Motor vehicle

The invention claimed is: 1. A motor vehicle, comprising an internal combustion engine, a radiator, a heat exchanger, a coolant pump, and a valve device arranged separately therefrom, which is controlled at an intake side by pressure; the valve device including at least one first coolant inlet, at least one second coolant inlet, and a coolant outlet connected to an inlet of the coolant pump; wherein the valve device is configured to, based on a selected operating point of the coolant pump and a pressure in a coolant, at least one of open and close at least one of the at least one first coolant inlet and the at least one second coolant inlet; wherein the at least one first coolant inlet and a coolant outlet of the coolant pump are connected to the internal combustion engine; wherein the at least one second coolant inlet is connected to the radiator; and wherein, in a first operating point of the coolant pump, the coolant pump has a first rotational speed of a plurality of rotational speeds at which the at least one first coolant inlet is closed and the at least one second coolant inlet is open. 2. The motor vehicle as claimed in claim 1 , wherein, in a second operating point of the coolant pump, the coolant pump is switched off and the at least one first coolant inlet is open. 3. The motor vehicle as claimed in claim 2 , wherein: in a third operating point of the coolant pump, the coolant pump has a second rotational speed of the plurality of rotational speeds at which the at least one first coolant inlet is open and the at least one second coolant inlet is closed; in a fourth operating point of the coolant pump, the coolant pump has a second third rotational speed of the plurality of rotational speeds at which the at least one first coolant inlet and the at least one second coolant inlet are open. 4. The motor vehicle as claimed in claim 3 , wherein the valve device has a valve body, and wherein at least one of: in the third operating point, the valve body is arranged in a first position, in which the valve body blocks the at least one second coolant inlet and uncovers the at least one first coolant inlet; in the fourth operating point, the valve body is arranged in a second position, in which the valve body uncovers the at least one first coolant inlet and the at least one second coolant inlet; and in the first operating point, the valve body is arranged in a third position, in which the valve body blocks the at least one first coolant inlet and uncovers the at least one second coolant inlet. 5. The motor vehicle as claimed in claim 4 , wherein the valve body is structured as a valve piston and is adjustable in a translatory manner. 6. The motor vehicle as claimed in claim 3 , further comprising a spring device, wherein: the valve device has a valve body; in the third operating point, the valve body is arranged in a first position, in which the valve body blocks the at least one second coolant inlet and uncovers the at least one first coolant inlet; and the spring device prestresses the valve body in the first position. 7. The motor vehicle as claimed in claim 6 , wherein the coolant outlet of the coolant pump is connected to the valve device and prestresses the valve body in opposition to the spring device. 8. The motor vehicle as claimed in claim 1 , wherein the valve device is continuously adjustable based on the rotational speed of the coolant pump. 9. The motor vehicle as claimed in claim 1 , further comprising a temperature sensor and a control device communicatively connected thereto configured to control a power of the coolant pump based on a temperature of the coolant. 10. The motor vehicle as claimed in claim 1 , wherein: the valve device includes a first valve body, a second valve body, a first spring device, and a second spring device; the first valve body is adjustable into (i) a first position where the first valve body blocks the at least one first coolant inlet such that the at least one first coolant inlet is closed and (ii) a second position where the first valve body uncovers the at least one first coolant inlet such that the at least one first coolant inlet is open; the second valve body is adjustable into (i) a first position where the second valve body blocks the at least one second coolant inlet such that the at least one second coolant inlet is closed and (ii) a second position where the second valve body uncovers the at least one second coolant inlet such that the at least one second coolant inlet is open; and the first spring device prestress the first valve body in the first position and the second spring device prestress the second valve body in the first position. 11. The motor vehicle as claimed in claim 10 , wherein: the first spring device prestresses the first valve body in the first position via a first spring force; the second spring device prestresses the second valve body in the first position via a second spring force; and the first spring force and the second spring force are different from one another. 12. A motor vehicle, comprising an internal combustion engine, a radiator, a heat exchanger, a coolant pump, and a valve device arranged separately therefrom, which is controlled at an intake side by pressure; the valve device including a plurality of first coolant inlets, a plurality of second coolant inlets, and a coolant outlet connected to an inlet of the coolant pump; wherein the valve device is configured to, based on a selected operating point of the coolant pump and a pressure in a coolant, at least one of open and close at least one of i) at least one of the plurality of first coolant inlets and ii) at least one of the plurality of second coolant inlets; wherein the plurality of first coolant inlets and a coolant outlet of the coolant pump are connected to the internal combustion engine; wherein at least one of the plurality of second coolant inlets is connected to the radiator and at least one of the plurality of second coolant inlets is connected to the heat exchanger; wherein at least two of the plurality of second coolant inlets are configured to open at different operating points of the coolant pump and at different pressures in the coolant; and wherein, in a first operating point of the coolant pump, the coolant pump has a first rotational speed of a plurality of rotational speeds at which at least one of the plurality of first coolant inlets is closed and at least one of the plurality of second coolant inlets is open. 13. The motor vehicle as claimed in claim 12 , wherein, in a second operating point of the coolant pump, the coolant pump is switched off and at least one of the plurality of first coolant inlets is open. 14. The motor vehicle as claimed in claim 13 , wherein: in a third operating point of the coolant pump, the coolant pump has a second rotational speed of the plurality of rotational speeds at which at least one of the plurality of first coolant inlets is open and at least one of the plurality of second coolant inlets is closed; and in a fourth operating point of the coolant pump, the coolant pump has a third rotational speed of the plurality of rotational speeds at which at least one of the plurality of first coolant inlets and at least one of the plurality of second coolant inlets are open. 15. The motor vehicle as claimed in claim 14 , wherein the valve device has a valve body, and wherein at least one of: in the third operating point, the valve body is arranged in a first position, in which the valve body blocks at least one of the plurality of second coolant inlets and uncovers at least one of the plura