Adhesive flute support while winding fluted pack

What is claimed is: 1. A method of forming a filter media pack comprising: winding a continuous strip of fluted filter media about a winding core about a winding axis, the strip of filter media extending between opposed first and second edges and including a plurality of flutes formed by a first sheet operably secured to a corrugated sheet defining a plurality of peaks and valleys, the strip of fluted filter media being wound with the corrugated sheet being adjacent the winding core and radially inward of the first sheet, the strip of fluted filter media defining a feed axis generally parallel to the first and second edges and perpendicular to the winding axis, the winding core having opposed first and second sides extending generally parallel to the winding axis, the winding core defining opposed first and second faces defining a minor axis therebetween, the first and second sides extending generally between the first and second faces and defining a major axis therebetween; and applying a first support bead between the winding core and the strip of filter media, the first support bead extending generally perpendicular to the first and second edges of the strip of filter media and parallel to the winding axis, the first support bead being located proximate the first side of the winding core, the first support bead filling the cross-section of at least two valleys on opposite sides of a peak of the corrugated sheet proximate the first side of the winding core, the first support bead distributing radially directed loading applied to the corrugated sheet from the first side of the winding core due to tension in the strip of filter media during winding. 2. The method of claim 1 , further comprising applying a seal bead generally parallel to the first and second edges of the strip of filter media and between the corrugated sheet and the winding core to prevent fluid bypass between the corrugated sheet and the winding core. 3. The method of claim 1 , wherein the first support bead extends at least 33% of a length of an interface length between the winding core and the corrugated sheet. 4. The method of claim 1 , wherein the first support bead extends an entire length of an interface length between the winding core and the corrugated sheet. 5. The method of claim 1 , wherein the first support bead is allowed to partially cure before more than a first layer of the filter media is wound around the winding core. 6. The method of claim 1 , wherein the first support bead is formed from hot melt. 7. The method of claim 2 , wherein the seal bead is formed from a foamed urethane. 8. The method of claim 1 , wherein the first support bead provides an interface between the corrugated sheet and the first side of the winding core and the first support bead cooperates with at least 50% of the first side when viewed in cross-section taken perpendicular to the winding axis. 9. The method of claim 1 , wherein the first support bead provides an interface between the corrugated sheet and the first side of the winding core and the first support bead extends 75% of the periphery of the first side from the first face to the second face when viewed in cross-section taken perpendicular to the winding axis. 10. The method of claim 1 , further comprising applying a second support bead parallel to the winding axis proximate the second side of the winding core. 11. The method of claim 10 , wherein the steps of applying the first and second support beads occur prior to winding. 12. The method of claim 11 , wherein the step of applying the first support bead occurs by dispensing two separate strips of a material forming the first support bead to the strip of fluted filter media prior to winding such that three strips of material forming the first and second support beads are dispensed on the strip of fluted filter media prior to winding, after winding, the two separate strips of material form a single continuous strip of material that forms the first support bead. 13. The method of claim 1 , wherein the step of applying the first support bead occurs by dispensing two separate strips of a material forming the first support bead to the strip of fluted filter media prior to winding, after winding, the two separate strips of material form a single continuous strip of material that forms the first support bead. 14. The method of claim 13 , wherein one of the two separate strips secures a lead end of the strip of fluted filter media to the winding core. 15. A filter media pack comprising: a winding core having opposed first and second sides extending generally parallel to a winding axis, the winding core defining opposed first and second faces defining a minor axis therebetween in a direction perpendicular to the winding axis, the first and second sides extending generally between the first and second faces and defining a major axis therebetween in a direction perpendicular to the winding axis; a continuous strip of fluted filter media wound about the winding core about the winding axis to form a plurality of layers of fluted filter media, the strip of filter media extending between opposed first and second edges and including a plurality of flutes formed by a first sheet operably secured to a corrugated sheet defining a plurality of peaks and valleys, the strip of fluted filter media having the corrugated sheet being adjacent the winding core and radially inward of the first sheet; a first support bead between the winding core and the strip of filter media, the first support bead extending generally perpendicular to the first and second edges of the strip of filter media and parallel to the winding axis, the first support bead being located proximate the first side of the winding core, the first support bead filling the cross-section of at least two valleys on opposite sides of a peak of the corrugated sheet proximate the first side of the winding core. 16. The filter media pack of claim 15 , further comprising a seal bead generally parallel to the first and second edges of the strip of filter media and between the corrugated sheet and the winding core to prevent fluid bypass between the corrugated sheet and the winding core; the seal bead being continuous and located between the plurality of layers and sealing off flutes formed between the corrugated sheet of one layer and the first sheet of an adjacent layer. 17. The filter media pack of claim 15 , wherein the first support bead extends at least 33% of a length of an interface length between the winding core and the corrugated sheet. 18. The filter media pack of claim 15 , wherein the first support bead extends an entire length of an interface length between the winding core and the corrugated sheet. 19. The filter media pack of claim 15 , wherein the first support bead is formed from hot melt. 20. The filter media pack of claim 16 , wherein the seal bead is formed from a foamed urethane and the first support bead is formed from hot melt. 21. The filter media pack of claim 15 , wherein the first support bead provides an interface between the corrugated sheet and the first side of the winding core and the first support bead cooperates with at least 50% of the first side when viewed in cross-section taken perpendicular to the winding axis. 22. The filter media pack of claim 15 , wherein the first support bead provides an interface between the corrugated sheet and the first side of the winding core and the first support bead extends 75% of the periphery of the first side from the fir