Method for recycling electrode materials of lithium ion batteries

What is claimed is: 1. A method for recycling electrode materials of lithium ion batteries, comprising: (1) disassembling the waste lithium ion battery to get positive electrode and negative electrode, immersing the positive electrode and/or the negative electrode into ammonia, then washing with deionized water and drying the positive electrode and/or the negative electrode; (2) sintering the dried positive electrode and/or the negative electrode, and using mechanical method to separate electrode powder material from current collector to get positive electrode powder material and/or negative electrode powder material; and (3) supplementing lithium to the positive electrode powder material, then processing the positive electrode powder material by milling, spray drying and sintering to obtain regenerated positive electrode material; or processing the negative electrode powder material by milling, spray drying and sintering to obtain regenerated negative electrode material. 2. The method for recycling electrode materials of lithium ion batteries according to claim 1 , wherein a concentration of the ammonia in the step (1) is in the range of 1%-28%, an immersion time in the step (1) is in the range of 5-300 min. 3. The method for recycling electrode materials of lithium ion batteries according to claim 2 , wherein the concentration of the ammonia in the step (1) is in the range of 3%-15%, the immersion time in the step (1) is in the range of 20-120 min. 4. The method for recycling electrode materials of lithium ion batteries according to claim 1 , wherein a sintering temperature in the step (2) is in the range of 250° C.-650° C., a sintering time in the step (2) is in the range of 1-6 hour (s). 5. The method for recycling electrode materials of lithium ion batteries according to claim 4 , wherein the sintering temperature in the step (2) is in the range of 300° C.-500° C.,the sintering time in the step (2) is in the range of 1.5-2.5 hours. 6. The method for recycling electrode materials of lithium ion batteries according to claim 1 , wherein supplementing lithium to the positive electrode powder material in the step (3) comprises: analyzing the content of elements of the positive electrode powder material firstly, and then adding lithium compound to the positive electrode powder material according to the stoichiometric ratio of the regenerated positive electrode material. 7. The method for recycling electrode materials of lithium ion batteries according to claim 6 , wherein the lithium compound is selected at least one from the group consisting of lithium hydroxide monohydrate, lithium hydroxide, lithium carbonate, lithium acetate and lithium oxide. 8. The method for recycling electrode materials of lithium ion batteries according to claim 1 , wherein a speed of the milling in the step (3) is in the range of 1000-4000 r/min, a milling time in the step (3) is in the range of 2-10 hours. 9. The method for recycling electrode materials of lithium ion batteries according to claim 1 , wherein a sintering temperature of producing the regenerated positive electrode material in the step (3) is in the range of 600° C.-1200° C., a sintering time of producing the regenerated positive electrode material in the step (3) is in the range of 5-20 hours. 10. The method for recycling electrode materials of lithium ion batteries according to claim 9 , wherein the sintering temperature of producing the regenerated positive electrode material in the step (3) is in the range of 700°C.-900° C., the sintering time of producing the regenerated positive electrode material in the step (3) is in the range of 8-12 hours. 11. The method for recycling electrode materials of lithium ion batteries according to claim 1 , wherein a sintering temperature of producing the regenerated negative electrode material in the step (3) is in the range of 500° C.-1000° C., a sintering time of producing the regenerated negative electrode material in the step (3) is in the range of 3-15 hours. 12. The method for recycling electrode materials of lithium ion batteries according to claim 11 , wherein the sintering temperature of producing the regenerated negative electrode material in the step (3) is in the range of 700° C.-850° C., the sintering time of producing the regenerated negative electrode material in the step (3) is in the range of 5-8 hours. 13. The method for recycling electrode materials of lithium ion batteries according to claim 1 , wherein the regenerated positive electrode material includes temary material. 14. The method for recycling electrode materials of lithium ion batteries according to claim 13 , wherein the regenerated positive electrode material is lithium nickel-cobalt-manganese oxide or lithium nickel-cobalt-aluminum oxide. 15. The method for recycling electrode materials of lithium ion batteries according to claim 1 , wherein the regenerated negative electrode material is lithium titanate.