A sorption module may include a housing enclosing a working chamber including a sorption zone and a phase change zone arranged therein. The sorption module may also include a sorption structure, which may be arranged in the sorption zone and coupled in a heat-transmitting manner to a sorption path f
A sorption module may include a housing enclosing a working chamber including a sorption zone and a phase change zone arranged therein. The sorption module may also include a sorption structure, which may be arranged in the sorption zone and coupled in a heat-transmitting manner to a sorption path for guiding a sorption path medium, and a phase change structure, which may be arranged in the phase change zone and coupled in a heat-transmitting manner to a phase change path for guiding a phase change path medium. The sorption module may further include a control device configured to control a fluidic connection through which a working medium may be reversibly displaceable between the sorption zone and the phase change zone. The control device may include an actuator configured to control the fluidic connection depending on an adjustment of the actuator and an actuating drive configured to adjust the actuator.
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1. A sorption module for a sorption temperature-control device, comprising: a housing that encloses a working chamber that includes a sorption zone and a phase change zone arranged therein;a sorption structure arranged in the sorption zone and coupled in a heat-transmitting manner to a sorption path
1. A sorption module for a sorption temperature-control device, comprising: a housing that encloses a working chamber that includes a sorption zone and a phase change zone arranged therein;a sorption structure arranged in the sorption zone and coupled in a heat-transmitting manner to a sorption path for guiding a sorption path medium;a phase change structure arranged in the phase change zone and coupled in a heat-transmitting manner to a phase change path for guiding a phase change path medium; anda control device configured to control a fluidic connection through which a working medium is reversibly displaceable between the sorption zone and the phase change zone;wherein the control device includes an actuator configured to cooperate with the fluidic connection such that the actuator controls the fluidic connection depending on an adjustment of the actuator; andwherein the control device further includes an actuating drive configured to adjust the actuator. 2. The sorption module according to claim 1, wherein the actuating drive is one of an electrically operating actuating drive and an electromagnetically operating actuating drive. 3. The sorption module according to claim 1, wherein the actuating drive is one of a pneumatically operating actuating drive and a hydraulically operating actuating drive. 4. The sorption module according to claim 1, wherein: the actuating drive is attached to an outside face of an outer wall of the housing; andthe actuator passes through a through-opening formed in the outer wall and cooperates with the fluidic connection in the working chamber. 5. The sorption module according to claim 4, further comprising an elastic membrane connected to the actuator and the outer wall, the elastic membrane sealing the through-opening with respect to the working chamber. 6. The sorption module according to claim 1, wherein: the housing includes a partition that fluidically separates the sorption zone from the phase change zone; andthe fluidic connection includes at least one connecting opening in the partition. 7. The sorption module according to claim 1, wherein the actuator is a valve including an adjustable valve member for controlling the fluidic connection. 8. The sorption module according to claim 7, wherein the adjustable valve member cooperates with a valve seat that borders the at least one connecting opening. 9. The sorption module according to claim 7, wherein the valve is an overpressure opening valve, which, when the fluidic connection is closed, is configured to open the fluidic connection when a pressure in the sorption zone exceeds a pre-determined overpressure relative to a pressure of at least one of the phase change zone and the surroundings. 10. The sorption module according to claim 9, wherein the overpressure opening valve includes a coupling element that is adjustable by the actuating drive, the coupling element coupled to the valve member by a pre-tensioning spring. 11. The sorption module according to claim 6 wherein: the housing is configured to be cuboid, the sorption zone and the phase change zone arranged adjacent to one another therein; andthe partition is arranged between the sorption zone and the phase change zone. 12. The sorption module according to claim 11, wherein the partition includes a step on which the at least one connecting opening is arranged. 13. The sorption module according to claim 6, wherein: the housing is cylindrical;the phase change zone encloses the sorption zone annularly in a circumferential direction of the housing; andthe partition is annular and arranged radially between the sorption zone and the phase change zone. 14. The sorption module according to claim 13, wherein: the housing includes a jacket extending in the circumferential direction and is configured to be double-walled and hollow-walled; andwherein the phase change path is guided through the jacket. 15. The sorption module according to claim 14, wherein the phase change structure contacts, in a heat-transmitting manner, an inner side of the jacket that faces the working chamber, and the phase change structure is at a radial distance from the partition. 16. A sorption temperature-control device, comprising: at least one sorption module including:a housing that encloses a working chamber that includes a sorption zone and a phase change zone arranged therein;a sorption structure arranged in the sorption zone and coupled in a heat-transmitting manner to a sorption path for guiding a sorption path medium;a phase change structure arranged in the phase change zone and coupled in a heat-transmitting manner to a phase change path for guiding a phase change path medium; anda control device configured to control a fluidic connection through which a working medium is reversibly displaceable between the sorption zone and the phase change zone;wherein the control device includes an actuator configured to cooperate with the fluidic connection such that the actuator controls the fluidic connection depending on an adjustment of the actuator; andwherein the control device further includes an actuating drive configured to adjust the actuator;at least one sorption circuit through which the sorption path medium circulates; andat least one phase change circuit through which the phase change path medium circulates;wherein the sorption path is incorporated in the at least one sorption circuit and the phase change path is incorporated in the at least one phase change circuit. 17. The sorption temperature-control device according to claim 16, wherein the actuating drive operates one of electrically, electromagnetically, pneumatically, and hydraulically. 18. The sorption module according to claim 16, wherein the housing includes a partition that fluidically separates the sorption zone from the phase change zone, and wherein the fluidic connection is structured as at least one connecting opening in the partition. 19. The sorption module according to claim 16, wherein the actuator is a valve including an adjustable valve member for controlling the fluidic connection. 20. A sorption module, comprising: a housing that encloses a working chamber that includes a sorption zone and a phase change zone arranged therein, the housing further including an outer wall having an outside face, the outer wall including a through-opening;a sorption structure arranged in the sorption zone and coupled in a heat-transmitting manner to a sorption path for guiding a sorption path medium;a phase change structure arranged in the phase change zone and coupled in a heat-transmitting manner to a phase change path for guiding a phase change path medium;a control device configured to control a fluidic connection through which a working medium is reversibly displaceable between the sorption zone and the phase change zone; andan elastic membrane;wherein the control device includes an actuator configured to cooperate with the fluidic connection such that the actuator controls the fluidic connection depending on an adjustment of the actuator;wherein the control device further includes an actuating drive configured to adjust the actuator, the actuating drive passing through the through-opening and cooperating with the fluidic connection in the working chamber; andwherein the elastic membrane is connected to the actuator and the outer wall such that the through-opening is sealed with respect to the working chamber.
Hoehne, Merle; Hoehne, Joachim; Heinrich, Hans Juergen, Method and apparatus for tempering gaseous and/or liquid media in transportation vehicles, particularly in aircraft.
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Peter Maier-Laxhuber DE; Andreas Becky DE; Gert Richter DE; Reiner Worz DE; Manfred Binnen DE; Leo Totschnig DE; Ralf Schmidt DE; Jannik Inselkammer DE; Martin Leibhard DE; Maximilian Ammon , Sorption cooler.
Rudiger Weiss DE; Jurgen Just DE; Hartmut Gehse DE; Peter Maier-Laxhuber DE; Reiner Worz DE; Andreas Becky DE; Leo Totschnig DE; Christoph Grupp DE, Sorption device for heating and cooling gas streams.
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