Gas generator

What is claimed is: 1. A gas generator, comprising: an electrolytic cell, accommodating an electrolyzed water comprising an electrolyte, for electrolyzing the electrolyzed water to generate a gas with hydrogen; a gas pathway, connected to the electrolytic cell, for transferring the gas with hydrogen; and an ozonator, for generating an ozone to enter the gas pathway or the electrolytic cell when the electrolytic cell stops electrolyzing the electrolyzed water. 2. The gas generator of claim 1 , further comprising an ozone pump connected to the gas pathway, wherein the ozone pump provides a negative pressure to inhale the ozone to the gas pathway. 3. The gas generator of claim 2 , wherein the gas generator further comprises a first direction switch, and the gas generator selectively opens the first direction switch and the ozone pump so that the ozone enters the gas pathway. 4. The gas generator of claim 1 , wherein the gas generator further comprises an electrolytic pump connected to the electrolytic cell, and the electrolytic pump provides a negative pressure to inhale the ozone to the electrolytic cell. 5. The gas generator of claim 4 , wherein the gas generator further comprises a second direction switch, and the gas generator selectively opens the second direction switch and the electrolytic pump so that the ozone enters the electrolytic cell. 6. The gas generator of claim 1 , further comprising a bidirectional switch, wherein the gas generator selectively adjusts the bidirectional switch so that the ozonator is connected to the gas pathway or the electrolytic cell. 7. The gas generator of claim 1 , wherein the gas generator generates the ozone to enter the gas pathway or the electrolytic cell for a sterilization time, and the gas generator closes the ozonator and electrolyzes the electrolyzed water to reduce or eliminate the ozone in the gas generator. 8. The gas generator of claim 1 , wherein the gas generator further comprises an atomization device connected to the gas pathway for generating an atomized gas and receiving the gas with hydrogen to mix the atomized gas with the gas with hydrogen to generate a healthy gas. 9. The gas generator of claim 8 , wherein the gas generator further comprises a condensing filter, a wetting cup, and a replenishing cup; the condensing filter is connected to the electrolytic cell for receiving and condensing and filtering the gas with hydrogen, and the wetting cup is connected to the condensing filter for receiving and wetting the gas with hydrogen, and the replenishing cup is connected between the wetting cup and the atomization device for replenishing water. 10. The gas generator of claim 9 , wherein the gas pathway is connected to the electrolytic cell, the condensing filter, the wetting cup, the replenishing cup and the atomization device for transferring the gas with hydrogen. 11. The gas generator of claim 10 , wherein the ozonator is connected to the gas pathway between the condensing filter and wetting cup. 12. A gas generator, comprising: an electrolytic cell configured to electrolyze an electrolyzed water to generate a gas with hydrogen; a gas pathway configured to transfer the gas with hydrogen; and an ozonator coupled to gas pathway and capable to generate an ozone to the gas pathway when the electrolytic cell stops electrolyzing the electrolyzed water. 13. The gas generator of claim 12 , further comprising a switch set connected to the gas pathway to control the ozone to flow to the electrolytic cell or to a healthy gas outlet in the gas pathway. 14. The gas generator of claim 13 , wherein the switch set further comprises a first direction switch configured between the ozonator and the healthy gas outlet, and the gas generator selectively opens the first direction switch to control the ozone to flow to the healthy gas outlet. 15. The gas generator of claim 13 , wherein the switch set further comprises a second direction switch configured on the electrolytic cell, and the gas generator selectively opens the second direction switch to control the ozone to flow to the electrolytic cell. 16. The gas generator of claim 13 , wherein the switch set further comprises a bidirectional switch, and the gas generator selectively adjusts the bidirectional switch so that the ozonator is connected to the gas pathway or the electrolytic cell. 17. The gas generator of claim 12 , wherein the gas generator generates the ozone to enter the gas pathway or the electrolytic cell for a sterilization time, and the gas generator closes the ozonator and electrolyzes the electrolyzed water to reduce or eliminate the ozone in the gas generator. 18. The gas generator of claim 12 , wherein the gas generator generates the ozone to enter the gas pathway or the electrolytic cell for a sterilization time, and the gas generator closes the ozonator and electrolyzes the electrolyzed water to reduce or eliminate the ozone in the gas generator. 19. The gas generator of claim 12 , wherein the gas generator further comprises an atomization device connected to the gas pathway for generating an atomized gas and receiving the gas with hydrogen to mix the atomized gas with the gas with hydrogen to generate a healthy gas.