Pressure measuring unit for measuring a pressure

The invention claimed is: 1. A pressure measuring unit, comprising: a pressure measuring cell; a rotationally symmetrical sensor bushing into which the pressure measuring cell is inserted; a rotationally symmetrical process connector for releasable fastening of the pressure measuring unit to a wall of a measuring point, wherein the process connector at one end has an inwardly-extending circumferential stop surface which is intended for the sensor bushing and at another end has an opening for receiving the sensor bushing, wherein, in an installed state, the sensor bushing with the pressure measuring cell is inserted into the process connector through the opening up to the stop surface so that the pressure measuring cell is introduced into the measuring point so as to be flush with a front of the process connector; and a ring-like process seal that, in a sealing plane between the sensor bushing and the stop surface of the process connector, in a ring-like manner radially encircles and seals in order to prevent the process medium from penetrating into the pressure measuring unit, wherein the stop surface of the process connector and/or a counter-stop surface, directed, in the installed state, towards the stop surface, of the sensor bushing have several, individually-formed, webs designed such that, in the installed state between the counter-stop surface of the sensor bushing and the stop surface of the process connector, several openings form having a defined height and a width defined by the configuration of the webs, wherein the several openings together form a fluidic path network made up of several individual fluidic paths running parallel to one another, wherein in the event of a failure of the process seal, the process medium is conducted via the fluidic path network from the sealing plane in the process seal to at least one leakage opening that is externally visible in the installed state of the pressure measuring unit, wherein the webs are designed in such a way that a sum of the individual cross-sections of the several openings corresponds to a pre-specified minimum cross-section, wherein the defined height and the defined width are used to calculate the individual cross-sections, and wherein the webs are, as a function of the characteristics of the process seal, designed in such a way that the process seal does not extrude into the openings. 2. The pressure measuring unit according to claim 1 , wherein the webs are designed such that the defined height does not exceed a gap dimension pre-specified for the process seal. 3. The pressure measuring unit according to claim 2 , wherein the webs are designed such that the defined height is less than 0.20 mm. 4. The pressure measuring unit according to claim 1 , wherein the webs are set back radially from the process seal so that an edge, directed towards the process seal, of the webs has no contact with the not-yet-extruded process seal in the installed state. 5. The pressure measuring unit according to claim 1 , wherein an outer lateral surface of the sensor bushing in a lower partial region, which in the installed state is adjacent to an inner lateral surface of the process connector, and/or the inner lateral surface of the process connector in a lower partial region, which in the installed state is adjacent to a, or the, outer lateral surface of the lower partial region of the sensor bushing, has or have several vertical recesses, wherein the several vertical recesses are designed such that the cross-sectional sum of the individual cross-sections of the several vertical recesses corresponds to the pre-specified minimum cross-section. 6. The pressure measuring unit according to claim 5 , wherein the sensor bushing in the lower partial region and/or the process connector in the lower partial region has or have at least one circumferential collecting groove for collecting the process medium supplied via the several openings, wherein the at least one collecting groove is designed such that a cross-section of the collecting groove corresponds to the pre-specified minimum cross-section. 7. The pressure measuring unit according to claim 1 , wherein the sensor bushing has a circumferential shoulder ring up to which, in the installed state, the sensor bushing is inserted into the opening of the process connector, and wherein the sensor bushing has a further circumferential collecting groove, which is directly adjacent to the shoulder ring, and which is designed to conduct the process medium to the at least one externally visible leakage opening, wherein the further collecting groove is designed such that a cross-section of the further collecting groove corresponds to the pre-specified minimum cross-section. 8. The pressure measuring unit according to claim 1 , wherein the at least one externally visible leakage opening is designed such that a cross-section or a cross-sectional sum corresponds to the pre-specified minimum cross-section. 9. The pressure measuring unit according to claim 8 , wherein the at least one externally visible leakage opening is or are formed on a rear side of the process connector on which the shoulder ring of the sensor bushing is seated in the installed state. 10. The pressure measuring unit according to claim 1 , wherein the pre-specified minimum cross-section corresponds to a pre-specification of a standard relating to hygiene of the European Hygienic Equipment Design Group and/or 3-A, the standard 74-07 of 3-A, published in March 2019.