Robot Mobile Chassis Built for industry applications
Super high input-output ratio
Low investment, high returns.
Cost reduction, efficiency boost.
Quick ROI, long-term gains.
Data-driven optimization.
Eco-friendly and energy-saving.
Open SDK Platform
Fully open hardware & software
with API support.
Rich documentation aids development.
Reduced Development Costs
Stable navigation.
Shorter R&D cycle.
Lower R&D cost.
Autonomous Obstacle Avoidance
Dual 3D cameras & lidar
enable full-area perception
and obstacle avoidance.
Cloud Service Platform
Supports remote navigation,
real-time data,
and quick map deployment.
Easy to use.
Customised Development
Highly scalable,
allowing tailored application architecture
to fit needs.
Original suspension and steering Structure
Modular design, easy to change wheelbase wheelbase.
Self-developed core modules
Has dual encoder servo control for motor and output axis.
Available in 2WD or 4WD
For indoor and general pavement applications.
High-performance servo multi-purpose
High space utilizationCompact size and easy to install.
Small size, high precision and high torque servo drive wheels
Suitable for industrial automation, AGVs, mobile robots.
Customized products and applications
Can be customized for mobile operating robots, construction mapping robots, and many other scenarios.
Reeman robot mobile chassis is a high-performance, economical, and practical robot platform, designed specifically for educational, research, and industrial applications. With its outstanding stability, powerful drive, and flexible development interface, the Reeman robot mobile chassis provides an ideal foundational platform for various robotic projects, helping developers efficiently achieve intelligent solutions.
This chassis is equipped with an efficient electric drive system, delivering stable power output to ensure the robot operates smoothly in various environments. Whether on flat surfaces or slightly uneven roads, the Reeman robot mobile chassis offers reliable motion performance, adapting to a wide range of application scenarios.
The modular design of Reeman robot mobile chassis provides high flexibility in hardware expansion. The chassis is compatible with various sensors, cameras, LiDARs, and actuators, allowing developers to freely configure and quickly customize their robot systems according to specific needs, supporting the implementation of functionalities such as autonomous navigation, path planning, and environmental perception.
Additionally, the Reeman robot mobile chassis comes with an open SDK and rich interfaces, supporting secondary development. Developers can flexibly customize functions through the open platform. Whether for robotics education, research projects, or industrial automation applications, Reeman robot mobile chassis can provide strong support, helping you quickly develop and turn creative ideas into reality.
The cost-effective pricing makes Reeman robot mobile chassis an ideal choice for various robotic projects, especially suitable for applications that require high stability, flexible expansion, and rapid development.
Product parameter
| Length(mm) | Approx.620 |
| Width (mm) | Approx.520 |
| Height (mm) | Approx.310 |
| Hanging method | Patented multi-link four-wheel independent suspension |
| Wheelbase(mm) | 420 |
| Wheelbase (mm) | 450 |
| Minimum Ground Clearance(mm) | ≥50 |
| Turning radius(mm) | 0 |
| Maximum gradient(°) | 15 |
| Maximum speed (m/s) | 2 |
| Mass of equipment(kg) | Approx.40kg,varies depending on configuration |
| Battery Type | lithium iron phosphate battery |
| battery capacity | 36V 20Ah |
| Endurance(h) | 4 |
| Charging time(h) | 3 |
| Electric control box size | 3 |
| Drive motor power (W) | 200*4 |
| Steering Servo Power(W) | 100*2 |
| Battery protection function | Over-current,over-discharge,and short-circuit protected |
| Mileage sensors | Differential,Hall Sensor |
| Maximum Overrun Height (mm) | 40 |
| Maximum load(kg) | ≥50kg |