The machine automatically clamps the wheel at the end of the spin cycle. Specialized Programs: programs for alloy rims and an OPT program to reduce road noise by optimizing the rim/tyre match. Step-by-Step Balancing Procedure Based on general Corghi operating standards and the EM 6040 technical manual , the work process follows these steps:
The machine features high-sensitivity piezoelectric transducers embedded within the shaft assembly. These internal sensors measure the tiny vibrations and directional forces caused by the spinning, unbalanced wheel. The sensors convert these mechanical forces into precise electrical signals. 3. Integrated Microprocessor
The balancer needs three specific measurements to calculate weight placement: corghi em 6040 wheel balancer work
To understand how the EM 6040 works, it helps to look at the two types of imbalance it corrects:
: Lower the protective wheel guard. The machine will automatically start the spin cycle once the guard is closed. The machine automatically clamps the wheel at the
: A patented Corghi feature that allows the use of standard 5g weights without needing to cut them.
If a tire and rim combination requires an excessive amount of weight, this program calculates how to rotate the tire on the rim itself. By matching the heavy spot of the tire with the light spot of the rim, the total amount of corrective lead or zinc required is minimized. Maintenance and Calibration for Daily Accuracy These internal sensors measure the tiny vibrations and
Press the mode button for the wheel type:
To maintain its extreme precision, the Corghi EM 6040 requires minimal but regular maintenance:
Regular calibration, proper cleaning, and using the correct balancing mode for each wheel type are the keys to getting the most out of this robust Italian machine.
Once the wheel stops spinning, the digital display shows the exact amount of weight required for both the inner and outer planes (measured in ounces or grams).