A big question in the industry is, and has been, what type of pump to use with the conveyor.
Traditionally we have been marketing and selling only pumps based on compressed air. The conveyors were specifically designed to be used with our specialty, the COAX® ejector technology. COAX® is based on pneumatic technology and is driven by compressed air. A vacuum system based on COAX® technology can provide your customer with three times more vacuum flow than conventional systems, while reducing energy consumption. Also compressed air provides a lower sound level and heat emission than a mechanical pump. However, although it is widely regarded as the 4th utility of industry, along with water, gas and electricity, compressed air is not readily available to all producers. Unlike the other three utilities, it is not universally distributed to factories through taps, pipes or cables.
Realizing that we have over 30 years of experience of powder and granules transfer through vacuum conveying in different sizes and grades, the conclusion was why not expand our expertise to a wider range of customers? We are selling our expertise to move powder and granules from one location to another. Why not let the customer choose which type of pump to use? Wishing to enable more manufacturers to reap the benefits offered by the piFLOW® conveying systems, we decided to take the unusual step of introducing a pump technology that is very different from our specialization.
Now an alternative, in fact competing, pump technology has been introduced to run piFLOW® conveyors. The electro mechanical pumps were carefully selected to ensure that their performance would match that of our existing ejector pumps.
The introduction of rotary vane pumps as an alternative to ejector pumps in piFLOW® conveying systems enables us to be the one-stop-shop for all industrial conveyor customers, regardless of whether or not they have access to compressed air. This will be an interesting journey to be able to offer our conveying expertise with more customers than previously possible.
If you find this interesting and would like to know more please contact us – and we will reach out to you.