|Milling Machine Linear Scale With Aluminum Construction & Micro Grating Ruler For Smaller Structural Size
|Technologies For Digital Readout And A Tiny Linear Encoder
|Scaling Of Sensor Position
|EDM/Lathe/Grinding/Boring Machine/Milling Machine
Linear Encoder Scale And DRO For Milling Machine Linear Scale SINO KA200-80mm Glass Linear Scale
Key features of the Aluminum Linear Encoder Scale DRO for milling machines include:
Aluminum construction: The linear encoder scale is constructed from aluminum, which provides durability and resistance to environmental conditions, ensuring reliable performance in the milling machine's operating environment.
High precision: The DRO system offers high precision measurement capabilities, allowing for accurate positioning and control during milling operations.
Easy installation: The linear scale is designed for easy installation on milling machines. It typically includes mounting brackets and hardware to facilitate the installation process.
Linear encoding technology: The linear scale utilizes advanced encoding technology to provide accurate measurements of the milling machine's linear motion. This enables precise control and monitoring of the milling process.
Compatibility: The SINO KA200 model is designed to be compatible with various milling machines, making it suitable for a wide range of applications.
Short Linear Glass Scale, KA200-800mm, 1 piece
The KA-200 grating ruler is based on the KA-500 grating ruler and has optimized internal and external structures.
The micro grating ruler is designed to have a smaller structural size than the KA-500 and is suitable for applications with limited installation and location.
on smaller devices. Its usage length is 30~360mm.
Installation using D, X, H type ruler cover and KA-200 full cover grating ruler
L0: Effective measuring length of encoder L1: Dimension of encoder mounting hole
L2: Encoder overall dimension
All linear scales will be tested before delivery. Here is a sample of a scale's testing report.
Contact Person: Mr. Piero Chan