AMR Chassis with a load capacity of 300 kg – Intelligent Robot for Logistics and Industry

• ✔ Robust load capacity of up to 300 kg for efficient material transport.
• ✔ Advanced LiDAR navigation and 3D camera for precise movement and obstacle avoidance.
• ✔ Omnidirectional movement for unmatched maneuverability in any direction.
• ✔ Powerful industrial control system with Linux and Android support for flexible integration.
• ✔ Long-lasting LiFePO4 battery with over 2000 charging cycles and automatic recharging.
• ✔ Intuitive 7-inch touchscreen for easy control and monitoring.

Introducing the intelligent AMR chassis, designed to transform logistics and material handling in your operations. With a payload capacity of 300 kg and advanced navigation systems, this robot is the ideal foundation for autonomous solutions in industrial halls, warehouses or commercial spaces.

🚀 What can this autonomous robot do?

• Flawless omnidirectional mobility: The ability to move freely in any horizontal direction thanks to advanced omnidirectional wheels, minimizing the need for complex maneuvering.
• Precise navigation and obstacle detection: Integrated LiDAR system for precise indoor mapping and navigation, complemented by a 3D camera for visually assisted dynamic obstacle avoidance.
• Robust performance and battery life: Powered by a high-capacity, long-life LiFePO4 battery with automatic charging support, it ensures continuous operation.
• User-friendly interface: Thanks to the 7-inch capacitive touchscreen, operation is intuitive and efficient.

🔍 Explore every detail – The intelligent foundation for your automation

This AMR chassis represents a leading platform for autonomous logistics and material handling. Its modularity allows the integration of various superstructures and sensors, making it a universal solution for a wide range of applications - from warehouse delivery to assistance on production lines. Thanks to its open architecture and industrial control systems (Cortex-A7, Android 5.1, i5 Linux), it is easily integrated into existing corporate ecosystems.

It uses a highly reliable Lithium Iron Phosphate (LiFePO4) battery, which is known for its safety and long life of over 2000 charging cycles. Together with the automatic charging station, the need for human interaction is minimized and the robot's operating time is maximized. The chassis design with 4 omnidirectional wheels, 2 of which are active 6.5-inch wheels, ensures excellent stability and precision even under full load.

🚧 Are you bothered by slow intralogistics and a shortage of labor?

In today's industrial environment, many companies face challenges in material handling efficiency, a shortage of skilled labor, and rising operating costs. Manually transporting heavy loads is time-consuming, risky, and often leads to errors that impact overall productivity.

💡 Get back your time and efficiency with an autonomous robot!

Our AMR chassis is designed to solve these problems. By automating material handling, it frees up human resources for more complex tasks, minimizes errors and increases safety. This robot works tirelessly, optimizing material flows and delivering measurable savings and increased efficiency to your operations.

✅ More than just features, real benefits

• Function: Load capacity 300 kg -> Benefit: Efficient transportation of heavy and bulky loads without the need for human power, optimization of logistics processes.
• Function: Omnidirectional movement -> Benefit: Increased flexibility and maneuverability in confined spaces, faster and smoother operations.
• Function: LiDAR and 3D camera navigation -> Benefit: Traffic safety and precise route adherence, minimizing collisions and property damage.
• Features: LiFePO4 battery with 2000+ cycles and automatic recharge -> Benefit: Long-term and reliable operation with low maintenance costs and high availability.

🎯 Who is this robot the ideal choice for?

• Logistics and distribution centers: To automate the transport of goods between warehouse zones and packaging lines.
• Manufacturing plants and industrial halls: For the efficient movement of components, tools or finished products within the production process.
• Robotics R&D teams: As a flexible and robust platform for developing and testing custom autonomous solutions.

❓ Do you have concerns? We will answer them

• Concern: How complex is the integration of the robot into an existing system? -> Answer: Thanks to the open architecture and standardized control systems (Linux, Android), the integration is flexible and can be adapted to the specific needs of your environment.
• Concern: What happens if the robot encounters an unexpected obstacle? -> Answer: The robot is equipped with an advanced LiDAR system and a 3D camera, which allow it to detect and safely avoid both static and dynamic obstacles.
• Concern: Is the battery powerful enough for all-day operation? -> Answer: LiFePO4 battery with a capacity of 960W and a lifespan of over 2000 cycles, together with an automatic charging station, ensures reliable and extended operation with minimal downtime.

⚙️ Technical specifications

Load capacity	300 kg
Movement type	Omnidirectional
Wheels	4 omnidirectional, 2 active 6.5-inch
Navigation system	LiDAR-based indoor navigation and obstacle avoidance
Assisted obstacle avoidance	3D camera for visual assistance
Control unit / Chip	Cortex-A7, Android 5.1; Main chip i5 Linux industrial control motherboard
Display	7-inch TFT, capacitive full touch panel, resolution 1024*600
Battery type	Lithium iron phosphate (LiFePO4)
Battery capacity	38.4V 25AH (total capacity 960W)
Battery life	More than 2000 charge/discharge cycles
Charging	One automatic charging docking station

❓ Frequently Asked Questions (FAQ)

What is an AMR robot and how is it different from an AGV?

An AMR (Autonomous Mobile Robot) is a robot that can navigate and operate autonomously in a dynamic environment without fixed routes, while an AGV (Automated Guided Vehicle) requires predefined paths such as magnetic tapes. This chassis combines the robustness of an AGV with the flexibility of an AMR.

Why is omnidirectional movement important?

Omnidirectional movement allows the robot to move in any direction (forward, sideways, diagonally) and turn in place. This is key for maneuvering in tight spaces and for quick and efficient positioning when loading or unloading material.

How does the robot detect and avoid obstacles?

The robot primarily uses a LiDAR system to accurately scan the environment and detect obstacles. It is complemented by a 3D camera that provides additional visual data for more intelligent and reliable obstacle avoidance in real time.

What is the battery life and how is the robot charged?

The robot is equipped with a powerful, long-lasting LiFePO4 battery that provides enough power for long work shifts. Charging is automatic; the robot docks itself to one of the automatic charging stations when it needs to be recharged.

Can the robot be customized for specific tasks?

Yes, this AMR chassis is designed as an open and flexible platform. Its industrial control unit with Linux and Android operating systems allows for easy integration of custom sensors, add-ons and software applications to meet the specific requirements of your operation.

What are the advantages of LiFePO4 batteries over other types?

LiFePO4 batteries offer higher safety, longer life (over 2000 cycles), better thermal stability and are more environmentally friendly compared to conventional lithium-ion batteries. This contributes to lower operating costs and a longer overall lifespan of the robot.