Pump for pumping liquid as well as impeller assembly

The invention claimed is: 1. A pump for pumping liquid comprising solid matter, said pump comprising an impeller and an axially extending drive shaft assembly, wherein a distal end of the drive shaft assembly is received in a central recess of the impeller, the drive shaft assembly comprising a drive shaft and a connector, wherein the connector comprises a sleeve that is in telescopic engagement with the drive shaft, the impeller being displaceable in an axial direction in relation to said sleeve between a distal rest position and a proximal position during operation of the pump in response to an axial force exerted by solid matter in contact with the impeller, wherein the impeller is biased towards the distal rest position by a spring member arranged between the sleeve and the impeller, the connector further comprising a hollow adjustment screw that is in threaded engagement with an interior side of the sleeve and configured to limit a maximum degree of telescopic overlap between the sleeve and the drive shaft, wherein an impeller screw extends through the adjustment screw and is in threaded engagement with the drive shaft in order to press the adjustment screw towards the drive shaft. 2. The pump according to claim 1 , wherein the distal end of the drive shaft has a truncated cone shape and the pump comprises a socket, the socket being wedged between the interior side of the sleeve of the connector and the distal end of the drive shaft. 3. The pump according to claim 2 , wherein the adjustment screw is configured to wedge the socket between the interior side of the sleeve of the connector and the distal end of the drive shaft. 4. The pump according to claim 1 , wherein the impeller is an open impeller comprising a hub, an upper cover disc and at least one blade connected to said cover disc. 5. The pump according to claim 1 , wherein the impeller comprises a hub, said hub comprising a through hole that extends in the axial direction, wherein the sleeve is arranged in said through hole of the impeller, and wherein a gap is arranged between a distal portion of the sleeve and the hub of the impeller, said gap being adjacent a cavity that houses said spring member. 6. The pump according to claim 5 , wherein a seal is arranged at the gap, in order to prevent any solid matter in the pump liquid from entering said cavity. 7. The pump according to claim 5 , wherein a seal is arranged in a circumferential groove in the through hole of the impeller. 8. An impeller assembly for a pump configured for pumping liquid including solid matter, said impeller assembly comprising an impeller having a central recess and a connector, wherein the connector comprises a sleeve arranged in the central recess of the impeller, wherein the sleeve is configured to be in telescopic engagement with an axially extending drive shaft, the impeller being displaceable in an axial direction in relation to said sleeve between a distal rest position and a proximal position in response to an axial force exerted by solid matter in contact with the impeller, wherein the impeller is biased towards the distal rest position by a spring member arranged between the sleeve and the impeller, the connector further comprising a hollow adjustment screw that is in threaded engagement with an interior side of the sleeve and configured to limit the maximum degree of telescopic overlap between the sleeve and the drive shaft. 9. A pump for pumping liquid comprising solid matter, said pump comprising: an impeller having a central recess; an axially extending drive shaft assembly having a distal end configured to be received in the central recess of the impeller, the drive shaft assembly comprising: a drive shaft having a distal end with a truncated cone shape; a connector comprising a sleeve in telescopic engagement with the drive shaft; a hollow adjustment screw in threaded engagement with an interior side of the sleeve and configured to limit a maximum degree of telescopic overlap between the sleeve and the drive shaft; and an impeller screw extending through the adjustment screw, in threaded engagement with the drive shaft, and configured to press the adjustment screw towards the drive shaft; wherein the impeller is displaceable in an axial direction in relation to said sleeve between a distal rest position and a proximal position during operation of the pump, and the pump further comprises: a spring member arranged between the sleeve and the impeller, the spring member configured to bias the impeller towards the distal rest position; and a socket wedged between the interior side of the sleeve and the distal end of the drive shaft, wherein the adjustment screw is configured to wedge the socket between the interior side of the sleeve and the distal end of the drive shaft.