Tether for an inspection vehicle

What is claimed is: 1. An inspection system comprising: an submersible inspection vehicle having a propulsion device operable in a liquid medium; at least one sensor operably coupled with the submersible inspection vehicle; a control system including an electronic controller operably coupled with the submersible inspection vehicle; a tether connected to the submersible inspection vehicle; and a controllable buoyancy system operably coupled to the tether and the control system; the controllable buoyancy system comprising one or more floating bodies and one or more buoyant elements connected to the tether; and the one or more floating bodies and the one or more buoyant elements being configured to adjust a volume of gas and a volume of liquid within the one or more floating bodies and the one or more buoyant elements, thereby controlling a buoyancy level and a floating height of the one or more floating bodies and the one or more buoyant elements. 2. The inspection system of claim 1 , further comprising a gas conduit and an electrical conduit associated with the tether being connected to the one or more floating bodies and the one or more buoyant elements. 3. The inspection system of claim 2 , wherein at least one of the one or more floating bodies and the one or more buoyant elements further comprise: an inlet valve connected to the tether configured to ingress a flow of gas and/or liquid; an outlet valve connected to the tether configured to egress a flow of gas and/or liquid; and a discharge exchange valve in fluid communication with the liquid medium in a housing configured to control a volume of gas and a volume of liquid within the one or more floating bodies and the one or more buoyant elements. 4. The inspection system of claim 3 , further comprising a gas pump operably connected to the gas conduit, and wherein the electronic controller transmits control commands to the gas pump and to the valves to define the buoyancy level of the one or more floating bodies and the one or more buoyancy elements such that the buoyancy level of the one or more floating bodies and the one or more buoyancy elements can be changed individually or together. 5. The inspection system of claim 1 , wherein the one or more floating bodies include a floating body propulsion system operable to generate directionally controlled thrust to the floating body in the liquid medium such that the one or more floating bodies can be controlled individually or together. 6. The inspection system of claim 1 , further comprising a reel connected to the tether, the reel being operable to deploy and retract the tether into/from the liquid medium. 7. The inspection system of claim 6 , wherein the reel includes at least one of manual control means and an electrically controlled means. 8. The inspection system of claim 1 , further comprising a tether cleaning device operable to remove a portion of the liquid medium from the tether during retraction. 9. The inspection system of claim 8 , wherein the tether cleaning device includes a sponge or brush wiper. 10. The inspection system of claim 8 , wherein the tether cleaning device includes a detergent cleaning device. 11. The inspection system of claim 1 , further comprising a remote control station operable to transmit and receive vehicle control signals through the tether. 12. A method for inspecting components within a housing at least partially filled with a liquid medium, the method comprising: connecting a tether to an submersible inspection vehicle; deploying the submersible inspection vehicle into the housing; moving the submersible inspection vehicle within the housing with a liquid drive propulsion device; sensing a portion of the components with a sensor operably coupled to the submersible inspection vehicle; and controlling movement of the tether with a controllable buoyancy system, the controllable buoyancy system comprising one or more floating bodies and one or more buoyant elements connected to the tether; and adjusting a volume of gas and a volume of liquid within the one or more floating bodies and the one or more buoyant elements by the one or more floating bodies and the one or more buoyant elements, thereby controlling a buoyancy level and a floating height of the one or more floating bodies and the one or more buoyant elements. 13. The method of claim 12 , wherein the adjusting includes controlling gas flow with one or more valves coupled to the one or more floating bodies. 14. The method of claim 12 , further comprising maneuvering the one or more floating bodies by way of a floating body propulsion system operable within the liquid medium. 15. The method of claim 12 , further comprising automatically controlling a location of a floating body based on a predetermined control algorithm. 16. The method of claim 12 further comprising controlling the buoyancy level of each of the one or more buoyant elements individually or together. 17. The method of claim 12 , further comprising deploying and retracting the tether from/onto a reel. 18. The method of claim 17 , wherein the deploying and retracting includes at least one of manual control means and an electrical control means. 19. The method of claim 12 , further comprising cleaning the tether with a tether cleaning device. 20. The method of claim 19 , wherein the cleaning includes removing liquid from the tether with a sponge or a wiper coupled to the cleaning device. 21. The method of claim 19 , wherein the cleaning includes applying a detergent solution to the tether. 22. The method of claim 12 , further comprising controlling the tether buoyancy system and the submersible inspection vehicle via a remote control station. 23. A tether system for a liquid propelled submersible inspection vehicle comprising: a tether configured to connect a control system to the submersible inspection vehicle; a controllable buoyancy system operably coupled to the tether; the controllable buoyancy system comprising one or more floating bodies and one or more buoyant elements connected to the tether; and the one or more floating bodies and the one or more buoyant elements being configured to adjust a volume of gas and a volume of liquid within the one or more floating bodies and the one or more buoyant elements, thereby controlling a buoyancy level and a floating height of the one or more floating bodies and the one or more buoyant elements. 24. The system of claim 23 , wherein the one or more floating bodies include a floating body propulsion system operable to maneuver the one or more floating bodies within the liquid medium. 25. The system of claim 23 , wherein the controllable buoyancy system includes a gas conduit associated with the tether and connected to the one or more floating bodies. 26. The system of claim 25 , wherein the controllable buoyancy system includes a gas pump operably connected to the gas conduit, wherein a controller transmits commands to the gas pump to deliver gas to the one or more floating bodies. 27. The system of claim 23 , further comprising a control system operable to control the buoyancy level and a position of the one or more floating bodies. 28. The system of claim 23 , wherein at least one of the one or more floating bodies and the one or more buoyant elements include at least one of an inlet valve, an outlet valve, and a discharge exchange va