What Makes MABI Robotic Arms Exceptional?
At the core of MABI's success is its use of secondary encoders in all axes of their robotic arms. These encoders, which act as precision measuring devices, enhance the accuracy and rigidity of the robots, making them ideal for both additive and subtractive CNC applications. Unlike conventional robotic arms, which may suffer from slight inaccuracies due to mechanical imperfections or calibration drift, secondary encoders allow MABI’s robots to continuously monitor and adjust their positioning with unparalleled precision. This feature is especially crucial in industries where even the smallest margin of error can have significant consequences, such as aerospace, automotive, and medical device manufacturing.
The MABI MAX Series - Precision Meets Versatility
One of MABI's flagship products is the MAX-100-2.25-P, a robotic arm that is both compact and powerful. With a payload capacity of 100 kg and a reach of 2.24 meters, this arm is a cornerstone of precision in smaller-scale, high-detail projects. It offers flexibility in size and performance, catering to industries that require both delicate precision and substantial power in their operations.
In response to customer demand, MABI continues to develop and expand its product line. For example, the upcoming MAX-200-2.5-P, set to launch in late 2024, promises to revolutionize heavy-duty manufacturing. This larger model will combine the same high-precision technology with increased strength and durability, allowing for even more demanding applications.
Applications Across Industries
MABI's robotic arms are already transforming numerous sectors. High-precision milling is one such area where these robots excel. Their ability to maintain strict tolerances and consistent quality makes them indispensable in tool and die manufacturing, metalworking, and mold creation. The integration of MABI robots in automotive production lines has led to faster, more accurate assembly, reducing the risk of defects and improving overall efficiency.
In the field of additive manufacturing, where materials are added layer by layer to create a part, MABI robots ensure that each layer is deposited with exact precision, leading to higher-quality end products. These robotic arms are also well-suited for subtractive manufacturing, such as CNC milling, where material is removed to form the desired shape. In both processes, the secondary encoders provide the feedback necessary to make micro-adjustments in real time, ensuring that every cut or deposition is perfectly aligned.