Method for building an elevator system, and elevator system suitable for carrying out the method

1 - 13 . (canceled) 14 . A method for building an elevator system in an elevator shaft of a building that is in a construction phase, wherein the method includes adapting a usable lifting height of the elevator system to an increasing height of the building, the method comprising the steps of: installing in the elevator shaft a machine platform that is adapted to be raised and temporarily locked along car guide rails and on which an elevator drive machine having a traction sheave is arranged; suspending an elevator car and a counterweight from the machine platform via suspension means, wherein the suspension means are guided at least over the traction sheave of the elevator drive machine, wherein the elevator car and the counterweight are moved up and down in opposite directions to one another along the car guide rails and counterweight guide rails in the elevator shaft by the traction sheave via the suspension means; installing a lifting platform above the machine platform, the lifting platform adapted to be raised and temporarily locked in the elevator shaft, and using the lifting platform to raise the machine platform with the elevator car or the counterweight when a usable lifting height of the elevator car is to be adapted to a current height of the elevator shaft; before raising the machine platform, raising the lifting platform by a construction crane or another lifting device; wherein the lifting platform is equipped with a cable catch device having a safety cable that is arranged between the lifting platform and a cable pulley support fixed above the lifting platform in the elevator shaft, the safety cable having at least two load-bearing cable portions, wherein a first of the load-bearing cable portions is fixed to the lifting platform or stationarily above the lifting platform and a last of the load-bearing cable portions is guided through a cable stop device to the lifting platform; and wherein the last load-bearing cable portion is blocked by the cable stop device to prevent further lowering of the lifting platform when a speed of movement of the last load-bearing cable portion relative to the cable stop device has exceeded a specified limit. 15 . The method according to claim 14 including arranging the load-bearing cable portions of the cable catch device such that, when the cable catch device is activated, a line of action of resultant cable forces of all of the load-bearing cable portions passes through a center of gravity of the lifting platform. 16 . The method according to claim 15 including arranging safety cable such that it runs completely outside of a free space that extends in an upward direction above the center of gravity of the lifting platform, the free space allowing a crane hook of the construction crane to be lowered to a coupling element attached on the lifting platform above the center of gravity. 17 . The method according to claim 16 wherein the free space is dimensioned such that a cylinder having a diameter of at least 0.4 m and extending upwards from the center of gravity of the lifting platform can be arranged in the free space. 18 . The method according to claim 14 including fastening the cable pulley support to a protective platform that is vertically displaceable and attached in the elevator shaft above the lifting platform. 19 . The method according to claim 18 wherein the protective platform has a passage opening arranged in a region of the free space, through which passage opening a crane hook is lowered to a coupling element on the lifting platform. 20 . The method according to claim 14 wherein the cable pulley support has four vertically and four horizontally arranged deflection pulleys, wherein the safety cable is guided through at least one load-bearing pulley of a load-bearing pulley arrangement coupled to the lifting platform such that the safety cable forms four of the load-bearing cable portions and runs completely outside of a free space above a center of gravity of the lifting platform. 21 . The method according to claim 14 wherein the cable pulley support has four vertically arranged deflection pulleys, wherein the safety cable is guided by the deflection pulleys and at least one load-bearing pulley of a load-bearing pulley arrangement coupled to the lifting platform such that the safety cable forms four load-bearing cable portions and runs completely outside of a free space above a center of gravity of the lifting platform. 22 . The method according to claim 21 wherein the safety cable, with reference to a reference plane extending vertically through a center of gravity of the lifting platform, is guided from a safety cable fixed point on the lifting platform vertically upwards to a vertical first deflection pulley arranged at right angles to the reference plane in the cable pulley support, after the first deflection pulley at right angles to the reference plane and away therefrom to a horizontal second deflection pulley, after the second deflection pulley horizontally and parallel to the vertical reference plane to a horizontal third deflection pulley, after the third deflection pulley at right angles to the reference plane and towards a vertical fourth deflection pulley arranged at right angles to the reference plane, after the fourth deflection pulley vertically downwards to a load-bearing pulley arrangement connected to the lifting platform, the load-bearing pulley arrangement including at least one load-bearing pulley having a pulley plane arranged vertically and transversely to the reference plane, after the load-bearing pulley arrangement vertically upwards to a vertical fifth deflection pulley mirror-symmetrically to the reference plane opposite the fourth deflection pulley, arranged at right angles to the reference plane in the cable pulley support, after the fifth deflection pulley at right angles to the reference plane and away therefrom to a horizontal sixth deflection pulley, after the sixth deflection pulley horizontally and parallel to the vertical reference plane to a horizontal seventh deflection pulley opposite the second deflection pulley mirror-symmetrically to the reference plane, after the seventh deflection pulley at right angles to the reference plane and towards a vertical eighth deflection pulley arranged at right angles to the reference plane, and after the eighth deflection pulley vertically downwards to the cable stop device attached to the lifting platform. 23 . The method according to claim 21 wherein the safety cable, with reference to a reference plane extending vertically through a center of gravity of the lifting platform, is guided from a safety cable fixed point on the lifting platform vertically upwards to a vertical first deflection pulley of the cable pulley support arranged parallel to the reference plane, after the first deflection pulley horizontally and parallel to the reference plane to a vertical second deflection pulley arranged parallel to the reference plane, after the second deflection pulley vertically downwards to a load-bearing pulley arrangement connected to the lifting platform and having at least one vertical load-bearing pulley arranged transversely to the reference plane, after the load-bearing pulley arrangement vertically upwards to a vertical third deflection pulley of the cable pulley support mirror-symmetrically opposite the reference plane relative to the second deflection pulley and arranged parallel to the reference plane, after the third deflection pulley horizontally and parallel to the vertical reference plane to a vertical fourth deflection pulley arranged parallel to the reference plane and mirror-symmetrically to the reference plane opposite the first deflection pulley, and af