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Smart Design
The Albin Pump is designed to meet your demands on high power - and low costs for energy and maintenance. The pump´s unique design gives low pulsation and therefore low vibrations and sound levels. The loads in the system are reduced, increasing the number of potential application areas. Thanks to a direct central flow, we have managed to minimize energy losses and air consumption.
This, combined with its compact measurements and quiet, feathered flap valves, makes the pump particulary well suited for original equipment manufacturers (OEMs). Not least of all since it can be installed in any preferred position.
Yet the Albin Pump is also a good choice for anyone who today has conventional AODD pumps. Loud, noisy and highly service demanding pumps can now be replaced with quiet and efficient Albin Pumps - in virtually any application.
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Air Valves / Air Motor
The patented air valve at the heart of the drive system ensures very high operational reliability. The system including valve and air motor is self-cleaning, withstands oily, dry, humid or dirty compressed air and is insensitive to ice build-up. The technique enables rapid change and optimal control of the pump diaphragm, reducing pulsation.
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Central flow through flexible diaphragm suspension
One of the secrets behind the pump’s smooth operation is the patented FDS technology (Flexible Diaphragm Suspension). The diaphragms are not fixed at the shaft but can move independently of each other and work with soft, overlapping movements. This minimizes pulsations, increases time between services and enables a central flow.
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Flap Valve
An important innovation in the Albin Pump is the feathered flap valves. They function regardless of how the pump is positioned – upside-down, sideways or vertically – ensuring maximal flexibility during installation. In addition, the valves are quiet and self-closing. This enables a longer service life and eliminates the problems with jammed ball valves.
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Improved functionality
Instead of interrupting the flow of the fluid with many directional changes, it is pumped directly through the center of the pump. Current losses are reduced and the flow is more even and efficient. This also enables a more compact and flexible pump design.
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