Device for and a method of milking a dairy animal

What is claimed is: 1. A milking device, comprising at least one teat cup, wherein the teat cup comprises a cup casing with a flexible cup liner around a teat space, and a single pulsation space and a milk line, a milking vacuum pump connected to the milk line, for providing a milking vacuum, a pulsator connected to the pulsation space, for providing a controllable air pressure in the pulsation space, and a control device which is configured to control at least the pulsator during at least a milking action, wherein the control device is configured to cause the at least one of the pulsator and the milking vacuum pump to provide, in a period of time during a connection of the at least one teat cup to a teat, or in a period of time during a disconnection of the at least one teat cup from a teat, and when a teat is no longer in the teat space, consecutive a milking action wherein a dairy animal is milked, a substantially stable, non-pulsating pressure difference between the pulsation space and the teat space such that the cup liner shuts off the teat space from the milk line. 2. The milking device according to claim 1 , wherein, during the period of time, the pressure difference extends for as long as the milking vacuum pump provides a milking vacuum in the milk line. 3. The milking device according to claim 1 , wherein the duration of the non-pulsating pressure difference extends consecutive to a milking action. 4. The milking device according to claim 3 , wherein the duration is the entire period of time between two successive milking actions. 5. The milking device according to claim 1 , configured to cause the pulsator to provide an overpressure in the pulsation space. 6. The milking device according to claim 5 , wherein the overpressure amounts to at least 0.2 bar and at most 2 bar. 7. The milking device according to claim 6 , wherein the overpressure amounts to between 0.35 and 0.65 bar. 8. The milking device according to claim 1 , wherein the cup liner near the connection to the milk line, has a first wall portion with a folding resistance that is reduced with respect to other wall portions of the cup liner. 9. The milking device according to claim 8 , wherein the cup liner opposite to the first wall portion comprises a wall portion with a higher folding resistance and against which the first wall portion substantially shuts off the teat space at said pressure difference. 10. The milking device according to claim 1 , comprising a milking robot which is configured to connect the at least one teat cup to a teat of a dairy animal. 11. The milking device according to claim 1 , comprising an autonomous self-propelled vehicle configured to displace the at least one teat cup, and which comprises a milking robot configured to connect the at least one teat cup to a teat of a dairy animal. 12. Milking device according to claim 11 , wherein the milking device is displaceable as a whole by the autonomous self-propelled vehicle. 13. A milking device, comprising at least one teat cup, wherein the teat cup comprises a cup casing with a flexible cup liner around a teat space, a single pulsation space and a milk line, a milking vacuum pump connected to the milk line, the milking vacuum pump providing a milking vacuum, a pulsator connected to the pulsation space, the pulsator providing a controllable air pressure in the pulsation space, and a control device configured to control at least the pulsator during at least a milking action, and wherein the control device is further configured such that during substantially an entire period of time between two milking actions, the control device controls at least one of the pulsator and the milking vacuum pump to provide a substantially non-pulsating pressure difference between the pulsation space and the teat space such that the cup liner shuts off the teat space from the milk line.