In precision gear manufacturing, mechanical parts are created that require great attention to detail. Therefore, engineers use specialized techniques such as Computer Generated Motion (CGI) to design parts and drivers using a Computer-Aided Digital (CNC) machine to produce them.
If your company is considering adding precision parts manufacturing to its range of services, but you have questions about the process, the following answers will help:
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What is the difference between normal and precision parts?
Precision parts require special attention to detail during the design and production process, whereas standard parts have a more basic design style and level of construction. To produce the former, the company used technology such as computer-aided software (CAD) and laser scanning to model the slice data to be produced and process it directly from the model.
How does CGI technology affect the production process?
CGI allows companies to view detailed designs from multiple starting points using three types of data models: polygonal grid models, hard surface models, and CAD models. Each model can be rotated 360 degrees, and CAD models are often animated to show how intricately the parts (for example, a set of pistons) will work together. CGI Motion helps companies produce accurate parts and easily fix design errors as they arise.
How does CNC technology affect the production process?
Computer-controlled CNC machines offer near-perfect cutting accuracy and perfect repeatability during the longest production cycles. Without the use of a CNC machine, precision gear manufacturing would be much less spatially accurate and the production cycle would be time-consuming.
Industrial grade CNC equipment requires a significant investment but offers a high return on investment in terms of increased production capacity and less human error on the production line.