Dialysis machine and constant flow regulator

The invention claimed is: 1. A dialysis machine, comprising, wherein the dialysis machine is configured to be used for at least one of hemodialysis and hemofiltration: a dialyzate system having a water inlet chamber; a water inlet via which the dialyzate system can be connected to an external water supply providing ultra-pure water; a constant flow regulator provided between the water inlet and the water inlet chamber of the dialyzate system; and said water inlet chamber including a level detection and an inlet valve, with a control of the dialysis machine controlling the inlet valve in dependence on the level detection, said constant flow regulator being configured as a passive flow control element and arranged to provide a substantially constant flow into the water inlet chamber when the inlet valve is open, said constant flow regulator having a flow resistance that changes in dependence on an applied pressure difference such that the substantially constant flow is independent of said pressure difference and results over a predefined operating range. 2. The dialysis machine in accordance with claim 1 , wherein the constant flow regulator comprises: a housing which is flowed through by fluid and which has an inlet, a regulator opening and an outlet; a plunger which is displaceably arranged in the housing, with a regulator passage remaining between the regulator opening and the plunger which is dependent on a relative position between the plunger and the regulator opening and which defines a regulation effect; and a spring against whose force the plunger is displaced by a differential pressure between the inlet and the outlet of the housing. 3. The dialysis machine of claim 2 , wherein a minimum flowed-through cross-section of the regulator passage changes on a displacement of the plunger relative to the regulator opening. 4. The dialysis machine of claim 3 , wherein both a length of the regulator passage and the minimum flowed-through cross-section of the regulator passage changes on the displacement of the plunger relative to the regulator opening. 5. The dialysis machine of claim 3 , wherein at least one of the minimum flowed-through cross-section of the regulator passage reduces as the differential pressure increases, and a length of the regulator passage increases as the differential pressure rises. 6. The dialysis machine of claim 3 , wherein at least one of a cross-sectional surface and a diameter of the plunger reduces progressively, i.e. at an increasing rate, in a direction of flow in a first part region, with a step region adjoining the first part region in the direction of flow. 7. The dialysis machine of claim 6 , wherein the diameter of the plunger reduces at a rate which becomes smaller or does not reduce at all in the step region. 8. The dialysis machine of claim 6 , further comprising at least one of: the first part region ends before the regulator opening in an end position of the plunger without differential pressure; the first part region ends before a narrowest point of the regulator opening in an end position of the plunger without differential pressure; the step region extends partly within the regulator opening and partly before the regulator opening in an end position of the plunger without differential pressure; and the step region extends at both sides of the narrowest point of the regulator opening in an end position of the plunger without differential pressure. 9. The dialysis machine of claim 3 , wherein the plunger is pressed against an abutment by the spring on an absence of differential pressure, with a flow through or past the plunger being blocked in this position. 10. The dialysis machine of claim 9 , wherein the flow through or past the plunger is blocked by a seal. 11. The dialysis machine of claim 2 , wherein the regulator opening is tubular, with at least one of a cross-sectional surface and a diameter of the tubular regulator opening increasing in a part region in a direction of flow, and with at least one of a smallest cross-sectional surface and a smallest diameter being arranged at a side of the regulator opening facing the inlet. 12. The dialysis machine of claim 2 , wherein the plunger is connected to a guide region which contacts an inner wall of a guide chamber of the housing and is slidingly guided in the guide chamber on the inner wall. 13. The dialysis machine of claim 1 , wherein the constant flow regulator has a substantially constant flow between 500 ml/min and 3000 ml/min. 14. The dialysis machine of claim 2 , wherein the housing comprises a first part and a second part which are screwed or adhesively bonded to one another, said first part including a guide chamber, the regulator opening and the outlet; and the second part including the inlet. 15. The dialysis machine of claim 14 , wherein the second part includes a sealing structure against which the plunger is pressed by the spring on an absence of differential pressure. 16. The dialysis machine of claim 6 , wherein a length of the step regions amounts to less than 50% of an adjustment path of the plunger and a length of the first part region amounts to more than 50% of the adjustment path of the plunger. 17. The dialysis machine of claim 12 , wherein an abutment for the plunger is formed by an end of the guide chamber at an inlet side against which the guide region is pressed on an absence of differential pressure, with the guide chamber having a larger diameter than the regulator opening. 18. The dialysis machine of claim 1 , wherein an operating pressure range of the constant flow regulator includes at least one of differential pressures between 0.5 bar and 5.5 bar, and inlet pressures between 1.5 bar and 6 bar.