High Pressure Pump
The pump generates a flow of pressurized water for the cutting process.
Articulated Cutting Head
As an add-on option to waterjets , this computer-controlled multi-axis cutting head permits angled cuts and can be used to automatically minimize taper for precise vertical cuts.
Abrasive Waterjet Nozzle
Inside the nozzle the pressurized water passes through a small-diameter orifice and forms a coherent jet of water. The jet then passes through a venturi section where a metered amount of granular abrasive is drawn into the water stream. The mixture of water and abrasive particles passes through a special ceramic mixing tube and the resulting abrasive/water slurry exits the nozzle as a coherent cutting stream of abrasive particles travelling at very high speed.
The water-filled catcher tank dissipates the energy of the abrasive jet after it has cut through the material being machined.
The abrasive hopper and associated abrasive flow control system provide a metered flow of granular abrasive to the nozzle.
X-Y Traverse System
A precision X-Y motion system is used to accurately move the nozzle to create the desired cutting path.
Advanced motion controllers for abrasive waterjet systems are PC-based and permit production of accurate parts with minimal operator experience.
Accurate First Cut
The motion control system is an essential element in an abrasive waterjet cutting system because the cutting stream bends as it cuts. This means that a waterjet tends to undercut corners and swing wide on curves when moved as one would move a traditional rigid cutting tool. ،This issue is eliminated by using an advanced computer model to accurately predict the motion and shape of the cutting stream and then by using a PC-based motion control system to compensate for undesired jet motion. The result is a fast , accurate part the first time. No trial and error and no need for an experienced programmer because the experience and the knowledge is in the control software.
Waterjet cutting systems utilize either the older , more complex hydraulic intensifier pump or the newer , simpler crankshaft-driven triplex plunger pump. Crankshaft pumps are inherently more efficient than intensifier pumps because they do not require a power-robbing hydraulic system. The crankshaft drive is a purely mechanical direct-drive system with minimal friction losses and so efficiencies between 85% and 90% are typical. This means that 85% or more of the electric power supplied to the drive motor can actually be delivered to the cutting nozzle , compared to the typical 65% or less of an intensifier. Historically intensifier pumps had an advantage of longer seal and check-valve life , but ongoing improvements in seal designs and materials and the wide availability and reduced cost of ceramic valve components now make it possible to operate a crankshaft pump in the 60,000 PSI (4,137 bar) range with long maintenance intervals and excellent reliability.
All abrasive waterjet nozzles use the same basic operating principle as the liquid blasting nozzle , first patented in 1936. Note that for a water-only nozzle that is designed for cutting soft materials , the mixing chamber and tube are eliminated and the coherent jet of water alone cuts the material. In order for the abrasive waterjet nozzle to cut efficiently and to increase component life , it is critical that the jewel orifice is carefully aligned in the nozzle body.