High-precision fluid-drive technology for seamless torque transmission, shock absorption, and energy efficiency in heavy-duty industrial machinery.
Defining the next generation of industrial coupling reliability
◆ Our Hydraulic coupling series represents the pinnacle of GENERAL EQUIPMENT MANUFACTURING, specifically designed to optimize torque transfer in high-inertia systems. By leveraging fluid dynamics, these couplings prevent motor overload and eliminate mechanical shocks.
◆ Engineered with ADVANCED HYDRODYNAMIC PRINCIPLES, the Hydraulic coupling ensures a soft start and constant power transmission. This technical advantage significantly reduces wear on gearboxes and bearings, extending the total lifecycle of your industrial assets.
Three pillars of excellence that ensure unmatched performance in torque control.
Precision control over torque transmission to prevent system surges.
Engineered to maintain performance under extreme operating temperatures.
Rigorous material selection for longevity in corrosive environments.
Comparative data proving our superiority in energy conservation and reliability.
Rigorous parameters for precision matching with your motor specifications.
| Model Series | Max Power (kW) | Nominal Speed (RPM) | Max Torque (Nm) | Weight (kg) | Efficiency (%) |
|---|---|---|---|---|---|
| HC-Lite 100 | 15 kW | 1450 RPM | 1200 Nm | 45 kg | 96.5% |
| HC-Standard 200 | 30 kW | 1450 RPM | 2500 Nm | 82 kg | 97.2% |
| HC-Heavy 400 | 75 kW | 1450 RPM | 6000 Nm | 150 kg | 98.1% |
| HC-Ultra 600 | 110 kW | 1450 RPM | 12000 Nm | 280 kg | 98.5% |
| HC-Industrial 800 | 160 kW | 1450 RPM | 25000 Nm | 410 kg | 98.8% |
| HC-Prime 1000 | 200 kW | 1450 RPM | 40000 Nm | 580 kg | 99.1% |
| HC-Giant 1200 | 315 kW | 1450 RPM | 75000 Nm | 820 kg | 99.3% |
| HC-Titan 1500 | 400 kW | 1450 RPM | 110000 Nm | 1200 kg | 99.5% |
Proven performance across diverse industries.
Integrated HC-Heavy 400 to resolve frequent motor burnout caused by heavy ore loading during start-up phases.
Installed HC-Industrial 800 to dampen shock loads during metal slab entry, reducing gearbox wear by 40%.
Deployment of HC-Ultra 600 to manage torque spikes in marine environments, ensuring smooth acceleration.
Applied HC-Titan 1500 to manage massive inertia in rock crushers, preventing catastrophic shaft failure.
Tailored solutions for demanding environments.
Perfect for heavy crushers and conveyor systems where high-starting torque and shock absorption are critical.
Optimizes rolling mill drives by eliminating sudden impact loads on gears during slab entry.
Used in thrusters and large pump systems for smooth acceleration and protection against cavitation.
Provides reliable transmission for large cooling fans and turbines, reducing startup stress on grids.
Specifically coated for corrosive environments, ensuring longevity in agitation and mixing drives.
Ensures smooth transmission for massive rollers, reducing the risk of mechanical failure in 24/7 operations.
Every coupling is manufactured under strict ISO 9001 guidelines, ensuring dimensional accuracy within microns.
Each unit undergoes a 24-hour full-load stress test to guarantee stability and leak-proof fluid containment.
Full heat-treatment logs and material certificates provided for every batch to ensure structural integrity.
Certified by global industrial bodies for safety and efficiency.
Expert answers to common technical and commercial inquiries.
It utilizes a fluid medium to transmit torque. During startup, the fluid slips, allowing the motor to reach full speed before the load is fully engaged, thus preventing current spikes.
Mainly monitoring oil levels and checking for leaks. Depending on the environment, we recommend an oil change every 24 months to maintain viscosity.
Yes, by adjusting the oil filling level, you can modify the slip characteristics and torque transmission profile to fit your specific load.
Standard models are in stock. Custom-engineered sizes typically require a lead time of 14-21 business days from technical drawing approval.
Provide us with your motor power (kW), rated speed (RPM), and the nature of the load. Our engineers will calculate the optimal HC series for you.
Yes, our couplings are designed for omnidirectional installation. However, we recommend specific oil filling levels for vertical axes.
Contact our engineering team for a precise Hydraulic Coupling configuration tailored to your plant's load requirements.