as published in Machine Design April 16th 2010

radial internals2

Diaphragm-type vacuum pumps and air compressors have the advantages of a fluid path that may be completely sealed from the environment, and the potential for high efficiency and long life due to a lack of sliding seals, but flow pulsation, noise, vibration, low speed cogging and limited dynamic range are common problems for typical reciprocating designs that rely on one to four diaphragms.

 

12 diaphragms

Dynaflo, Inc. has introduced a new radial compressor aimed squarely at these shortcomings. Flow pulsation and noise are minimized by means of a significantly larger number (12 in the present example) of relatively small pumping diaphragms, and for this device, Dynaflo has developed a highly compact design, utilizing rectangular-shaped diaphragms disposed in a uni-planar, radial array and actuated by a common, eccentrically driven, central drive element. This arrangement allows for near perfect primary balance, resulting in virtually zero mechanical vibration, and due to the equal angular separation of each segment, the motor shaft is presented with minimal variation in torque load with respect to its angular position. This relatively constant loading allows the motor to be operated over a broader range of rotational speeds, resulting in a greater dynamic range for the overall device. 

 

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A unique feature of the drive mechanism is its fully symmetric architecture—unlike the master-and-articulated-rod assembly found in a typical radial piston engine, each of the 12 driven segments in the Dynaflo design is identical, thereby insuring that the components of each segment are no more stressed than those of its neighbor. Another unique feature of the drive mechanism is the rolling pin coupling between each segment of the central drive and its driven diaphragm assembly. While allowing for the necessary lateral displacement of each drive segment with respect to its driven diaphragm, these roll pins provide an essentially rigid connection in the radial direction (also the direction of rectilinear motion), assuring consistent positional control of segment components over a broad range of operating speed.

 

 

Machine Design Article