Brand:Yaskawa
Model Number:HW1382455-C
Motor Type:Servo
Axis:L-axis
Rated Output Torque:180 Nm
Reduction Ratio:Customizable
Operating Voltage:DC 24V
Speed Range:0.001 — 2000 RPM
Accuracy:±0.01% + 0.1
Load Capacity:Up to 10kg
Installation Compatibility:Robotic arm
Temperature Range:-10°C to +50°C
Electrical Connection:Standard connector
Material:Aluminum alloy, stainless steel
Size:Customizable
Weight:Dependent on configuration
The Yaskawa HW1382455-C Robot GP180 L-axis Reducer is engineered to deliver exceptional performance and reliability in robotic systems. Its compact yet robust design ensures seamless integration with modern robotic platforms, making it ideal for industries requiring high-precision movements, such as automotive, electronics, and aerospace manufacturing.
Featuring a versatile reduction ratio that can be tailored to specific application needs, this reducer offers unmatched flexibility. Its servo motor type ensures smooth operation, while the customizable speed range allows for precise control over robotic movements, enhancing overall efficiency and reducing production time.
With a high accuracy specification of ±0.01% + 0.1, this reducer guarantees minimal positional errors, which is crucial for achieving consistent quality in high-volume production environments. The ability to handle loads up to 10kg makes it suitable for a wide range of tasks, from delicate assembly operations to heavier-duty handling.
Operated within a temperature range of -10°C to +50°C, this reducer is designed to withstand harsh industrial conditions, ensuring long-term reliability without the need for frequent maintenance. Its aluminum alloy and stainless steel construction provide both durability and resistance to corrosion, making it an excellent choice for diverse operational settings.
Easy installation and compatibility with standard connectors simplify setup processes, reducing downtime and facilitating quick deployment in robotic systems. The customizable size options cater to various robotic arm configurations, ensuring optimal performance regardless of the application requirements.
Reviews
There are no reviews yet.