|Item:||Sealed Incremental Angle Encoders||Model:||AD-60MB-S18|
|Hollow Through Shaft Diameter (mm):||60||Lines:||18000|
|Allow Rotating Speed (rpm):||≤600||Reference Point:||36or1|
|Accuracy:||±8"～±10"||Signal:||～1 Vpp / EIA-422A|
SINO Sealed Incremental Angle Encoders,
Incremental Angle Encoders AD-60MB-S18,
Milling Lathe Granding Optical Angle Encoder
SINO Sealed Incremental Angle Encoders AD-60MB-S18 ISO9001 For Milling Lathe Grinding Optical Angle Encoder
Angle encoder usually refers to an encoder with accuracy within ±5''~10'' and a line count higher than 5000. Angle encoders are used for high-precision angle measurement where accuracy is required to be within a few seconds.
The main application scope of the enclosed angle encoder: CNC turntable; C-axis of a lathe; gear measuring machine; high-precision industrial robot joints; astronomical telescopes, etc.
Conventional safety codes and regulations must be followed in using this angle encoder. In particular, measures must be taken to ensure that the damage to the displacement sensor will not cause danger to personnel or equipment, including the installation of a safety limit switch emergency stop switch and maintenance of the operating environment allowed.
This instruction manual is only applicable to the RA-A angle encoder. Refer to relevant operating instruction manuals for other series of RA-A encoders.
This instruction manual is to guide technical personnel participating in installation and commissioning. Carefully read this instruction manual before installing and operating this product. Warranty will be lost due to unauthorized modification and unallowed utilization.
Nordon Corporation also provides linear scale, encoder, etc. required for other different applications, including:
|Shaft size D1||60g7(-0.010/-0.040)|
Advantages of enclosed incremental linear encoders
The sealed incremental linear encoder measures the position of the linear axis without additional mechanical transmission. All feed mechanisms are included in the position control loop through the linear encoder, and the mechanical motion error of the control loop is detected by the signal acquisition and processing system. The linear encoder reads the head and corrects it from the control, potentially eliminating several sources of error:
1. Positioning error caused by thermal expansion of the ball screw
2. Game bug
3. Motion error caused by ball screw pitch error
Therefore, the enclosed incremental linear encoder is an indispensable basic technical resource for high-precision, high-speed processing machinery.
Contact Person: Kelsey