Thermal management for an electric or hybrid vehicle and a method for air-conditioning the interior of such a motor vehicle

What is claimed is: 1. A thermal management system for an electric or hybrid vehicle, the system comprising: a first coolant circuit for a liquid first coolant for controlling a temperature of electrical components of an electric powertrain; an air-conditioning unit for air-conditioning an interior of the vehicle, said air-conditioning unit comprising a first cooling fan, a heater core and a temperature control device, wherein, during operation, an air stream to be air-conditioned is guided through the air-conditioning unit via the first cooling fan and is released into the interior; a second coolant circuit for a liquid second coolant for air-conditioning the interior, which is designed for a lower operating temperature than the first coolant circuit, wherein the second coolant circuit is operable independently of the first coolant circuit and each of the coolant circuits have a pump whereby, in the second coolant circuit, there are no electrical components of said electric powertrain; said temperature control device as part of the air-conditioning unit is integrated in the second coolant circuit for controlling the temperature of the interior and for temperature control operates in the manner of a heat pump, the temperature control device comprising a thermomagnetic or a thermoelectric module, whereby the temperature control device is disposed within said air stream which is guided through the air-conditioning unit and is released into the interior, the first and the second coolant circuits being coupled to one another; and said heater core disposed in the air-conditioning unit, which is selectively connected for a first heating mode by being selectively connected to the first coolant circuit via a first switching valve so that both coolant circuits are coupled to one another such that the first and second coolant intermix with one another and heat is transferred from the first coolant circuit to the second coolant circuit, wherein, in a cooling mode, both coolant circuits are decoupled and respectively emit heat into the environment, and wherein, in the cooling mode, heat of the temperature control device is absorbed by the second coolant and released via an ambient temperature heat exchanger to the environment and heat of said electrical components is absorbed by the first coolant and released to the environment. 2. The thermal management system according to claim 1 , wherein the thermal management system is, for air-conditioning the interior, free of a refrigerant circuit with a compressor unit and active cooling of the interior is carried out exclusively by means of the thermomagnetic or thermoelectric module. 3. The thermal management system according to claim 1 , wherein the first coolant circuit is associated with a first ambient heat exchanger and the second coolant circuit is associated with a second ambient heat exchanger. 4. The thermal management system according to claim 1 , wherein, for controlling the temperature of a battery, the battery is integratable in the second coolant circuit. 5. The thermal management system according to claim 1 , wherein, in a storage mode, at least one of the electrical components of the electric powertrain or a battery is exploited as thermal storage for the second cooling circuit, and the second coolant is not guided through the ambient heat exchanger. 6. The thermal management system according to claim 1 , wherein a preconditioning mode is provided, during which time before starting the vehicle, the interior or a component of the electric powertrain is preheated. 7. The thermal management system of claim 1 , wherein, in the second coolant circuit, a further temperature control device is integrated in a seat for controlling the temperature of the seat and has a further thermomagnetic or thermoelectric module and is not a PTC element. 8. The thermal management system of claim 1 , further comprising a burner associated with the heater core, wherein the first cooling fan and the temperature control device are integrated in the air-conditioning unit, and wherein the heater core is integrated in a bypass line from the second coolant circuit. 9. The thermal management system according to claim 1 , wherein a switchable burner is arranged in the system. 10. The thermal management system according to claim 9 , wherein for a second heating mode, the temperature control device is switched on for heating. 11. The thermal management system according to claim 10 , wherein for a third heating mode, the switchable burner is switched on and the temperature control device is switched off. 12. The thermal management system according to claim 11 , wherein at a high heat demand in a fourth heating mode, both the switchable burner and the temperature control device are switched on.