Adsorption Refrigeration Device, Arrangement and Motor Vehicle

1 . An adsorption refrigeration device, comprising: at least one first chamber with an adsorber/desorber material; and at least one second chamber with an evaporator/condenser device, the first chamber and the second chamber fluidically connected together via a pipeline, and wherein the fluidic connection between the first chamber and the second chamber is configured to be blocked in a first function position and opened in a second function position via a valve device arranged in the pipeline, and wherein the valve device has a valve element with a variable diameter, the valve element configured such that (i) in the first function position, the valve element has a first diameter with which the valve element fills an inner cross section of the pipeline and lies tightly against an inner wall of the pipeline and (ii) in the second function position, the valve element has a second diameter that is smaller than the first diameter so that a gap is opened between the inner wall of the pipeline and the valve element. 2 . The adsorption refrigeration device as claimed in claim 1 , wherein: the valve element has an elastic sleeve surrounding a working chamber, the working chamber is sealed against the pipeline, the first chamber and the second chamber, the working chamber is actively connected to a control valve device so that (i) in the first function position, the working chamber is configured to be pressurized by the control valve device with a first pressure and (ii) in the second function position, the working chamber is configured to be pressurized by the control valve device with a second pressure, and the first pressure is higher than the second pressure. 3 . The adsorption refrigeration device as claimed in claim 2 , wherein in the first function position, the working chamber is fluidically connected via the control valve device to the environment of the adsorption refrigeration device. 4 . The adsorption refrigeration device as claimed in claim 2 , wherein in the second function position, the working chamber is fluidically connected via the control valve device to a vacuum source. 5 . The adsorption refrigeration device as claimed in claim 1 , wherein the pipeline has a constriction on which the valve element lies tightly in the first function position. 6 . The adsorption refrigeration device as claimed in claim 1 , wherein the valve element is configured as one or more of a rubber gaiter and a bellows. 7 . The adsorption refrigeration device as claimed in claim 1 , further comprising: at least two chambers with adsorber/desorber material; and at least two chambers each with an evaporator/condenser device. 8 . An arrangement, comprising: a motor; and an adsorption refrigeration device including: at least one first chamber with an adsorber/desorber material, and at least one second chamber with an evaporator/condenser device, the first chamber and the second chamber fluidically connected together via a pipeline, wherein the fluidic connection between the first chamber and the second chamber is configured to be blocked in a first function position and opened in a second function position via a valve device arranged in the pipeline, and wherein the valve device has a valve element with a variable diameter, the valve element configured such that (i) in the first function position, the valve element has a first diameter with which the valve element fills an inner cross section of the pipeline and lies tightly against an inner wall of the pipeline and (ii) in the second function position, the valve element has a second diameter that is smaller than the first diameter so that a gap is opened between the inner wall of the pipeline and the valve element, wherein the motor and the adsorption refrigeration device are fluidically connected to each other such that the adsorption refrigeration device is configured to be supplied with waste heat from the motor. 9 . A motor vehicle, comprising: an arrangement with a motor and an adsorption refrigeration device, the adsorption refrigeration device including: at least one first chamber with an adsorber/desorber material, and at least one second chamber with an evaporator/condenser device, the first chamber and the second chamber fluidically connected together via a pipeline, wherein the fluidic connection between the first chamber and the second chamber is configured to be blocked in a first function position and opened in a second function position via a valve device arranged in the pipeline, and wherein the valve device has a valve element with a variable diameter, the valve element configured such that (i) in the first function position, the valve element has a first diameter with which the valve element fills an inner cross section of the pipeline and lies tightly against an inner wall of the pipeline and (ii) in the second function position, the valve element has a second diameter that is smaller than the first diameter so that a gap is opened between the inner wall of the pipeline and the valve element, wherein the motor and the adsorption refrigeration device are fluidically connected to each other such that the adsorption refrigeration device is configured to be supplied with waste heat from the motor.