Tube laser processing: Compared with traditional processing methods, this method reduces man-hours and processing costs; it can be processed into free designs, including complex shapes.
Fiber laser processing: equipped with a 5 kW laser oscillator, this machine can process a variety of non-ferrous metals, such as stainless steel, aluminum, copper and brass, which has been difficult to use traditional CO2 laser processing; combined with a linear drive, it can be High-speed machine sheet.
Welding: TIG welding, MAG welding welding method, laser and arc welding, three-dimensional objects that can be welded, from thin to thick (frame shell, base, square tube and round tube).
Fiber laser welding: Through fiber laser welding, it is possible to use welding with lower quality deformation than other welding methods; please rely on welding materials that are difficult to weld, because a 1.5-meter mobile car system is installed on a machine, which can handle a variety of Welding needs from small to large objects, from large variety to small batch production.
Finishing / Assembly: This process consists of the finishing / painting and assembly department; the finishing / painting part is processed and painted with sheet metal; the assembly department assembles machines, devices or equipment, and installs, tests, and maintains it; it can also perform wiring Work, pipeline and pipeline construction.
At present, there is an unavoidable challenge for CNC sheet metal, that is, when processing, the sheet metal processing is cut off and the sheet metal speed may be zero. This kind of processing is close to the center of the sheet metal, disturbing the normal sheet metal Processing effect. The toughness and wear resistance requirements of both parties. Sandvik responded to these challenges by creating a dedicated cutting and deep groove tool to prevent this problem, and this method is currently undergoing continuous experimentation.
Today’s industry has strict requirements for CNC sheet metal processing, for example, production efficiency and process safety even for expensive stainless steel raw materials. The use of sheet metal is becoming more and more common, and it is necessary to reduce its width as much as possible, even down to 1 mm to meet the strict standards of related industries.
The QD system is designed for 15 to 20 times the width of the sheet metal blade width and depth of the steel bar storage turning center, sliding head lathe and automatic multi-axis machine
High-precision cooling (HPC) delivery provides coolant jets are inserted. High performance computing provides improved chip control of the cooling effect of the sheet metal area, extending sheet metal life and higher sheet metal data; the surface speed can be as high as 30 to 50 percent. High coolant pressure optimizes the effect. The availability of internal cooling channels and connectionless services eliminates the need for hoses or tubes.
Insert seats in QD’s 20-degree angle steel railings to absorb sheet metal forces. The quick release insert clamping mechanism provides a consistent clamping force without requiring a torque wrench. Aiming at the strong sheet metal force at the edge, the formation and stabilization of the chip that is effective for the insertion geometry design balance, and the coolant channel.