TH35931A - Processes and equipment for recovering sealed battery components - Google Patents

Abstract

DC60 (16/06/47) recovery process For building components Various closed-back batteries containing at least one cathode, one anode, and one electrolyte. Sealed in the cover of the battery, which is characterized as the process It consists of a procedure (a) reducing the ionic conductivity between the aforementioned cathode and anode of the said type battery and a procedure (b) the opening of the said battery cover of the sealed type battery after performing the procedure (a). ) One suitable device for the implementation of the recovery process. Recovery process For building components Various closed-back batteries containing at least one cathode, one anode, and one electrolyte. The crystals in the battery cover, which are characterized by the process It consists of a procedure (a) reducing the ionic conductivity between the said cathode and anode of the said wrong type battery and a procedure (b) the opening of the said battery cover of the sealed type battery after performing the procedure (a). ) One suitable device for the implementation of the recovery process.

Claims (1)

1. The process for recovering the building components of a sealed battery is at least Most are composed of cathodes, anodes and electrolytes sealed in the battery housing, where the electrolyte The trolites contain electrolyte solutions, which include Solvent and Such electrolytes Has been positioned between the cathodes. And the anode. The process consists of a procedure (a) the transfer of the said electrolyte solution or the The electrolyte dissolves from the inside of the battery cover to the outside. To reduce the conductivity between the cathode and the anode of the Such a sealed battery and (b) procedure for opening the said battery cover of a type battery. Seal after completing the aforementioned step (a) 2.Process according to claim 1 Where the sealed battery has a safety vent, and the pressure difference between the inside And the outside of the battery cover will stimulate the vent For such safety, the electrolyte solution is pulled. Or solvent of solution The electrolyte is passed through such safety vents to the outside of the battery cover. 3. Procedure according to Clause 2, where part of the area sealed battery is provided. The safety vent is aligned facing downward and the electrolyte solution or the electrolyte solution is drawn through the vent. To ensure safety to the outside of the battery cover 4. Process according to claim 1, where the electrolyte solution or the solvent of the substance Dissolve the electrolyte that has been drawn to the outside of the battery cover. 5. The process for recovering the building blocks of a sealed battery is at least. Most are composed of cathodes, anodes and electrolytes sealed in the battery housing, where the electrolytes The trolyte is composed of an electrolyte solution composed of a solvent and the electrolyte is positioned between the cathode and the anode, the process consists of a step. Section (a) of the sorting of such a sealed battery, depending on its shape and type, the procedure (b) of the reduction of conductivity between the aforementioned cathode and the anode of The sealed battery By cooling the sealed battery to a temperature below the Freezing of the solvent of the aforementioned electrolyte solution and the procedure (c) of the cover opening 6. The process for restoring the building components of the sealed battery is at a minimum. The extreme is composed of cathode, anode and polymerized solid electrolyte. Solids by means of a solidification polymer sealed in the battery cover. Electrolyte The solid polymer is aligned between the cathode and the anode. The process consists of a procedure (a) of reducing conductivity between the aforementioned cathode and The anode by cooling the sealed battery to a temperature lower than the transition temperature. It is the glass characterization of such solidification polymer of solid electrolyte that is The polymer and the procedure (b) of opening the said battery cover of the sealed battery. After completing the aforementioned procedure (a) 7. the process of claim 5 or 6, where the sealed battery is also cooled. Compressed unburned gas consisting of a select from a group of gas containing nitrogen, argon, helium, carbon dioxide. And fluorocarbon gases or mixtures of these gases 8. Process according to claim 5 or 6, where the sealed battery is cooled by Immerse the sealed battery in the coolant 9. Clause 8 process where the coolant is a mixture of dry ice and methanol, or a mixture of dry ice and ethanol 1 0. 5 or 6 where the sealed battery is immersed in water, the sealed battery has been cooled to freezing with the said water to seal the sealed battery. Opening while the sealed battery is sealed in ice 1 1. Process in accordance with Clause 1, 5 or 6, where the process of unpacking The battery of the sealed battery. It is performed in a non-combustion atmosphere 1 2. Process according to rights 11, where the non-combustion atmosphere is made up of gas. One or more of them is selected from a group containing nitrogen, argon, helium, carbon dioxide, water vapor and fluorocarbon. 1 3. Process according to claim 7 where the stage of the battery cover. Of battery The seal is performed in an unflammable atmosphere consisting of the same gases used in the Cool the sealed battery 1 4. Process according to rights 1, 5 or 6, in which the process of opening the cover The battery of the sealed battery was treated with a cutting method selected from the group that included cutting. High pressure water jet cutting, laser beam cutting and mechanical cutting 1 5. Process in accordance with Clause 14 where high pressure water cutting consists of spray. The high-pressure abrasive water is passed through the stream nozzles 1 6. The process of one, 5 or 6, whereby the sealed battery is Lithium Batteries Using Lithium Ion Oxidation Reduction 1 7. Process in accordance with any one of Claims 1, 5 or 6 where the sealed battery is Nickel-metal hydride batteries that use oxidation-reduction reactions Of hydrogen ions and use Hydrogen storage alloy as anode material 1 8. Process according to Claim 1, 5 or 6 whereby the sealed battery is a nickel-cadmium battery 1 9. The process of any Clause 1, 5 or 6. One where the sealed battery is a lead-acid battery 2.0. The process of claim 16 continues with the process of the chemical reaction. Reaction with the active lithium contained in lithium batteries To reduce the reactivity of such active lithium after the battery cover procedure 2 1. Process according to claim 20, where the reactant is composed of one material or Further, choose from a category that includes water, alcohol, acid, and carbon dioxide 2 2. Process according to claim 16, which continues with the battery washing process. Lithium was opened by the use of organic solvents after the procedure of opening the battery cover 2 3. Process according to claim 22, where the organic solvent was non-organic solvent. 2 4. Process according to claim 22, which continues with the separation process. A sealed battery is a component of each battery and its components are recovered. Reconstruction of the sealed battery after a rinsing procedure using organic solvents 2 5. Process according to claim 1 or 6, where the sealed battery is Has been sorted by Depends on the shape or type before Step (a) 2 6. Process of claim 1, 5 or 6, which continues with the release phase. The remaining charge of the sealed battery before the act of reducing the conductivity during The cathode and anode of the sealed battery. 2 7. The process of claim 26, where at the stage of releasing the remaining electric capacity, The discharged energy is recovered. 2 8. Equipment for recovery of the reconstructed battery assembly at at least at least the original battery. Most of the cathode, anode and electrolyte are contained in the battery housing, the electrolyte is included. Electrolyte solutions containing solvents The electrolyte is positioned between the cathodes. And such anode, the apparatus, at least, includes a method (i) for reducing conductivity between such cathodes. And the anode of the aforementioned type of battery; and (ii) the means for opening the cover of the The battery, the (i) path, consists of a liquid extraction path (i-a) for the solution to be drawn. The electrolyte or the solvent of the said electrolyte solution to the outer cover of the 2 9. Equipment according to claim 28, where the sealed battery has a cover that provides a safety vent, and the ia method consists of a (ib) path for creating pressure. that Differs between the inside and outside of the battery cover. By relying on the vent for Such safe To stimulate such a safety vent, draw the electrolyte solution. 3. The device according to claim 29, where the path (ib) consists of at least one container (ic) that can be Evacuated and which is provided with an outlet path. 3 1. Equipment according to claim 30, where (ic) has components that can be in close contact. Or connected to the exterior wall face portion of the battery cover of the resealable battery, the said external wall portion It consists of one part of the cover, the above part includes On the side of the safety vent, and the assembly there is an opening through which the external wall part. The container (i-c) has been made contact through this opening. To be able to extract substances Dissolve the electrolyte or solvent of this solution. In a sealed battery, through a composite (ic) container 3 2. Equipment according to claim 30, where the passageway can inject air, nitrogen gas, or inert gas is supplied at the container (ic). By means of tongue 3 3. Equipment according to claim 30, where a closed space comprising at least a section One of the exterior walls The battery cover, including the immediate vicinity of the safety vent and container (i-c), is molded in such a way that the safety vent has been Placement in such a closed space And the internal pressure of such a sealed void can be reduced to below the pressure inside the sealed battery, where the electrolyte solution is Or the solvent of this solution In a sealed battery, it can be pulled into such a sealed space 3 4. Equipment according to claim 33 where the sealed void is created after the internal pressure of the container (ic). Has been reduced to below atmospheric pressure By means of discharge path 3 5. Equipment according to claim 33, where after the formation of a closed vacancy Internal pressure of that The sealed void is reduced to below the internal pressure of the sealed sealed battery by means of the Discharge connected to container (i-c) 3 6. Recovery device. Components to create a sealed battery that at least Most of the cathodes, anodes and electrolytes are contained in the battery housing. Electrolyte They contain electrolyte solutions, which include solvents, electrolytes. It is positioned between the cathode and the anode, the device Included At a minimum, the path (i) for the sorting of such a sealed battery depending on its shape or type, (ii) for reducing the conductivity between the said cathode and the anode of the sealed battery; and The (iii) path for the battery cover opening, the said (ii) route includes: Cooling (ii-d) route for battery cooling Such a cool down into The temperature below the freezing point of the solvent of the electrolyte solution. 3 7. Device for recovery. Building components of a sealed battery that at least The most common cathode, anode and electrolyte are contained in the battery housing. Such includes A solid polymer electrolyte that has been solidified by The solidification polymer, such an electrolyte, is positioned between the cathode and the anode, at least the apparatus includes a (i) path for sorting. The sealed battery Depending on the shape or type, the path (ii) for the mitigation. Taken between such cathodes And such anode And the (iii) method for opening the cover of the said battery and the (ii) route includes a cooling (ii-d) path for the cooling of the sealed battery. Cools down to a lower temperature Temperature change It is the glass nature of the aforementioned polymer, of such polymer solid electrolyte. 3 8. Equipment of claim 36 or 37 where compressed non-combustible gas is used. Which consists of gases, selected from the groups containing Nitrogen, Argon, Helium, Carbon Dioxide, and Fluorocarbon Gases Or a mixture of these gases Cooling route (ii-d) 3 9. Equipment according to claim 36 or 37 where the coolant is used. In the cooling method (ii-d) 4 0. Equipment according to claim 39, where the coolant is a mixture of dry ice and methanol or a mixture of dry ice and ethanol 4 1. Equipment according to claim 36 or 37, where the cooling path (ii-d) is intended for immersion. Water-sealed battery And freezing the sealed battery together with the water to seal it in the resulting ice, and the open path (iii) are for opening. Ice sealed sealed battery 4 2. Either item according to Claim 28, 36 or 37. The open path consists of the path for opening the battery. Sealed in a non-combustion atmosphere 4 3. Equipment according to claim 42, where the non-combustion atmosphere includes A kind of gas Or more Choose from a group that includes Nitrogen, argon gas, helium gas, carbon dioxide, water vapor and fluorocarbon gas 4 4. Equipment according to claim 38, where the sealed battery is opened by means of an open path (iii) in an open atmosphere. Does not burn containing The same gas as the gas used to cool the sealed battery through the cooling method (ii-d) 4 5. Either of Claim 28, 36 or 37. Where the open path (iii) consists of the intersecting path Selected from a group that contains High pressure water jet cutting, laser beam cutting And mechanical cutting 4 6. Equipment according to claim 45, where the high-pressure water-based cutting path Includes a stream nozzles for high-pressure spraying of abrasive water via the stream nozzles. 4 7. Either of Claim 28, 36 or 37. Oxidation-Reduction Lithium Battery Seal Li-ion 4. 8. Device according to Claim 28, 36 or 37. Where the sealed battery is Nickel-metal hydride batteries which use the oxidation-reduction reaction of hydrogen ions and use hydrogen storage alloys as anode material 4 9. Any equipment according to Claim 28, 36 or 37. One Where the sealed battery is Nickel-Cadmium Battery 5.0.Equipment in accordance with Claim 28, 36 or 37. Where the sealed battery is a lead-acid battery. 5. 1. Equipment according to claim 47, which also includes The pathway for the reaction of the reagent with the active lithium contained in the lithium battery is To reduce the reaction capacity of Lithium that has such an effect After opening the lithium battery 5 2. Device according to claim 51, where the reagent contains. One material or Further, select from a group containing water, alcohol, acid, and carbon dioxide. 5 3. Equipment according to Claim 28, 36 or 37. Which further contains methods for rinsing using organic solvents After opening the sealed battery 5 4. Equipment according to claim 53, where the organic solvent It is an organic solvent that does Can cause the mixture to maintain the boiling point with water. 5. 5. Equipment according to claim 53, which is included as well. Way of recovery The build-up component of the battery after washing. Batteries that have been opened using organic solvents. 5 6. Equipment according to claim 28, which is also included. Pathways for sorting sealed batteries depending on their shape or type before reducing conductivity between cathode and anode of Sealed battery 5 7. Either device according to Claim 28, 36 or 37. This includes a method for releasing the remaining electrical capacity of a sealed battery. Before reducing the lead between Sealed battery cathode and anode 5 8. Device according to claim 57, where the discharging means consists of The path for recovering the released energy is 5. 9. Equipment according to claim 43, which is also included. Pathways for bringing non-combustible gas Burns the atmosphere used to turn back And purification of the recovered non-combustible gas for recycling. 6 0. Equipment according to claim 38, which is also included. Paths for bringing gases used in Cooling a sealed battery back And purification of the recovered gas for recycling.6 1. Equipment according to claim 53, which is also included as well. Way of recovery The build component of the battery after washing. The battery has been opened using organic solvents.