CNC Turned Components machining equipment is mechanical equipment used for turning operations, with the most core equipment being the lathe. The following is a detailed explanation of turning equipment:
Lathe: Lathe is an essential machine equipment in turning processing, used to change the shape and size of CNC Turned Components, and process them into parts that meet the requirements.
Lathe type:
Ordinary lathe: This is the most widely used type of lathe, accounting for about 60% of the total number of lathes. Ordinary lathes have a wide processing range and good universal performance, and have been widely used and popularized in the mechanical processing industry.
CNC lathe: With advantages such as high precision and good repeatability, it is a standard configuration in modern industries such as automotive, aviation, and mechanical manufacturing. CNC lathes can achieve automated and high-precision machining through computer program control.
Vertical lathe: suitable for machining various CNC Turned Components of frames and shells, as well as machining inner and outer cylindrical surfaces, conical surfaces, end faces, grooves, etc. of various parts. The machining accuracy of vertical lathes is also relatively high, for example, in their mechanical machining accuracy, roundness can reach 0.02mm, cylindricity can reach 0.01mm, and flatness can reach 0.03mm.
Turning tool
Definition: Turning tool is a tool used for turning machining, with a cutting part.
Material: CNC Turned Components: Common turning tools are often made of high-speed steel or hard alloy, and in recent years, ceramic and artificial diamond cutting tools have also been widely used on the market.
Function: Under the drive of the lathe, the turning tool cuts the workpiece, thereby changing the shape and size of CNC Turned Components.
Processing scope
Turning equipment can process rotating and helical surfaces on various types of shaft, sleeve, and disc parts, including inner and outer cylindrical holes, inner and outer conical surfaces, inner and outer threads, formed rotary surfaces, end faces, grooves, and knurling. In addition, operations such as drilling, expanding, reaming, and threading can also be carried out.