Damper assebmly sealing arrangement

What is claimed is: 1. A damper assembly for a motor vehicle drive train comprising: a spring retainer retaining arc springs; an engine-side cover for connecting to an engine crankshaft, the spring retainer being fixed to the engine-side cover; and a seal configuration between the engine-side cover and the spring retainer, the seal configuration, the engine-side cover and the spring retainer defining an arc spring cavity for lubricating fluid to lubricate the arc springs, the seal configuration configured to prevent lubricating fluid from radially exiting the arc spring cavity during rotation of the damper assembly about a center axis thereof, the engine-side cover including a radially extending portion and an axially extending rim at an outer end of the radially extending portion, the spring retainer including a rounded portion surrounding outermost circumferential surfaces of the arc springs and extending axially toward the radially extending portion of the engine-side cover to join an axial rim, the axially extending rim of the engine-side cover being radially outside of the rounded portion of the spring retainer and extending axially away from the radially extending portion past an outermost circumference of the rounded portion, the seal configuration being sandwiched radially between an inner circumferential surface of the axially extending rim and an outer circumferential surface of the rounded portion or being sandwiched axially between the axial rim of the spring retainer and the radially extending portion. 2. The damper assembly as recited in claim 1 wherein the damper assembly is a dual mass flywheel. 3. The damper assembly as recited in claim 1 further comprising a rivet fixing the spring retainer to the front cover. 4. The damper assembly as recited in claim 1 wherein the seal configuration includes a u-shaped flexible or a silicone sealant. 5. The damper assembly as recited in claim 1 further comprising an outer flange extending into circumferential spaces between the arc springs such that the arc springs are arranged to drive the outer flange during operation of the damper assembly. 6. The damper assembly as recited in claim 5 further comprising inner springs radially inside of the arc springs, the outer flange extending into circumferential spaces between the inner springs such that the outer flange is arranged to drive the inner springs during operation of the damper assembly. 7. The damper assembly as recited in claim 6 further comprising an inner flange extending into the circumferential spaces between the inner springs such that the inner springs are arranged to drive the inner flange during operation of the damper assembly. 8. The damper assembly as recited in claim 7 further comprising an anti-rattle device arranged on the inner flange, the anti-rattle device being configured to preload a spline connection of the inner flange. 9. A method of forming a damper assembly for a motor vehicle drive train comprising: fixing a spring retainer retaining arc springs to an engine-side cover; and providing a seal configuration between the engine-side cover and the spring retainer such that the seal configuration, the engine-side cover and the spring retainer define an arc spring cavity for lubricating fluid to lubricate the arc springs, the seal configuration configured to prevent lubricating fluid from radially exiting the arc spring cavity during rotation of the damper assembly about a center axis thereof, the engine-side cover including a radially extending portion and an axially extending rim at an outer end of the radially extending portion, the spring retainer including a rounded portion surrounding outermost circumferential surfaces of the arc springs and extending axially toward the radially extending portion of the engine-side cover to join an axial rim, the axially extending rim of the engine-side cover being radially outside of the rounded portion of the spring retainer and extending axially away from the radially extending portion past an outermost circumference of the rounded portion, the seal configuration being sandwiched radially between an inner circumferential surface of the axially extending rim and an outer circumferential surface of the rounded portion or being sandwiched axially between the axial rim of the spring retainer and the radially extending portion. 10. The method as recited in claim 9 wherein the damper assembly is a dual mass flywheel. 11. The method as recited in claim 9 further comprising providing an outer flange axially between the spring retainer and the engine-side cover such that the outer flange extends into circumferential spaces between the arc springs and the arc springs are arranged to drive the outer flange during operation of the damper assembly. 12. The method as recited in claim 11 wherein the fixing of the spring retainer to the engine-side cover includes providing rivets passing through slots in the outer flange to fix the spring retainer to the engine-side cover.