Filter element

The invention claimed is: 1. A filter element, comprising: a tubular and pleated filter medium with a multi-layer structure configured for fluid to be filtered to flow between inner and outer sides of said filter medium; first pleats in said filter medium having a first pleat height; second pleats in said filter medium having a second pleat height, said second pleat height being approximately two-thirds of said first pleat height, each said second pleat being bounded by adjacent ones of said first pleats defining an M-pleat configuration as viewed from a top of the filter medium and as viewed from the at least one of said inner side or said outer side; a support tube supporting said first and second pleats at said inner side; inner transitions of all of said first and second pleats being adjacent said inner side and being along a circular cylinder extending through said filter medium coaxially to a longitudinal axis of said filter medium, each of said first and second pleats being separated from an adjacent one of said first and second pleats by a tapered space tapering toward a respective one of said inner transitions of said first and second pleats along said circular cylinder extending through said filter medium, said tapered spaces extending along entire radial extents of said first and second pleats, each of said first and second pleats having inner planar surfaces lying directly against one another, said inner planar surfaces of each of said first and second pleats directly contacting one another along entire lengths thereof between said inner transitions and outer transitions between said inner planar surfaces, said inner and outer transitions extending along a same bend radius; and an open holding space being between each pair of adjacent ones of said first pleats bounding one of said second pleats therebetween and being defined by the respective M-pleat configuration, said open holding space being on said outer side of said filter medium configured for standardizing and reducing flow velocity of fluid through said filter medium during filtering operation; whereby, during filtering operation, fluid contaminated with particles electrostatically charges said filter medium upon passing through said filter medium and reduced electrostatic charges are a result of the flow velocity of fluid induced by said holding spaces. 2. A filter element according to claim 1 wherein said first and second pleats alternate about a circumference of said filter medium. 3. A filter element according to claim 1 wherein said second pleats are configured to stabilize alignments and configurations of said first pleats. 4. A filter element according to claim 1 wherein said second pleats are configured to prevent said first pleats from at least one of contacting or adhering to one another to an extent said first pleats project toward said outer side of said filter medium over said second pleats. 5. A filter element according to claim 1 wherein said filter medium is configured to have an effective filter surface, despite a reduced surface thereof, at least as great as a pleated filter medium having pleats with a uniform pleat height equal to said first pleat height. 6. A filter element according to claim 1 wherein a clean side is on said inner side of said filter medium, is encompassed by said filter medium and forms the circular cylinder. 7. A filter element according to claim 1 wherein a clean side is on said outer side of said filter medium facing away from the circular cylinder. 8. A filter element according to claim 1 wherein said pleats extend apart from one another at acute angles, while forming said M-pleat configuration, forming slit-shaped fine filtration regions at bases of said filter medium.