Refrigerant circuit for a vehicle air conditioning system with heat pump

What is claimed is: 1. A refrigerant circuit for a vehicle air conditioning system with a heat pump function comprising: an evaporator configured to receive a first flow of air therethrough; a compressor in fluid communication with the evaporator; a condenser in fluid communication with the evaporator; an expansion element in fluid communication with the evaporator; a supplemental evaporator arranged upstream from the compressor in the refrigerant circuit, the supplemental evaporator disposed in a fluid guiding arrangement configured to receive a second flow of air separate from the first flow of air, wherein the fluid guiding arrangement is provided at an inlet of the supplemental evaporator, wherein a temperature of the second flow of air at the inlet of the supplemental evaporator is higher than a temperature of outside air surrounding the vehicle, and wherein the fluid guiding arrangement has a closure configured to selectively prevent all flow of the second flow of air through the supplemental evaporator; a supplemental expansion element arranged upstream from the supplemental evaporator and downstream from the evaporator in the refrigerant circuit, wherein all of a refrigerant exiting the evaporator always flows in series through the supplemental expansion element and the supplemental evaporator before entering the compressor; and a supplemental heat exchanger arranged between the compressor and the condenser in the refrigerant circuit for direct or indirect transfer of heat to a vehicle cabin, wherein the supplemental heat exchanger is directly connected to the condenser. 2. The refrigerant circuit according to claim 1 , wherein the supplemental heat exchanger is arranged in the first flow of air. 3. The refrigerant circuit according to claim 2 , wherein the supplemental heat exchanger is arranged downstream from the evaporator with respect to the first flow of air. 4. The refrigerant circuit according to claim 1 , wherein the supplemental heat exchanger is configured for use in an electric vehicle or a hybrid vehicle and is positioned at a location wherein the supplemental heat exchanger can be used as a heating heat exchanger, and wherein the supplemental heat exchanger is positioned in a flow of air of the electric vehicle or the hybrid vehicle. 5. The refrigerant circuit according to claim 1 , wherein the supplemental evaporator is configured for arrangement in an engine compartment or another location in the vehicle surrounded by warm air. 6. The refrigerant circuit according to claim 1 , wherein the fluid guiding arrangement is further provided at an outlet of the supplemental evaporator and has a flowback closure at the outlet of the supplemental evaporator. 7. The refrigerant circuit according to claim 6 , wherein the closure and the flowback closure are configured as flaps. 8. The refrigerant circuit according to claim 1 , wherein the fluid guiding arrangement is configured as an air guiding arrangement and comprises a blower. 9. The refrigerant circuit according to claim 1 , wherein the fluid guiding arrangement is configured as an air guiding arrangement with flaps for at least one of alternating a flow of circulating air or a flow of engine compartment air through the supplemental evaporator and simultaneously permitting the flow of circulating air and the flow of engine compartment air through the supplemental evaporator. 10. The refrigerant circuit according to claim 1 , wherein the fluid guiding arrangement is an evaporator box.