Alignment device and method for mounting a guide rail in an elevator shaft of an elevator system

The invention claimed is: 1. An alignment device for alignment of a guide rail in an elevator shaft of an elevator system relative to a shaft wall of the elevator shaft, the alignment device comprising: an abutment part having a recess with a complementary shape to a running surface of the guide rail; and a targeting device fastened to the alignment device and having a laser means that projects at least three mutually spaced projected dots onto the shaft wall when the alignment device is positioned in the elevator shaft, wherein a marking on the shaft wall includes at least three mutually spaced marking dots, and when the guide rail is positioned in the recess and the abutment part is brought into a defined position relative to the marking on the shaft wall, the at least three projected dots lie on the at least three marking dots and the guide rail is aligned with the shaft wall. 2. The alignment device according to claim 1 wherein the laser means has three lasers for projecting the at least three projected dots. 3. The alignment device according to claim 1 including an elongate verification marking formed on the abutment part for checking a correct course of a cord fastened to the alignment device. 4. A method for mounting a guide rail in an elevator shaft of an elevator system using a mounting device including a carrier component, an installation component, and a control apparatus for controlling the installation component, wherein the carrier component is adapted to be displaced relative to the elevator shaft and positioned at different heights within the elevator shaft, and wherein the installation component is held on the carrier component and is adapted to carry out mounting steps in an at least a partially automated manner as part of a guide rail installation process, the method comprising the following steps: the control apparatus determining, based on an actual position of the mounting device in the elevator shaft and a desired position of a guide rail to be installed in the elevator shaft, a marking position for a marking on a shaft wall of the elevator shaft relative to the actual position of the mounting device; applying the marking to the shaft wall at the marking position by the installation component; aligning the guide rail relative to the marking; and securing the guide rail on the shaft wall. 5. The method according to claim 4 including arranging an alignment device on the guide rail to orient the guide rail relative to marking; projecting three dots onto the shaft wall by a laser means of a targeting device; and moving the alignment device to bring the three dots into alignment with the marking on the shaft wall. 6. The method according to claim 5 wherein the marking on the shaft wall includes at least three mutually spaced dots. 7. The method according to claim 4 wherein the actual position of the mounting device and the desired position of the guide rail are determined based on at least one reference element arranged in the elevator shaft. 8. The method according to claim 7 wherein the at least one reference element extends in a main extension direction of the elevator shaft. 9. The method according to claim 4 including aligning two of the guide rail in opposition in the elevator shaft simultaneously using an associated different one of the marking for each of the guide rails. 10. The method according to claim 9 including aligning the two opposing guide rails each with a separate alignment device arranged on the guide rail to orient the guide rail relative to the associated marking, the two alignment devices being connected by a cord, and checking a correct course of the cord relative to the alignment devices. 11. The method according to claim 9 including checking a spacing between the two opposing guide rails.