3D Scanning for Machining Allowance: 250% Increase in Efficiency

23rd Sep 2024

In precision machining processes, each shape and surface is important to the product as a whole. Once a single shape is overcut, the entire product becomes unusable and the client must scrap the material.

Therefore, it is critical to control machining allowances to maintain each machine in compliance with strict manufacturing requirements. It also helps prevent material waste.

In this short case study, we’ll take a look at the pain points of traditional product dimension control. Then, we’ll see what our client gained from transitioning to 3D scanning with the FreeScan UE Pro.

Pain Points of Machining Allowance Control

Traditionally, to accurately control machining allowances, manufacturers use CMMs (Coordinate Measuring Machines). They use CMMs for dimensional inspection toward the end of the machining process.

However, with this method, the client must lift off and transport the heavy product from the machine to the CMM room for inspection. Then, they must reclamp the product and re-machine it according to the data they obtained with the CMM.

This process requires a lot of time and physical effort from the client’s team. Plus, after multiple back-and-forths, there may be more room for error.

High-Precision 3D Scanning for Machining Allowance

More and more manufacturers are turning tocontactless measurementswith portable 3D optical systems such as the FreeScan UE Pro, a high-precision laser 3D scanner. It’s anefficient and lightweightway to control machining allowances directly on the product, without having to transport it off the machine.

In this case, the product was a heavy, 50 x 130 cm end mill fixed onto the machine. With a 3D scanner, the operator can simply “point and shoot” at the tool while moving all around it.

The FreeScan UE Pro uses blue lasers to capture the object’s 3D geometry with high precision.The FreeScan UE Pro uses blue lasers to capture the object’s 3D geometry with high precision.

They can see the 3D data appear on the computer screen in real time and can assess which parts they still need to scan.

A technician 3D scanning and simultaneously checking their computer screen.A technician 3D scanning and simultaneously checking their computer screen.

The team can then easily export the 3D data to their preferred 3D inspection software and keep moving along their quality control workflow.

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The 3D point cloud (left) and the machining allowance measurements (right).

Using 3D scanning for machining allowance greatly simplifies the dimensional inspection process. It eliminates the need for repeated moving, clamping, and CMM inspection.

This results in bothefficiency improvementsandcost reduction.

On one hand, the client can now reduce their inspection process time to2 days instead of 7 days. This translates to a250% gain in efficiency.

On the other hand, the client can increase their yield rate to 100%, compared to around 80% before the FreeScan UE Pro.

“I have been doing machining for 20 years. Generally speaking, high-precision 3D scanning is very useful, especially when we are processing large parts or special parts. This technology can be said to be revolutionary for the improvement of our production efficiency.”

–General Manager of the Client Unit

Conclusion

Replacing traditional control methods with high-precision 3D scanning for machining allowance can unlock several significant advantages. In this case, the client gained in efficiency and reduced costs, all while providing an easier and smoother workflow for their employees.