For example:
Automobile manufacturing field
Engine parts: cylinder block, cylinder head, piston, crankshaft, camshaft, etc.
Gearbox parts: box, pulley, gear, spline, clutch, etc.
Automobile plate: sheet metal parts, interior parts, automobile glass, seals, etc.
Automotive plastic parts: headlights, dashboard, fuel tank, bumper, etc.
Transmission system: transmission shaft, universal joint, shock absorber, wheel hub, etc.
Body system: axle, frame, body in white, etc.
New energy vehicles: motor housing, rotor, battery radiator, etc.
Other parts: automobile pipes, steering gear parts, brake system parts, etc.
Manufacturing technology and control: automobile molds, automobile inspection tools, assembly tools, etc.
Aerospace precision field
Blade part: impeller, blade and bladed disk;
Other structural parts, precision machining parts, sheet metal parts, etc. ;
Assembly tools and fixtures; Inspection fixture, template, etc. ;
3C and the field of precision hardware
3C industry: molds, precision stamping parts, precision castings, precision structural parts, metal shells, metal middle frames, curved glass, etc.
Precision hardware: shafts, fasteners, stamping dies, stamping parts, machine tool accessories, etc.
Three-coordinate mainly detects the tolerance of form and position, including: the measurement of geometric elements: point, line, circle, surface, ball, arc, ellipse, cylinder, cone, keyway, curve and surface; The construction of geometric elements: projection, bisection, intersection, tangency, mirror image, fitting, translation, vertical, parallel, combination, rotation, offset line and offset; Form and position tolerance software: straightness, flatness, roundness, cylindricity, taper, sphericity, distance, included angle, verticality, parallelism, inclination, position (2D and 3D), symmetry, coaxiality, concentricity, etc.
Operation flow 1, boot preparation
Connect the three-coordinate measuring instrument to the power supply, and confirm that the air supply is unobstructed and the equipment is in normal working condition. Install the correct probe, put the workpiece on the measuring table and fix it. Adjust the angle and height of the measuring instrument.
2, create a measurement program
Open the measurement software on the computer, create a new measurement program, design the corresponding measurement path and tool path according to the actual shape and size of the workpiece, and set the measurement parameters and measurement accuracy level.
Step 3 start measuring
Upload the measuring program to the three-coordinate measuring instrument, and start the automatic measuring mode of the measuring instrument by operating the software. The probe will automatically scan the surface of the workpiece according to the predetermined measurement path and record the measurement data.
4. Data analysis
After the measurement is completed, the software will automatically process the measurement data and generate output results such as measurement reports and images for subsequent use. Users can analyze and compare the data as needed, and correct the measurement results.
5, save and output
Save the measurement results to a computer or external storage device for future use. At the same time, the measurement results can be output to a printer or other equipment for more detailed analysis and recording.
6. Shutdown and maintenance
After completing the measurement, turn off the power supply and origin of the measuring instrument in time, and thoroughly clean the workbench and probe. And carry out necessary maintenance to prolong the service life of the equipment and ensure the measurement accuracy.
As a precision measuring instrument, CMM can prolong the service life of the machine, ensure the accuracy and reduce the failure rate if it is maintained in time.