The precision cycloidal gearbox series, which has achieved remarkable success in the robotics industry, has been further upgraded! Building upon the WF series, the WR series is born with a design concept focused on compactness and lightweight, offering a wider range of application scenarios and powerful functionality.
In this edition, we will introduce the features and application scenarios of the WR series.
Compared to the previously developed WF series precision cycloidal gearbox, the WR series stands out with its unique angular design, making a significant contribution to the compactness of robots.
1. Angular Design for Space Saving
Dongguan FUBAO precision gearbox has a strong market competitiveness with high torque, high rigidity, impact resistance, large load capacity, and ultra-low backlash. Building upon the basic performance of the WF series, the WR series features a distinctive angular design, allowing it to be installed even in confined spaces. Its design enables space-saving, meeting the requirements of limited space.
Due to the 90-degree right angle relationship between the motor input shaft and the gearbox output shaft, the motor is usually installed parallel to and closely attached to the equipment.
Therefore, the WR series high-precision angular gearbox can save more space, and its installation angle allows for 360-degree installation without dead angles, providing greater flexibility in installation.
For robots with limited installation space, using the WR series high-precision angular gearbox enables the robot's components to achieve a more streamlined structure, making the overall robot more compact and solving the problem of limited space on the production line.
In addition, manufacturing companies face the demand for flexible production with small batches and multiple varieties. Therefore, production lines need to be more flexible. Compact robots can ensure production efficiency while also being more adaptable to this demand.
2. Lighter Weight for More Versatile Applications
Compared to robots with the same load capacity, choosing a robot with lighter weight helps reduce energy consumption, decrease motion inertia, improve operation speed, enhance motion accuracy, increase work efficiency, and lower overall investment costs. Additionally, lightweight robots can find more applications in industries such as automotive, assembly, and mechanical processing, including welding, handling, and inspection.
The WR series high-precision angular gearbox is developed in response to this trend, featuring a lightweight design that effectively controls the overall weight of the robot, helping manufacturing companies increase production output while reducing the occurrence of defective products.