Apparatus and method for bleeding off compressor air in a jet engine

What is claimed is: 1. A device for bleeding compressor air from a compressor of an engine, comprising: at least one actuator, at least one closing element linked to the at least one actuator for closing or partially closing a bleed duct via which compressor air is bled off, wherein the at least one closing element is progressively movable into the bleed duct, using the at least one actuator such that a flow of bled compressor air passing through the bleed duct is settable by a position of the at least one closing element in the bleed duct, and an air guiding device linked to the at least one closing element, the air guiding device positioned along a length of the bleed duct and including air guiding surfaces which adjoin a downstream end of the at least one closing element, with an orientation of the air guiding device with respect to the at least one closing element being dependent on the position of the at least one closing element in the bleed duct; the air guiding device being connected at a first connection to the at least one closing element to be movable into the bleed duct with the at least one closing element, and, downstream of the first connection, the air guiding device being connected at a second connection with a casing of the engine; wherein the air guiding device includes a plurality of flaps, and the first connection includes each of the plurality of flaps being connected to the at least one closing element by a respective pivot joint to be movable relative to the at least one closing element, the plurality of flaps forming at least a portion of the air guiding surfaces; wherein an inclination angle of each flap is dependent on the position of the at least one closing element; wherein the second connection includes each of the plurality of flaps being connected to the casing by a respective further pivot joint; wherein each respective pivot joint is positioned on a side of the at least one closing element facing away from the bleed duct and each respective further pivot joint is positioned on a side of the plurality of flaps facing away from the bleed duct. 2. The device in accordance with claim 1 , wherein the air guiding surfaces, when moved into the bleed duct, provide a laminar airflow downstream of the at least one closing element. 3. The device in accordance with claim 1 , wherein the at least one closing element is formed by an axially displaceable ring or an axially displaceable ring segment. 4. The device in accordance with claim 1 , and further comprising a flexible element connecting each flap to a closing surface of the at least one closing element in an area of the first connection. 5. The device in accordance with claim 1 , wherein an orientation of the air guiding surfaces with respect to the at least one closing element undergoes a change, depending on the position of the at least one closing element, such that for a plurality of positions of the at least one closing element, a laminar airflow is provided downstream of the at least one closing element. 6. The device in accordance with claim 1 , wherein the air guiding surfaces of the air guiding device are spatially aligned such that the width of a portion of the bleed duct defined in part by the air guiding device continuously increases up to a defined width. 7. The device in accordance with claim 1 , wherein the at least one closing element assumes a position such that 30% to 80% of a maximum mass flow of bled compressor air is bled off through the bleed duct. 8. The device in accordance with claim 1 , and further comprising an eccentric element connecting the at least one actuator to the at least one closing element. 9. The device in accordance with claim 1 , wherein the engine is a turbofan engine and the compressor is a low-pressure compressor of the turbofan engine. 10. A turbofan engine including the device in accordance with claim 1 . 11. An engine including the device in accordance with claim 1 . 12. The device in accordance with claim 1 , wherein the at least one closing element assumes a position such that 40% to 70% of a maximum mass flow of bled compressor air is bled off through the bleed duct. 13. The device in accordance with claim 1 , wherein the at least one closing element is positioned intermediate along the length of the bleed duct, and wherein the respective pivot joint connects the downstream end of the at least one closing element with an upstream portion of the air guiding device such that in a closed or partially closed position, the bleed duct converges in a downstream direction toward the first connection and diverges in the downstream direction away from the first connection.