Sealing arrangement

The invention claimed is: 1. Sealing arrangement of a fluid system for use with cryogenic media, comprising: a sealing ring in which a first system component is connected to a second system component by means of said sealing ring; a portion of said first system component and a portion of said second system component reside radially inwardly within said sealing ring; said sealing ring has a first sealing surface which radially and sealingly engages said portion of said first system component residing radially inwardly of said sealing ring and said sealing ring has a second sealing surface which radially and sealingly engages said portion of said second system component residing radially inwardly of said sealing ring; and, said sealing ring, when exposed to cold, contracts thermally to a greater extent than said first system component and said second system component. 2. Sealing arrangement according to claim 1 , further comprising: said sealing ring is of a cross-sectional shape in which at least one of said first and second sealing surfaces is inclined at an angle not equal to 90° relative to said direction of contraction K of said sealing ring. 3. Sealing arrangement according to claim 2 , further comprising: said sealing ring is wedge-shaped in cross-section, said first and second sealing surfaces being inclined relative to said direction of radial expansion of said sealing ring in such a way that said sealing ring increases in cross-section as it extends in a direction opposite to said direction of contraction. 4. Sealing arrangement according to claim 2 , further comprising: an angle of inclination of said first sealing surface is different from an angle of inclination of said second sealing surface. 5. Sealing arrangement according to claim 1 , further comprising: the cross-section of said sealing ring is C-shaped. 6. Sealing arrangement according to claim 5 , further comprising: said C-shaped in cross-section sealing ring includes a first cavity and a second cavity. 7. Sealing arrangement according to claim 6 , further comprising: a spring ring is mounted in each of said first and second cavities. 8. Sealing arrangement according to claim 1 , further comprising: said first system component is a first valve component and said second system component is a second valve component. 9. Sealing arrangement according to claim 1 , further comprising: said first valve component is a valve cage and said second valve component is a valve housing. 10. Sealing arrangement according to claim 1 , further comprising: said first system component is a valve cover, and said second system component is a valve housing. 11. Sealing arrangement according to claim 1 , further comprising: said sealing ring includes a radial outer wall; and, said radial outer wall of said sealing ring includes a circumferential groove. 12. Sealing arrangement of a fluid system for use with cryogenic media, comprising: a sealing ring resides intermediate a first system component and a second system component; the cross-section of said sealing ring is C-shaped; said C-shaped in cross-section sealing ring includes a first cavity, a second cavity and an outer radial wall; said first cavity, said second cavity and said outer radial wall are under pressure of said cryogenic media; a portion of said first system component and a portion of said second system component reside radially inwardly within said sealing ring; said sealing ring has a first sealing surface which radially and sealingly engages said portion of said first system component residing radially inwardly within said sealing ring and said sealing ring has a second sealing surface which radially and sealingly engages said portion of second system component residing radially within said sealing ring; and, said sealing ring, when exposed to cold, contracts thermally to a greater extent than said first system component and said second system component, said thermal contraction thus increasing the contact pressure of said first sealing surface on said portion of said first system component residing radially inwardly within said sealing ring and said thermal contraction thus increasing the contact pressure of said second sealing surface on said portion of said second system component residing radially inwardly within said sealing ring.