Valve assembly for a refrigerant circuit

The invention claimed is: 1. A valve assembly for a refrigerant circuit, comprising: precisely two ball valves, which each have a ball as a control element and an actuator for adjusting the associated ball, an indirect condenser with a first check valve arranged at a downstream side thereof, and a condenser with a second check valve arranged at a downstream thereof, wherein the two ball valves are each embodied as three-way valves, which can have bidirectional through flow, having three connectors, wherein a first ball of a first ball valve has a T-shaped hole, which permits flow alternately through two connectors of the three connectors and blocking of one connector of the three connectors or flow simultaneously through the three connectors, wherein a second ball of a second ball valve has an L-shaped hole and only two connections, which permits flow alternately through two connectors of the three connectors and blocking of one connector of the three connectors or blocking of the three connectors, wherein the valve assembly is configured to, during a cooling operating mode, control switching of the first ball valve to connect the condenser to a high-pressure side of a compressor, thereby flowing the condenser, and control switching of the second ball valve to connect the indirect condenser to a suction side of the compressor, whereby switching of the first ball valve prevents inflow to the indirect condenser, the first check valve blocks at least the downstream side of the indirect condenser, and the indirect condenser is aspirated through an upstream side thereof by the compressor via the second ball valve, and wherein the valve assembly is further configured to, during a heating operating mode, control switching of the first ball valve to connect the indirect condenser to the high-pressure side of the compressor, thereby flowing the indirect condenser, and control switching of the second ball valve to connect the condenser to the suction side of the compressor, whereby switching of the first ball valve prevents inflow to the condenser, the second check valve blocks the downstream side of the condenser, and the condenser is aspirated through an upstream side thereof by the compressor via the second ball valve. 2. The valve assembly according to claim 1 , wherein the two ball valves each have a valve block having flow ducts, in which the connectors are formed and the balls are mounted in a rotationally movable manner. 3. The valve assembly according to claim 1 , wherein a first connecting block having a first connecting part connects a second connector of the first ball valve to a second connector of the second ball valve, and a second connecting block having a second connecting part connects a third connector of the first ball valve to a third connector of the second ball valve. 4. The valve assembly according to claim 1 , wherein the valve assembly is further configured to, during a filling or flushing operation, control switching of the first ball valve to connect both the condenser and the indirect condenser to the high-pressure side of the compressor such that blocking by the second ball valve prevents aspiration of both the condenser and the indirect condenser. 5. The valve assembly according to claim 3 , wherein a first connector of the first ball valve is connected to a first fluid connector of the valve assembly and a first connector of the second ball valve is connected to a second fluid connector of the valve assembly, and the first connecting part has a third fluid connector of the valve assembly and the second connecting part has a fourth fluid connector of the valve assembly. 6. The valve assembly according to claim 1 , wherein the first ball has two half holes and one through hole. 7. The valve assembly according to claim 6 , wherein the axes of the two half holes and the through hole are each perpendicular to one another and meet in the ball center. 8. The valve assembly according to claim 5 , wherein the first ball has two half holes and one through hole, wherein the first ball connects the first connector to the second connector and blocks the third connector in a first switch position of the first ball valve and connects the first connector to the second connector and to the third connector in a second switch position of the first ball valve and connects the first connector to the third connector and blocks the second connector in a third switch position of the first ball valve. 9. The valve assembly according to claim 8 , wherein the first ball valve has compensation means, which provide a defined minimum flow cross section for the fluid flow during a switchover procedure between two switch positions. 10. The valve assembly according to claim 1 , wherein the second ball has two half holes. 11. The valve assembly according to claim 10 , wherein the axes of the two half holes are perpendicular to one another and meet in the ball center. 12. The valve assembly according to claim 5 , wherein the second ball has two half holes, wherein the second ball connects the first connector to the second connector and blocks the third connector in a first switch position of the second ball valve and blocks the first connector and the second connector and the third connector in a second switch position of the second ball valve and connects the first connector to the third connector and blocks the second connector in a third switch position of the second ball valve. 13. A motor vehicle comprising a refrigerant circuit with the valve assembly according to claim 1 . 14. The refrigerant circuit according to claim 1 , wherein a first fluid connector of the valve assembly is connected to the high-pressure side of the compressor, a second fluid connector of the valve assembly is connected to the suction-pressure side of the compressor, a third fluid connector of the valve assembly is connected to the condenser, and a fourth fluid connector of the valve assembly is connected to the indirect condenser. 15. The refrigerant circuit according to claim 1 , wherein the two ball valves are switched over in a predetermined sequence to change between the operating modes of the refrigerant circuit. 16. The valve assembly according to claim 2 , wherein a first connecting block having a first connecting part connects a second connector of the first ball valve to a second connector of the second ball valve, and a second connecting block having a second connecting part connects a third connector of the first ball valve to a third connector of the second ball valve. 17. The valve assembly according to claim 2 , wherein the valve blocks are formed as manifolds in which the flow ducts and the connectors are formed. 18. The valve assembly according to claim 3 , wherein the first connecting block is formed as a first manifold in which the first connecting part is formed and the second connecting block is formed as a second manifold in which the second connecting part is formed. 19. The valve assembly according to claim 4 , wherein the shared fluid block is formed as a manifold in which the flow ducts, the connectors, the first connecting part, and the second connecting part are formed.