Locating system and method for determining a current position in an elevator shaft of an elevator system

The invention claimed is: 1. A locating system for determining a current position thereof in an elevator shaft of an elevator installation extending in a main extension direction, the locating system comprising: a first distance sensor for measuring a first distance and a second distance of the locating system, the second distance being perpendicular to the first distance, from a first reference element in the elevator shaft, wherein the first distance sensor is constructed as a 2D profile scanner; a tilt sensor for measuring a rotation of the locating system about a horizontally extending first axis and a horizontally extending second axis that is perpendicular to the first axis; a measuring system for determining a position of the locating system relative to the main extension direction of the elevator shaft; and a control apparatus generating the current position of the locating system based upon the measured first and second distances, the measured rotation and the determined position relative to the main extension direction wherein the first distance sensor remains in a fixed position relative to the first reference element when measuring the first and second distances. 2. The locating system according to claim 1 wherein the first distance sensor is arranged to measure the first and second distances from two reference points on the first reference element, the two reference points being arranged in a defined relationship to one another. 3. The locating system according to claim 1 wherein the first distance sensor is arranged to measure a third distance and a fourth distance, the fourth distance being perpendicular to the third distance, from a second reference element in the elevator shaft, the first reference element and the second reference element being arranged in a defined relationship to one another. 4. The locating system according to claim 1 including a second distance sensor for measuring a third distance and a fourth distance, the fourth distance being perpendicular to the third distance, from a second reference element in the elevator shaft, the first reference element and the second reference element being arranged in a defined relationship to one another. 5. The locating system according to claim 4 wherein the second distance sensor is constructed as a 2D profile scanner. 6. An installation device for carrying out an installation process in an elevator shaft of an elevator installation comprising the locating system according to claim 1 arranged on the installation device and the installation device being movable in the elevator shaft. 7. The installation device according to claim 6 including a carrier component and an installation component, the carrier component being movable relative to the elevator shaft and positioned at different heights within the elevator shaft, the installation component being retained on the carrier component and being adapted to carry out an installation step as part of the installation process at least partially automatically, and wherein the locating system is arranged on the carrier component. 8. The installation device according to claim 7 including a sensor arranged on the installation component for measuring a distance from the first reference element and the control apparatus for determining: a relative position of the installation device in a fixing position with respect to the first reference element in the elevator shaft using the sensor arranged on the installation component; a relative position of the first reference element with respect to at least two different positions of the sensor arranged on the installation component corresponding to associated positions of the installation device; and the fixing position in the elevator shaft based on the determined relative position of the installation device with respect to the first reference element. 9. A method for determining a current position of a locating system in an elevator shaft of an elevator installation extending in a main extension direction, the method comprising the following steps: inserting an elongate first reference element into the elevator shaft aligned in the main extension direction of the elevator shaft; measuring a first distance and a second distance of the locating system, which second distance is perpendicular to the first distance, from the first reference element using a first distance sensor; measuring a rotation of the locating system about a horizontally extending first axis and a horizontally extending second axis that is perpendicular to the first axis; determining a position of the locating system in the main extension direction of the elevator shaft; determining a current position of the locating system based on the first distance, the second distance, the rotation, and the position in the main extension direction of the elevator shaft; and wherein the first distance sensor remains in a fixed position relative to the first reference element when measuring the first distance and the second distance. 10. The method according to claim 9 including measuring the first and second distances from two reference points on the first reference element with the first distance sensor, the two reference points being arranged in a defined relationship to one another. 11. The method according to claim 9 including measuring a third distance and a fourth distance, the fourth distance being perpendicular to the third distance, from an elongate second reference element in the elevator shaft with the first distance sensor, the first reference element and the second reference element being arranged in a defined relationship to one another. 12. The method according to claim 11 including fastening a first mounting plate in the elevator shaft and fastening first ends of the first and second reference elements to the first mounting plate. 13. The method according to claim 12 including fastening a second mounting plate in the elevator shaft and fastening second ends of the first and second reference elements to the second mounting plate. 14. The method according to claim 9 including measuring a third distance and a fourth distance, the fourth distance being perpendicular to the third distance, from an elongate second reference element in the elevator shaft with a second distance sensor, the first reference element and the second reference element being arranged in a defined relationship to one another, and further basing the determining of the current position of the locating system on the third distance and the fourth distance. 15. The method according to claim 14 including fastening a first mounting plate in the elevator shaft and fastening first ends of the first and second reference elements to the first mounting plate. 16. The method according to claim 15 including fastening a second mounting plate in the elevator shaft and fastening second ends of the first and second reference elements to the second mounting plate. 17. The method according to claim 9 including fixing at least one of the first reference element and a second reference element in the elevator shaft between ends thereof to reduce vibrations of the first and/or second reference element relative to the elevator shaft.