Dialysis system and method including a flow path insulator

The invention is claimed as follows: 1. A renal failure therapy system comprising: a dialyzer; a blood circuit including a blood pump in fluid communication with the dialyzer; a dialysis circuit in fluid communication with the dialyzer; and at least one flow path insulator located in the dialysis circuit or the blood circuit, the flow path insulator including (i) a structure that separates liquid flowing within the flow path insulator into a plurality of separated liquid segments that create electrical isolation within the flow path insulator, and (ii) an air isolation chamber that is separated by at least one baffle from a lower chamber that receives the liquid segments to keep the air isolation chamber dry. 2. The renal failure therapy system of claim 1 , wherein the structure that separates liquid flowing within the flow path insulator into a plurality of separated liquid segments is located above the at least one baffle, and the lower chamber is located below the at least one baffle and the air isolation chamber. 3. The renal failure therapy system of claim 1 , wherein the flow path insulator is configured and arranged to use a flow of separated liquid segments to pull air through the air isolation chamber. 4. The renal failure therapy system of claim 1 , wherein the flow path insulator includes an inlet, wherein the air isolation chamber surrounds the inlet, and which further includes an air pump positioned and arranged to pressurize air within the air isolation chamber. 5. The renal failure therapy system of claim 1 , wherein the structure that separates liquid flowing within the flow path insulator into liquid segments includes at least one valve opened and closed sequentially to create the liquid segments. 6. The renal failure therapy system of claim 1 , wherein the structure that separates liquid flowing within the insulator into liquid segments includes a turbine wheel including blades that are spun by the flowing liquid. 7. The renal failure therapy system of claim 1 , wherein the structure that separates liquid flowing within the insulator into liquid segments includes a manifold plate defining a plurality of apertures, each aperture restricting the flowing liquid. 8. The renal failure therapy system of claim 1 , wherein the structure that separates liquid flowing within the insulator into liquid segments includes a wheel having a plurality of receptacles that fill individually, wherein the weight of the filled receptacles causes the wheel to turn. 9. The renal failure therapy system of claim 1 , which includes a logic implementer, wherein the flow path insulator includes a level sensor configured to send an output to the logic implementer, the logic implementer using the output to control an air pump to achieve a desired liquid level in the insulator. 10. The renal failure therapy system of claim 1 , which includes at least one testing apparatus for testing whether the flow path insulator is operating properly. 11. The renal failure therapy system of claim 10 , wherein the at least one testing apparatus includes a sensor positioned and arranged to sense whether the fluid segments are being formed properly. 12. The renal failure therapy system of claim 10 , wherein the at least one testing apparatus includes a voltage or current meter positioned and arranged to detect voltage or current in the dialysis circuit. 13. The renal failure therapy system of claim 1 , wherein the dialysis circuit includes a fresh dialysis fluid line and a used dialysis fluid line, and which includes a first flow path insulator located in the fresh dialysis fluid line and a second flow path insulator located in the used dialysis fluid line. 14. The renal failure therapy system of claim 13 , wherein the first flow path insulator is located between a furthest downstream flow component in the fresh dialysis fluid line and the dialyzer, and the second flow path insulator is located between a furthest upstream flow component in the used dialysis fluid line and the dialyzer. 15. The renal failure therapy system of claim 1 , wherein the flow path insulator is placed at the drain of the dialysis circuit and/or outside of a machine housing holding the dialysis circuit. 16. The renal failure therapy system of claim 15 , wherein at least one concentrate container is suspended off of the ground or provided with standoffs to preclude a capacitive coupling with the ground. 17. The renal failure therapy system of claim 1 , wherein the flow path insulator is placed in a concentrate line of the dialysis circuit or in the blood circuit. 18. The renal failure therapy system of claim 1 , wherein the flow path insulator uses a pulsed source of air to create separated liquid segments. 19. A renal failure therapy machine comprising: a dialyzer; a blood circuit including a blood pump in fluid communication with the dialyzer; a dialysis circuit in fluid communication with the dialyzer; at least one flow path insulator located in the dialysis circuit, the flow path insulator including a structure that separates liquid flowing within the flow path insulator into separated liquid segments that create electrical isolation within the flow path insulator; and an air pump positioned and arranged to pressurize air within an air isolation chamber of the flow path insulator. 20. The renal failure therapy machine of claim 19 , wherein the flow path insulator is located at a downstream end of a used dialysis fluid and drain line of the dialysis circuit. 21. The renal failure therapy machine of claim 19 , wherein the air isolation chamber encompasses an area of the flow path insulator at which the liquid segments are formed. 22. The renal failure therapy machine of claim 19 , wherein the air isolation chamber is spaced away from a liquid/air interface formed within the flow path insulator. 23. The renal failure therapy machine of claim 19 , wherein the air isolation chamber is part of a water or water and agent cleaning loop. 24. A renal failure therapy machine comprising: a dialyzer; a blood circuit including a blood pump in fluid communication with the dialyzer; a dialysis circuit in fluid communication with the dialyzer, wherein the blood circuit, the dialyzer, and the dialysis circuit form an electrically floating fluid pathway in which the only electrical path to ground is via used dialysis fluid traveling through machine to earth ground, wherein the electrically floating fluid pathway includes at least one structure selected from the group consisting of: (i) an electrically bypassed sensor, (ii) at least one electrically insulated fluid component, and (iii) at least one electrically isolated signal line; and at least one flow path insulator located at a drain end of the dialysis circuit, the flow path insulator including a structure that separates liquid flowing within the flow path insulator into separated liquid segments that create electrical isolation within the flow path insulator. 25. The renal failure therapy machine of claim 24 , further comprising at least one testing apparatus for testing whether the flow path insulator is creating the electrical isolation properly, the at least one testing apparatus including a voltage or current meter and a switch that allows at least one selected from the group consisting of (i) a path to a ground position before treatment to test via the voltage or current meter whether the flow path insulator is creating the el