Product Description

The SE-B4.130.030-14.000 from Bosch Rexroth Indramat stands out for its ability to handle precision automation applications with aplomb. As part of the highly-regarded SE Servo Motor Series, users can depend on its quality construction and advanced functionality. Equipped to achieve a rapid 3000 RPM rotation, it performs with consistent fluid motions. This high nominal rotational speed allows smooth and responsive control for a wide span of mechanized tasks. Backing up its velocity capabilities, the motor impresses with 18 Nm of holding brake torque. This robust torque helps maintain stability even under load disturbances to prevent drift. Its multi-layered dependability also includes a straight connection shaft without key, easing assembly into existing machinery frames. With a 24 mm diameter, integration is further simplified. Equipped with a robust centering diameter of 130 mm, it provides ample surface contact for rigidity.

An industry-leading IP66 enclosure achieves thorough protection from dust ingress and potent water jets. This rigorous protection index assures durability even in dirty, wet industrial settings involving harsh elements like metalworking, wood processing, cement mixing, or food industries. At this rating, the motor delivers years of reliable performance in challenging ambient conditions where lesser units would struggle. Tacho and power/brake sockets augment functionality for sophisticated controls and feedback. The former allows rotational monitoring, while the latter enables integrated braking control as needed by applications requiring responsive stopping accuracy. Its nominal 300 rpm rotational reading sensitivity also supports precise automated sequences.

Exceptional quality and rugged construction make the SE-B4.130.030-14.000 well-suited for automated handling systems involving components delicate yet mission-critical. In pick-and-place robotics, filling lines, or precision assembly, its refined control characteristics ensure millimeter repeatability essential for optimizing output. Longevity in these types of repeat duty cycles protects productivity for years to come.