto the actuator stem to adjust the position of the spring seat and the pre-load of the actuator spring. 16. The control valve assembly of claim 14 , wherein the fluid valve comprises a valve stem connected to the actuator stem to operatively connect a flow control member of the fluid valve to the diaphragm. 17. The control valve assembly of claim 14 , further comprising a travel indicator mounted to the body of the yoke adjacent the second end and operatively connected to the actuator stem. 18. The control valve assembly of claim 11 , wherein the yoke tube is cast into the body of the yoke. 19. The control valve assembly of claim 11 , wherein the yoke tube has a material melting temperature that is greater than a material melting temperature of the body of the yoke.