Dry Screw Vacuum Pumps, Oil-Free Compression

S-Series - Dry running, contact free vacuum

The dry and contact-free operation of Elmo Rietschle’s highly efficient screw vacuum pumps requires no lubrication in the pumping chamber. This translates into major advantages: no process contamination and no pollution caused by the pump operation.

In the pump housing, two parallel screw rotors, both timing gear synchronized, turn in opposite directions. Gearbox and mechanical seals are oil lubricated. Cooling is achieved through the continuous flow of coolant through the pump housing.

Our S-Series are screw pumps designed with high vapor and liquid tolerance, are easy to service and have a long service life—the low rotational speed ensures low noise and low vibration for our screw technology.

Features

  • Dry running, contact-less operation
  • High vacuum in one stage
  • Application specific options
  • High water vapor tolerance
  • Short evacuation time due to high suction capacities
  • Low noise level
  • Easy to service

  • Product Overview: Dry Screw Vacuum Pumps

    VSI Twister

    Capacities from 71 to 212 cfm, maximum end vacuum 29.917 inHg (0.075 Torr). Continuous variable pitch screws ensure the highest efficiency of operation and energy consumption. Progressive graduation of the screw pitch and maximum sealing thanks to labyrinth, shaft and piston ring seals.

    Sealing gas is optional; benefits include low noise, low operating temperatures and can be easily serviced. Designed for industrial applications devoid of aggressive gasses.

    VSB

    VSB Chemical Duty – Capabilities on this pump range from 70 – 440 CFM, getting down to an ultimate vacuum of .020 Torr. The standard pump includes top of the line Kalrez O-rings. Heavy duty Niflon coating comes standard on all vacuum surfaces, lengthening the lifespan of the pump when dealing with chemically abrasive products and aggressive pumping speeds.

    Performance & Technical Specifications: Dry Screw Vacuum Pumps

    Our VSI screw vacuum pump systems achieve an ultimate vacuum of 29.917 inHgV (0.075 Torr) and can operate at any pressure between maximum vacuum and atmospheric pressure. Capacities of 70 and 212 cfm are available.

    Advantages at a glance

    • Dry running, contact free operation
    • High vacuum in one stage
    • Application specific options
    • High water vapor tolerance
    • Short evacuation time due to high suction capacities
    • Low noise level
    • Easy to service
    • Low life cycle costs
    • Oxygen version available

    Applications

    Our dry vacuum pumps are primarily used in applications across many different industries where clean, oil free vacuum is needed. They can also be combined with a vacuum booster in customized vacuum systems for very high suction capacities and vacuum levels for an ideal solution.

    General industrial applications such as packaging, drying and coating or vacuum furnaces are best served by our VSI range of pumps.

  • Bottling
  • Packaging Industry
  • R&D / Laboratories
  • Solar Technology
  • Surface Technology / Electronics
  • Industrial applications including Cleaning, Coating, Drying, Dust Extraction Systems, Industrial Furnaces, Vacuum Metallurgy
  • How it Works: Dry Screw Vacuum Pumps   

    A screw vacuum pump consists of two parallel, screw-shaped rotors, one with a right-hand thread and the other with a left-hand thread. Both screws turn in the compression housing without friction and at very tight clearances. They are synchronized via a precision gear. The compression housing and the special shape of the screws form the compression chambers. 
    Due to the opposite rotation of both screws the chamber connected with the suction port is enlarged and the gas is transported into the compression chamber. Then the chamber moves axially from the suction side to the pressure side. 
    In variable pitch models, the gas is compressed throughout the length of the screw due to the constant variable pitch design, resulting in greater efficiency. On the pressure side the chamber is moved against the axial housing wall and the volume is reduced until the front surface of the screw opens the pressure channel and the pre-compressed gas is discharged through the pressure connection. Cooling is achieved using a water cooled outer chamber.

    en-MX