Rotary Joint and Slip Ring for Automatic Machinery
Rotary Turntable
WDH050-3-22
Φ50mm, 2A*22 circuits
WDGH120-5-30
Φ120mm, 5A*30 circuits
WDGQ180-8-4-2
Φ180mm, 200A*4 circuits+signals*8 circuits+2*compressed air
WDGQ136-20-24-14
Φ136mm, 5A*20 circuits+signals*24 circuits+14*compressed air
Cable Reel
WDGT038-2
Φ99mm, Ethernet*2 circuits
WDG025-8
Φ78mm, 10A*10 circuits
WDGT050-3-5-2
Φ130mm, 50A*3 circuits+15A*5 circuits+2*fiber optic
WDG050T-8-4
Φ120mm, 250A*4 circuits+5A*8 circuits
Heating Drum
WDGT050-12
Φ135mm, 2A*12 circuits
WDGT060-5-2
Φ135mm, 100A*5 circuits+10A*2 circuits
WDGT038-3-3
Φ119mm, 80A*3 circuits+Thermocouple*3 circuits
WDGT080-3-3
Φ180mm, 160A*3 circuits+Thermocouple*3 circuits
Testing Instruments
WDH012-4
Φ12.4mm, 2A*4 circuits
WDH012-6
Φ12.4mm, 2A*6 circuits
WDG0522-4
Φ5mm, 2A*4 circuits
Glass Fiber Drawing Machine
WDT120-8-2-24
Φ120mm, 20A*8 circuits+10A*2 circuits+Signals*24 circuits
WDT080-6-18
Φ200mm, 50A*6 circuits+Encoder signal*18 circuits
Textile Machine
WDG025-8
Φ78mm, 10A*8 circuits
WDG038-10-5
Φ99mm, 20A*10 circuits+2A*5 circuits
WDGT120-8-6-2
Φ120mm, 60A*8 circuits+5A*6 circuits+CANbus*2 circuits
Lithium Battery Injection Machine
WDTQ180-24-24
Φ180mm, 10A*24 circuits+24*compressed air
Mud Scraper
WDG038-16
Φ99mm, 15A*16 circuits
WDG050-12
Φ120mm, 10A*12 circuits
Both rotary joint and electrical slip ring for automatic machinery can improve the efficient operation while rotation. Whether it’s for transmitting electrical signals or transferring fluids. For automatic machinery, various types of slip rings and rotary joints are used based on specific application needs. The features are MAX 300 multi-channel, Transmit encoder signal, Supply power to servo motor, Special shielding moduledesign. Here’s a breakdown of the most common types;
Table of Contents
ToggleSlip Ring for Automatic Machinery Connector Types
Basic design with conductive rings and brushes for general power and signal transmission. Good for carousel, robot hand, feeding and dumping system, dispensing equipment.
Incorporate optical fibers for high-speed data transmission without electromagnetic interference. Used in medical imaging, semiconductor equipment and aerospace systems.
Pneumatic Slip Ring for Automatic Machinery
Combine electrical and pneumatic connections for air or fluid transfer. Common in automated machinery that requires both power and fluid transfer.
High Speed Slip Rings
Designed for applications requiring high rotational speeds and minimized electrical resistance. Good for high-speed turbines and advanced manufacturing equipment.
Multi-channel Slip Rings
Allow multiple circuits (power and signals) to be transmitted simultaneously. Found in complex systems like turntable control, lithium dispensing & filling machine and automated assembly lines.
Custom Slip Rings
Tailored designs to meet specific electrical and mechanical requirements. Good for specialized machinery where standard solutions do not fit.
Automatic Machinery Rotary Joint Types
Single-Passage Rotary Joints
Allow one fluid path for simple applications. Common in small machines where only one fluid transfer is needed.
Support multiple fluids or channels for complex applications. Used in large industrial systems where different fluids need to be managed simultaneously.
High-Temperature/High-Pressure Rotary Joints
Designed to withstand extreme temperatures and pressures. Found in energy generation and aerospace applications.
Electrical and Fluid Rotary Joints
Combine fluid transfer with electrical connections in a single unit. Used in machines where both power and fluid transfer are needed, like robotics and CNC machines.
Custom Rotary Joints
Engineered for specific requirements that standard designs cannot meet. Used in specialized industries or applications requiring unique fluid management.
Some Tips of Electrical Slip Ring and Rotary Joint
Maintenance Electric Slip Ring for Automatic Machinery
Slipring Wear and Tear
Regularly check brushes and rings for wear. Contact points will degrade over time, then affecting conductivity. Replace worn components promptly to prevent failure.
Slip Ring for Automatic Machinery Electrical Noise
If interference fluctuations in signal. Use shielded cables and proper grounding techniques to reduce noise.
Swivel Heat Generation
Excessive heat can indicate overloading or poor contact. Ensure slip rings are rated for the application and that they are not overloaded.
Swivel Slipring Installation Issues
Please follow manufacturer guidelines for installation to avoid problems.
Electrical Cable Management
Kinked or twisted electrical cable will lead to premature failure. As a matter of fact, organize cables to minimize strain on connections.
Maintenance and Installation of Air Rotary Joint
Rotary Joint Leakage
Regularly check for leaks around seals or connections. Use quality seals and check compatibility with fluids to avoid degradation.
High Pressure Rotary Joint Pressure Drop
Sudden drops in pressure can indicate blockages or wear. Inspect and clean the joint if pressure issues arise.
Fluid Rotary Joint Compatibility
Ensure that the rotary joint materials are compatible with the fluids being used.
Air Rotary Joint Temperature Control
High temperatures can affect performance and longevity. The air rotary joint is rated for the operating temperatures of the application.
Installation and Alignment
Proper alignment is crucial to avoid wear and stress on the joint. Follow manufacturer instructions for proper setup.
Maintenance Hydraulic Rotary Joint Bearings
Hydraulic rotary joint bearings may need regular lubrication and checks for wear.
Guide for Rotary Joint and Slip Ring for Automatic Machinery
Rotary joint and slip ring for automatic machinery, such as Rotary Turntable, Cable Reel, Heating Drum, Testing Instruments, Glass Fiber Drawing Machine, Textile Machine, Lithium Battery Injection Machine, Mud Scraper.
The choice between different types of slip rings and rotary joints depends on the specific requirements of the industrial machinery. The include factors like the number of channels needed, the type of signals or fluids being transferred, operating conditions (temperature, pressure), and the complexity of the system. Understanding these types help us for selecting the most suitable components, so that improve the operational efficiency and reliability.