XL Aluminum Alloy Clamping Coupling Rotex GS GE 14 19 24 28

Its core features lie in the lightweight design and elastic compensation capability (capable of compensating for axial, radial and angular deviations, with an angular displacement of ±1.5°). The gap-free transmission is achieved through the deformation of the elastomer. The surface oxidation treatment enhances the corrosion resistance. The thermal conductivity makes it suitable for high-speed transmission (up to 10,000rpm). Compared with DJM diaphragm couplings, GS aluminum alloy couplings are lighter and less expensive. They are often used in scenarios such as CNC machine tools, robot joints, and photovoltaic tracking systems that require lightweight, medium load, and environmental adaptability. The maximum torque is 500N·m, the operating temperature ranges from -40℃ to +120℃, and the dynamic balance grade reaches G2.5. The ease of installation and economy make it the preferred solution for small and medium-sized equipment.

1. Lightweight design

Made of high-strength aluminum alloy, it significantly reduces the overall weight and moment of inertia of the product.

2. Compact structure

Clamping design, 0 rotation clearance, more sensitive transmission.

3. Maintenance without lubrication ‌

The surface is smooth and has a low coefficient of friction, requiring no regular lubrication and reducing maintenance costs.

4. Deviation compensation capability

It can automatically compensate for radial, axial and angular installation deviations (such as shaft alignment errors).

5. Vibration damping and buffering performance ‌

Polyurethane elastomers possess excellent damping properties, effectively absorbing the vibration and shock energy of the transmission system.

6. High-performance indicators

The maximum rotational speed of ‌ can reach 19,000 r/min, and it can withstand instantaneous temperatures ranging from -20℃ to +120℃

7. Simple structure and easy installation ‌

The clamping connection (fixed by screws) features a simple structure and high disassembly and assembly efficiency.

8. Strong adaptability

The compact design saves space and is suitable for high-precision and miniaturized equipment.