Conveying blades for a compressible rotor

1 - 15 . (canceled) 16 . A compressible rotor for a blood pump, the rotor comprising: a hub; and at least one conveying blade fastened to the hub, wherein the at least one conveying blade comprises a plurality of struts, wherein each strut of the plurality of struts has at least one joint, wherein the at least one joint comprises a bearing that pivotably connects a first section of a strut to a second section of the strut such that a pivot lever portion of the first section is disposed on a first side of the bearing and a support lever portion of the first section is disposed on a second side of the bearing, wherein the bearing permits: (a) the first section of the strut to pivot relative to the second section of the strut in a first direction from an overelongated position of the strut to a kinked position of the strut, and (b) the first section of the strut to pivot relative to the second section of the strut in a second direction from the kinked position of the strut to the overelongated position of the strut, wherein, in the overelongated position, the first section and the second section partially overlap such that the support lever portion of the first section contacts the second section thereby preventing further pivoting of the first section relative to the second section in the second direction. 17 . The rotor of claim 16 , wherein the bearing is fastened to an end of the second section of the strut. 18 . The rotor of claim 16 , wherein the bearing of each strut permits the first section to pivot relative to the second section of each strut in a first movement plane. 19 . The rotor of claim 16 , wherein the pivoting of the first and second sections permit the at least one conveying blade to fold in upon the hub. 20 . The rotor of claim 16 , wherein the at least one joint is configured such that, from a position where the first section and the second section extend along parallel axes, pivoting of the first section relative to the second section is more limited in the second direction than in the first direction. 21 . The rotor of claim 16 , wherein the first direction is a direction of rotation of the at least one conveying blade during operation. 22 . The rotor of claim 16 , wherein the at least one joint bounds angling of the first and second sections beyond an elongation angle in the second direction. 23 . The rotor of claim 22 , wherein the elongation angle is from 175° to 185°. 24 . The rotor of claim 16 , wherein the plurality of struts are configured to pivot from an expanded state to a radially compressed state. 25 . The rotor of claim 16 , wherein the plurality of struts are arranged parallel to one another or in fan shape starting from a common base. 26 . The rotor of claim 25 , wherein the base is a point. 27 . The rotor of claim 25 , wherein the base is an arc segment. 28 . The rotor of claim 16 , wherein the first section of the strut and the second section of the strut can be angled in opposite directions. 29 . The rotor of claim 16 , wherein the second section of each of the struts is pivotally connected to the hub at a common base. 30 . The rotor of claim 16 , wherein the at least one conveying blade comprises a membrane held by the plurality of struts.