Pump system, dialysis machine, and method of operating a pump

What is claimed is: 1. A pump system for generating a volume flow of a dialysis solution in a dialysis machine, said pump system comprising: a first piston pump and a second piston pump, each of the first piston pump and the second piston pump having a piston that cooperates with a working fluid which exerts a force on a conveying means that is a membrane, the first piston pump and the second piston pump being configured so as to operate in a staggered manner; setting means with which to, alternatively, reduce and increase, a conveying volume of the first piston pump and the second piston pump per piston stroke, the setting means including at least one of a piston stop to, alternatively, reduce and increase, the piston stroke, the piston stop being located in a piston chamber in which the piston moves, and means to, alternatively, reduce and increase, a quantity of the working fluid, the means to alternatively reduce and increase the quantity of the working fluid including a storage container for storing the working fluid, and a valve that enables a volume of the working fluid to alternatively be reduced and increased; calculation means with which to determine a residual desired conveying volume from a specific point in time onward; and input means or calculation means with which to input or determine a total desired conveying volume or a desired conveying volume per piston stroke, with the setting means being connected to the input means or to the calculation means with which to input or determine the total desired conveying volume or the desired conveying volume per piston stroke such that the setting means is configured to set the conveying volume of the first piston pump and the second piston pump per piston stroke in dependence on values input into the input means or determined by the calculation means with which to input or determine the total desired conveying volume or the desired conveying volume per piston stroke. 2. The pump system in accordance with claim 1 , wherein the working fluid is a liquid or a gas. 3. The pump system in accordance with claim 1 , wherein the setting means is configured such that the conveying volume per piston stroke is constant over a total conveying time. 4. The pump system in accordance with claim 1 wherein the setting means is configured such that the conveying volume per piston stroke is variable over a conveying time. 5. The pump system according to claim 4 , wherein the conveying volume per piston stroke is smaller toward an end of a conveying procedure than at a start of the conveying procedure. 6. The pump system in accordance with claim 1 , wherein the setting means is configured such that the quantity of the working fluid is reduced, starting from a starting state, such that an influence of a tension of the membrane on at least one of a patient pressure and a pressure of the working fluid, is smaller than in the starting state. 7. The pump system in accordance with claim 1 , wherein the piston chamber of each of the first piston pump and the second piston pump is in communication via a fluid line with a chamber that is bounded by the membrane. 8. A dialysis machine, said dialysis machine comprising the pump system in accordance with claim 1 . 9. The dialysis machine according to claim 8 , wherein the dialysis machine is a peritoneal dialysis machine. 10. A method of conveying a dialysis solution with a pump system, said pump system comprising: a first piston pump and a second piston pump, each of the first piston pump and the second piston pump having a piston that cooperates with a working fluid which exerts a force on a conveying means that is a membrane, the first piston pump and the second piston pump being configured so as to operate in a staggered manner; setting means with which to, alternatively, reduce and increase, a conveying volume of the first piston pump and the second piston pump per piston stroke, the setting means including at least one of a piston stop to, alternatively, reduce and increase, the piston stroke, the piston stop being located in a piston chamber in which the piston moves, and means to, alternatively, reduce and increase, a quantity of the working fluid, the means to alternatively reduce and increase the quantity of the working fluid including a storage container for storing the working fluid, and a valve that enables a volume of the working fluid to alternatively be reduced and increased; calculation means with which to determine a residual desired conveying volume from a specific point in time onward; and input means or calculation means with which to input or determine a total desired conveying volume or a desired conveying volume per piston stroke, with the setting means being connected to the input means or to the calculation means with which to input or determine the total desired conveying volume or the desired conveying volume per piston stroke such that the setting means is configured to set the conveying volume of the first piston pump and the second piston pump per piston stroke in dependence on values input into the input means or determined by the calculation means with which to input or determine the total desired conveying volume or the desired conveying volume per piston stroke, said method comprising: alternatively, reducing and increasing the conveying volume per piston stroke to increase a conveying precision of the first piston pump and the second piston pump by at least one of changing the piston stop such that the piston stroke is alternatively reduced and increased, and, alternatively, reducing and increasing the quantity of the working fluid. 11. The method in accordance with claim 10 , wherein the total desired conveying volume or the desired conveying volume from a specific point in time onward, or the desired conveying volume per piston stroke, is input into the input means or is determined by the calculation means with which to input or determine the total desired conveying volume or the desired conveying volume per piston stroke; and the reduction of the conveying volume is set in dependence on values input into the input means or determined by the calculation means with which to input or determine the total desired conveying volume or the desired conveying volume per piston stroke. 12. The method in accordance with claim 10 , wherein the conveying volume per piston stroke is kept constant over the total conveying time or is varied over the conveying time. 13. The method according to claim 12 , wherein the conveying volume per piston stroke is smaller toward an end of a conveying procedure than at a start of the conveying procedure. 14. The method according to claim 10 , wherein the alternative reducing and increasing of the quantity of the working fluid is effected with the storage container for storing the working fluid, and the valve that enables the volume of the working fluid to be alternatively reduced and increased.