Structural Design And Simulation Of Self-propelled CNC Pusher Plate

At present, in large-scale furniture manufacturing systems, the transport and storage of materials, equipment, location and other personnel maintaining production arrangement forms plant layout. Material transportation are referred to as "second class production," by companies, so the plant material transportation business is acting an important part. Through comparison and analysis of the various sheet feeding device, it turns out that the sheet material storage and production processes is not continuous, and manual handling and the use of forklift results in an increase in labor intensity and costs, and the damage to the plate. The stacking plate results in a large area of the site and a reduce in effective utilization, which not only affects the order of plant environment, while causing the obstacle to other equipment, etc. with the process.In this paper, a new type of specialized material transportation equipment-self-propelled CNC pusher plate is designed to meet the current demand for transport and storage of sheet According to the equipment requirement and processing objects, propose the overall program of self-propelled CNC pusher plate. Then design the key parts:assembly, pusher components and chassis systems, and machine design based on ergonomics.Choosing single-stage double scissor lift mechanism as a key part, building dynamic model and dynamic simulation with ADAMS/view to verify rationality with theoretical basis and lay the foundation for its rigidity and strength of the lift lever arm. Perform static analysis and fatigue life research to lifting arm with ANSYS Workbench, and check the design of the beam guide rail arrangement.Carry out PLC programming and control interface design according to the analysis of process.The equipment has a characteristic with the combination of transportation and feeding, warehousing storage and sheet metal processing sectors seamlessly. Screw drive single-stage double scissor lift mechanism, which can achieve accurate automatic feeding according to the thickness of the saw operator needs and the number of layers. Fully automating production lines, reducing labor costs, improving processing efficiency, and having a good market prospects.