Method for heating up a steam turbine or for keeping a steam turbine hot

The invention claimed is: 1. A method for heating up a steam turbine or for keeping a steam turbine hot, which steam turbine comprises at least one pressure stage which operates at an initial or intermediate pressure level, at least one final pressure stage which operates at a final pressure level which is lower than the initial or intermediate pressure level and is fluidically connected downstream of the at least one pressure stage, and at least one condenser which is connected downstream of the at least one final pressure stage, the method comprising: introducing steam which is generated outside the steam turbine into the at least one pressure stage, feeding the steam directly to the at least one condenser after the steam flows through the at least one pressure stage, thereby bypassing the at least one final pressure stage, generating a vacuum on an inlet side of an extractor disposed in a discharge line between an outlet of the at least one pressure stage and an inlet of the extractor, and extracting the steam from the at least one pressure stage by means of the vacuum. 2. The method as claimed in claim 1 , wherein the extractor comprises at least one fan. 3. The method as claimed in claim 1 , further comprising: closing a throttle flap which is arranged in a crossflow line between the at least one pressure stage and the at least one final pressure stage during the introduction of the steam into the at least one pressure stage. 4. A system for heating up a steam turbine or for keeping a steam turbine hot, which steam turbine comprises at least one pressure stage which operates at an initial or intermediate pressure level, at least one final pressure stage which operates at a final pressure level which is lower than the initial or intermediate pressure level and is fluidically connected downstream of the at least one pressure stage, and at least one condenser which is connected downstream of the at least one final pressure stage, the system comprising: a steam generator configured to introduce steam into the at least one pressure stage; a discharge line configured to discharge the steam from the at least one pressure stage and to directly feed the steam which is discharged from the at least one pressure stage to the at least one condenser, thereby bypassing the at least one final pressure stage, and an extractor fluidically connected to the discharge line and configured to generate a vacuum in the discharge line on an inlet side of the extractor to extract the steam from the at least one pressure stage. 5. The system as claimed in claim 4 , further comprising: at least one shut-off device which is formed by way of a throttle flap which is arranged in a crossflow line between the at least one pressure stage and the at least one final pressure stage, which shut-off device is closeable during the introduction of the steam into the at least one pressure stage. 6. A power plant or a combined gas/steam turbine power plant or a steam power plant, comprising: at least one steam turbine, comprising at least one system as claimed in claim 4 . 7. A system for heating up a steam turbine or for keeping a steam turbine hot, which steam turbine comprises a high-pressure stage, an intermediate-pressure stage, and a low-pressure stage, and a condenser connected downstream of the low-pressure stage, the system comprising: a steam generator configured to introduce steam into the intermediate-pressure stage; a discharge line configured receive the steam from the intermediate-pressure stage and to directly feed the steam to the condenser, thereby bypassing the low-pressure stage, and an extractor fluidically connected to the discharge line and configured to generate a vacuum in the discharge line on an inlet side of the extractor to extract the steam from the intermediate-pressure stage. 8. The system of claim 7 , wherein the extractor comprises a fan. 9. The system of claim 7 , further comprising: a crossflow line between the intermediate-pressure stage and the low-pressure stage, and a shut-off device arranged in the crossflow line between the intermediate-pressure stage and the low-pressure stage, which shut-off device is closeable during the introduction of the steam into the intermediate-pressure stage.