Machining Centre

Structural components

Basic components: including bed, column, table, etc., is the support part of the machine tool, which requires high rigidity and stability to ensure the accuracy of the machine tool in the machining process.

Spindle components: composed of spindle motor, spindle, bearings, etc., mainly used to install the tool and drive the tool to rotate, to achieve the cutting process. The speed, precision and rigidity of the spindle directly affect the machining quality and efficiency.

Feeding system: it is composed of servo motor, ball screw, guide rail, etc. It is responsible for controlling the movement of table and tool in the direction of each coordinate axis to achieve the positioning and feeding.

Tooling system: It includes tool, tool shank, tool magazine and so on. Tool magazine is used to store a variety of tools, through the tool changer can automatically replace the tool to meet the needs of different machining processes.

CNC system: is the core of the machining centre machine, it receives instructions from the programmer, after processing to control the movement of the machine components, to achieve the automation of the machining process. The numerical control system also has a variety of functions such as tool compensation, coordinate transformation, machining monitoring and so on.

Machining characteristics

High precision: the machining centre machine adopts high-precision transmission parts and control system, which can achieve micron-level or even higher precision machining and ensure the dimensional accuracy and shape and position tolerance of the parts.

High efficiency: one clamping can complete a variety of processes, reducing the number of workpiece clamping and machine tool adjustment time, improving productivity. At the same time, the machining centre machine has high cutting speed and feed speed, which can remove materials quickly.

High flexibility: by changing the machining procedure, it can conveniently process different types and shapes of parts, adapting to the production needs of multiple varieties and small batches.

Strong ability to process complex parts: capable of processing parts with complex curved surfaces, cavities and high precision requirements, such as aero-engine impellers, mould cavities, etc., which are usually difficult to be completed by traditional machining methods.

Application Fields

Machinery manufacturing: used for processing various mechanical parts, such as gears, shafts, boxes, etc., is an indispensable processing equipment in the machinery manufacturing industry.

Automobile manufacturing: processing automobile engine block, cylinder head, crankshaft, gearbox shell and other key parts, to ensure the high precision and quality stability of automobile parts.

Aerospace: processing aircraft engine blades, impellers, magazines and other complex parts, as well as aircraft structural components in the high-precision frame, beams, etc., to meet the aerospace field of the parts of the strict requirements for precision and reliability.

Mould manufacturing: manufacturing various moulds such as injection moulds, die-casting moulds, stamping moulds, etc., capable of processing high-precision mould cavities and cores to improve the quality and service life of moulds.

Electronics manufacturing: processing electronic equipment shells, heat sinks, circuit boards and other parts to meet the electronics industry's requirements for parts precision and appearance quality.