Air Spring Comprising Level-Measuring Device Integrated into the Bellows

What is claimed is: 1 . An air spring, comprising: a cover; a base element; a flexible bellows clamped in a pressure-tight manner between the cover and the base element; and a level-measuring device integrated at least partially into the bellows, the level-measuring device sensing a level of the air spring, wherein the level-measuring device comprises: an angle sensor integrated into the bellows and connected at least in a rotationally fixed manner to the cover or the base element, the sensor comprising a base and an element rotatable relative to the base; a mechanical coupling connected, on one hand, to the rotatable element of the angle sensor and, on another hand, to the cover or the base element, such that when the level of the air spring changes, an angle of a component of the mechanical coupling is changed, and the angle sensor generates an angle signal dependent on the change in the angle; and an evaluation device by which the angle signal originating from the angle sensor is assigned to a level of the air spring. 2 . The air spring according to claim 1 , wherein the mechanical coupling comprises: a first element having ends, one end being guided in a sliding manner in a guide on the base element or on the cover, and another end being connected to the rotational element of the angle sensor, wherein when the level of the air spring changes, the one end is moved along the guide and the other end activates the rotational element of the angle sensor. 3 . The air spring according to claim 2 , wherein the guide is a linear longitudinal guide arranged in a plane that is perpendicular to a central axis of the air spring. 4 . The air spring according to claim 1 , wherein the mechanical coupling comprises: a scissor mechanism having at least two scissor elements connected to one another in an articulated fashion, wherein one end of a first scissor element is connected to the rotational element of the angle sensor, one end of a second scissor element is coupled via linkage to the base element or to the cover, such that when the level of the air spring changes the scissor mechanism lengthens or shortens viewed in a direction of the central axis of the air spring, and the second scissor element rotates about the linkage and the first scissor element activates the rotational element of the angle sensor. 5 . The air spring according to claim 4 , wherein the scissor mechanism comprises intersecting and/or non-intersecting scissor elements. 6 . The air spring according to claim 1 , wherein the mechanical coupling comprises: a telescopic device coupled by one end to the cover or to the base element via a linkage, and connected by another end to the rotational element of the angle sensor, wherein when the level of the air spring changes the telescopic device lengthens or shortens with one end rotating about the linkage and the other end activating the rotational element of the angle sensor. 7 . The air spring according to claim 6 , wherein the telescopic device comprises at least two elements slidable relative to one another with a longitudinal degree of freedom. 8 . The air spring according to claim 1 , wherein the evaluation device is integrated into the bellows and is arranged on the cover. 9 . The air spring according to claim 1 , wherein the angle sensor is arranged central or eccentrically with regard to a central axis of the air spring. 10 . The air spring according to claim 1 , wherein the rotational element of the angle sensor interacts with the base of the angle sensor in a contactless manner. 11 . The air spring according to claim 1 , wherein the rotational element of the angle sensor interacts with the base of the angle sensor via contact. 12 . The air spring according to claim 1 , wherein the rotational axis of the rotational element of the angle sensor is arranged perpendicular to a central plane that contains a central axis of the air spring. 13 . An air suspension device for a vehicle, comprising: at least one air spring, the air spring comprising: a cover; a base element; a flexible bellows clamped in a pressure-tight manner between the cover and the base element; and a level-measuring device integrated at least partially into the bellows, the level-measuring device sensing a level of the air spring, wherein the level-measuring device comprises: an angle sensor integrated into the bellows and connected at least in a rotationally fixed manner to the cover or the base element, the sensor comprising a base and an element rotatable relative to the base; a mechanical coupling connected, on one hand, to the rotatable element of the angle sensor and, on another hand, to the cover or the base element, such that when the level of the air spring changes, an angle of a component of the mechanical coupling is changed, and the angle sensor generates an angle signal dependent on the change in the angle; and an evaluation device by which the angle signal originating from the angle sensor is assigned to a level of the air spring. 14 . The air suspension device according to claim 13 , wherein the mechanical coupling comprises: a first element having ends, one end being guided in a sliding manner in a guide on the base element or on the cover, and another end being connected to the rotational element of the angle sensor, wherein when the level of the air spring changes, the one end is moved along the guide and the other end activates the rotational element of the angle sensor. 15 . The air suspension device according to claim 14 , wherein the guide is a linear longitudinal guide arranged in a plane that is perpendicular to a central axis of the air spring. 16 . The air suspension device according to claim 13 , wherein the mechanical coupling comprises: a scissor mechanism having at least two scissor elements connected to one another in an articulated fashion, wherein one end of a first scissor element is connected to the rotational element of the angle sensor, one end of a second scissor element is coupled via linkage to the base element or to the cover, such that when the level of the air spring changes the scissor mechanism lengthens or shortens viewed in a direction of the central axis of the air spring, and the second scissor element rotates about the linkage and the first scissor element activates the rotational element of the angle sensor. 17 . The air suspension device according to claim 16 , wherein the scissor mechanism comprises intersecting and/or non-intersecting scissor elements. 18 . The air suspension device according to claim 13 , wherein the mechanical coupling comprises: a telescopic device coupled by one end to the cover or to the base element via a linkage, and connected by another end to the rotational element of the angle sensor, wherein when the level of the air spring changes the telescopic device lengthens or shortens with one end rotating about the linkage and the other end activating the rotational element of the angle sensor. 19 . The air suspension device according to claim 18 , wherein the telescopic device comprises at least two elements slidable relative to one another with a longitudinal degree of freedom. 20 . The air suspension device according to claim 13 , wherein the evaluation device is integrated into the bellows and is arranged on the cover.