Y9025D low-speed series roundness tester Introduction: This instrument is suitable for measuring parameters such as roundness, waviness, coaxiality, perpendicularity, parallelism, flatness, etc. of various discontinuous surfaces, regular and irregular annular workpieces (roundness error can be evaluated by four methods), and can provide eccentricity and phase of the parts. It can also be used for measuring parameters such as roundness, runout, single piece runout, and inter piece runout of various motor rectifiers (which can be evaluated using four methods), and can provide the eccentricity and phase of the parts. characteristic: 1. The instrument rotary measurement turntable adopts a high-precision air floating static pressure bearing structure, and the instrument spindle has high precision, no wear, and long service life; 2. The data collection adopts precision circular gratings and related technologies imported from HEIDENHAIN company in Germany, with precise positioning and good stability; 3. The instrument adopts the WINDOWS operating platform and professional measurement software, with a simple and intuitive measurement interface and convenient operation; Real time display of graphic data, saving and archiving, printing at any time, graphic analysis reports, intuitive and clear; 4. The instrument comes standard with a universal leveling worktable, which makes workpiece adjustment convenient and fast, and has high detection efficiency; 5. The instrument is equipped with ruby measuring needles of various specifications and lengths, and can be optionally equipped with our company's specially designed nylon measuring head to measure special workpieces; 6. The motor rectifier measurement adopts specialized measurement and processing software, and the same interface can display parameter values such as roundness, runout, single piece runout, and adjacent piece runout; 7. There are no special requirements for the usage environment, and it can be used in workshops and metrology rooms; 8. It can perform spectral analysis on the surface state of parts and provide the amplitude of any wave; 9. Automatic recognition of interruptions, automatic and manual removal of notches, and measurement of roundness for some arcs; 10. The measurement operation is set with mouse and keyboard shortcuts, and users can freely choose according to their operating habits. Technical parameters: Spindle accuracy: Radial error ± (0.025+5H/10000) μ m Axial error ± (0.025+6X/10000) μ m System accuracy: 0.06 μ m Workbench flatness: ≤ 2 μ m (R ≤ 70mm) Data collection method: Imported German HEIDENHAIN precision circular grating Data collection point: 4096 Measurement maximum outer diameter: 200mm (expandable) Minimum inner diameter measurement: Ø 3mm Maximum height measurement: 300mm can increase by 600mm Maximum load capacity: 15Kg Range: ≤ 400 μ m (radius difference) Sensor resolution: 0.01 μ m Sensor force measurement: 0.2N Filters: 1, 1-500, 2-500, 2-15, 2-50, 2-150, 15-150 Waviness: 3-16, 17-100 Roundness error Evaluation methods: Least Squares Method (LSC), Minimum Zone Method (MZC) Maximum circumcircle (MIC), minimum enclosing circle method (MCC) Magnification: 100, 200, 400, 500, 800, 1000, 2000, 4000, 5000 8000, 10000, 20000, 40000, 50000, 80000, 100000 200000, totaling 17 levels. Spectrum analysis: can provide data values for any frequency band Speed: 4-6 revolutions per minute X/Y axis movement mode: electric/manual Concave convex mouth removal: automatic recognition of discontinuities, automatic and manual removal of notches function, partial arc measurement roundness function; Software auxiliary functions: coaxiality, perpendicularity, parallelism, flatness Power supply and gas source pressure: Power supply 220V, 50V, 250W, gas source pressure ≥ 0.45MPa
Introduction: This instrument is suitable for measuring parameters such as roundness, waviness, coaxiality, perpendicularity, parallelism, flatness, etc. of various discontinuous surfaces, regular and irregular annular workpieces (roundness error can be evaluated by four methods), and can provide eccentricity and phase of the parts. It can also be used for measuring parameters such as roundness, runout, single piece runout, and inter piece runout of various motor rectifiers (which can be evaluated using four methods), and can provide the eccentricity and phase of the parts.
