Air conditioning system of a motor vehicle and method for operating the air conditioning system

The invention claimed is: 1. An air-conditioning system of a motor vehicle comprising a coolant circuit, the coolant circuit comprising: a conveying device, a first coolant-air heat exchanger for heating the inflowing air for a passenger compartment of the motor vehicle, a second coolant-air heat exchanger, and a refrigerant-coolant heat exchanger; and a refrigerant circuit, the refrigerant circuit comprising: a compressor, a refrigerant-coolant heat exchanger operable as a condenser/gas cooler to transfer heat between the refrigerant and coolant of the coolant circuit, and a second refrigerant-air heat exchanger operable exclusively as an evaporator; a first expansion valve and a first refrigerant-air heat exchanger for conditioning the inflowing air for the passenger compartment, a second expansion valve disposed upstream of the second refrigerant-air heat exchanger in a direction of flow of the refrigerant, wherein the second expansion valve and the second refrigerant-air heat exchanger are disposed within a first flow path, wherein the first expansion valve is disposed upstream of the first refrigerant-air heat exchanger, wherein the second expansion valve is disposed downstream of the first refrigerant-air heat exchanger, wherein the refrigerant circuit comprises a second flow path having a valve, wherein the first flow path and the second flow path extend from a branching site to an opening site and the second flow path is developed as a bypass parallel to the first flow path, wherein, when heat provided in the refrigerant circuit for heating the inflowing air of the passenger compartment is greater than or equal to a predetermined value, the valve is opened while the second expansion valve is closed, so that heat absorption in the second refrigerant-air heat exchanger does not occur, and wherein the coolant circuit comprises a branching site and an opening site, wherein a first flow path extending between the branching site and the opening site and having the second coolant-air heat exchanger is provided and wherein a second flow path as a bypass around the second coolant-air heat exchanger is provided. 2. The air-conditioning system as in claim 1 , wherein the second coolant-air heat exchanger of the coolant circuit and the second refrigerant-air heat exchanger of the refrigerant circuit are disposed within an installation module. 3. The air-conditioning system as in claim 2 , wherein the installation module wherein air conducted out of the passenger compartment, ambient air, or a mixture thereof flows therethrough. 4. The air-conditioning system as in claim 1 , wherein the first refrigerant-air heat exchanger and the second refrigerant-air heat exchanger are disposed in series. 5. The air-conditioning system as in claim 1 , wherein the first refrigerant-air heat exchanger and the second refrigerant-air heat exchanger are disposed within the refrigerant circuit such that a flow can be conducted through them in parallel. 6. The air-conditioning system as in claim 5 , wherein the first flow path with the second expansion valve and the second refrigerant-air heat exchanger is positioned such that it extends from a branching site to an opening site, and wherein the first expansion valve, the first refrigerant-air heat exchanger and a third expansion valve are positioned within a second flow path, wherein the third expansion valve is disposed downstream of the refrigerant-air heat exchanger and the second flow path extends from the branching site to the opening site. 7. The air-conditioning system as in claim 6 , wherein the refrigerant circuit comprises a heat exchanger operable as an evaporator, and a fourth expansion valve, wherein the fourth expansion valve is disposed upstream of the heat exchanger, which are positioned within a third flow path, and wherein the third flow path extends from the branching site to the opening site. 8. The air-conditioning system as in claim 7 , wherein the heat exchanger is a refrigerant-coolant heat exchanger. 9. The air-conditioning system as in claim 1 , wherein a collector is disposed within the refrigerant circuit. 10. The air-conditioning system as in claim 1 , wherein a collector is integrated within the refrigerant-coolant heat exchanger. 11. The air-conditioning system as in claim 10 , wherein the branching site is a three-way valve. 12. The air-conditioning system as in claim 1 , wherein the coolant circulation comprises a branching site and an opening site, wherein the branching site is disposed between the conveying device and the first coolant-air heat exchanger, and wherein the opening site is disposed between the first coolant-air heat exchanger and the refrigerant-coolant heat exchanger, wherein the second coolant-air heat exchanger is disposed within a first flow path and the first coolant-air heat exchanger within a second flow path, and wherein the first flow path and the second flow path extend from the branching site to the opening site. 13. The air-conditioning system as in claim 1 , wherein the refrigerant circuit comprises an internal heat exchanger. 14. A method for operating an air-conditioning system of a motor vehicle, the system having a refrigerant circuit and a coolant circuit for operation in chiller mode, in heat pump mode and in reheat mode for the inflowing air to be conditioned of the passenger compartment according to claim 1 , wherein heat is transferred from air to refrigerant in the second refrigerant-air heat exchanger, wherein the pressure level of the refrigerant within the second refrigerant-air heat exchanger is set such that the pressure level of the refrigerant within the second refrigerant-air heat exchanger corresponds to the pressure level of the refrigerant within the first refrigerant-air heat exchanger or is less than the pressure level of the refrigerant within the first refrigerant-air heat exchanger; wherein the second refrigerant-air heat exchanger is an evaporator. 15. The method for operating an air-conditioning system as in claim 14 , wherein refrigerant is conducted in series or in parallel through the first refrigerant-air heat exchanger and the second refrigerant-air heat exchanger. 16. The method for operating an air-conditioning system as in claim 14 , wherein coolant is conducted in series or parallel through the first coolant-air heat exchanger and the second coolant-air heat exchanger.