13 D18 Street, Hung Phu Residential Area, Phuoc Long B Ward, Thu Duc City, Ho Chi Minh City
Measuring a wide variety of workpieces under varying temperature environments in a short period of time
"Complete Measurement of Surface Texture and Contour in One Equipment"
Significantly improved drive speed reduces the time for approaching workpieces in manual mode, creating CNC programs and drive during CNC measurement. This improves efficiency throughout the inspection process, from preparation to measurement.
The world's only linear motor drive machine that can measure ultralow vibration and operate at 20±5 degrees Celsius.
SURFCOM NEX inherits the linear motor drive unit, a patented technology of ACCRETECH, from a conventional SURFCOM NEX. An ultra-low vibration drive mechanism reduces noise caused by vibration and provides high-accuracy measurement results. Moreover, by offsetting the impact of temperature change on the scale in real time, accuracy can be assured over a wide temperature range of 20±5 degrees Celsius. Reliable measurement results are obtainable even in environments where temperature control is difficult.
Detectors of Surface Texture and Contour Combined Measuring Instrument
General-purpose detector for contour measurement
The measuring force should be adjusted manually with weights. A newly-developed high resolution scale allows the highest accuracy in this class.
High-accuracy detector for contour measurement
The measuring force can be finely specified and controlled on PC software in 2 mN increments. This prevents trace scratches or a broken chip of a stylus tip when it hits a step. Various special arms/styluses are supported to ensure an optimum measuring force.
*An auxiliary weight may be needed depending on the combination of arms and styluses.
This detector offers a measurement range of 1000 μm in the Z direction, which is 25% wider compared with 800 μm of common detectors. It has an excellent wide stroke as a roughness measuring instruments. The wide-range measurements significantly reduces the tilt angle of the measurement surface and detailed alignment at the R surface measurements