SCROLLVAC 7 plus
Defining Vacuum - SCROLLVAC plus, the new dry scroll pump from Leybold.
The new SCROLLVAC plus vacuum pump is the latest addition to our range of dry pumps. Providing a flexible, robust and simple vacuum pump solution, across a wide spectrum of applications, SCROLLVAC plus demonstrates what is possible from a dry scroll pump.
The pumping principle
A Scroll pump consists of two engaged spiral forms. One scroll form is mounted eccentrically to the other and is made to move in an orbiting path relative to the fixed scroll. This creates crescent shaped volumes that are driven from the outside to the inside of the forms thereby pumping the gas.
Able to address the widest range of applications …
Flexible.
We understand flexibility and choice is essential when selecting the right dry vacuum solution for your application. With single-phase and three-phase variants and versions for specialized applications, you can be sure to find a member of the SCROLLVAC plus family perfect for you.
Pump versions in the range covering pumping speeds of 7, 10, 15 and 18 m3/h
Single-phase variant feature universal voltage drive for constant performance world-wide
Three-phase electronic-free variants for radiation and high magnetic field applications
Integrated gas ballast permits pumping of condensable vapors
Compact and lightweight design permits simple integration into your new or existing vacuum system
Ready to withstand and overcome demanding conditions …
Robust.
SCROLLVAC plus was built to maintain performance and reliability in the most demanding applications. With the bearings completely separated from the pumping mechanism, you are assured of zero contamination within the vacuum envelope along with exceptional vapor handling.
Truly dry vacuum pump with pump bearings isolated from the vacuum space eliminating any risk of contamination
No shaft seal to wear and hence longer service intervals and improved leak tightness
The ideal dry pump solution for backing turbomolecular and cryo pumps
Optional C variant may be used for some applications involving the pumping of aggressive media and chemicals
Easy to understand and uncomplicated …
Simple.
Not only the service and tip seal change is easy and quick, the long service intervals mean that SCROLLVAC plus can become the “fit and forget” solution.
Latest in tip seal technology giving significantly longer periods between tip seal changes, typically 2.5 years, to maximize up-time and productivity
Easy maintenance with a typical tip-seal change in under 10 minutes by yourself
Running time hours-counter included as standard
Economize by switching to the latest technology …
Environment.
Think the environment is too big for you to make an impact? We are always looking at how we can reduce the impact on the environment, and selecting the latest SCROLLVAC plus can make an immediate improvement on your local workspace.
No contaminated waste oil to dispose of, eliminating the need for costly disposal and used oil recycling
Low noise at < 55 dB(A) for a quiet work/laboratory environment
Reduced power consumption compared to other pumping mechanisms
the Leybold guarantee at any time!
Universal.
Dry-compression pump – zero risk of system contamination
Excellent ultimate pressure for turbomolecular pumps
High water vapor capacity for cryo-pump regeneration
Low noise for a quiet working environment
Electronic-free 3-phase pump for areas with radiation
Long maintenance intervals and simple end-user serviceable
Robust pump with high vapor capacity for industrial applications including vacuum ovens, degassing, sterilization. Also suitable for cyclic duties
No exposed bearings and no shaft seals, therefore reliable operation in numerous industrial applications
Wide range of pumping performance options for all requirements
Quiet and reliable operation for use in biological and wet chemistry laboratories
High water vapor capacity for applications such as gel drying, centrifugal concentrators, rotary evaporators and solvent recovery
Hermetic separation of pumping chamber and rotating parts, therefore no reaction of pumped gases with lubricant
C v