Sensor device for measuring a linear or rotational movement of a measurement object

The invention claimed is: 1. A sensor installation for measuring a linear or rotating movement of a measurement object, comprising: a) one sensor element disposed to detect directly or indirectly the linear or rotating movement of the measurement object and for emitting corresponding measuring signals, wherein the sensor element has an encoder element and a sensitive element, and wherein the sensor element detects a relative movement between the encoder element and the sensitive element; b) an electronic evaluation installation to evaluate the measuring signals of the sensor element; c) a first shaft coupled to the encoder element of the sensor element and mounted by a bearing installation; d) a second shaft coupled directly or indirectly to the measurement object and mounted by the bearing installation; wherein: e) the first shaft and the second shaft, by a releasable connection, are mutually coupled for rotation in a coaxial manner; f) the bearing installation has a central axis and a cylindrical bearing face which in the axial direction parallel with the central axis has an axial extent, and in the radial direction perpendicular to the central axis has a bearing face internal diameter; g) the connection has a first axial and/or radial toothing on one end of the first shaft, and a second axial and/or radial toothing on one end of the second shaft, wherein the first toothing and the second toothing mutually engage in a form-fitting manner; h) the connection when viewed in the radial direction is disposed within the bearing face internal diameter, and when viewed in the axial direction is disposed within the axial extent of the bearing face; and i) the first shaft by the other end thereof that faces away from the first toothing, and the second shaft by the other end thereof that faces way from the second toothing, protrude in each case axially from the bearing face, wherein the connection includes at least one axial connection element which mutually connects in an axial manner the first shaft and the second shaft, and wherein the connection element includes a screw. 2. The sensor installation of claim 1 , wherein a sleeve is disposed between the bearing face, and the first shaft and the second shaft. 3. The sensor installation of claim 1 , wherein the external diameter of the first shaft and the external diameter of the second shaft are identical, at least in a region of the connection. 4. The sensor installation of claim 1 , wherein the bearing face is formed by a radially inward bearing shell of a friction bearing, or by an internal ring of a roller bearing. 5. The sensor installation of claim 1 , wherein the sensor element conjointly with the evaluation installation is for measuring a rotation angle, a rotating speed and/or a rotating acceleration of the first shaft. 6. The sensor installation of claim 1 , wherein the bearing installation is disposed in a passage opening of a housing of the sensor installation, the second shaft protruding from the outside axially into the passage opening, and wherein the second shaft is disposed within the housing. 7. The sensor installation of claim 6 , wherein the electronic evaluation installation is disposed within the housing. 8. The sensor installation of claim 6 , wherein the bearing face is disposed in the passage opening of the housing, or is supported by the passage opening. 9. The sensor installation of claim 1 , wherein the sensor element includes a Hall effect element. 10. The sensor installation of claim 1 , wherein the sensor installation is configured for measuring the level of a superstructure in relation to a running gear of an air-sprung vehicle, and wherein the superstructure represents the measurement object, and the second shaft is connected to a lever that is articulated on the superstructure. 11. A vehicle, comprising: a sensor installation for measuring a linear or rotating movement of a measurement object, including: a) one sensor element disposed to detect directly or indirectly the linear or rotating movement of the measurement object and for emitting corresponding measuring signals, wherein the sensor element has an encoder element and a sensitive element, and wherein the sensor element detects a relative movement between the encoder element and the sensitive element; b) an electronic evaluation installation to evaluate the measuring signals of the sensor element; c) a first shaft coupled to the encoder element of the sensor element and mounted by a bearing installation; d) a second shaft coupled directly or indirectly to the measurement object and mounted by the bearing installation; wherein: e) the first shaft and the second shaft, by a releasable connection, are mutually coupled for rotation in a coaxial manner; f) the bearing installation has a central axis and a cylindrical bearing face which in the axial direction parallel with the central axis has an axial extent, and in the radial direction perpendicular to the central axis has a bearing face internal diameter; g) the connection has a first axial and/or radial toothing on one end of the first shaft, and a second axial and/or radial toothing on one end of the second shaft, wherein the first toothing and the second toothing mutually engage in a form-fitting manner; h) the connection when viewed in the radial direction is disposed within the bearing face internal diameter, and when viewed in the axial direction is disposed within the axial extent of the bearing face; and i) the first shaft by the other end thereof that faces away from the first toothing, and the second shaft by the other end thereof that faces way from the second toothing, protrude in each case axially from the bearing face, wherein the connection includes at least one axial connection element which mutually connects in an axial manner the first shaft and the second shaft, and wherein the connection element includes a screw. 12. The vehicle of claim 11 , further comprising: an electronic control apparatus which, depending on sensor signals generated by the electronic evaluation installation, actuates at least one actuator based on the measuring signals.