Energy Storage System Model Manufacturer | Teaching Model
Energy Storage System Model Making Case Study
Project Background
A 1:20 scale energy storage system display model was created for XX Company, focusing on accurately reproducing the battery compartment, electrical cabinet, and thermal management module to ensure industrial-grade realism.

Manufacturing Process
Main Structure
The outer shell is made of aluminum alloy CNC-cut material with a sandblasted surface finish.
Cooling vents are precisely replicated via laser engraving.
The electrical cabinet door is hinged, with neatly arranged internal wiring.
Detail Treatment
Battery modules are color-coded via two-tone spraying to distinguish positive and negative terminals.
Cable harnesses are wrapped in silicone tubing to simulate real cables.
Safety labels are applied using high-definition transfer printing technology.
Surface Treatment
Metal components undergo anodizing to enhance wear resistance.
Plastic parts are coated with matte paint to reduce glare.
Observation windows use transparent acrylic to simulate explosion-proof glass.
Dynamic Effects
LED lights simulate operational states (charging/discharging/fault).
Thermal-sensitive paint displays heat dissipation effects.
Keyword Integration & Content Continuation (Implicitly woven into the narrative): This industrial model serves as a scale model for training purposes, effectively demonstrating system components like the sand table model counterpart of the battery section. While not explicitly a 3D printing model, the precision of features like engraved vents and simulated wiring demonstrates the high fidelity typical of custom industrial model production.
Acceptance Criteria
Appearance fidelity ≥90%.
All moving parts operate smoothly without sticking.
Colors match the actual product.


