Sensor heat shield structure for a vehicle exhaust system

What is claimed is: 1. An exhaust system for a vehicle comprising: an exhaust pipe having an outer surface; a heat insulating cover mounted to the exhaust pipe and configured to at least partially surround the outer surface of the exhaust pipe, the cover including a body having a planar section defining a surface area, the planar section having an inner surface spaced from the outer surface of the exhaust pipe to define a gap there between; a reinforcement separate from the cover and mounted to an outer surface of the planar section of the cover body and wherein the reinforcement is confined in the surface area defined by the planar section; a mounting boss provided in the gap and in direct contact with the inner surface of the planar section; and an exhaust constituent sensor releasably mounted to the exhaust pipe, a distal end portion of the exhaust constituent sensor being received in the mounting boss and projecting through an opening in the outer surface of the exhaust pipe and into a passage of the exhaust pipe, wherein the direct contact of the mounting boss with the inner surface of the planar section forms a mechanical seal preventing high temperature air from around the exhaust pipe from flowing toward a proximal end portion of the exhaust constituent sensor. 2. The exhaust system of claim 1 , wherein the mechanical seal blocks heat transfer by convection to the proximal end portion of the exhaust constituent sensor. 3. The exhaust system of claim 2 , wherein the mechanical seal transfers heat generated by the exhaust pipe by conduction to the planar section of the heat insulating cover, the heat insulating cover acting as a heat sink absorbing and dissipating the transferred heat into an associated surrounding environment. 4. The exhaust system of claim 3 , wherein the mounting boss includes a first end portion and a second end portion opposite the first end portion, the first end portion including an annular flange in direct contact with the inner surface of the planar section. 5. The exhaust system of claim 4 , wherein the second end portion of the mounting boss is dimensioned to be received in the opening located in the outer surface of the exhaust pipe. 6. The exhaust system of claim 4 , wherein the second end portion is fixedly and nonremovably attached to the outer surface of the exhaust pipe. 7. The exhaust system of claim 1 , wherein the reinforcement is plate shaped having an inner surface entirely in direct contact with the outer surface of the planar section of the cover. 8. The exhaust system of claim 1 , wherein the reinforcement includes an aperture dimensioned to receive therein an end portion of the mounting boss, the aperture defining an alignment feature for mounting of the heat insulating cover to the exhaust pipe. 9. The exhaust system of claim 1 , wherein the planar surface of the heat insulating cover includes a first hole aligned with the opening located in the outer surface of the exhaust pipe and a second hole, and the exhaust system further includes a supporting bracket connected to the outer surface of the exhaust pipe and having an opening aligned with the second hole, each of the second hole and bracket opening dimensioned to receive a fastener which attaches the heat insulating cover to the supporting bracket. 10. The exhaust system of claim 1 , wherein the exhaust constituent sensor is only mounted to the mounting boss and is not in direct contact with the heat insulating cover. 11. An exhaust system for a vehicle comprising: an exhaust pipe having an outer surface; a heat insulating cover mounted to the exhaust pipe and configured to at least partially surround the outer surface of the exhaust pipe; and a mounting boss interconnecting the heat insulating cover and the outer surface of the exhaust pipe, the mounting boss including a first end portion and a second end portion, the first end portion having an annular flange in direct contact with an inner surface of the cover and surrounding a hole located in the cover, the second end portion received in an opening located in the outer surface of the exhaust pipe, wherein the direct contact of the annular flange with the inner surface forms a metal to metal mechanical seal between the mounting boss and the heat insulating cover, the mechanical seal transferring heat generated by the exhaust pipe by conduction to the heat insulating cover, the heat insulating cover acting as a heat sink absorbing and dissipating the transferred heat into an associated surrounding environment. 12. The exhaust system of claim 11 , further including an exhaust constituent sensor having distal end portion received in the mounting boss and projecting through the opening and into a passage defined by the exhaust pipe, wherein the mechanical seal prevents high temperature air from around the exhaust pipe from flowing out of the cover hole toward a proximal end portion of the exhaust constituent sensor and blocks heat transfer by convection to the proximal end portion of the exhaust constituent sensor. 13. The exhaust system of claim 12 , further including a separate reinforcement positioned between the sensor and the heat insulating cover, the reinforcement having an aperture dimensioned to receive therein the first end portion of the mounting boss, wherein the aperture of the reinforcement is dimensioned smaller than the hole of the heat insulating cover and defines an alignment feature for mounting of the heat insulating cover to the exhaust pipe. 14. The exhaust system of claim 13 , further including a supporting bracket connected to the outer surface of the exhaust pipe, both the reinforcement and the heat insulating cover being fastened to the supporting bracket. 15. The exhaust system of claim 13 , wherein the heat insulating cover includes a planar section defining a surface area, and the reinforcement is mounted to the planar section and bounded by the surface area. 16. The exhaust system of claim 12 , wherein the sensor is mounted only to the mounting boss. 17. An exhaust system for a vehicle comprising: a heat insulating cover mounted to an exhaust pipe; a cylindrical shaped mounting boss located between an inner surface of the cover and an outer surface of the exhaust pipe, the mounting boss including a first end portion received in a hole located in the cover and having an annular flange in direct contact with the inner surface of the cover and a second end portion opposite the first end portion and received in an opening located in the outer surface of the exhaust pipe; and an exhaust constituent sensor mounted directly to the mounting boss, wherein a surface of the annular flange in direct contact with the inner surface of the heat insulating cover extends parallel to the inner surface to define a continuous metal to metal contact such that the annular flange prevents a flow of high temperature air generated by the exhaust system toward the exhaust constituent sensor, the annular flange further transferring heat generated by the exhaust pipe by conduction to the heat insulating cover, the heat insulating cover acting as a heat sink absorbing and dissipating the transferred heat into an associated surrounding environment. 18. The exhaust system of claim 17 , wherein the second end portion of the mounting boss is fixedly and nonremovably attached to the outer surface of the exhaust pipe. 19. The exhaust system of claim 18 , further including a separate reinforcement mounted to the heat insulating cover, the reinforcement having an aperture dimensioned to receiv