What are the characteristics of the profilometer?

Profilometer is a two-dimensional instrument for detecting objects. Most of these instruments are used in automobile manufacturing and railway industry. What are the characteristics of the profiler? Let's take a look.


1. High speed parallel data acquisition unit, hardware trigger, hardware high-speed sampling, no delay, data acquisition volume is 20 times that of domestic peers, and data source stability is 12 times that of domestic peers! Dense and stable data sources provide the most powerful guarantee for future data processing and calculation. The measurement stability is 8 times that of domestic peers!


Due to the limitation of the sampling mode, the domestic counterparts cannot reflect the actual accuracy of the X-axis grating. The advanced acquisition mode of the instrument can give full play to the accuracy of the X-axis grating, which is 12 times higher than that of the domestic grating!


2. For a real large range design, the actual range of the Z-axis sensor is 12mm, and the lever ratio is only 1 ≤ 2.2! The original accuracy of the sensor is kept to the greatest extent. The accuracy of the Z-axis sensor is 8 times that of the domestic peers in the full range!


3. The length of the right bar (end of measuring needle) is 280 mm! When the rod is long enough to achieve the same height measurement, the swing angle is small to avoid interference between part of the part surface and the measuring rod during the measurement.


4. The overall structure of the Z-axis sensor has no elastic element, so the force measurement is balanced regardless of the position of the needle. The domestic counterparts use spring and other elastic elements. The position of the measuring needle is different, and the measuring force is different. Due to the change of the measuring force, the deformation of the lever is inconsistent, which will produce large and uncorrectable measurement errors at any time.


5. According to ergonomic modeling design, the operation is more convenient, the labor intensity of the operator is reduced, and the possibility of operator misoperation is reduced.