Custom Robotic Chassis Design Service
Engineering & Industrial Design Software
Cross-Environment (CAD-Compatible: Windows, macOS, Linux)
The engineering expertise behind your custom robot
We design high-integrity robotic chassis frames for clients who cannot afford structural compromise. Our mobile robot chassis design serves as the mechanical backbone for autonomous inspection systems, logistics robots, and defense platforms across North America, the EU, and Asia. Every frame is engineered for real-world conditions-vibration, payload shifts, thermal cycling-and delivered with full compliance documentation (CE, ISO 13482, RoHS).
Unlike generic suppliers, we specialize in chassis designs robotics that act as the true foundation for all robotic subsystems-ensuring seamless integration of actuators, sensors, power, and control. Whether you need a compact indoor platform or a rugged outdoor vehicle, our approach combines topology optimization, fatigue-resistant materials (e.g., 6061-T6 aluminum, carbon fiber composites), and design-for-manufacturing (DFM) principles validated with CNC partners in Germany and Shenzhen.
Technical capabilities: Precision meets performance
Load-bearing & Dynamic stability
Our weight bearing robotic designs undergo rigorous FEA simulation to validate performance under worst-case payloads and terrain profiles. For example, when integrating a 15 kg manipulator, we perform detailed robotic arm calculation considering payload on U-shaped robot chassis to prevent resonance and ensure center-of-gravity stability. This is critical for applications requiring sub-millimeter repeatability.
Modularity & System integration
We treat the chassis not as a passive frame-but as an active enabler of system architecture. That’s why our work includes:
- Robotic industrial arm design integrated with heavy-duty robot chassis for foundry and welding cells
- Robotic systems engineering design centered on modular robotic chassis, enabling rapid payload swaps
- Mobile robot platform design based on mobile robot chassis design, optimized for AMR navigation stacks
Structural intelligence
Every joint, mount, and rail is designed with lifecycle in mind. We apply advanced techniques like robotic compliance mechanism design and robotic load distribution design to absorb shocks and reduce wear. For tracked or wheeled platforms, we ensure even force transmission-critical for long-duration missions in mining or agriculture.
Global standards, local expertise
We adapt our deliverables to regional expectations:
- USA: Focus on IP ownership, rapid iteration, and ROI-clients receive native CAD files (Fusion 360, SolidWorks) with full robotic design specification packages.
- EU: Full CE technical documentation, ATEX compatibility options, and REACH-compliant material declarations.
- Asia: Designs compatible with JIS/GB mounting standards and local actuator ecosystems (e.g., Yaskawa, Delta). Optional on-site DFM review in Shenzhen or Seoul.
Our process is ISO 9001:2015 certified. All intellectual property transfers upon final payment, and we provide a 12-month warranty against design-induced manufacturing defects.
Explore how our chassis enables broader system innovation:
- Chassis designs robotics as the foundation for all robotic subsystems
- Robotic vehicles design starting from a reliable robot chassis frame
Next steps: Get a technical proposal in 48 hours
Send us your requirements (payload, environment, mobility type), and we’ll deliver:
- A feasibility assessment with 2-3 concept sketches
- Preliminary mass and inertia estimates
- Fixed-price quote for full robotics mechanical design and CAD package
Frequently Asked Questions
What’s included in the final design package?
You receive a complete engineering package: 3D models (STEP, IGES), 2D manufacturing drawings with GD&T, bill of materials (with material certifications), FEA load validation summary, and a compliance checklist aligned with CE, ISO 13482, or ANSI/RIA R15.08 as needed.
Do you provide native CAD files?
Yes. We deliver native files for Fusion 360, SolidWorks, or CATIA V5 upon request. These are included at no extra cost and come with full parametric history for future modifications.
Can your chassis designs support third-party robotic arms or sensors?
Absolutely. Our frames include standardized mounting interfaces (ISO 9409-1-50-4-M6, JIS B 8432, or custom patterns) to integrate arms from Universal Robots, KUKA, Yaskawa, or custom manipulators. We also pre-route cable channels and power rails for lidar, cameras, and IMUs.
How do you handle intellectual property and confidentiality?
All design assets are your exclusive property upon full payment. We sign NDAs before project kickoff and use encrypted repositories (Git LFS or Vault) for file sharing. No design is reused across clients without explicit permission.
What’s your typical timeline for a custom chassis project?
For a standard mobile platform (e.g., 4-wheel differential drive, 20 kg payload), the full engineering cycle takes 3-5 weeks: 1 week for concept review, 2-3 weeks for detailed design and simulation, and 1 week for documentation. Complex tracked or multi-arm bases may require 6-8 weeks.
Do you support certification testing or production handoff?
Yes. We prepare all technical documentation required for CE, FCC, or KC Mark certification. Additionally, we can coordinate directly with your manufacturing partner-or our vetted CNC shops in Germany, Michigan, or Shenzhen-to ensure smooth production handoff and DFM alignment.
