Product Description
Rebuilt Edwards EH1200 Blower
HC IE3 US 60HZ 230 / 460V 60HZ
A30506946
Overview
Operating at relatively low pressures, the mechanical booster pump is not exposed to the same concentrations of corrosive process media as is the backing pump, which makes it highly reliable.
Industrial EH mechanical booster pumps are safe to handle non-flammable gases and vapors within the normal operating parameters of the booster.
Technology
EH booster pumps have a unique and patented hydrokinetic fluid drive, which couples the motor to the pumping mechanism. The hydrokinetic drive offers the following advantages:
- Pump down times cut by up to 50%
- Reduced capital and operating costs
- No pressure sensors, by-pass lines or valves
- Can operate continuously at all pressures when used with a backing pump
EH booster pumps have universal voltage, air-cooled motors and are available with effective pumping speeds (at 50 Hz) of up to 3100 m3h-1. The pump bodies of the EH1200, EH2600 and EH4200 pumps are water-cooled.
Pump-down times cut by up to 50%
The hydrokinetic drive allows the booster pump to be started at the same time as the backing pump (at atmospheric pressure) as it prevents motor overload. The EH booster pump therefore assists the pumping process from the start of pump-down. In comparison pumping systems with conventional, direct drive mechanical booster pumps (where the booster pump is switched on when the chamber pressure has been reduced to, typically, less than 10 mbar), the total evacuation time can be reduced by as much as 50%.
Automatic overload protection
The hydrokinetic drive automatically varies the rotational speed of the pump. This protects the motor from overload, prevents over-heating, and allows the pump to operate with high-pressure differentials. Consequently, EH booster pumps are not damaged by sudden increases of inlet pressure and even by the entry of solid debris into the pump.
Important cost savings
When you use EH mechanical booster pumps, you save money on installation and operation. Your capital costs are reduced as you do not need valves, by-pass lines and pressure switches, and you can use a smaller backing pump than with conventional drive booster pumps. Operation costs are reduced because EH booster pumps have smaller motors than direct drive pumps and, when operating at full speed, they use only a fraction of the rated power.
Applications
- Semiconductor processing
- Vacuum distillation
- Vacuum packaging
- Steel de-gassing
- Thin film coating
- Vacuum metallurgy
- Low density wind tunnels
- Space simulation
- Vacuum impregnation
- Oil drying and de-gassing
- Pharmaceutical freeze drying
- CO2 lasers
Features and Benefits
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Suitable for applications where high pumping speeds over 3000 m3h-1/1776 ft3min-1 are required in the pressure region of 0.01 to 50 mbar/0.0075 to 37.5 Torr.
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Operating at relatively low pressures makes it highly reliable.
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The EH pumps have a high quality, oil-free pumping mechanism. This offers:
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Quiet, vibration free operation.
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Rugged and corrosion resistant.
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Advanced shaft-seal technology with no oil contamination of the process chamber
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The corrosion resistant pumping mechanism is manufactured from high grade cast iron.
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The proven shaft-seal arrangement ensures that no oil enters the pumping stator, and the absence of internal and external by-pass lines and valves which may corrode or stick minimizes maintenance requirements.
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The design of the shaft seals is optimized to ensure that no lubricants can migrate into the pumping mechanism. This maintains booster pump performance in applications which demand the highest standard of cleanliness. In addition, this prevents the build-up of trapped particles on the rotor lobes and end-faces which have very close tolerances.
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The dynamically balanced rotors and precision ground gears contribute to the smooth, quiet operation of the pumps, as demanded by manufacturers of advanced technology equipment.
Technical Data
Displacement (swept volume) 50Hz 1195 m3h-1 / 715 ft3min-1 60Hz 1435 m3h-1 / 845 ft3min-1 Effective pumping speed with backing pump E2M80 840 m3h-1 / 495 ft3min-1 E2M175 930 m3h-1 / 548 ft3min-1 E2M275 1020 m3h-1 / 601 ft3min-1 Pressure differential across pump † 50Hz 0-90 mbar / 0-68 Torr 60Hz 0-75 mbar / 0-56 Torr Inlet connection ISO160 Outlet connection ISO100 Rotational speed 50Hz 0-2900 rpm 60Hz 0-3500 rpm Operating continuous inlet pressure 0-1000 mbar / 0-760 Torr Maximum outlet pressure 1000 mbar / 760 Torr Recommended backing pumps GV160, GV250, E2M80, E2M175 Electrical supply 50Hz 220-240V / 380-415V 60Hz 208-230V / 460V Motor power Hydrocarbon 3kW / 4hp PFPE 3kW / 4hp ATEX 3kW Explosion proof 4hp Ambient temperature range Operating 5 to 40°C / 40 to 104°F Storage -10 to 80°C / 14 to 176°F Maximum operating humidity 90% RH Recommended cooling water flow (inlet temperature 20°C)* 120lh-1 / 0.53 gal min-1 Recommended cooling water supply pressure* 2-6 bar Cooling water connections* 3/8 inch BSP male Recommended oil Standard version Ultragrade 20 PFPE version Fomblin® YVAC 16/6 Oil capacity Gear case 1.25 litre / 1.3 qt Coupling cover 1.5 litre / 1.6 qt Shaft seal reservoir 0.125 litre / 0.25 qt Weight** 149 kg / 327.8 lb
* Under many circumstances, pumps may operate without cooling water. Apply to Edwards for more information.
** Weight refers to IND version
†. Depends on pressure