Device for the additive manufacturing of three-dimensional objects from powdery construction material

The invention claimed is: 1. A system for additively manufacturing three-dimensional objects, the system comprising: a laser sintering and/or laser melting device comprising a process chamber defined by at least one housing; and an exchangeable container disposed within the process chamber, the exchangeable container comprising a memory chip that can be read by an electronic reading device, the memory chip comprising manufacturing data configured to automatically control, based at least in part on an object built or to be built using the laser sintering and/or laser melting device: operation of one or more active elements of the exchangeable container; and/or operation of one or more transporting paths, the one or more transporting paths configured to move the exchangeable container into or out of the process chamber and/or to or from one or more other processing stations and/or to or from one or more storage positions. 2. The system of claim 1 , wherein: the operation of the one or more active elements of the exchangeable container is performed in connection with: an additive manufacturing process and/or one or more subsequent processing steps, and/or one or more other processing stations associated with the additive manufacturing process and/or the one or more subsequent processing steps, and/or movement of the exchangeable container along the one or more transporting paths; and/or operation of one or more transporting paths is performed in connection with movement of the exchangeable container along the one or more transporting paths. 3. The system of claim 1 , comprising: a programming device for the memory chip. 4. The system of claim 1 , wherein at least one of the one or more transporting paths is configured to move the exchangeable container to the one or more other processing stations. 5. The system of claim 1 , wherein the memory chip is integrated within the exchangeable container or detachably or undetachably fastened to the exchangeable container, and/or disposed within a portion of unsolidified building material within the exchangeable container, and/or connected to or integrated within a building plate disposed within the exchangeable container. 6. The system of claim 1 , comprising: one or more electronic reading devices configured to interact with the memory chip, the one or more electronic reading devices being arranged: on or in the device; at or in the one or more other processing stations; and/or on or at sections of the one or more transporting paths, the one or more transporting paths being disposed between the device and the one or more other processing stations. 7. The system of claim 1 , comprising: at least one sensor element disposed on or within the exchangeable container, wherein the memory chip is communicatively coupled to at least one processor configured to interact with the at least one sensor element. 8. The system of claim 1 , comprising: one or more diverting devices provided along the one or more transporting paths, the one or more diverting devices respectively configured to move the exchangeable container to a respective one of the one or more other processing stations along a respective one of the one or more transporting paths, the one or more diverting devices configured to be electronically controlled by the manufacturing data of the memory chip. 9. The system of claim 1 , wherein the manufacturing data comprises: a first processing sequence to be performed on the object within the process chamber and/or in connection with at least one of the one or more other processing stations; and/or a second processing sequence to be performed on the object, the second processing sequence comprising a thermal treatment, a mechanical surface treatment, an optical measurement, surface irradiation treatment, an inscription treatment, a cooling treatment, and/or exposure to a cooling atmosphere. 10. The system of claim 1 , wherein the one or more other processing stations comprise: a thermal irradiating station, an inscription station, a laser surface processing station, a measuring station, a cooling station, and/or a removal station. 11. The system of claim 1 , comprising: the one or more transporting paths connecting the device to an additional device configured according to claim 1 and/or to the one or more other processing station, the one or more transporting paths configured to move the exchangeable container between the device and the additional device, between the device and the one or more other processing station, and/or between the additional device and the one or more other processing station. 12. The system of claim 11 , wherein the one or more transporting paths comprises a plurality of branches provided therein, and wherein movement of the exchangeable container is controlled at a respective one of the plurality of branches by the manufacturing data of the memory chip. 13. The system of claim 1 , wherein the exchangeable container comprises a servomotor or a drive motor, the servomotor or the drive motor configured to be controlled by the manufacturing data on the memory chip. 14. The system of claim 13 , wherein the exchangeable container comprises a height-adjustable building platform, and the servomotor or the drive motor is configured to control the height adjustment of the building platform. 15. The system of claim 1 , wherein the exchangeable container comprises a heating device, wherein the heating device is configured to be controlled by the manufacturing data of the memory chip. 16. An exchangeable container for use with a device for additive manufacturing of three-dimensional objects, the device comprising a process chamber defined by at least one housing, and the exchangeable container comprising a memory chip that can be read by an electronic reading device, the memory chip comprising manufacturing data configured to automatically control, based at least in part on an object built or to be built using the device: operation of one or more active elements of the exchangeable container; and/or operation of one or more transporting paths, the one or more transporting paths configured to move the exchangeable container into or out of the process chamber and/or to or from one or more other processing stations and/or to or from one or more storage positions; wherein the memory chip is integrated within the exchangeable container or detachably or undetachably fastened to the exchangeable container, and/or disposed within a portion of unsolidified building material within the exchangeable container, and/or connected to or integrated within a building plate disposed within the exchangeable container. 17. The exchangeable container of claim 16 , wherein the one or more active elements of the exchangeable container comprise a drive motor, a heating element, a cooling element, a ventilating motors, and/or a suction extraction equipment. 18. A method of additively manufacturing an object, the method comprising: moving an exchangeable container along at least one of one or more transporting paths into a process chamber of a device for additively manufacturing three-dimensional objects; additively manufacturing an object using the device; moving the exchangeable container along at least one of the one or more transporting paths out of the process chamber and to another processing station and/or to a storage position; and controlling automatically using manufacturing data on a memory chip, operation of one or more active elements of the exchangeable container based at least in part