The Best Technology at the Lowest Cost – At Least 22% to 39% Cost Saving
Bifold offer configurable valve control products, simplified for ease of selection with the highest safety factors and reduced spares requirements, offering the highest flow at the lowest cost.
Maximise flow of typical tubed systems with Bifold components
With traditional tubed pneumatic control circuits Bifold elements are capable of the highest possible flow in the market but the output is limited by the change in the bore size through the tubes and fittings.
Maximise flow of typical nippled systems with Bifold components
With traditional nippled pneumatic control circuits Bifold elements are capable of the highest possible flow in the market but the output is restricted by the diameter of the nipples.
Optimise flow with Bifold patented modular solution
Bifold developed an unrestricted common bore system that optimises the high flow capability of their components.
Bifold have furthered this logic and developed a range of patented Filter Boosters removing as many elements as possible from the flow line including the filter and regulator, amplifying the possible flow for any given tube size. This principle results in smaller tube sizes being used and can be supplied in up to a 2” connection.
If you are interested in the lowest cost solution for your application, please visit bifold.co.uk for further details and a video outlining the above. You can also contact Bifold on +44 (0) 161 345 4777.
Bifold are dedicated to maintaining the excellence of their products and their new facility confirms their commitment to shortening lead times and meeting customer demands.
Bifold Group would like to take this opportunity to thank all their customers for their continued support.
Gill Bancroft, Tel. +44 (0) 161 345 4777 Fax. +44 (0) 161 345 4780 Email: firstname.lastname@example.org Web: bifold.co.uk Bifold Fluidpower Ltd, Bifold Group, Broadgate, Oldham Broadway Business Park, Chadderton, Greater Manchester, OL9 9XA. UK. Release issued: February 2017
Last modified: 1st September 2017