EV SANLAB Learning

Hub Motor Assembly

Designed to teach you the step-by-step assembly process of hub motors (wheel hub motors), the scenario allows you to understand how critical components like the rotor, stator, and control systems come together in a simulated environment. You'll practice placing these components in the correct sequence, helping you grasp the structure of hub motors and enhance your assembly skills. Experience provides a solid foundation for further advancement in electric vehicle maintenance and assembly.

Interactive Scenarios >

Learning Objectives

Scenario prepares users for the step-by-step assembly process of hub (wheel hub motor) motors. Focus is on understanding the individual components and how they fit together during the assembly process.

  • Understand the structure and key components of hub motors, and learn how they are assembled through guided placement in a simulation environment.

  • Develop the ability to follow the correct sequence in placing hub motor components, ensuring accurate assembly within the simulation.

  • Enhance skills in identifying potential issues during the placement process, enabling efficient corrections within the simulated assembly.

  • Build a foundational understanding of motor assembly through simulation, preparing for further hands-on experience in electric vehicle maintenance tasks.

Learn More
About the Electric Vehicle Training Simulator

Main Learning Objective

Introduction to Hub Motor Assembly

Participants will learn the detailed step-by-step process of assembling hub motors (wheel hub motors) in a simulated environment, focusing on how to correctly position and integrate pre-prepared components during the assembly process.

Understanding Hub Motor Components

Participants will gain a comprehensive understanding of the critical components that make up a hub motor, such as the rotor, stator, and control systems. They will explore how these components interact and contribute to the overall functioning of the motor.

Practicing Component Placement in Simulation

Through immersive simulation exercises, participants will practice the transportation and precise placement of pre-prepared motor components. Process deepens their understanding of spatial relationships between parts, ensuring accurate positioning of each element for optimal performance.

Enhancing Motor Assembly Skills

Participants will build practical experience in assembling hub motors, working through each stage of the process in a controlled virtual environment. This will help develop their ability to manage complex assemblies, ensuring they gain confidence in handling components and ensuring a seamless assembly workflow.

Learn More
Download Scenario Catalogue

Other Scenarios

hub disassembly 1

Hub Motor Disassembly

Scenario aims to teach users the step-by-step process of disassembling hub(wheel hub motor) motors.

Asynchronous Motor Disassembly

Asynchronous Motor Disassembly

Scenario aims to teach users the step-by-step process of disassembling asynchronous motors.

Training workspace featuring tool cabinets, an assembly table, and electric motor components, designed for hands-on technical education.

PM Motor Assembly

Scenario aims to teach users the step-by-step process of assembling PM (permanent magnet) motors.

pm disassembly 1

PM Motor Disassembly

Scenario aims to teach users the step-by-step process of disassembling PM (permanent magnet) motors.

Check the Other Categories

Automotive Electronics Maintenance and Fault Finding module in Electric vehicle training simulator, focused on EV diagnostics and troubleshooting.

Vehicle Safety and Basic Maintenance Procedures

Vehicle Communication Technologies

Vehicle Diagnostics and Communication Systems

Training environment featuring a charging station and tool cabinets, designed for hands-on learning in electric vehicle technology.

Charging Station Assembly/Disassembly Procedures

Theory Test module in electric vehicle training simulator, assessing knowledge of EV components and maintenance practices.

Fuel Cells Battery Systems and Conversion Technologies