Plastic coolant fittings for hybrid module applications

What is claimed is: 1. A plastic coolant fitting for a hybrid module, comprising: an upper coolant tube comprising: a first straight section; a rounded section comprising a first distal end; and a first mounting flange, the first mounting flange being arranged at the first distal end and comprising a mounting surface; and a lower coolant tube comprising: a second straight section fixed to the rounded section by spin welding; and a second distal end comprising an annular disk, having a ring-shaped protrusion extending therefrom, the annular disk comprising an annular surface aligned with the mounting surface; and a face seal being arranged on an underside of the annular disk, opposite the ring-shaped protusion. 2. The plastic coolant fitting of claim 1 wherein the rounded section comprises a ring-shaped groove and the second straight section comprises a ring-shaped protrusion installed in the ring-shaped groove. 3. The plastic coolant fitting of claim 2 wherein, prior to spin welding, the ring-shaped groove and the ring-shaped protrusion comprise respective complementary trapezoidal cross-sections. 4. The plastic coolant fitting of claim 2 wherein the upper coolant tube and the lower coolant tube are manufactured from different materials. 5. The plastic coolant fitting of claim 4 wherein: the upper coolant tube is manufactured by injection molding a 30% glass fiber reinforced polyamide 66 material; and the lower coolant tube is manufactured by injection molding a polyamide 66 material. 6. The plastic coolant fitting of claim 2 wherein the ring-shaped protrusion extends axially from the annular disk. 7. The plastic coolant fitting of claim 6 further comprising an o-ring seal, wherein: the lower coolant tube comprises a third distal end, opposite the second distal end, and an annular groove disposed at the third distal end; and the o-ring seal is installed in the annular groove. 8. The plastic coolant fitting of claim 7 wherein the o-ring seal is made from ethylene propylene diene monomer rubber. 9. The plastic coolant fitting of claim 1 wherein the face seal is made from ethylene propylene diene monomer rubber. 10. The plastic coolant fitting of claim 1 wherein the first mounting flange comprises: a first aperture; and a first metal compression limiter tube installed in the first aperture, wherein: the first metal compression limiter tube is arranged to receive a first fastener for fixing the first mounting flange to a housing of the hybrid module and to prevent deformation of the first mounting flange when the first fastener is tightened. 11. The plastic coolant fitting of claim 1 wherein the upper coolant tube further comprises a second mounting flange comprising: a second aperture; and a second metal compression limiter tube installed in the second aperture, wherein: the second metal compression limiter tube is arranged to receive a second fastener for fixing the second mounting flange to a housing of the hybrid module and to prevent deformation of the second mounting flange when the second fastener is tightened. 12. The plastic coolant fitting of claim 11 wherein the second mounting flange is arranged on the first straight section. 13. The plastic coolant fitting of claim 2 wherein: the upper coolant tube further comprises a coolant tip for receiving a coolant hose; and the coolant tip is arranged at a fourth distal end of the first straight section, opposite the rounded section. 14. A plastic coolant fitting for a hybrid module, comprising: an upper coolant tube comprising a first straight section and a rounded section, the rounded section comprising a ring-shaped groove; a lower coolant tube comprising a second straight section fixed to the rounded section by spin welding, the second straight section comprising: a first distal end with an annular disk; and a ring-shaped protrusion extending axially from the annular disk and installed in the ring-shaped groove; and a face seal made from ethylene propylene diene monomer rubber arranged on an underside of the annular disk, opposite the ring-shaped protrusion. 15. A plastic coolant fitting for a hybrid module, comprising: an upper coolant tube comprising: a first straight section; a rounded section comprising a ring-shaped groove; a first mounting flange; and a second mounting flange arranged on the first straight section; and a lower coolant tube comprising a second straight section fixed to the rounded section by spin welding, the second straight section comprising a ring-shaped protrusion extending axially from an annular disk and installed in the ring-shaped groove, and further comprising a face seal being arranged on an underside of the annular disk, opposite the ring-shaped protrusion. 16. The plastic coolant fitting of claim 15 wherein: the first mounting flange comprises: a first aperture; and a first metal compression limiter tube installed in the first aperture; the first metal compression limiter tube is arranged to receive a first fastener for fixing the first mounting flange to a housing of the hybrid module and to prevent deformation of the first mounting flange when the first fastener is tightened; the second mounting flange comprises: a second aperture; and a second metal compression limiter tube installed in the second aperture; and the second metal compression limiter tube is arranged to receive a second fastener for fixing the second mounting flange to the housing and to prevent deformation of the second mounting flange when the second fastener is tightened.