Pivot joint assembly for vehicle steering and suspension systems

What is claimed is: 1. A pivot joint assembly, comprising: a housing with an inner wall that surrounds an inner bore which extends along a central axis; a stud that is partially received in said inner bore and projects out of one end of said housing and is rotatable relative to said housing about said central axis; and a sealing body made of a single piece of a material, said sealing body being in a static sealing condition with said housing and in a dynamic sealing condition with said stud, and said sealing body including a portion which extends at an acute angle relative to said central axis to contact said stud such that said portion is deflectable to allow lubricant to escape said inner bore during greasing; and wherein said portion of said sealing body that contacts said stud has a constant shape three hundred and sixty degrees around said central axis. 2. The pivot joint assembly as set forth in claim 1 , wherein said sealing body is in direct surface-to-surface contact with an inwardly extending surface of said inner wall of said housing to establish said static sealing condition between said sealing body and said housing. 3. The pivot joint assembly as set forth in claim 2 , wherein said inner wall of said housing includes a machined surface that is in surface-to-surface contact with said sealing body. 4. The pivot joint assembly as set forth in claim 3 , further including a biasing element disposed in said inner bore of said housing and biasing said sealing body against said inner wall of said housing. 5. The pivot joint assembly as set forth in claim 2 wherein said portion of said sealing body that contacts said stud is a tapered portion and wherein said housing includes a radially inwardly extending lip adjacent one axial end of said inner bore and wherein said sealing body includes a flange portion and wherein said surface-to-surface contact between said sealing body and said inner wall is between said flange portion of said sealing body and said radially inwardly extending lip. 6. The pivot joint assembly as set forth in claim 5 wherein said sealing body further includes an axially extending portion which extends axially from said flange portion to said tapered portion and wherein said axially extending portion is spaced from said stud to present an annularly shaped gap. 7. The pivot joint assembly as set forth in claim 5 further including at least one bearing received in said inner bore of said housing and in contact with said stud and allowing free rotation of said stud about said central axis and preventing articulation of said stud relative to said housing. 8. The pivot joint as set forth in claim 1 wherein said acute angle of said portion of said sealing body in contact with said stud relative to said central axis is approximately forty-five degrees. 9. The pivot joint as set forth in claim 1 wherein said portion of said sealing body in contact with said stud is a tapered portion and wherein said sealing body further includes a secondary sealing portion which extends from said tapered portion to a distal end which extends generally perpendicularly to said central axis. 10. The pivot joint as set forth in claim 1 wherein said portion of said sealing body is in direct, surface-to-surface contact with said stud. 11. A method of making a pivot joint assembly, comprising the steps of: preparing a housing with an inner wall that surrounds an inner bore which extends along a central axis; inserting at least a portion of a sealing body that is made of a single piece of a material into the inner bore; inserting a stud into the inner bore of the housing and supporting the stud such that the stud is rotatable relative to the housing about the central axis; establishing a static sealing condition between the sealing body and the housing; establishing a dynamic sealing condition between a portion of the sealing body which extends at an acute angle relative to the central axis and the stud and whereby the portion of the sealing body has a constant shape three hundred and sixty degrees around the central axis; injecting a lubricant into the inner bore of the housing; and resiliently deflecting the portion of the sealing body to allow excess lubricant to escape the inner bore. 12. The method as set forth in claim 11 , wherein the housing includes a radially inwardly extending lip adjacent one axial end of said inner bore and wherein said sealing body has a flange portion which is in surface to surface contact with said radially inwardly extending lip to establish the static sealing condition between the sealing body and the housing. 13. The method as set forth in claim 12 , further including the step of machining the inner wall of the housing at the radially inwardly extending lip before the steps of inserting the stud and sealing body into the inner bore. 14. The method as set forth in claim 13 , further including the step of inserting at least one bearing into the inner bore before the step of inserting the stud into the inner bore. 15. The method as set forth in claim 14 , further including the step of inserting a biasing element into the inner bore to bias a flat surface of said at least one bearing against the flange portion of the sealing body such that the static sealing condition between the sealing body and the housing is improved. 16. The method as set forth in claim 15 further including the step of closing one end of the inner bore of the housing with a cover plate. 17. The method as set forth in claim 11 wherein the portion of the sealing body is in direct, surface-to-surface contact with the stud.