Aluminum Shaft Coupler Stable Power Transmission Rigid Coupling Efficient

Aluminum Shaft Coupler Stable Power Transmission Rigid Coupling Efficient

Company Introduction:SEXGL Coupling deliver unparalleled accuracy and durability in high-precision automation systems, trusted by global leaders like BYD (EV powertrain assembly) and BOE (LCD panel cutting robots) across North America, Europe, Southeast Asia, and South Korea.

Characteristics 

Gear couplings are suitable for high-power transmission and high-speed rotation applications.
Elastic couplings are suitable for applications that require shock absorption and noise reduction.
Fluid couplings have the characteristics of smooth transmission, no noise, no impact, and strong adaptability.
Smooth couplings are suitable for applications that require precise transmission and a small space.
Universal couplings are usually used to transmit rotation in different directions or connect two misaligned shafts.
Spring couplings can absorb axial misalignment and vibration to a certain extent.
Sliding couplings use a sliding pair to transmit power.
Leaf spring couplings use multiple layers of metal leaf springs to transmit power, have high torsional stiffness and load-carrying capacity, and are suitable for applications that require high-precision transmission and large torque.
Precision couplings usually use high-precision machined parts, have low radial deviation and axial offset, and are suitable for applications with high requirements for transmission accuracy, such as CNC machine tools and laser equipment.
Groove couplings achieve transmission by installing grooves or cams between two shafts, and are suitable for applications that require a tight connection and high-torque transmission.
Curvilinear tooth couplings use arc-shaped gears to transmit power, have a large torque transmission capacity and self-aligning function, and are suitable for applications that require long-distance transmission and high torque.
Electronic couplings usually use sensors and controllers to achieve precise dynamic adjustment and monitoring, and can be used in applications that require high-precision control and adjustment, such as precision machinery and automation systems.
Magnetic couplings use a magnetic field to transmit power, do not directly contact the transmission components, have the characteristics of no wear, no noise, and no lubrication, and are suitable for high-speed, pollution-free, and non-contact transmission applications.
Quick couplings have the characteristics of quick installation and disassembly, and are suitable for applications that require frequent replacement or maintenance, such as conveying machinery and assembly lines.

Parameter Table