Exhaust heat utilisation device

The invention claimed is: 1. An exhaust gas heat utilisation device for a combustion engine of a vehicle, comprising: an exhaust heat utilisation circuit, in which a working medium circulates, an expansion machine arranged in the exhaust heat utilisation circuit downstream of the evaporator for expanding the working medium, a condenser arranged in the exhaust heat utilisation circuit downstream of the expansion machine for condensing the working medium, a pump arranged in the exhaust heat utilisation circuit downstream of the condenser for driving the working medium in the exhaust heat utilisation circuit, and a heat storage unit, wherein the heat storage unit is incorporated in the exhaust heat utilisation circuit and is supplied thermal energy by the working medium, and also supplies thermal energy to the exhaust gas via the working medium; an evaporator housing containing a heat transfer block having an evaporator section and a heat storage section, the heat storage section having a heat storage structure; wherein the evaporator housing is configured to receive a flow of exhaust gas from the combustion engine, and further configured to receive a flow of the working medium; wherein, in the evaporator section, the exhaust gas is coupled to the working medium in a heat-transferring manner, and in the heat storage section, the exhaust gas and the working medium are coupled in a heat-transferring manner to a heat storage material of the heat storage structure; an evaporator bypass disposed within the evaporator housing, the evaporator bypass configured to direct the flow of exhaust gas such that it bypasses the evaporator section; and wherein the heat storage structure is positioned downstream of the evaporator section such that the exhaust gas flows through the evaporator section before flowing through the heat storage unit. 2. The exhaust heat utilisation device according to claim 1 , wherein the heat storage unit is connected to the exhaust heat utilisation circuit via an advance line and a return line, and further comprising, an advance valve for controlling the advance line or a return valve for controlling the return line. 3. The exhaust heat utilisation device according to claim 2 , wherein the advance line is connected to the exhaust heat utilisation circuit between the evaporator housing and the expansion machine, wherein the return line is connected to the exhaust heat utilisation circuit between the expansion machine and the condenser. 4. The exhaust heat utilisation device according claim 1 , further comprising, a condenser bypass for bypassing the condenser, which the condenser bypass is connected to the exhaust heat utilisation circuit between the expansion machine and the condenser and is connected between the condenser and the pump, wherein the condenser bypass further comprises, a bypass valve for controlling the condenser bypass. 5. The exhaust heat utilisation device according to claim 1 , wherein the condenser is coupled to a cooling circuit in a heat-transferring manner, the cooling circuit being additionally coupled to the combustion engine in a heat-transferring manner, wherein the combustion engine generates the exhaust gas for supplying the evaporator housing. 6. The exhaust heat utilisation device according to claim 1 , wherein the heat storage unit is configured as latent heat storage unit, which operates with a phase change material, and a pressure adjusting device for adjusting the pressure in the phase change material is provided, and a pressure adjusting device for adjusting the pressure in the working medium is provided. 7. A method for operating a combustion engine of a motor vehicle, which is equipped with a exhaust heat utilisation device according to claim 1 , comprising: charging the heat storage unit; wherein the step of charging comprises at least one part flow of the working medium being conducted through the heat storage unit. 8. The method according to claim 7 , further comprising taking heat from the heat storage unit and feeding the heat to the combustion engine via the condenser and via the cooling circuit, during a cold starting phase of the combustion engine. 9. The method according to claim 7 , further comprising the step of increasing the temperature of the exhaust gas; wherein, in the step of increasing the temperature, heat is taken from the heat storage unit and fed to the exhaust gas via the evaporator. 10. The method according to claim 7 , wherein the heat storage unit configured to bypass the expansion machine which is connected to the exhaust heat utilisation circuit between the evaporator housing and the expansion machine and on the other hand between the expansion machine and the condenser, wherein for increasing the temperature of the exhaust gas heat is taken from the heat storage unit and fed to the exhaust via the evaporator housing, when the pump is reversed.