Intelligent environment-friendly transfer method based on data learning

Abstract

The invention discloses an intelligent environment-friendly transfer method based on data learning, and the method comprises the steps: detecting material flow passing data, comparing the obtained data with a set model through a background central controller, and obtaining the conveying amount and the material accumulation degree; the abnormal data is calculated, and a PLC program instruction of an action intensity-action time nonlinear relation curve is made; according to an obtained PLC program instruction, vibration accumulated material removing operation is executed, material flow passing data are updated in real time, and a background central centralized controller further optimizes and executes a solution; and when the material flow returns to normal through data, the central centralized controller sends a vibration motor shutdown signal and keeps standby. Compared with the prior art, the method has the advantages that the calculation result data is transmitted in advance to be matched with the optimal working instruction program of the vibration motor, the vibration motor is controlled to perform regulation and control according to the accumulated weight information data, the working intensity and starting and stopping are regulated and controlled in real time, and intelligent analysis and scheme decision making of accumulated material solving are achieved.

Description

technical field [0001] The invention belongs to the technical field of transfer equipment, and in particular relates to an intelligent and environment-friendly transfer method based on data learning, which is mainly used for monitoring the actual operation state of a transfer hopper. Background technique [0002] At present, in material yards, power plants, and corridor transportation projects, conventional transfer stations equipped with transfer hoppers often block materials due to the adhesion and backlog of bulk materials, which in turn leads to insufficient bulk material transportation capacity, causing shutdown maintenance and production stagnation. . Equipped with a vibration motor can effectively eliminate the problem of material accumulation and blockage, but the stage and degree of blockage and accumulation of bulk materials are different, and the excitation intensity and effective action time are different. SUMMARY OF THE INVENTION [0003] The invention aims t...

AI Technical Summary

Problems solved by technology

[0002] At present, in stockyards, power plants, and corridor transportation projects, conventional transfer stations are equipped with transfer hoppers, which often cause blockage of the hopper due to the adhesion and backlog of bulk materials, which in turn leads to insufficient bulk material transportation capacity, triggers downtime for maintenance, and causes production stagnation

Equipped with a vibration motor can effectively eliminate the problem of material accumulation and blockage, but the stage and degree of bulk material blockage and accumulation are different, the excitation intensity and effective action time are different, the service life of the long-term working vibration motor cannot be guaranteed and cause additional failure loss

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