Machining Centers Are Generally Divided Into Vertical Machining Centers And Horizontal Machining Centers. The Most Effective Machining Surface Of Vertical Machining Centers Is Only The Top Surface Of The Prototype Workpiece, And The Horizontal Machining Center Can Only Complete The Four-sided Machining Of The Workpiece With The Help Of The Rotary Table. The Five-axis Machining Center Can Complete The Processing Of The Pentahedron By Clamping The Workpiece At One Time, And Has The Advantages Of High Efficiency And High Precision.

Five-axis Machining Center: That Is, The Five-axis Linkage Machining Center Is A High-tech, High-precision Machining Center Specially Used For Processing Complex Curved Surfaces. The Five-axis Linkage Cnc Machining Center System Can Realize The Processing Of Impellers, Blades, Marine Propellers, Heavy-duty Generator Rotors, Steam Turbine Rotors, Large Diesel Engine Crankshafts, And So On.
Mainly Used: Not Only In The Civil Industry, Such As Wood Mold Manufacturing, Bathroom Trimming, Automotive Interior Parts Processing, Foam Mold Processing, European Style Home Furnishings, Solid Wood Chairs, Etc., But Also Widely Used In Aviation, Aerospace, Military, Scientific Research, Precision Equipment, High-precision Medical Equipment And Other Industries. The Five-axis Machining Center Is A High-tech Method That Makes The Impossible Possible. All Spatial Curved Surfaces And Special-shaped Machining Can Be Completed. It Can Not Only Complete The Task Of Mechanized Processing Of Complex Workpieces, But Also Quickly Improve Processing Efficiency And Shorten Processing Procedures.

The Characteristics Of The Five-axis Machining Center Are As Follows:

1. It Can Be Processed In Any Posture Of The Hand Plate Workpiece, Which Can Avoid The Phenomenon That The Cutting Speed Of The Machining Center Is Zero. You Can Also Choose The Most Suitable Machining Center Tool And The Posture Relative To The Workpiece For Effective Processing, As Well As The Concave Shape Use The Tilted Attitude Of The Tool For Machining.
2. The Tool Path Can Be Generated To Prevent Interference Between The Tool And The Workpiece. At This Time, The Software Solid Model Is The Center, And The Algorithm That Prevents Interference Can Be Used To Derive The Tool Path. The Generated Tool Path Has Nothing To Do With The Structure Of The 5-axis Control Machining Center, And Is A Kind Of Neutral Data.
3. The Main Structure Of The Five-axis Machining Center Can Be Divided Into Three Categories According To The Various Setting Methods Of Two Rotary Axes And One Spindle On The Worktable. . Since The Relative Position Of Each Axis Has A Variety Of Structural Styles, It Is Also Necessary To Set Up A Generalized Post-processor That Can Adapt To A Variety Of Structural Styles. The Post-processor Is Set Up Not Only To Transform The Tool Path That Prevents Interference Into Nc Data Suitable For Machining Centers Of Different Structures, But Also To Stably Change The Feed Speed And Minimize The Linearization Function Of The Movement Path Deviation.
4. The Five-axis Machining Center Has Five Axes X, Y, Z, A, And C. The Xyz And Ac Axes Form A Five-axis Linkage Processing. It Is Good At Space Surface Processing, Special-shaped Processing, Hollow Processing, Punching, Oblique Hole, Bevel Cutting, Etc. .

In Short, The Five-axis Machining Center Has The Advantages Of High Efficiency And High Precision, And Complex Machining Can Be Completed In One Clamping Of The Workpiece. It Can Be Adapted To The Processing Of Modern Molds Such As Auto Parts And Aircraft Structural Parts. The Application Is Very Wide. I Believe That In The Near Future, The Processing Methods Of Prototype Models Will Become More And More High-tech, So That The Processing Quality And Processing Efficiency Of Prototype Models Can Be Qualitatively Improved.