Application scenarios for spectral confocal displacement sensors.
With the rapid development of industry, precision measurement technology plays an increasingly important role. As the basis for precise measurement of geometric quantities, spectral confocal displacement sensors show significant advantages in various application scenarios due to their high precision, high speed and wide adaptability. This article will introduce the application scenarios of spectral confocal displacement sensors in detail.
1. Roughness measurement.
In surface roughness measurements, spectral confocal displacement sensors enable high-precision measurements due to their nanometer accuracy and excellent angular characteristics. Compared to conventional contact roughness meters, spectral confocal displacement sensors are able to acquire roughness profiles at higher speeds without causing any damage to the product surface.
2. Contour and 2D topography measurement.
By being integrated into a 2D scanning system, the spectral confocal displacement sensor provides 2D and height measurements of the load surface topography. This enables more accurate and comprehensive data to be obtained in the measurement of surfaces of a wide range of complex shapes.
3. Measurement of the thickness of the transparent body.
The spectral confocal displacement sensor uses its innovative spectral confocal principle to measure thickness directly through the front and rear surfaces of transparent parts. This process requires only one sensor to measure from one side of the workpiece, and the thickness of the arc workpiece can be measured more efficiently due to the use of coaxial light compared to the triangulation principle of laser displacement sensors.
Fourth, liquid level control.
With its excellent non-contact spectral confocal measurement capability, the spectral confocal displacement sensor can be used to detect and measure the horizontal height of liquids, providing accurate and real-time data support for liquid level control.
5. **Testing.
The high sampling frequency, small size, and snap-in data interface make spectral confocal displacement sensors easy to integrate into production and inspection equipment for in-line inspection. This not only improves inspection efficiency, but also enables real-time monitoring and quality control.
6. Vibration measurement.
Due to the ultra-high sampling frequency and ultra-high precision, the spectral confocal sensor can measure the seismic parts, and the non-contact design of the sensor avoids interference with the seismic objects during the measurement process, and can also carry out detailed measurement and analysis of complex areas. The non-contact measurement method when rotating the base can avoid defects in the coating caused by the pressure of the contact sensor, and is used to measure the oscillation and eccentricity of the base.
Summary: Spectral confocal displacement sensors have shown their unique advantages in a variety of application scenarios. Whether it's roughness measurement, profile and 2D topography measurement, transparent body thickness measurement, level control, inspection or vibration measurement, it provides strong support for industrial production and quality control with its high precision, high speed and non-contact characteristics. With the continuous development of science and technology, the application scenarios of spectral confocal displacement sensors will be more extensive, making greater contributions to the progress of industrial production.