Views: 0 Author: Site Editor Publish Time: 2025-06-09 Origin: Site
Multi-Passage Rotary Joints are becoming an indispensable key component in modern industrial equipment. They enable the efficient transmission of fluid, gaseous or electrical signals between fixed and rotating systems and are widely used in automated production lines, robotics, wind power, packaging machinery and many other fields. With the development of industrial technology, the demand for multi-pass rotary joints is not only reflected in performance, but also in their compactness and versatility. Therefore, how to achieve more channel integration in a limited space has become a core challenge in R&D.
At the heart of a multi-pass rotary joint is its unique internal structure. It typically consists of a fixed housing and a rotating shaft, which is isolated and sealed by a precision-machined sealing ring. Each channel is individually sealed to ensure no cross-contamination or interference between the different media. In addition, in order to cope with different working environments, the choice of joint materials is also crucial, common materials include stainless steel, copper alloys, and high-performance engineering plastics.
During work, the fixed end is connected to the external system, while the rotary end is connected to the parts that need to be moved. With an internal sealing ring and bearing system, the swivel joint allows for smooth rotational motion while maintaining the seal. Each channel can be tailored to your needs, e.g. for the transmission of high-pressure liquids, low-pressure gases or high-frequency electrical signals.
multi-pass rotary joint is a device capable of transferring multiple media simultaneously during rotation. These media can be liquids, gases, electricity, or signals. While traditional rotary joints typically only support a single or a few channels, multi-pass rotary joints are designed and manufactured with precision to integrate multiple independent channels in a compact package. This design allows it to meet the needs of complex systems for simultaneous transmission of multiple media.
In short, as an important part of modern industrial equipment, multi-channel rotary joints are constantly breaking through technical bottlenecks and providing strong support for the efficient operation of various complex systems. Whether it is in the field of traditional manufacturing or emerging technology, its application prospects are very broad.
