CNC Precision Machining Generally Refers To Computer Digital Controlled Precision Machining , CNC Machining Lathes, CNC Machining Milling Machines, CNC Machining Boring Milling Machines, Etc. The Tools For CNC Precision Machining Are Controlled By Our Skilled Employees With The Help Of Complex Digital Systems. CNC Computer Numerical Control Allows For Extremely Specific Control Over The Positioning, Speed, Coordination, Feed Rate Other Precision Aspects Of The Manufacturing Process For A Specific Part Object. CNC Machines With Automatic Pallet Shuttles Reduce The Cycle Time For Manufacturing Parts, Thereby Increasing The Throughput For Our Customers. CNC Precision Machining Can Produce Many Types Of Complex Parts With High Precision. Machines Tools That Can Be Controlled By CNC Machining Include Lathes, Grinders, Milling Machines.
Huiwen Is A High- Precision CNC Processing Factory With Many Years Of Experience In The Machining Industry. The Company Has Advanced CNC Machining Centers , Five-Axis Linkage Machining Centers , Four-Axis Linkage Machining Centers, Three-Axis Linkage Machining Centers, With Machining Accuracy Up To ±0.005mm. The Company Also Has More Than Ten High-Precision CNC Turning Centers Professional Testing Equipment (Five-Axis Three-Coordinate, Which Can Realize Precision Turning Of Shaft Disc Parts. It Is One Of The Powerful High- Precision CNC Processing Factories In Shenzhen. It Supports The Processing Of Various Materials Such As Aluminum, Steel, Magnesium, Titanium, Titanium Alloys Copper. The Company Has A Complete Pre-Sales After-Sales Service System, Providing Customers With One-Stop Processing Services, Ensuring The Quality Quantity That Customers Pursue For Products! Customers Are Welcome To Customize With Drawings Samples!
Steps For High Precision CNC Machining Parts
1. Analyze The Parts Drawing To Understand The General Situation Of The Workpiece (Geometry, Workpiece Material, Process Requirements, Etc.)
2. Determine The CNC Machining Process Of The Parts (Machining Content, Machining Route)
3. Perform Necessary Numerical Calculations (Base Point Node Coordinate Calculations)
4. Write The Program Sheet (Different Machine Tools Will Be Different, Please Follow The Instruction Manual)
5. Program Verification (Input The Program Into The Machine Tool Perform Graphic Simulation To Verify The Correctness Of The Programming)
6. Process The Workpiece (Good Process Control Can Save Time Improve Processing Quality)
7. Workpiece Acceptance Quality Error Analysis (Inspect The Workpieces, Those That Pass Will Flow Into The Next Step. If Unqualified, Quality Analysis Will Be Used To Find Out The Cause Of The Error How To Correct It).
Advantages Of CNC Precision Machining
01The Number Of Tooling Is Greatly Reduced. Complex Tooling Is Required To Process Parts With Complex Shapes. If The Shape Size Of The Parts Need To Be Changed, Only The Part Processing Program Needs To Be Modified, Which Is Suitable For New Product Development Modification.
02The Processing Quality Is Stable, The Processing Accuracy Is High, The Repeatability Is High, It Meets The Processing Requirements Of Aircraft.
03 The Production Efficiency Is Higher In The Case Of Multi-Variety Small Batch Production, Which Can Reduce The Time Of Production Preparation, Machine Tool Adjustment Process Inspection, The Cutting Time Is Reduced By Using The Optimal Cutting Amount.
04It Can Process Complex Surfaces That Are Difficult To Process With Conventional Methods, Can Even Process Some Parts That Cannot Be Observed.
05 The Arrangement Of Work Steps Is More Detailed. This Is Because Issues That Do Need To Be Considered In The Processing Technology Of Ordinary Machine Tools, Such As The Arrangement Of Work Steps Within The Process, Tool Setting Points, Tool Change Points Determination Of Processing Routes, Cannot Be Ignored When Compiling The Processing Technology Of CNC Machine Tools.
06CNC Machining Has High Efficiency, High Machining Precision, Low Labor Intensity, Strong Adaptability To Different Workpieces.