Automatic crushing and separating disassembling table and waste electrical appliance disassembling and recycling method

By adopting a multi-mechanism collaborative linkage design driven by a single power source in the waste electrical appliance dismantling equipment, the problems of discontinuous equipment processes, high energy consumption, and low screening efficiency have been solved, realizing a highly efficient and automated dismantling and crushing process for waste electrical appliances.

CN122141799APending Publication Date: 2026-06-05TES-AMM(SUZHOU)E-WASTE SOLUTIONS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
TES-AMM(SUZHOU)E-WASTE SOLUTIONS CO LTD
Filing Date
2026-04-28
Publication Date
2026-06-05

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Abstract

The present application relates to the related technical field of waste electrical appliance disassembly and recycling, and particularly relates to an automatic crushing and separating disassembly table and a waste electrical appliance disassembly and recycling method, which comprises a climbing conveyor belt and a crushing chamber arranged at one end of the climbing conveyor belt; the present application is driven by a single power source to drive multiple mechanisms to cooperate and link, thereby forming an automatic operation process integrating crushing, screening, material returning and grading conveying; the crushed material first falls on a large-particle sieve plate, a motor synchronously drives a material pushing plate to reciprocate and scrape material through a chain transmission assembly, thereby pushing the large particles on the sieve to a recycling channel; a cam structure coaxially arranged on the chain transmission assembly simultaneously drives the large-particle sieve plate to periodically swing, thereby improving the screening efficiency and preventing clogging; a spiral lifting plate in the recycling channel automatically returns the large-particle material to the crushing chamber for secondary crushing, thereby forming a closed-loop crushing circuit; the material screened through the large-particle sieve plate falls on an inclined sieve plate, and a motor drives a material shaking mechanism to reciprocate, thereby realizing fine grading.
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