$ 825.00Ex works
Measurement range up to 320μm, support Multi-ParaMeter such as Ra, Rz, etc., with automatic range switching and real-time waveform display function, Continuous Operating Time over 20 hours.
Category : Roughness Tester
Brand : KairDa
SKU : NB047007
Service :The delivery and service By NBCLab.Com
KAIRDA NDT151P Roughness Gauge is a mechatronic design Portable surface roughness measuring instrument, using DSP chip for control and data processing, with small size, light weight and easy to use. The instrument can measure a variety of asperity parameters, support automatic range switching, real-time waveform display, large-capacity Data storage and a variety of Communication interfaces, suitable for precision measurement in industrial sites and laboratories.
1. Mechatronics design, small size, light weight, easy to use 2. Using DSP chip for control and data processing, fast speed and low power consumption 3. Support Multi-Parameter measurement, including Ra, Rz, Rq, Rt, Rc, Rp, Rv, R3z, R3y, Rz (JIS), Rs, Rsk, Rsm, Rku, Rmr, Ry (JIS), Rmax, RPc, Rk, Rpk, Rvk, Mr1, Mr2, etc 4. High-end models add TP, Rm1, Rm2, Rm3, Rm4 and other parameters and 320μm Measurement range 5. Automatic range switching and display 6. Real-time sampling waveform display, measurement results and historical data and waveform query is convenient 7. TYPE C and Mini USB dual USB interface design, support communication with robot, PLC and other Control systems 8. With Bluetooth function, can connect mobile app, Bluetooth printer, support data direct transmission computer EXCEL form 9.320X240 point array color display, digital/graphic display, IPS highlight without viewing angle 10. The display direction can be switched, which is convenient for left and right hand operation 11. Alarm limits for measurement results can be set 12. Radio or batch printing history and waveforms 13. Choose from ISO, DIN, ANSI, JIS and other national standards 14. The display is informative and intuitive, capable of displaying all parameters and graphics 15. Built-in lithium-ion rechargeable battery and charging control circuit, high capacity, no Memory effecy 16. There is a remaining power indicator icon, prompting the user to charge in time. 17. The charging process indication can be displayed, and the operator can know the charging degree at any time 18. Continuous Operating Time greater than 20 hours 19. Data storage, can store 100 original data sources and waveforms 20. Real-time clock setting and display for easy data recording and storage 21. With power-saving functions such as automatic sleep and automatic shutdown 22. Reliable anti-motor dead circuit and software design 23. Display measurement information, menu prompt information, error information and switch machine and other prompt information 24. Ergonomic shell design, sturdy, compact, portable, Reliability 25. Chinese/English language selection 26. Can connect computers and printers 27. All parameters can be printed or any parameters set by the user can be printed 28. Optical inspection Glass matrix for calibrated samples, high accuracy, not easy to scratch, long service life 29. Optional Surface Sensor, Minimal Hole Sensor, Deep Slot Sensor, measurement platform, Sensor jacket, connecting rod, adapter rod and other Accessories
When measuring the surface roughness of the workpiece, the instrument first places the Sensor on the surface of the workpiece to be measured, and then starts the instrument for measurement. The precision drive mechanism inside the instrument drives the Sensor to slide along the measured surface in a straight line with constant velocity. The Sensor feels the asperity of the measured surface through the built-in sharp stylus. At this time, the roughness of the measured surface of the workpiece will cause the stylus to be displaced, which changes the Inductance of the Sensor Inductance coil, thereby generating an analog signal proportional to the measured surface roughness at the output end of the phase sensitive detector. After the signal is amplified and level converted into the data collection system, the DSP chip performs digital filtering and parameter calculation on the collected data, the measurement results are given on the display, can also be output on the printer, and can also communicate with the PC.
Industrial site, laboratory
ISO4287 international standard, ANSI B46.1 American standard, DIN4768 German standard, JIS B601 Japanese standard
1. Place the Sensor on the measured surface of the workpiece 2. Start the instrument for measurement 3. The instrument automatically completes data collection and processing 4. View the measurement results on the monitor 5. Optional printout or communication with PC
• Make sure the Sensor is properly placed on the tested surface before use • Note that the working ambient temperature range of the instrument is -20 ℃~ 40 ℃ • Keep the instrument drying. Environmental humidity should be less than 90% RH • Charge in time and pay attention to the remaining power indicator icon • Temperature range -40 ℃~ 60 ℃ during storage and transportation, Humidity less than 90% RH Accessories for special measurements (e.g. curved surfaces, minimal holes, etc.) • Periodically calibrated for Measurement accuracy
[A] No, it isn't. This is the ex-factory price of the product in the Chinese Mainland. In addition to this price, buyers from different countries need to account for additional costs such as shipping fees, tariffs, and others. For specific regional quotes, please consult our customer service or fill out a quotation form.
[A] First, please click on the quotation form on the website and fill in detailed information. Our customer service personnel will then send you a quotation based on your specific country and region, confirming payment and delivery methods. Following this, we proceed with contract signing, payment, and shipment. You can then await delivery.
[A] After-sales repair for overseas instruments is an unavoidable issue. Our repair terms stipulate that the sender is responsible for the shipping and insurance costs incurred for the repair. Repairs within the warranty period are free, while repair costs beyond the warranty period are determined based on the actual situation.
