• DESCRIPTION
  • SPECIFICATIONS
  • SPARE PARTS

TECHNICAL FEATURES

TECHNICAL FEATURES
SAFETY SYSTEMElectrical
IGNITIONWith pilot and HF arc
CUTTING CURRENT 150A – 60% working cycle
SUPPLIED GASClean, dry air at 4.5 bar - 200 L/min
FLOW TIME 90 sec. recommended

For years, this has been a widespread and appreciated technology within the industry. A jet of plasma gas melts material in the cutting area and removes it, leaving a well-cut line. Through its special nozzle, the torch dispenses an inert gas. Through this gas, an electric arc is formed between an electrode and the material in the process of being cut. The electric arm transforms gas into plasma. The very high plasma temperatures (approximately 10,000°C) bring the material to be cut to the melting temperature, the molten metal is evacuated from the melting groove and cutting is carried out. There are then several methods for cutting the plasma: the choice is based on a variety of factors, such as the degree of precision of the cut and its mechanical or manual implementation. Beside conventional cutting, we can remember dual gas systems, with water and precision screen.
Plasma is considered the fourth state of material. It is a highly ionised gas and is an excellent electrical conductor. The reproducibility of plasma in an industrial and repetitive way is carried out through a device called a torch.

PLASMA CUTTING, UNDENIABLE BENEFITS

  • Considerable cutting speed
  • High precision at edges
  • Good cost-bene t ratio
  • Multiple applications
  • Plasma cutting is in fact suitable for all electrical conductive materials.

PLASMA ARC USES

Thanks to plasma cutting it is possible to cut both thin sheets and considerable thicknesses. There are many plasma cutting applications in the industrial sector. The cutting of stainless steel, carbon steel and aluminium sheets of different thicknesses is particularly used in the transport industry as well as in the refrigeration and air conditioning field.
The ability to cut very thick slabs is especially valuable in the naval industry, but also for the creation and machining of pressure vessels, as well as earth moving vehicles. Plasma cutting effectively lends itself to the contoured cutting of tubes and other cylindrical materials, for the creation of grooves and inclined cuts, as well as for bending, perforation and gouging processes.

CB150 TORCHES

CODEDescriptionConnectionL=mWeight (Kg)NO. pcs.
9P04050/CSCB150 TORCH1/863.41
9P04051/CSCB150 TORCHCentralizzato63.41
CODEDescription Num. N° pz.
9P02000Complete torch body11
9P04280/CComplete handle without button CB1501A1
9PBX0070Button for handle CB1501C1
9P01002.60O-ring for CB100-CB1501b10
9P05004Diffuser310
9P52540Electrode 410
9P60020Air diffuser52
9P51140/SContact tip ø 1,1mm610
9P51141/SContact tip   ø 1,3mm610
9P51142/SContact tip    ø 1,6mm610
9P51143/SContact tip    ø 1,8mm610
9P51144Contact tip   ø 3,0mm610
9P51410Contact tip   ø 1,3mm710
9P51411Contact tip   ø 1,6mm710
9P51412Contact tip   ø 1,8mm710
9P52549Long electrode810
9P51148.13Long Contact tip   ø 1,4mm 1010
9P51148.16Long Contact tip   ø 1,6mm1010
9P51148.18Long Contact tip   ø 1,8mm 1010
9P60330External tip holder 112
9P60350External tip holder for contact cutting122
9P51911Spring1410
9P51973Spacer for contact cutting1610
9P51958Protection long tip2010
9P60370Double pointed spacer242
9P03093/SCable assembly 1/8 6mt1