Additive manufacturing having optical process monitoring

What is claimed is: 1. A system for monitored additive manufacturing of an object, the system comprising: a manufacturing unit configured for additive manufacturing of the object using metal-containing manufacturing material, in a manufacturing volume comprising at least one optical transmission region, wherein the object is built up in a manufacturing cycle by repeating a process of: providing the metal-containing manufacturing material layer-by-layer in a defined quantity, and accurately-position forming the provided manufacturing material, an optical checking unit comprising: one projector, and a first camera; and a control and processing unit, which is designed at least for controlling the manufacturing unit, wherein: the projector and the first camera are arranged outside the manufacturing volume and are aligned in such a way that: respective optical axes defined by the first camera and the projector each extend through at least one transmission region, a projection is generated on a manufacturing area inside the manufacturing volume by means of the projector, at least a part of the manufacturing area on which the projection is overlaid is captured by means of the first camera, and an item of manufacturing information with respect to the manufacturing area or with respect to the provided or formed manufacturing material can be generated based on the capture of the projection, the manufacturing information is transferable to the control and processing unit, the control and processing unit is designed to receive and process the manufacturing information and to adapt the control of the manufacturing unit based on the manufacturing information during the manufacturing cycle or between two manufacturing cycles, the optical checking unit comprises a second camera, and the second camera is arranged outside the manufacturing volume and is aligned such that: respective optical axes defined by the first and the second camera and the projector each extend through a transmission region, and at least a common part of the manufacturing area on which the projection can be overlaid can be captured in each case by the first and the second camera, the control and processing unit comprises a measuring functionality, upon the execution of which a method is performed, the method comprising: a first capture of a first image using the first camera, a second capture of a second image using the second camera, and a derivation of the manufacturing information based on the captured first and captured second image are carried out, based on the captured first and captured second image, a three-dimensional representation with respect to the manufacturing area is derived as the manufacturing information, and the projection is generated as a sequence of different patterns and the three-dimensional representation is derived from the sequence of different patterns. 2. The system 1 according to claim 1 , wherein: at least the first and/or the second camera is: a. essentially thermally decoupled from the manufacturing volume, or b. in a fixed position relationship to the manufacturing volume, or c. fulfilling the Scheimpflug condition with respect to the capture of the manufacturing area using the camera or the projection on the manufacturing area using the projector, respectively. 3. The system according to claim 1 , wherein: d. the manufacturing information represents an item of information with respect to: i. a mean layer thickness of one or more individual layers of the provided or formed manufacturing material, ii. a layer thickness variation in the region of the manufacturing area, iii. a geometry growth of the object due to application of a specific number of individual layers, or iv. a surface roughness of the object. 4. The system according to claim 1 , wherein the manufacturing volume is designed as thermally insulated and the transmission region is designed as a transmission window. 5. The system according to claim 1 , wherein: a temperature of at least one of the cameras is actively regulated by means of the control and processing unit, wherein a ventilation or a Peltier element is provided and is controlled by means of the control and processing unit, or the first and the second camera and the projector are arranged on a frame and a temperature of the frame is actively regulated by means of the control and processing unit. 6. The system according to claim 1 , wherein: at least one of the optical axes is aligned orthogonally to the at least one optical transmission region, the manufacturing volume comprises three optical transmission windows and each one of the optical axes is assigned to one of the transmission windows, or the system comprises at least one aperture usable as a shutter, which interacts with one of the optical axes of the camera or the projector in such a way that a transmission of electromagnetic radiation into the camera or into the projector, respectively, is blocked.