Single packer with a sealing layer shape enhanced for fluid performance

What is claimed is: 1. A system for collecting fluid in a wellbore comprising: an outer flexible skin having an outer diameter; a plurality of rings disposed around the outer diameter; a plurality of drains embedded into the outer flexible skin, wherein the plurality of drains are configured to move together with the outer flexible skin, and wherein the flexible skin is configured to expand against a surrounding wellbore such that the plurality of rings abut the wall of the surrounding wellbore: and a mandrel positioned within the outer flexible skin. 2. The system of claim 1 , wherein the rings and the outer flexible skin are composed of a same material. 3. The system of claim 1 , wherein the rings are disposed above and below one of the plurality of drains. 4. The system of claim 1 , further comprising grooves on the outer flexible skin. 5. The system of claim 1 , further comprising a semi-permeable composite material on the outer flexible skin. 6. The system of claim 1 , wherein four rings define three contiguous sections about the outer diameter. 7. The system of claim 6 , wherein a first section and a third section of the three contiguous sections have guard drains, and a second section of the three contiguous sections has a sample drain. 8. A method comprising: deploying a packer assembly into a wellbore wherein the packer assembly inflates toward a wall of the wellbore and has an opening connected to a flow line for receiving fluid and two exterior rings extending around a circumference of the packer assembly, wherein the opening moves toward the wall when the packer assembly inflates, and wherein the opening is embedded in a flexible skin; expanding the packer assembly such that the exterior rings abut the wall of the wellbore, and wherein the flexible skin engages the wall of the wellbore; isolating a section of the wellbore by creating a seal between the wellbore wall and the exterior rings; and obtaining fluid through the opening. 9. The method of claim 8 , wherein the fluid is obtained by creating a pressure differential. 10. The method of claim 8 , wherein the packer assembly has additional rings defining sections with guard drains above and below the opening. 11. The method of claim 8 , wherein the packer assembly has an irregular sealing layer. 12. The method of claim 11 , wherein the irregular sealing layer has grooves. 13. A sampling tool comprising: an outer sealing layer having irregularities formed in an outer surface of the outer sealing layer; a plurality of drains embedded into the outer sealing layer, wherein the outer sealing layer is configured to abut a wall of a wellbore; a flow line connected to an opening for moving the fluid into a packer assembly; a mandrel positioned within the outer sealing layer; and a plurality of rubber rings disposed around the outer sealing layer. 14. The sampling tool of claim 13 , wherein the outer sealing layer has grooves. 15. The sampling tool of claim 14 , wherein the grooves carry fluid to the drains. 16. The sampling tool of claim 13 , wherein the outer sealing layer is formed of a composite material. 17. The sampling tool of claim 16 , wherein the composite material is semi-permeable and transports fluid to the drains. 18. The sampling tool of claim 16 , wherein the composite material has fibers. 19. The sampling tool of claim 13 , wherein the rubber rings form a seal with the outer sealing layer such that fluid is restricted from passing between the rubber rings and the outer sealing layer.