Pump chamber for a peristaltic pump

The invention claimed is: 1. A pump chamber for a peristaltic pump for pumping a fluid, the pump chamber comprising an elongate cavity defined between an elastically deformable chamber wall and a rigid chamber wall, the elongate cavity configured to permit the fluid to pass therethrough, the elastically deformable chamber wall defining a width of the elongate cavity, wherein the elastically deformable chamber wall and the rigid chamber wall are arranged as a one-piece part by two-component injection moulding, wherein the elastically deformable chamber wall has the shape of a lengthwise split hollow cylinder when in an undeformed state, wherein, in a first section along a length of the elongate cavity, the rigid chamber wall has a planar shape, and wherein the pump chamber is configured to be at least partially arranged around a perimeter of a rotor of the peristaltic pump, with the rigid chamber wall being arranged in a circular arc shape in a second section along the length of the elongate cavity such that a portion of the rigid chamber wall extending between the elastically deformable chamber wall is curved in the circular arc shape in the second section along the length of the elongate cavity. 2. The pump chamber according to claim 1 , wherein the circular arc shape of the second section of the rigid chamber wall allows the rotor of the peristaltic pump to engage a portion of a length of the elastically deformable chamber wall. 3. The pump chamber according to claim 1 , wherein an external side of the elastically deformable chamber wall comprises an anti-stick coating. 4. A peristaltic pump for an injection arrangement for delivering a liquid medicament, the peristaltic pump comprising the pump chamber according to claim 1 and a rotor, wherein the rotor comprises circumferential protrusions for engaging the elastically deformable chamber wall of the pump chamber, wherein the circumferential protrusions of the rotor and the pump chamber are configured such that rotation of the rotor and corresponding advancement of the circumferential protrusions in an azimuthal direction cause one or more of the circumferential protrusions in contact with the pump chamber to squeeze the elastically deformable chamber wall against the rigid chamber wall, and to advance the corresponding one or more squeezed portions of the elastically deformable chamber wall and the fluid in the pump chamber ahead of each respective squeezed portion in an azimuthal direction, thereby forcing the fluid in the pump chamber ahead of each respective squeezed portion out of an open end of the pump chamber. 5. The peristaltic pump according to claim 4 , wherein the rotor further comprises an anti-stick coating or the circumferential protrusions further comprise an anti-stick coating. 6. A pump unit for an injection arrangement for delivering a fluid in form of a liquid medicament, the pump unit comprising a medicament inlet, a medicament outlet, and the peristaltic pump according to claim 4 for delivering the liquid medicament from the medicament inlet to the medicament outlet. 7. The pump unit according to claim 6 , wherein the rigid chamber wall is part of a housing of the pump unit. 8. The pump unit according to claim 6 , wherein the rotor further comprises an adapter for engaging a drive shaft of a reusable backend. 9. The pump unit according to claim 6 , wherein the rotor is a one-piece component. 10. The pump unit according to claim 6 , further comprising a flow sensor for determining a volume flow of the liquid medicament, the flow sensor being arranged in the pump unit and connectable to a control unit of a reusable backend. 11. An injection arrangement for delivering a liquid medicament, the injection arrangement comprising a reusable backend and the pump unit according to claim 6 , wherein the pump unit is replaceably attachable to the reusable backend, and wherein the reusable backend comprises a medicament container, a control unit, a drive unit, and an energy source for powering the drive unit. 12. The injection arrangement according to claim 11 , wherein the control unit is connectable to a flow sensor for determining a volume flow of the liquid medicament, and wherein the flow sensor is arranged in the pump unit. 13. The injection arrangement according to claim 11 , wherein the energy source is a rechargeable accumulator. 14. The injection arrangement according to claim 11 , wherein the rechargeable accumulator is chargeable by an external charging device arranged for holding the reusable backend. 15. The injection arrangement according to claim 11 , wherein a user interface for user interaction is arranged in the reusable backend. 16. The pump unit according to claim 6 , wherein the pump unit is replaceably attachable to a reusable backend of the injection arrangement for delivering the liquid medicament. 17. The pump chamber according to claim 1 , wherein the first section along the length of the elongate cavity is longer than the width of the elongate cavity. 18. A pump chamber for a peristaltic pump for pumping a fluid, the pump chamber comprising an elongate cavity defined between an elastically deformable chamber wall and a rigid chamber wall, the elongate cavity configured to permit the fluid to pass therethrough, the elongate cavity connecting an inlet and an outlet, wherein the elastically deformable chamber wall and the rigid chamber wall are arranged as a one piece part by two-component injection moulding, wherein the elastically deformable chamber wall has the shape of a lengthwise split hollow cylinder when in an undeformed state, wherein the rigid chamber wall has a planar shape in a first section along a length of the elongate cavity and is configured to be arranged in a circular arc shape in a second section along the length of the elongate cavity such that a portion of the rigid chamber wall extending between the elastically deformable chamber wall is curved in the circular arc shape in the second section along the length of the elongate cavity, and wherein the first section along the length of the elongate cavity is between the second section along the length of the elongate cavity and the outlet. 19. A pump chamber for a peristaltic pump for pumping a fluid, the pump chamber comprising an elongate cavity defined between an elastically deformable chamber wall and a rigid chamber wall, the elongate cavity configured to permit the fluid to pass therethrough, the elastically deformable chamber wall defining a width of the elongate cavity and the elongate cavity having a 360 degree circular shape with open ends, wherein the elastically deformable chamber wall and the rigid chamber wall are arranged as a one-piece part by two-component injection moulding, wherein the elastically deformable chamber wall has the shape of a lengthwise split hollow cylinder when in an undeformed state, wherein at least in one or more sections spanning the width of the elongate cavity, the rigid chamber wall has a planar shape, and wherein the pump chamber is configured to be at least partially arranged around a perimeter of a rotor of the peristaltic pump, with the rigid chamber wall being arranged in a circular arc shape along at least part of a length of the elongate cavity.