Method for calibrating a device for producing a three-dimensional object and device configured for implementing said method

The invention claimed is: 1. A calibration method for calibrating a manufacturing device for additively producing a three-dimensional object by applying layer by layer and selectively solidifying a building material, within a build area in a working plane, wherein the manufacturing device comprises at least a first scanning unit which is configured to direct a first beam to a first target point in the working plane and a second scanning unit which is configured to direct a second beam to a second target point in the working plane, where the first target point is located within a first scanning region assigned to the first scanning unit and the second target point is located within a second scanning region assigned to the second scanning unit, the first and second scanning regions of the first and second scanning units overlapping in an overlap area, the method comprising: locating the first and second scanning units in an upper region of a build chamber and spaced above the build area; providing a first monitoring unit configured to detect a radiation emitted or reflected from a surface of an applied powder layer, the first monitoring unit being spaced above the build area with the first and second scanning units, the first monitoring unit monitoring a first monitoring region on the working plane from above, the first monitoring region comprising the first target point of the first scanning unit and a proximity of the first target point; controlling the first scanning unit to position the first monitoring region of the first monitoring unit in the overlap area by controlling the first scanning unit to position the first target point to a predetermined point in the overlap area without the first beam emanating from the first scanning unit; irradiating at least a portion of the first monitoring region of the first monitoring unit with the second beam via the second scanning unit, wherein irradiating is performed by scanning implemented according to a predetermined pattern; detecting, by the first monitoring unit, the radiation emitted or reflected from the surface of the applied powder layer, the radiation being generated by irradiation of the applied powder layer by the second beam; and evaluating an output signal of the first monitoring unit. 2. The calibration method according to claim 1 , further comprising: providing a second monitoring unit which is configured to detect the radiation emitted or reflected from the surface of the applied powder layer, the second monitoring unit being spaced above the build area working plane with the first and second scanning units, the second monitoring unit monitoring a second monitoring region on the working plane from above; changing a position of the second monitoring region of the second monitoring unit on the working plane depending on a change of a position of the second target point of the second scanning unit on the working plane so that the second monitoring region comprises the second target point and its proximity; and evaluating an output signal of the second monitoring unit. 3. The calibration method according to claim 2 , further comprising repeating the calibration method in the overlap area by moving the second beam of the second scanning unit across the working plane with the first monitoring region of the first monitoring unit following movement of the second beam. 4. The calibration method according to claim 2 , wherein the second monitoring region of the second monitoring unit is limited to the target point of the second scanning unit and its proximity. 5. The calibration method according to claim 2 , wherein the second scanning unit comprises a second mirror; and wherein changing a position of the second target point of the second scanning unit on the working plane and changing a position of the second monitoring region of the second monitoring unit on the working plane are performed by moving the second mirror. 6. The calibration method according to claim 1 , further comprising: providing a second monitoring unit which is configured to detect a radiation emitted or reflected from the surface of the applied powder layer, the second monitoring unit being spaced above the build area working plane with the first and second scanning units, the second monitoring unit monitoring a second monitoring region on the working plane from above; controlling the second scanning unit to position the second target point in a region on the working plane within the overlap area without the second beam emanating from the second scanning unit; changing a position of the second monitoring region of the second monitoring unit on the working plane depending on a change of a position of the second target point of the second scanning unit on the working plane so that the second monitoring region comprises the second target point and its proximity; irradiating at least a portion of the second monitoring region of the second monitoring unit with the first beam via the first scanning unit; and evaluating an output signal of the second monitoring unit. 7. The calibration method according to claim 6 , wherein the second monitoring region of the second monitoring unit is limited to the target point of the second scanning unit and its proximity. 8. The calibration method according to claim 6 , wherein the second scanning unit comprises a second mirror; and wherein the changing the position of the second target point of the second scanning unit on the working plane and the changing the position of the second monitoring region of the second monitoring unit on the working plane are performed by moving the second mirror. 9. The calibration method according to claim 1 , wherein when the second beam passes through the first monitoring region, a melt pool occurs at incidence regions of the second beam on the applied powder layer, the melt pool emitting radiation that is detected by the first monitoring unit. 10. The calibration method according to claim 1 , wherein the beam of at least one of the first and scanning units is a beam of a radiation suited for solidifying the building material. 11. The calibration method according to claim 1 , wherein the evaluating the output signal includes determining an extreme value of the output signal and/or comparing a signal curve of the output signal with a predetermined comparison pattern. 12. The calibration method according to claim 1 , wherein a beam path of the radiation for monitoring the first monitoring region of the first monitoring unit is at least within a section of the first monitoring region in a reversed direction as a beam path of the beam of a radiation suited to solidify the building material, or of a target beam whose energy is not sufficient to solidify the building material. 13. The calibration method according to claim 1 , further comprising: determining correction data for positioning at least one of the beams based on the evaluating the output signal, wherein a difference between a wavelength of a radiation used for monitoring the first monitoring region of the first monitoring unit and a wavelength of a radiation suited for solidifying the building material and/or a target beam and/or a laser beam whose energy is not sufficient to solidify the building material is incorporated for determining the correction data. 14. A production method for additively producing a three-dimensional object by applying layer by layer and selectively solidifying a building material, comprising: applying a layer of the building material in a build area within a working plane; solidifying the layer of the building material at positions that correspond to a res