Waste heat utilization device and operating method

What is claimed is: 1. A waste heat utilization arrangement for an internal combustion engine ( 2 ) of a motor vehicle, comprising: a waste heat utilization circuit ( 3 ) in which a working medium ( 4 ) circulates, a pumping device ( 5 ), arranged in the waste heat utilization circuit ( 3 ) for pressurizing the working, medium ( 4 ), an evaporator ( 6 ) arranged in the waste heat utilization circuit ( 3 ) downstream from the pumping device ( 5 ) for vaporizing the working medium ( 4 ) by utilizing waste heat from the internal combustion engine ( 2 ), an expansion machine ( 7 ) arranged in the waste heat utilization circuit ( 3 ) downstream from the evaporator ( 6 ) for expanding the working medium ( 4 ) to a low pressure while extracting mechanical energy therefrom, a condenser ( 8 ) arranged in the waste heat utilization circuit ( 3 ) downstream from the expansion machine ( 7 ) for condensing the working medium ( 4 ), and a pressure store ( 16 ) connected to the waste heat utilization circuit ( 3 ) downstream from the condenser ( 8 ) and upstream of the pumping device ( 5 ) in communication with the waste heat utilization circuit ( 3 ) and including an elastic force generating structure ( 27 , 30 ) which is activatable for establishing a predetermined pressure in the working medium ( 4 ) such that a stored volume ( 24 ) is pre-tensioned to a minimum pressure by means of the elastic force generating structure ( 27 , 30 ). 2. The waste heat utilization arrangement according to claim 1 , wherein the pressure store ( 16 ) is includes a mechanical spring-loaded store. 3. The waste heat utilization arrangement according to claim 1 , wherein the pressure store ( 16 ) is an active pressure store and has an actuator ( 30 ) for changing the pressure provided by the elastic force, and wherein a control device ( 20 ) is provided for activating the actuator ( 30 ) for adjusting the minimum pressure as a function of the instantaneous operating state of the waste heat utilization device ( 1 ) and the internal combustion engine ( 2 ). 4. A method for operating a waste heat utilization arrangement ( 1 ) for an internal combustion engine ( 2 ) of a motor vehicle, comprising: a waste heat utilization circuit ( 3 ) in which a working medium ( 4 ) circulates, a pumping device ( 5 ) arranged in the waste heat utilization circuit ( 3 ) for pressurizing the working medium ( 4 ), an evaporator ( 6 ) arranged in the waste heat utilization circuit ( 3 ) downstream from the pumping device ( 5 ) for evaporating the working medium ( 4 ) by utilizing waste heat from the internal combustion engine ( 2 ), an expansion machine ( 7 ) arranged in the waste heat utilization circuit ( 3 ) downstream from the evaporator ( 6 ) for expanding the working medium ( 4 ) to a low pressure while extracting mechanical energy therefrom, and a condenser ( 8 ) arranged in the waste heat utilization circuit ( 3 ) downstream from the expansion machine ( 7 ) for condensing the working medium ( 4 ), and a pressure store ( 16 ) connected to the waste heat utilization circuit ( 3 ) and including an elastic force generating structure ( 27 , 30 ), the method comprising the step of: when the waste heat utilization arrangement ( 1 ) is switched off, actuating the elastic force generating structure ( 27 , 30 ) for establishing in the waste heat utilization circuit ( 3 ) a minimum pressure which is above a resting state pressure that would result upon cooling of the working medium ( 4 ), which is contained in the utilization circuit ( 3 ) during hot operation, down to the ambient temperature of with the waste heat utilization arrangement ( 1 ). 5. The method according to claim 4 , wherein a minimum pressure of at least 500 mbar of the working medium ( 9 ) is established in the waste heat utilization circuit ( 3 ) in a cold state of the waste heat utilization arrangement ( 1 ) upon its cooling to ambient temperature. 6. The method according to claim 5 , wherein the minimum pressure is established by means of a pressure store ( 16 ) which is in communication in the waste heat utilization circuit ( 3 ) downstream from the condenser ( 8 ) and upstream of the conveying device ( 5 ) in the waste heat utilization circuit ( 3 ). 7. The method according to claim 6 , wherein the pressure store ( 16 ) is a spring-loaded store in which a stored volume ( 24 ) is pre-tensioned to the minimum pressure by means of an adjustable elastic force generator ( 27 , 30 ), the pressure store ( 16 ) is an active pressure store and has an actuator ( 30 ) for changing the minimum pressure, and a control device ( 20 ) for activating the actuator ( 30 ) is provided for setting the minimum pressure as a function of the instantaneous operating state of the waste heat utilization device ( 1 ) and the internal combustion engine ( 2 ). 8. The method according to claim 7 , wherein for transient operating states of the waste heat utilization arrangement ( 1 ) during hot operation of the waste heat utilization device ( 1 ), a high pressure is controlled with the aid of the active pressure store ( 16 ). 9. The method according to claim 6 , wherein the pressure store ( 16 ) is activatable, i.e., fluidly coupleable, to the waste heat utilization circuit ( 3 ), and deactivatable, i.e., fluidly decoupleabie from the waste heat utilization circuit ( 3 ) by means of a valve device ( 19 ) arranged in a communication line between the waste heat utilization circuit and the waste heat utilization circuit ( 3 ).