Turbocharger Anatomical Model

Product Overview:

The turbocharger dissected model is a professional integrated theory and practice teaching and training equipment designed for vocational colleges majoring in automotive engineering, new energy vehicles, internal combustion engines, and construction machinery, as well as automotive repair training institutions and engine component enterprise technical centers. Based on a factory-installed exhaust gas turbocharger (including mainstream models with standard cross-sections and VGT variable cross-sections), the model uses precise dissection, color-coding, and a rigid stand integration to visually present the complete structure, assembly relationships, and core working principle of exhaust gas-driven intake turbocharging of the turbine end, compressor end, intermediate bearing/lubrication/sealing system, and bypass valve/actuator. It is a core teaching tool that addresses the pain points of traditional teaching methods, such as "invisible internal structure and difficulty in understanding dynamic processes."

Features:
1. Uses a complete turbocharger assembly (with all accessories) for dissection, showcasing all components and comprehensively displaying the internal and external structure of the assembly.

2. Through dissection and different colors applied to each section, the mechanical structure of the internal and external components and their assembly relationships are clearly displayed.

3. The equipment base frame (with anti-vibration pads) is made of 1.5mm cold-rolled steel sheet, stamped and formed, with a powder-coated surface. The anti-vibration pads are fixed to the base with M6*4 screws.

Training Projects:
I. Training Objectives
Master the overall structure, component names, and functions of a turbocharger.

Understand the working principles of exhaust gas drive, intake supercharging, lubrication and cooling, and bypass control.

Be able to perform turbocharger disassembly, assembly, inspection, and clearance measurement in a standardized manner.

Be able to analyze typical fault causes and phenomena through dissecting models.

Cultivate practical training abilities in safe operation, standardized record keeping, and combining theory with practice.

II. Training Project Content

Project 1: Overall Structure and Component Recognition Training

Project 2: Turbocharger Disassembly and Assembly Process Training

Project 3: Rotor Dynamic Principle and Airflow Direction Demonstration

Project 4: Key Clearance Measurement and Condition Inspection

Project 5: Typical Fault Simulation and Diagnostic Analysis

Project 6: Assessment and Summary