Robust 4x4 Robotic Chassis with Independent Suspension for Autonomous Vehicles

• ✔ Robust 4x4 drive for unbeatable off-road traction.
• ✔ Independent all-wheel suspension for maximum stability and shock absorption.
• ✔ Powerful MD60 100W DC motors for reliable movement and significant load capacity.
• ✔ Precise digital control DS5160 with 60kg torque for smooth maneuvering.
• ✔ Advanced 500-wire AB encoder for highly accurate position and speed.
• ✔ Long battery life of up to 4.5 hours (no load).
• ✔ Ideal platform for research, development and deployment in demanding outdoor conditions.

Introducing a cutting-edge robotic chassis designed for the most demanding off-road applications and autonomous vehicle projects. Equipped with a robust 4x4 drivetrain and advanced independent suspension, this vehicle provides exceptional stability and cross-country ability in any environment.

🤖 What can this chassis do?

• It has powerful 100W MD60 DC gear motors that ensure reliable traction.
• It is equipped with a DS5160 digital servo with 60 kg torque for precise control.
• Its design includes independent four-wheel suspension with shock absorption, which increases stability on uneven terrain.
• It integrates a 500-wire AB encoder with a giant magnetoresistive effect for highly accurate position and speed measurement.
• It offers impressive battery life: approximately 4.5 hours without load and 3 hours at maximum load.

🔍 Explore every detail

This autonomous all-terrain vehicle is the perfect base for a wide range of projects, from robotics research and educational platforms to industrial and security applications. Its modular design allows for easy integration of additional sensors, computing units and attachments, making it a flexible tool for innovators and engineers.

The rugged chassis is designed to withstand the rigors of outdoor environments. With quality components and thoughtful design, you can count on a long life and trouble-free operation even in the most demanding missions. It's an investment in reliability and performance.

🚧 Are you bothered by restrictions on movement in difficult terrain?

Most robotic platforms struggle with uneven terrain, obstacles, and loose surfaces, which prevent them from being deployed effectively off-road. Standard chassis often lack the robustness and flexibility needed for real-world outdoor applications, limiting their use for research, inspection, or transportation tasks in harsh environments.

🚀 Take back control of your project!

Our 4x4, independent suspension robotic chassis solves these problems by providing unmatched off-road capability and stability. Whether you need to collect data in hard-to-reach areas, perform remote inspection, or develop advanced autonomous navigation systems, this chassis provides a reliable and robust platform. It allows you to focus on software and bodywork development without having to worry about chassis limitations.

🌟 More than just features, real benefits

• Features: 4x4 drive and independent suspension: -> Benefit: Provides excellent traction and stability, allowing movement on any terrain without compromise.
• Features: Powerful MD60 100W DC motors and DS5160 digital control: -> Benefit: Provides sufficient power and precise control for handling heavy loads and complex maneuvers.
• Features: Integrated 500-wire AB encoder: -> Benefit: Provides key data for precise localization, mapping, and autonomous navigation, simplifying the development of AI and robotic algorithms.

🎯 Who is it the ideal choice for?

• Robotics researchers and students: The perfect open platform for experiments with autonomous navigation, terrain robotics, and remotely controlled systems.
• Autonomous vehicle development companies: A robust and flexible foundation for prototyping and testing UGVs for various industrial or security applications.
• High-end DIY enthusiasts: If you're looking for a chassis that can withstand extreme conditions and offers maximum customization options, you've come to the right place.

🤔 Do you have any concerns? We'll answer them.

• Concern: Can this chassis handle really tough outdoor terrain? -> Answer: Absolutely! With 4x4 drive and independent suspension with shock absorption, it is designed for maximum cross-country ability and stability in harsh environments.
• Concern: How about steering accuracy and support for autonomous operation? -> Answer: With precision digital steering with 60kg torque and an integrated 500-wire AB encoder, this chassis is ideal for advanced navigation systems and autonomous operations.
• Concern: Will it have enough endurance for longer missions? -> Answer: Yes, with an operating endurance of up to 4.5 hours without load and 3 hours with maximum load, it offers sufficient operating time for most research and operational tasks.

⚙️ Technical specifications

Engine	MD60 100W DC Gear Motor
Power steering	DS5160 digital, 60kg torque
Suspension	Independent four-wheel with shock absorption
Encoder	500-wire AB with gigantic magnetoresistive effect, high accuracy
Battery life (no load)	about 4.5 hours
Battery life (maximum load)	about 3 hours

❓ Frequently Asked Questions (FAQ)

What type of engine does this chassis use?

The chassis is equipped with powerful MD60 100W DC gear motors, which ensure reliable movement and sufficient torque for off-road operation.

What are the chassis control options?

A DS5160 digital servo with a torque of 60 kg is used for steering, which allows for precise and powerful maneuvering.

Is the chassis suitable for difficult terrain?

Yes, thanks to 4x4 drive and independent four-wheel suspension with shock absorption, the chassis is specially designed for excellent cross-country ability and stability in challenging outdoor conditions.

How long will the battery last in operation?

The operating time is approximately 4.5 hours without load and about 3 hours at maximum load, which provides enough time for most tasks.

Can this chassis be used for autonomous navigation?

Absolutely. The integrated 500-wire, high-precision AB encoder provides key data for autonomous navigation, localization, and mapping systems.

What types of projects is this chassis best suited for?

It is ideal for academic and research projects, the development of autonomous off-road vehicles, inspection robots, logistics robots in rough terrain, and for demanding DIY robotic constructions.