[Objective]Liquid-level control is an indispensable system in industrial production and plays a pivotal role in cultivating high-skilled and applied talents.However,existing practical training platforms often have limited functionality and rigid models,failing to meet the modern industrial demand for diversified and flexible liquid-level control skills.Therefore,this study establishes a comprehensive and flexible disassembly-based liquid-level control practical training platform to simulate real-world dynamic liquid-level control requirements in industrial settings.The goal is to provide students with a richer and more authentic practical environment,addressing shortcomings of current training platforms and promoting the comprehensive development of skilled talents.[Methods]The research began with a thorough analysis of actual liquid-level control needs in industrial settings.Based on this analysis,we designed the concepts and functional modules of the training platform by incorporating educational and teaching philosophies.A modular design approach was adopted,dividing the training platform into multiple functional modules,including fluid pipeline and circuit design,module assembly,circuit wiring,controller debugging and experimentation,and system inspection and maintenance.Each module possesses independent functions and interfaces,enabling flexible combination and disassembly based on specific teaching needs.During the construction of the training platform,we focused on fostering students'practical abilities and innovative spirit.Students were guided to participate in designing fluid pipelines and circuits,assembling modules,wiring circuits,and debugging and experimenting with controllers.This hands-on involvement helped students gain a deep understanding of the working principles and application techniques of liquid-level control systems.Additionally,the training emphasized professional literacy and team collaboration skills.By simulating actual industrial scenarios,students learned to collaborate with others,resolve issues,and maintain professional standards in practice.These activities enabled students to deeply understand the principles and applications of liquid-level control,thereby acquiring relevant professional skills.[Results]The implementation of this study yielded several innovative outcomes.First,a comprehensive and flexible disassembly-based liquid-level control training platform was successfully established.This platform features a small footprint and flexible usage while condensing complex liquid-level control objects into a teaching platform,facilitating students'practical operations and learning.Second,the platform provided abundant opportunities for design experiments and hands-on practice,enabling students to exercise their comprehensive abilities,innovative capabilities,and professional literacy through practical experience.Ultimately,the utilization of this platform holds significant implications for enhancing the quality of skilled talent cultivation,serving as a valuable reference for the design and development of other practical training platforms.[Conclusions]In summary,the comprehensive liquid-level control practical training platform developed in this study holds significant practical significance and application value.It addresses the limitations of existing training platforms,providing a richer and more authentic practical environment for students.This contributes to improving their professional skills and overall literacy.Additionally,the establishment of this platform offers innovative approaches and methods for cultivating high-skilled and applied talents,serving as an important reference for promoting the joint progress of industrial production and educational teaching.
liquid-level controltraining platforminnovation abilityprofessionalismskilled talent training
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