Support unit for supporting a heating conductor of an exhaust gas heater on a carrier structure

The invention claimed is: 1. A support unit for supporting a heating conductor of an exhaust gas heater on a carrier structure, the support unit comprising: a supporting sleeve extending in a direction of a longitudinal axis and surrounding the longitudinal axis; a supporting pin having a sleeve connecting area extending in said supporting sleeve and an exhaust gas heater connecting area projecting beyond said supporting sleeve; at least one of said supporting pin, at least in an area of said sleeve connecting area and said supporting sleeve, on an inner surface surrounding said sleeve connecting area of said supporting pin, being coated with an insulating material; and, said sleeve connecting area being held in the supporting sleeve by a force fit, wherein said force fit is provided by thermal treatment of at least one of said supporting sleeve and said supporting pin before insertion of said sleeve connecting area into said supporting sleeve, wherein at least one of said supporting sleeve is heated and said supporting pin is cooled before insertion of said sleeve connecting area into said supporting sleeve. 2. The support unit of claim 1 , wherein said supporting pin is formed with a cylindrical outer circumferential contour, at least in said sleeve connecting area. 3. The support unit of claim 1 , wherein said supporting pin, at least in said sleeve connecting area, is configured to taper. 4. The support unit of claim 1 , wherein said supporting pin, at least in said sleeve connecting area, is configured to taper at least one of conically and in a direction away from said exhaust gas heater connecting area. 5. The support unit of claim 1 , wherein said insulating material has a layer thickness in a range from 0.01 millimeters to 0.1 millimeters. 6. The support unit of claim 1 , wherein said insulating material is formed with ceramic material. 7. The support unit of claim 1 , wherein said insulating material does not project axially beyond the supporting sleeve at least at one axial end of said supporting sleeve. 8. The support unit of claim 1 , wherein said insulating material projects axially beyond said supporting sleeve, at least at an axial end of said supporting sleeve facing said exhaust gas heater connecting area. 9. The support unit of claim 1 , wherein said supporting pin and said supporting sleeve are made with a metallic material. 10. A method for making a support unit for supporting a heating conductor of an exhaust gas heater on a carrier structure, the support unit including a supporting sleeve and a supporting pin; the supporting sleeve extending in a direction of a longitudinal axis and surrounding the longitudinal axis; said supporting pin having a sleeve connecting area extending in the supporting sleeve and an exhaust gas heater connecting area projecting beyond the supporting sleeve; at least one of the supporting pin, at least in an area of the sleeve connecting area and the supporting sleeve, on an inner surface surrounding the sleeve connecting area of the supporting pin, being coated with an insulating material; and, the sleeve connecting area being held in the supporting sleeve by a force fit, the method comprising: at least one of heating said supporting sleeve and cooling said supporting pin before the insertion of the sleeve connecting area into the supporting sleeve for the force-fit connection of the supporting sleeve to the supporting pin. 11. The method of claim 10 , wherein at least one of the supporting sleeve is heated to a temperature above an upper limiting temperature that maximally occurs on an exhaust gas heater and the supporting pin is cooled to a temperature below a lower limiting temperature that maximally occurs on an exhaust gas heater. 12. An exhaust gas heater for an exhaust gas system of an internal combustion engine, the exhaust gas heater comprising: a carrier structure; at least one support unit; at least one heating conductor carried on said carrier structure via said at least one support unit; said at least one support unit including a supporting sleeve and a supporting pin; said supporting sleeve being fastened to said carrier structure by material bonding and extending in a direction of a longitudinal axis and surrounding the longitudinal axis; said supporting pin having a sleeve connecting area extending in said supporting sleeve and an exhaust gas heater connecting area projecting beyond said supporting sleeve and being fastened to said at least one heating conductor by material bonding; at least one of said supporting pin, at least in an area of said sleeve connecting area and said supporting sleeve, on an inner surface surrounding said sleeve connecting area of said supporting pin, being coated with an insulating material; and, said sleeve connecting area being held in the supporting sleeve by a force fit. 13. The exhaust gas heater of claim 12 , wherein said supporting sleeve is fastened to said carrier structure by welding and said supporting pin is fastened to said at least one heating conductor by welding. 14. An exhaust gas system for an internal combustion engine, the exhaust gas system comprising: an exhaust gas heater having a carrier structure, at least one support unit, and at least one heating conductor carried on said carrier structure via said at least one support unit; said at least one support unit including a supporting sleeve and a supporting pin; said supporting sleeve being fastened to said carrier structure by material bonding and extending in a direction of a longitudinal axis and surrounding the longitudinal axis; said supporting pin having a sleeve connecting area extending in said supporting sleeve and an exhaust gas heater connecting area projecting beyond said supporting sleeve and being fastened to said at least one heating conductor by material bonding; at least one of said supporting pin, at least in an area of said sleeve connecting area and said supporting sleeve, on an inner surface surrounding said sleeve connecting area of said supporting pin, being coated with an insulating material; and, said sleeve connecting area being held in the supporting sleeve by a force fit.