Mixing fluids in welding-type equipment

What is claimed is: 1. A welding-type power supply, comprising: a first fluid inlet configured for fluid connection with a first fluid reservoir, the first fluid inlet being connected to a first fluid path of the welding-type power supply; a second fluid inlet configured for fluid connection with a second fluid reservoir, a second fluid outlet configured for fluid connection with a second welding tool, the second fluid outlet being fluidly connected with the second fluid inlet through a second fluid path; a second valve having a second valve passage interposed in the second fluid path between the second fluid inlet and second fluid outlet, the second valve having a second plunger configured to adjustably restrict the second valve passage via a plurality of second steady state plunger positions; a third valve in fluid communication with the first fluid path and second fluid path, the third valve connecting to the second fluid path between the second fluid outlet and the second valve; power conversion circuitry configured to convert input power to welding-type output power and deliver the welding-type output power to the second welding tool; and control circuitry configured to selectively control the second valve to provide a mixture of fluids from the first and second fluid reservoirs to the second welding tool, via the second fluid outlet, when the second welding tool is being used. 2. The welding-type power supply of claim 1 , further comprising: a first valve having a first valve passage interposed in the first fluid path between the first fluid inlet and the third valve, the first valve having a first plunger configured to adjustably restrict the first valve passage via a plurality of first steady state plunger positions, wherein the control circuitry is configured to selectively control the first valve and second valve to provide the mixture of fluids from the first and second fluid reservoirs to the second welding tool, via the second fluid outlet, when the second welding tool is being used. 3. The welding-type power supply of claim 2 , further comprising a first fluid outlet configured for fluid connection with a first welding tool, the first fluid inlet being fluidly connected with the first fluid outlet through the first fluid path, and the third valve connecting to the first fluid path between the first valve and the first outlet. 4. The welding-type power supply of claim 3 , further comprising a fourth valve having a fourth valve passage interposed in the second fluid path between the second fluid outlet and third valve, the fourth valve having a fourth plunger configured to open or close the fourth valve passage. 5. The welding-type power supply of claim 4 , wherein the control circuitry is configured to: selectively control the first valve, second valve, and fourth valve to provide the mixture of fluids from the first and second fluid reservoirs to the second welding tool, via the second fluid outlet, when the second welding tool is being used; and selectively control the first valve and fourth valve to provide fluid from the first fluid reservoir to the first welding tool, via the first outlet, when the first welding tool is being used. 6. The welding-type power supply of claim 5 , wherein the first valve or the second valve is a proportional valve configured to partially block fluid flow through the first valve passage or the second valve passage, via the first plunger or the second plunger, respectively. 7. The welding-type power supply of claim 6 , further comprising a first flow meter configured to measure a first fluid flow rate through the first fluid path and a second flow meter configured to measure a second fluid flow rate through the second fluid path, wherein the control circuitry is configured to selectively control the first and second valves based on the first fluid flow rate and the second fluid flow rate. 8. The welding-type power supply of claim 7 , wherein the control circuitry is configured to selectively control a first position of the first plunger and a second position of the second plunger via one or more control signals based on the first fluid flow rate, the second fluid flow rate, and a target mixture composition. 9. The welding-type power supply of claim 4 , wherein the third valve is a one way check valve, the control circuitry being further configured to: close the fourth valve when mixing the fluids, so that fluid pressure in the first fluid path is sufficient to overcome a bias of the one way check valve, and open the fourth valve when providing fluid from the first fluid reservoir to the first welding tool, so that fluid pressure in the first fluid path is insufficient to overcome the bias of the one way check valve. 10. The welding-type power supply of claim 1 , wherein the control circuitry is configured to: control the power conversion circuitry to convert the input power to welding-type output power, and control the second valve to provide a mixture of fluids from the first and second fluid reservoirs to the second welding tool, via the second fluid outlet, in response to receiving a signal indicating that the second welding tool is being used. 11. A welding wire feeder, comprising: a first fluid inlet configured for fluid connection with a first fluid reservoir, the first fluid inlet being connected to a first fluid path of the welding-type power supply; a second fluid inlet configured for fluid connection with a second fluid reservoir; a second fluid outlet configured for fluid connection with a second welding tool, the second fluid outlet being fluidly connected with the second fluid inlet through a second fluid path; a second valve having a second valve passage interposed in the second fluid path between the second fluid inlet and second fluid outlet, the second valve having a second plunger configured to adjustably restrict the second valve passage via a plurality of second steady state plunger positions; a third valve in fluid communication with the first fluid path and second fluid path, the third valve connecting to the second fluid path between the second fluid outlet and the second valve; a feed roller configured to feed welding wire to the second welding tool; and control circuitry configured to selectively control the second valve to provide a mixture of fluids from the first and second fluid reservoirs to the second welding tool, via the second fluid outlet, when the second welding tool is being used. 12. The welding wire feeder of claim 11 , further comprising: a first valve having a first valve passage interposed in the first fluid path between the first fluid inlet and the third valve, the first valve having a first plunger configured to adjustably restrict the first valve passage via a plurality of first steady state plunger positions, wherein the control circuitry is configured to selectively control the first valve and second valve to provide the mixture of fluids from the first and second fluid reservoirs to the second welding tool, via the second fluid outlet, when the second welding tool is being used. 13. The welding wire feeder of claim 12 , further comprising a first fluid outlet configured for fluid connection with a first welding tool, the second first fluid inlet being fluidly connected with the first fluid outlet through the first fluid path, and the third valve connecting to the first fluid path between the first valve and the first outlet. 14. The welding wire feeder of claim 13 , further comprising a fourth valve having a fourth valve passage interposed in the second fluid path between the first second fluid outlet and third valve, th