Features
Intelligent OMAX technology and engineering applied the laws of physics to its direct drive pump systems to deliver the highest nozzle horsepower, or JetPower, available, no matter the pressure. Delivering 30% more JetPower to the cutting head compared to the best intensifier pump designs, OMAX Direct Drive Pump Technology cuts faster, smoother, and more efficiently than any other pump technology at any pressure. OMAX designed their Direct Drive Pump Technology to deliver the maximum cutting potential to the cutting head. More power to the cutting head means faster cutting and lower operating costs, resulting in exceptional productivity
OMAX Benefits
- Simple industry-proven and robust pump design.
- Highly reliable design capable of up to 500 cutting hours between maintenance cycles.
- Variable Frequency Drive reduces start-up power consumption and maximises operating flexibility.
- Up to 45,000 ksi operation for faster part processing .
- One of the lowest pump operating noise levels in the industry.
- Integrated charge pump with pressure tank.
- Available in 10 HP, 20 HP, and 30 HP models.
- Increased productivity with operating efficiencies up to 85%.
- Advanced direct drive pump technology lowers operating costs and increases pump operating life.
- Continuously adjustable VFD technology significantly expands pump capabilities by controlling output flow rate and pressure.
- Lower overall energy costs compared to inefficient intensifier pump designs.
- Simple design provides easy access to all major components.
- Direct drive pump technology delivers the highest JetPower in the industry for faster and more efficient cutting.
- Independent cylinders for ease of maintenance.
- Environmentally "green" system with quiet and clean operation and low electrical consumption.
- Maximises production with maintenance intervals more than double the industry standard.
Additional Notes
* JetPower is directly proportional to the water pressure at the nozzle times the volume flow rate of the waterjet stream.
** Recommended maximum orifice size. Smaller orifice sizes have a corresponding lower flow rate