Peristaltic pump

The invention claimed is: 1. A peristaltic pump for conveying fluid in an apparatus for extracorporeal blood treatment, the peristaltic pump comprising a pump housing that accommodates a rotor rotatable about a rotor axis, the rotor including at least two squeezing elements offset against each other in a circumferential direction, the pump housing including a support surface extending in a curved shape around the rotor axis, the support surface being radially spaced apart from the rotor and arranged to support a tube segment radially inserted between the rotor and the support surface, the rotor being driven by a rotor shaft, the peristaltic pump further comprising a freewheel press-fitted into a toothed driver sleeve that is configured to transmit rotary movement of the rotor shaft to a rotor base body, the rotor base body comprising a plain bearing position on each side of the freewheel, the plain bearing positions being defined by a geometry of the toothed driver sleeve, with one of the plain bearing positions comprising a bearing ring. 2. The peristaltic pump according to claim 1 , wherein the plain bearing positions comprise a first bearing position and a second bearing position, the first bearing position formed by an edge-side cylindrical inner surface portion of the toothed driver sleeve and the second bearing position formed by the bearing ring. 3. The peristaltic pump according to claim 2 , wherein the toothed driver sleeve has a continuous fitting area for the freewheel and the bearing ring. 4. The peristaltic pump according to claim 1 , wherein the toothed driver sleeve comprises at least one toothing section that is pressable into a centric recess of the rotor base body to establish a rotationally fixed positive or form fit connection. 5. The peristaltic pump according to claim 4 , wherein the at least one toothing section comprises two toothing sections that are axially spaced and located radially outside the plain bearing positions. 6. The peristaltic pump according to claim 5 , wherein the two toothing sections have differently sized diameters, and the centric recess of the rotor base body includes sections having different diameters and draft angles. 7. The peristaltic pump according to claim 6 , wherein the sections of the centric recess are each conical with a cone opening in a common direction. 8. The peristaltic pump according to claim 7 , wherein the sections of the centric recess comprise first sections adapted to receive the two toothing sections and a second section between the first sections, the first sections having first cone angles, and the second section having a second cone angle, each first cone angle being smaller than the second cone angle. 9. The peristaltic pump according to claim 1 , wherein the rotor base body is an injection-molded part. 10. The peristaltic pump according to claim 9 , wherein the injection-molded part is made of glass-fiber reinforced plastic or light metal. 11. A peristaltic pump for conveying fluid in an apparatus for extracorporeal blood treatment, the peristaltic pump comprising a pump housing that accommodates a rotor rotatable about a rotor axis, the rotor including at least two squeezing elements offset against each other in a circumferential direction, the pump housing including a support surface extending in a curved shape around the rotor axis, the support surface being radially spaced apart from the rotor and arranged to support a tube segment radially inserted between the rotor and the support surface, the rotor being driven by a rotor shaft, the peristaltic pump further comprising a freewheel press-fitted into a toothed driver sleeve that is configured to transmit rotary movement of the rotor shaft to a rotor base body, the rotor base body comprising a plain bearing position on each side of the freewheel, the plain bearing positions being defined by a geometry of the toothed driver sleeve, wherein the plain bearing positions comprise a first bearing position and a second bearing position, the first bearing position formed by an edge-side cylindrical inner surface portion of the toothed driver sleeve and the second bearing position formed by a bearing ring inserted with press-fit into the toothed driver sleeve.