Cable hose with embedded features

We claim: 1. A cable hose suitable for welding or cutting systems, comprising: one or more conductors; monolithic tubing that extends around and between the one or more conductors to define: (1) one or more discrete passageways for the one or more conductors that provide a closed path from a first end of the cable hose to a second end of the cable hose for the one or more conductors; and (2) an inner conduit configured to allow a gas to flow from the first end to the second end; and a helical internal component extending along the monolithic tubing within the inner conduit, wherein the helical internal component has at least two segments extending radially from a central portion and collectively spanning a cross-sectional area of the inner conduit, the helical internal component being configured to introduce turbulence into the flow of the gas flowing through the inner conduit and divide the inner conduit into two or more sub-conduits. 2. The cable hose of claim 1 , wherein the one or more conductors comprise a plurality of conductors and the monolithic tubing is formed around and between the plurality of conductors by molding an insulator over the plurality of conductors. 3. The cable hose of claim 1 , wherein the one or more conductors comprise electrical conductors and the closed path is an insulated path that prevents electrical current introduced into the cable hose at the first end or the second end from exiting the cable hose radially. 4. The cable hose of claim 3 , wherein the one or more electrical conductors comprise uninsulated electrical conductors. 5. The cable hose of claim 1 , wherein the one or more conductors comprise optical conductors and the closed path prevents optical signals introduced into the cable hose at the first end or the second end from exiting the cable hose radially. 6. The cable hose of claim 1 , wherein the one or more conductors include a first set of conductors and a second set of conductors. 7. The cable hose of claim 6 , wherein the first set of conductors is arranged around a first circumference and the second set of conductors is arranged around a second circumference, the first and second circumferences each being disposed within the monolithic tubing. 8. The cable hose of claim 6 , wherein the first set of conductors and the second set of conductors are both patterned around a single circumference within the monolithic tubing. 9. The cable hose of claim 1 , wherein the one or more conductors are fixed in place within the one or more discrete passageways from the first end to the second end of the cable hose. 10. The cable hose of claim 1 , wherein an inner wall of the monolithic tubing defines the inner conduit, an outer wall of the monolithic tubing defines an outer surface of the cable hose, and the one or more conductors are disposed between the inner wall and the outer wall. 11. The cable hose of claim 1 , wherein the monolithic tubing defines the helical internal component, and the turbulence introduced by the helical internal component reduces a pressure loss in the flow of the gas through the inner conduit. 12. The cable hose of claim 1 , wherein the cable hose is configured to connect a power source for a welding or cutting system to a torch assembly for the welding or cutting system so that the power source can supply the flow of the gas and electrical current to the torch assembly. 13. The cable hose of claim 12 , wherein the cable hose also allows signals to travel between the power source and the torch assembly. 14. A welding or cutting system comprising: a power source; a torch assembly; a cable hose extending between the power source and the torch assembly, the cable hose including monolithic tubing that extends around and between one or more conductors to define: (1) one or more discrete passageways for the one or more conductors that provide a closed path for the one or more conductors to extend between the power source and the torch assembly; and (2) an inner conduit configured to allow a gas to flow from the power source to the torch assembly; and a helical internal component extending along the monolithic tubing within the inner conduit, wherein the helical internal component has at least two segments extending radially from a central portion and collectively spanning a cross-sectional area of the inner conduit, and the helical internal component being configured to introduce turbulence into the flow of the gas flowing through the inner conduit and divide the inner conduit into two or more sub-conduits. 15. The system of claim 14 , wherein the one or more conductors are uninsulated electrical conductors and the closed path is an insulated path that prevents electrical current from exiting the cable hose radially. 16. A method of forming a cable hose, comprising: arranging one or more conductors in a specific configuration; and overmolding an insulator onto the one or more conductors to form a monolithic tubing that extends around and between the one or more conductors to secure the one or more conductors in the specific configuration and to define an inner conduit configured to allow a gas to flow from a first end of the cable hose to a second end of the cable hose, the inner conduit having a helical internal component extending through the inner conduit, wherein the helical internal component has at least two segments extending radially from a central portion and collectively spanning a cross-sectional area of the inner conduit, and the helical internal component configured to introduce turbulence into the flow of the gas flowing through the inner conduit and divide the inner conduit into two or more sub-conduits, and wherein the monolithic tubing provides a closed path from the first end to the second end for the specific configuration of the one or more conductors. 17. The method of claim 16 , wherein the one or more conductors are uninsulated electrical conductors and the closed path is an insulated path that prevents electrical current from exiting the cable hose radially. 18. The method of claim 16 , further comprising forming the helical internal component with the monolithic tubing, or inserting the helical internal component within the inner conduit of the formed monolithic tubing.