Pressure sensor

The invention claimed is: 1. Pressure sensor, which has a ceramic pressure measuring cell ( 5 ) clamped in the pressure sensor with interpositioning of a seal ( 1 ) outwardly sealing an interior of the pressure sensor and loadable via an opening ( 3 ) of the pressure sensor with a pressure (p) to be measured, and whose seal ( 1 ) comprises a film ( 21 ) of a thermoplastic material, especially polytetrafluoroethylene (PTFE), clamped (in an axial direction extending perpendicularly to planes of the sealing surfaces ( 25 , 27 )) between a form-retaining, planar sealing surface ( 25 ) of the pressure measuring cell ( 5 ) and a form-retaining sealing surface ( 27 , 27 ′) of a counterbody ( 19 , 19 ′) outwardly surrounding the opening ( 3 ), characterized in that the film ( 21 ) includes a first film segment ( 23 ), which is clamped between the sealing surface ( 25 ) of the pressure measuring cell ( 5 ) and the sealing surface ( 27 , 27 ′) of the counterbody ( 19 , 19 ′), and the film ( 21 ) includes a second film segment ( 29 ), which extends over a lateral surface ( 31 ) of the counterbody ( 19 , 19 ′) different from the sealing surface ( 27 , 27 ′), and which is connected with the counterbody ( 19 , 19 ′) on the lateral surface ( 31 ) via a connecting layer ( 33 ) of a material serving as bonding agent for the material of the film ( 21 ), especially perfluoroalkoxy-polymer (PFA), arranged on the lateral surface ( 31 ). 2. Pressure sensor as claimed in claim 1 , characterized in that the lateral surface ( 31 ) of the counterbody ( 19 ) is arranged offset from the sealing surface ( 27 , 27 ′) of the counterbody ( 19 , 19 ′) in a direction pointing away from the sealing surface ( 25 ) of the pressure measuring cell ( 5 ) by an offset (h), which is greater than or equal to a sum of a coating thickness (dc) of the connecting layer ( 33 ) and a difference between a film thickness (dF 0 ) of the film ( 21 ) in the unloaded state and the material thickness (dES) of the first film segment ( 23 ) in the clamped state. 3. Pressure sensor as claimed in claim 2 , characterized in that the counterbody ( 19 , 19 ′) has, adjoining the opening ( 3 ) and extending in the direction of the pressure measuring cell ( 5 ), a protrusion ( 35 , 35 ′), whose end facing the pressure measuring cell ( 5 ) forms the sealing surface ( 27 , 27 ′) of the counterbody ( 19 , 19 ′), and which has in the axial direction a height corresponding to the offset (h). 4. Pressure sensor as claimed in claim 2 , characterized in that the counterbody ( 19 ) has on its end facing the stop an annular protrusion ( 57 ) adjoining the opening ( 3 ) and extending toward the stop, and the protrusions ( 35 , 57 ) have planar ends forming the sealing surfaces ( 27 , 51 ) of the counterbody ( 19 ). 5. Pressure sensor as claimed in claim 1 , characterized in that the connecting layer ( 33 ) is spaced in the radial direction from the sealing surface ( 27 , 27 ′) of the counterbody ( 19 , 19 ′), and the first film segment ( 23 ) and the second film segment ( 29 ) are connected by a region of the film ( 21 ) connecting the two film segments ( 23 , 29 ) with one another. 6. Pressure sensor as claimed in claim 1 , characterized in that the lateral surface ( 31 ) of the counterbody ( 19 , 19 ′), as well as the connecting layer ( 33 ) arranged thereon, are located in a region of the interior of the pressure sensor sealed from the opening ( 3 ). 7. Pressure sensor as claimed in claim 1 , characterized in that the film ( 21 ) has a film thickness, which is dimensioned in such a manner that the clamped first film segment ( 23 ) has in the clamped state a material thickness of greater than or equal to 0.03 mm, especially greater than or equal to 0.06 mm and especially greater than or equal to 0.08 mm and less than or equal to 0.2 mm, especially less than or equal to 0.15 mm, especially less than or equal to 0.12 mm. 8. Pressure sensor as claimed in claim 1 , characterized in that the connecting layer ( 33 ) has a coating thickness in the order of magnitude of a number of micrometers. 9. Pressure sensor as claimed in claim 1 , characterized in that the counterbody ( 19 , 19 ′) is clamped between a stop facing the pressure measuring cell ( 5 ), especially a stop in the form of a housing ( 37 ) shoulder ( 39 ) outwardly surrounding the opening ( 3 ), and an outer edge of a pressure measuring cell ( 5 ) end facing the stop, another seal ( 41 ) is provided between the counterbody ( 19 , 19 ′) and the shoulder ( 39 ) for outwardly sealing the interior of the housing ( 37 ), and the other seal ( 41 ) comprises a film ( 43 ) of a thermoplastic material, especially polytetrafluoroethylene (PTFE), which comprises a first film segment ( 45 ), which is clamped (in the axial direction extending perpendicularly to planes of the sealing surfaces ( 49 , 51 , 51 ′)) between a form-retaining, planar sealing surface ( 49 ) of the stop, especially the shoulder ( 39 ), and a form-retaining sealing surface ( 51 , 51 ′) of the counterbody ( 19 , 19 ′) outwardly surrounding the opening ( 3 ), and which comprises a second film segment ( 47 ), which extends over a lateral surface ( 53 ) of the counterbody ( 19 , 19 ′) different from the sealing surface ( 51 , 51 ′) of the counterbody ( 19 , 19 ′) and is connected with the counterbody ( 19 , 19 ′) via a connecting layer ( 55 ) arranged on the lateral surface ( 53 ) and composed of a material suitable as a bonding agent for the material of the film ( 43 ), especially a perfluoroalkoxy-polymer (PFA). 10. Pressure sensor as claimed in claim 8 , characterized in that the counterbody ( 19 ′) has on its end facing the stop an annular protrusion ( 57 ′) adjoining the opening ( 3 ) and extending toward the stop and having structures ( 65 ), especially concentric ridges, protruding toward the stop, the counterbody ( 19 ′) has on its end facing the pressure measuring cell ( 5 ) an annular protrusion ( 35 ′) adjoining the opening ( 3 ) and extending in the direction of the pressure measuring cell ( 5 ) and having structures ( 65 ), especially concentric ridges, protruding in the direction of the pressure measuring cell ( 5 ), and the ends of the structures ( 65 ) form the sealing surfaces ( 27 ′, 51 ′) of the counterbody ( 19 ′). 11. Pressure sensor as claimed in claim 9 , characterized in that the seals ( 1 , 41 ), the lateral surfaces ( 31 , 53 ) and the sealing surfaces ( 27 , 27 ′, 51 , 51 ′) of the counterbody ( 19 , 19 ′) are identically embodied on both ends of the counterbody ( 19 , 19 ′) and are arranged lying opposite one another. 12. Pressure sensor as claimed in claim 1 , characterized in that the pressure measuring cell ( 5 ) and the counterbody ( 19 , 19 ′) are clamped with an elastic prestress in the axial direction relative to one another. 13. Method for manufacturing a pressure sensor as claimed in claim 1 , characterized in that the second film segments ( 29 , 47 ) are laminated on their lateral surfaces ( 31 , 53 ) of the counterbody ( 19 , 19 ′) with interpositioning of their connecting layers ( 33 , 47 ). 14. Method for manufacturing a pressure sensor as claimed in claim 1 , characterized in that the first film segments ( 23 , 45 ) of the seals ( 1 , 41 ) are tempered in the clamped state at increased temperature, especially a temperature of not less than 80° C., especially not less than 100° C., especially not less than 150° C.