Parameter determination method of double-motor driven double-plastid self-synchronizing vibrating system

Abstract

The invention relates to a parameter determination method of a double-motor driven double-plastid self-synchronizing vibrating system, which belongs to the field of vibration utilization engineering. According to the parameter determination method, under the condition that the synchronization and stability of the vibrating system are guaranteed, the amplitude characteristic of working plasmids and the vibration isolation effect of the system are considered when materials of the vibrating system participate in vibration, so that the designed double-motor driven double-plastid self-synchronizing vibrating system has the advantages of low manufacturing cost and high working efficiency on the premise that the vibration isolation effect is guaranteed. A complete kinetic parameter design method of the self-synchronizing vibrating system and a design method when the materials participate in the vibration are not found at home and abroad at present, therefore, the design method of the self-synchronizing vibrating system at home and abroad is filled, and the design method of the vibrating system when the materials participate in the vibration is given, further, a complete design idea is provided for scientific and technical workers in the field, and a reference basis is provided for combination of a self-synchronizing theory and practical engineering.

Description

technical field [0001] The invention belongs to the field of vibration utilization engineering, and in particular relates to a method for determining parameters of a double-mass self-synchronized vibration system driven by two machines. Background technique [0002] Self-synchronizing vibrating machines are widely used in various industrial sectors such as mining, metallurgy, cement production, and material transportation; from the perspective of motion, self-synchronizing vibrating machines are divided into two types: planar motion vibrating machines and space motion vibrating machines; There are many types and different forms of vibrating machines, which are widely used in engineering technology departments, including self-synchronizing vibrating feeders, self-synchronizing vibrating conveyors, self-synchronizing vibrating coolers, self-synchronizing probability screens, and self-synchronizing vibrating dryers , Self-synchronizing vibrating shakeout machine, self-synchroni...

AI Technical Summary

Problems solved by technology

[0009] At present, the common structural features of the above-mentioned vibrating machines are: two electric motors drive two exciters installed on the same rigid vibrating body respectively, and drive the vibrating system so that the vibrating system can realize synchronous and stable vibration transmission; however, there is no Considering the vibration isolation effect and production efficiency of the system when the vibrating system contains vibrating materials; in actual production, the vibration noise is usually large and the production efficiency is not high; the solution to this problem is to use The amplitude of the working mass, the quality change of the vibrating material and the vibration isolation effect are taken into consideration, and the synchronization and synchronization stability of the vibration system are realized

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