Filter head and threaded metal nozzle insert

The invention claimed is: 1. A filter head, comprising: a plastic injection molded receiving component having a receiving cavity and a threaded metal nozzle insert disposed in the receiving cavity and at least partly injected into the plastic injection molded receiving component; the threaded metal nozzle insert defining an axis and structured as a cold extruded part; the plastic injection molded receiving component defining an axial sealing surface surrounding an opening into the receiving cavity circumferentially to the axis and including a plurality of integral plastic ribs disposed radially to the threaded metal nozzle insert in the receiving cavity, the plurality of integral plastic ribs extending from the threaded nozzle insert along a radial direction of the axis and leading radially outward into the axial sealing surface of the plastic injection molded receiving component; and wherein the plurality of integral plastic ribs are axially raised at a respective radially outward portion leading into the axial sealing surface of the plastic injection molded receiving component relative to a respective radially inward portion of the plurality of integral plastic ribs disposed at the threaded nozzle insert. 2. The filter head as claimed in claim 1 , wherein the respective radially outward portion of the plurality of integral plastic ribs merge radially outwards in an axially aligned transition into the axial sealing surface of the plastic injection molded receiving component. 3. The filter head as claimed in claim 1 , wherein the plurality of integral plastic ribs slope in an axial direction from the respective radially outward portion at the axial sealing surface of the plastic injection molded receiving component toward the respective radially inward portion at the threaded nozzle insert. 4. A threaded metal nozzle insert for the at least partial casting into a plastic filter head, comprising: a cold extruded hollow part having a longitudinal axis; a plurality of radially stepped radial shoulders including a first radially stepped radial shoulder, a second radially stepped radial shoulder, and a third radially stepped radial shoulder; the first radially stepped radial shoulder having a first axial sealing surface facing a first axial direction, the first radially stepped radial shoulder extending radially outwardly from the cold extruded hollow part; the second radially stepped radial shoulder extending radially outwardly from the cold extruded hollow part and having an annular surface extending continuously in a circumferential direction of the longitudinal axis that faces a second axial direction opposite the first axial direction; the third radially stepped radial shoulder extending radially outwardly from the cold extruded hollow part and having a second axial sealing surface facing the second axial direction; an anti-rotation mechanism disposed on an outer lateral surface of the cold extruded hollow part axially between the first axial sealing surface of the first radially stepped radial shoulder and the annular surface of the second radially stepped radial shoulder; and wherein the second radially stepped radial shoulder is disposed axially between the first radially stepped radial shoulder and the third radially stepped radial shoulder. 5. The threaded nozzle insert as claimed in claim 4 , wherein each of the first axial sealing surface and the second axial sealing surface extend continuously in the circumferential direction of the longitudinal axis along the first radially stepped radial shoulder and the third radially stepped radial shoulder, respectively. 6. The threaded nozzle insert as claimed in claim 4 , wherein the plurality of radially stepped radial shoulders each define a radial extent dissimilar from one another such that the first radially stepped radial shoulder extends radially outwardly to a first radial distance greater than a second radial distance defined by the second radially stepped radial shoulder, and the second radial distance defined by the second radially stepped radial shoulder is greater than a third radial distance defined by the third radially stepped radial shoulder. 7. The threaded nozzle insert as claimed in claim 4 , wherein the anti-rotation mechanism includes a knurled portion. 8. The threaded nozzle insert as claimed in claim 7 , further comprising an external thread disposed on the outer lateral surface of the cold extruded hollow part and spaced axially from the knurled portion. 9. The threaded nozzle insert as claimed in claim 7 , wherein the knurled portion includes radial projections structured and arranged to extend axially along the second radially stepped radial shoulder. 10. The filter head as claimed in claim 1 , wherein the threaded nozzle insert includes at least one radially stepped radial shoulder extending radially outwardly from an outer lateral surface, the at least one radially stepped radial shoulder defining a further axial sealing surface for sealingly engaging the receiving cavity of the plastic injection molded receiving component, wherein the at least one radially stepped radial shoulder is embedded in a plastic material of the plastic injection molded receiving component such that the at least one radially stepped radial shoulder is secured on both axial sides by the plastic material. 11. The filter head as claimed in claim 1 , wherein the threaded nozzle insert includes an anti-rotation mechanism disposed on an outer lateral surface to secure against rotation in the plastic injection molded receiving component. 12. The filter head as claimed in claim 11 , wherein the threaded nozzle insert further includes a threaded portion arranged axially spaced from the anti-rotation mechanism. 13. The filter head as claimed in claim 1 , wherein the threaded nozzle insert includes a plurality of radially stepped shoulders extending radially outward from an outer lateral surface, and wherein at least one radially stepped shoulder of the plurality of radially stepped shoulders defines a further axial sealing surface for sealingly engaging with the plastic injection molded receiving component. 14. The filter head as claimed in claim 13 , wherein the threaded nozzle insert further includes a knurled portion disposed on the outer lateral surface, and wherein the knurled portion is arranged between the at least one radially stepped shoulder and another of the plurality of radially stepped shoulders. 15. The filter head as claimed in claim 11 , wherein the anti-rotation mechanism includes radial projections that interlock with a plastic material of the plastic injection molded receiving components. 16. A filter head, comprising: a plastic injection molded receiving component defining a receiving cavity and having an axial sealing surface at least partially surrounding the receiving cavity; a threaded metal nozzle insert arranged in the receiving cavity of the plastic injection molded receiving component, the threaded metal nozzle insert having a cold extruded hollow structure defining a longitudinal axis; a plurality of radially extending plastic ribs disposed in the receiving cavity of the plastic injection molded receiving component, wherein the plurality of plastic ribs extend from the threaded nozzle insert along a radial direction towards the axial sealing surface of the plastic injection molded receiving component; the threaded metal nozzle insert including at least one radial shoulder extending radially outwardly from the longitudinal axis, the at least one radial shoulder defining a further axial sealing surface sealingly engaged with th