Tube roller pump

The invention claimed is: 1 . A peristaltic pump for conveying fluid in a device for extracorporeal blood treatment, the peristaltic pump comprising: a pump housing in which a rotor rotatable about a rotor axis with at least two squeeze elements offset in a circumferential direction to each other is accommodated and which has a support surface extending arc-shaped about the rotor axis and spaced radially from the rotor, wherein the support surface is configured to support a tube segment inserted radially between the rotor and the support surface; and a sliding edge which is arranged adjacent to a respective squeeze element and behind the respective squeeze element with respect to a forward rotational direction of the rotor, extends toward the support surface, is connected to the rotor to rotate about the rotor axis with the rotor, and is configured to be gripped from below or is under reached by the tube segment, wherein the sliding edge is located closer to the respective squeeze element than to a nearest adjacent squeeze element located behind the sliding edge with respect to the forward rotational direction of the rotor, wherein each sliding edge is a component overlapping the at least two squeeze elements. 2 . The peristaltic pump according to claim 1 , wherein each sliding edge is a component of a rotor body, or of a swing arm connected to the rotor in a rotationally fixed manner or of a rotor cover with a cover plate. 3 . The peristaltic pump according to claim 2 , wherein the cover plate increases in thickness in the circumferential direction against the forward rotational direction to form each sliding edge. 4 . The peristaltic pump according to claim 3 , wherein the cover plate has an angled border bar to form each sliding edge. 5 . The peristaltic pump according to claim 4 , wherein the angled border bar has a radially outermost end that merges into a circumferential edge portion, the circumferential edge portion having a height that gradually decreases toward the respective squeeze element. 6 . A peristaltic pump for conveying fluid in a device for extracorporeal blood treatment, the peristaltic pump comprising: a pump housing having a bed surface and a support surface extending from the bed surface, the support surface comprising an arc shape surrounding a rotation axis; and a rotor mounted to the pump housing to rotate about the rotation axis, the rotor comprising: a plurality of squeeze elements offset to each other in a circumferential direction about the rotation axis and extending away from the rotation axis; and a plurality of sliding edges, wherein each sliding edge: is arranged adjacent to a respective squeeze element and behind the respective squeeze element with respect to a forward rotational direction of the rotor, extends away from the rotation axis, and is spaced from the bed surface such that a tube segment located between the respective squeeze element and the support surface is located between the sliding edge and the bed surface; wherein each sliding edge is located closer to the respective squeeze element than to a nearest adjacent squeeze element located behind the sliding edge with respect to the forward rotational direction of the rotor, wherein each sliding edge is a component overlapping the at least two squeeze elements. 7 . The peristaltic pump according to claim 6 , wherein the rotor comprises a plurality of cover plate portions, wherein each cover plate portion extends towards the support surface from the rotation axis with a respective squeeze element located between a respective cover plate portion and the bed surface, and wherein each sliding edge is located at a trailing edge, with respect to the forward rotational direction of the rotor, of a respective cover plate portion. 8 . The peristaltic pump according to claim 6 , wherein each cover plate portion has a first thickness along the rotation axis, and each sliding edge has a second thickness along the rotation axis, and the second thickness is greater than the first thickness. 9 . The peristaltic pump according to claim 8 , wherein the first thickness gradually increases to the second thickness. 10 . The peristaltic pump according to claim 6 , wherein each sliding edge is a component of a swing arm pivotally connecting a respective squeeze element to the rotor.