Finite element analysis of belt conveyor bracket

Abstract

As an important part of the belt conveyor, the triangle bracket supports the roller and carries its load. Its stability and service life directly affect the function of the conveyor, so that the conveyor system can work stably and efficiently. Due to the characteristics of the belt conveyor, such as long transportation distance and large conveying volume, there are many problems in the actual working condition of the triangle. For example, the triangle bracket bears too much load, resulting in deformation and damage of the bracket structure. Working time is too long, the yield limit of the support is reduced, and the structure of the support is seriously failed, which leads to the shutdown of the conveying system and huge economic loss of the enterprise. There are many problems in the actual production of triangle bracket, so it is necessary to analyze and study triangle bracket to solve these problems. This project takes the triangle support of a belt conveyor as an example, establishes a three-dimensional solid model of the support, conducts finite element analysis on the triangle support model with ABAQUS software, analyzes the stress-strain displacement of the triangle support under the load, and optimizes the triangle support according to the finite element analysis results.