CI627A ABB

Description

Product Description:
The CI627A from ABB is a high-performance, compact industrial robotic arm designed for use in a wide range of manufacturing and automation applications. It provides fast, accurate, and reliable motion control, making it suitable for handling materials, assembling components, and performing other industrial tasks.

Product Parameters:

Max payload capacity: 6 kg
Repeatability: ±0.05 mm
Max reach: 1,300 mm
Max speed: 180 degrees/second

Product Specifications:

The CI627A robotic arm offers a maximum payload capacity of 6 kg, allowing it to handle a range of materials and components effectively.
It features a high level of repeatability, with a repeatability of ±0.05 mm, ensuring accurate and consistent positioning.
The maximum reach of the robotic arm is 1,300 mm, providing flexibility in handling materials and components across different workstations.
The maximum speed of the robotic arm is 180 degrees/second, enabling fast and efficient motion control.
The CI627A is designed for use in manufacturing and automation applications, where precise and reliable motion control is essential.

Product Features:

Compact design: The CI627A robotic arm features a compact design that occupies minimal floor space, making it suitable for use in confined workspaces.
High payload capacity: With a maximum payload capacity of 6 kg, the robotic arm can handle a range of materials and components effectively, making it suitable for various industrial tasks.
High repeatability: The robotic arm offers a repeatability of ±0.05 mm, ensuring accurate and consistent positioning of materials and components. This helps to minimize errors and improve manufacturing precision.
Long reach: The maximum reach of the robotic arm is 1,300 mm, providing flexibility in handling materials and components across different workstations. This allows for efficient automation of manufacturing processes.
Fast speed: The robotic arm features a maximum speed of 180 degrees/second, enabling fast and efficient motion control. This helps to reduce cycle times and improve productivity in manufacturing environments.