Cleaning rollers for cleaning robots

What is claimed is: 1. A cleaning robot comprising: a body; a drive system configured to move the body of the cleaning robot across a floor surface; and a cleaning roller comprising: a support structure configured to be attached to the body for rotating the cleaning roller about a longitudinal axis relative to the body to clean or sweep the floor surface; a sheath comprising a shell rotationally coupled to the support structure; and a plurality of vanes extending outward from the shell and along a longitudinal direction of the shell, wherein at least one vane of the plurality of vanes comprises: a first portion extending radially outward from the shell; a second portion extending radially outward from the first portion to a radial outer edge of the at least one vane; and an opening extending through a thickness of the first portion and extending radially outward from the shell to the second portion, wherein the opening is located longitudinally between a first helical portion of the at least one vane and an oppositely oriented second helical portion of the at least one vane. 2. The cleaning robot of claim 1 , wherein the opening is located at a longitudinal center of the at least one vane, and the second portion extends from a first longitudinal end of the at least one vane to a second longitudinal end of the at least one vane such that a central portion of the second portion at least partially defines a radial outer edge of the opening. 3. The cleaning robot of claim 2 , wherein the opening is located at an intersection between the first helical portion of the at least one vane and the second helical portion of the at least one vane, the first and second helical portions extending in opposite tangential directions along the cleaning roller. 4. The cleaning robot of claim 3 , wherein: the first helical portion of the at least one vane extends longitudinally outward from a first longitudinal edge of the opening to the first longitudinal end of the at least one vane and extends in a first tangential direction of the cleaning roller; the second helical portion of the at least one vane extends longitudinally outward from a second longitudinal edge of the opening to the second longitudinal end of the at least one vane and extends in a second tangential direction of the cleaning roller; and the first and second tangential directions are opposite to one another. 5. The cleaning robot of claim 4 , wherein the first and second longitudinal edges of the opening extend radially outward from the shell to a common point of the at least one vane, the common point positioned along a central transverse plane bisecting the cleaning roller. 6. The cleaning robot of claim 1 , wherein the first portion of the at least one vane is angled relative to the second portion of the at least one vane in a tangential direction, and the opening is located entirely on the first portion of the at least one vane. 7. The cleaning robot of claim 6 , wherein the opening has a longitudinal length between 25% and 50% of a longitudinal length of the cleaning roller, and the opening does not extend into the second portion of the at least one vane. 8. The cleaning robot of claim 1 , wherein: the shell defines an inner radial edge of the opening; a longitudinal length of the opening is greater at the shell than at the second portion of the at least one vane; and the longitudinal length of the opening decreases in a radial outward direction from the shell. 9. The cleaning robot of claim 8 , wherein the longitudinal length of the opening has a maximum length between 15 and 45 millimeters. 10. The cleaning robot of claim 1 , wherein the second portion extends continuously along the at least one vane from a first longitudinal end of the cleaning roller to a second longitudinal end of the cleaning roller such that a longitudinal portion of the second portion is radially outward of the opening. 11. The cleaning robot of claim 10 , wherein an inner radial edge of the longitudinal portion of the second portion defines an outer radial edge of the opening. 12. A cleaning robot comprising: a body; a drive system configured to move the body of the cleaning robot across a floor surface; and a cleaning roller comprising: a support structure configured to be attached to the body for rotating the cleaning roller about a longitudinal axis relative to the body to clean or sweep the floor surface; a sheath comprising a shell rotationally coupled to the support structure; and a plurality of vanes extending radially outward from the shell and along a longitudinal direction of the shell, wherein at least one vane of the plurality of vanes comprises: an outer portion configured to (i) contact the floor surface for cleaning or sweeping the floor surface and (ii) contact a dustpan of the cleaning robot as the cleaning roller rotates relative to the body of the cleaning robot to sweep debris along the dustpan toward an air conduit of the cleaning robot; and an opening extending through a thickness of the at least one vane, the at least one vane being configured to move debris towards the opening of the cleaning roller as the cleaning roller rotates relative to the body of the cleaning robot, wherein the opening is located longitudinally between a first helical portion of the at least one vane and an oppositely oriented-second helical portion of the at least one vane. 13. The cleaning robot of claim 12 , wherein: the opening is located at a longitudinal center of the cleaning roller; the opening has a first longitudinal edge located on the first helical portion of the at least one vane; and the first helical portion of the at least one vane is configured to move debris towards the opening at the longitudinal center of the cleaning roller as the cleaning roller rotates relative to the body of the cleaning robot. 14. The cleaning robot of claim 13 , wherein: the opening has a second longitudinal edge located on the second helical portion of the at least one vane; the first helical portion of the at least one vane and the second helical portion of the at least one vane extend in opposite tangential directions along the cleaning roller; and the second helical portion of the at least one vane is configured to move debris towards the opening at the longitudinal center of the cleaning roller as the cleaning roller rotates relative to the body of the cleaning robot. 15. The cleaning robot of claim 14 , wherein the first and second longitudinal edges of the opening are tapered towards one another in a radially outward direction from the shell. 16. The cleaning robot of claim 12 , wherein: the opening is located in an inner portion of the at least one vane; the outer portion of the at least one vane is radially outward of the inner portion of the at least one vane and radially outward of the opening; the outer portion of the at least one vane is angled relative to the inner portion of the at least one vane in a tangential direction; and the opening has a longitudinal length between 25% and 50% of a longitudinal length of the cleaning roller. 17. A cleaning roller for a cleaning robot, the cleaning roller comprising: a support structure comprising a core configured to be attached to the cleaning robot; and a sheath comprising: a shell rotationally coupled to the support structure; and a plurality of vanes extending radially outward from the shell and along a longitudinal axis of the shell, wherein at least one vane of the plurality of vanes comprises: a first portion extending radially outward from the s