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In today’s micro-automated precision control landscape, robotic electric grippers have become essential intelligent control devices in numerous applications, including precision industrial production, precision manufacturing, and logistics warehousing. They perform thousands of precise operating cycles day after day, and every movement is crucial to production efficiency and quality. Behind this, the performance of the brushless planetary gear motor, the core component that drives the gripper, directly determines the overall system performance.

For robotic electric gripper applications, several key performance factors are crucial. First, achieving the gravitational torque of the gear motor requires sufficient force to overcome the weight of the gripper itself and the object being gripped, ensuring the gripper can stably grasp and move objects without slipping or power loss. Second, repeatability is crucial. Over hundreds or even thousands of operations, each gripper movement must be precise and accurate, with parameters such as position and force remaining highly consistent. This places extremely high demands on the position control accuracy and stability of our brushless gear motor. Furthermore, because robotic electric grippers typically operate within a limited workspace, our brushless geared motors must deliver powerful performance within this confined space, while also offering long life, high acceleration, and precise positioning. Long life reduces equipment maintenance and replacement, lowering production costs; high acceleration enables faster gripper movements, improving efficiency; and precise positioning ensures more precise and repeatable gripper operation.

To meet these stringent requirements, our GMP12-TBC1220 brushless coreless planetary geared motor has been developed, making it an ideal choice for driving robotic electric grippers. Its precision machined pinion, equipped with the TBC1220 brushless coreless motor, can be paired with an absolute encoder, enabling repeatable position control exceeding millions of times.

One of the GMP12-TBC1220‘s greatest strengths is its small size. Its compact design perfectly fits within the limited space of robotic electric grippers, eliminating the impact of a larger geared motor on the gripper’s overall design and flexible operation. Despite its compact size, the GMP12-TBC1220 boasts powerful high-torque performance. This allows it to easily handle the power required by robotic electric grippers to grasp and carry objects of varying weights, ensuring the gripper can stably and reliably complete various operational tasks, even with heavy loads.

Furthermore, the GMP12-TBC1220 offers exceptional value for money. While maintaining excellent performance, it is affordably priced, enabling businesses to improve the overall performance of their robotic electric grippers while controlling costs, ultimately leading to higher productivity.