Push through retainer connection with integrated hinging seal

What is claimed is: 1. A press-in retainer, comprising: a retainer head including a collar and a seal disposed at least partially about the collar; and a clip portion projecting from the collar, wherein the seal includes a main body engaging the collar and a sealing foot projecting at an obtuse angle from a distal surface of the main body to a free edge when in an unstressed condition such that the sealing foot is disposed entirely outboard from the collar, wherein the sealing foot is contiguous with the main body, the obtuse angle facing the clip portion, wherein the sealing foot is configured to flex from the unstressed condition toward a substantially flattened condition about a living hinge located at an intersection of the sealing foot and body portion while remaining entirely outboard from the main body, and wherein, in the substantially flattened condition, the obtuse angle between the sealing foot and the distal surface of the main body approaches a flat contiguous surface. 2. The press-in retainer of claim 1 , wherein the press-in retainer is configured to join a surface element to a support structure, and wherein the clip portion is configured for insertion into an acceptance opening of the support structure. 3. The press-in retainer of claim 2 , wherein the retainer head and the clip portion are molded as a unitary structure. 4. The press-in retainer of claim 2 , wherein the clip portion comprises a stem extending from the collar. 5. The press-in retainer of claim 4 , wherein the clip portion comprises at least one flexible wing that extends in an angled relation away from an end of the stem, wherein the flexible wing comprises a dogleg configuration with a proximal face surface and a distal face surface, wherein the proximal face surface extends from the end of the stem radially outwardly, toward the collar, and to the distal face surface, and wherein the distal face surface extends from the proximal face surface radially inwardly, toward the collar, and to a free tip of the flexible wing. 6. The press-in retainer of claim 5 , wherein the flexible wing is configured to flex toward the stem during insertion through the acceptance opening of the support structure, and wherein the distal face surface is configured to press against an interior surface of the acceptance opening to urge the retainer downwardly into the acceptance opening. 7. The press-in retainer of claim 6 , wherein the seal is configured to flex from the unstressed condition toward the substantially flattened condition to bring the surface element toward the support structure in response to the distal face surface pressing against the interior surface of the acceptance opening to urge the retainer downwardly into the acceptance opening. 8. The press-in retainer of claim 2 , wherein the collar includes an interior collar portion and a reduced thickness outer annular lip disposed circumferentially about the interior collar portion, and wherein the outer annular lip extends outwardly from a perimeter of the interior collar portion. 9. The press-in retainer of claim 8 , wherein the main body of the seal is annular and further includes a circumferential acceptance slot that extends circumferentially along an inner diameter of the main body, and wherein the circumferential slot is configured to receive the outer annular lip of the collar. 10. The press-in retainer of claim 2 , wherein the free edge of the sealing foot is configured to maintain sliding contact with the support structure as the seal flexes from the unstressed condition toward the substantially flattened condition. 11. A retainer assembly configured to join a surface element to a support structure so that the surface element assumes a contacting abutting relation with the support structure, the support structure having an acceptance opening, the retainer assembly comprising: a retainer head including a collar, a platform, and a neck disposed between the collar and the platform, the retainer head being configured for placement into a channel defined by the surface element; a seal disposed about a perimeter of the collar and comprising an annular main body and a sealing foot, the sealing foot being connected to the main body by a living hinge extending along a perimeter of the main body and being disposed entirely outboard from the collar, and the sealing foot extending from the living hinge to a free edge, wherein an inner diameter of the main body at least partially contacts an outer diameter of the collar, wherein a contacting surface of the sealing foot is contiguous with a distal surface of the main body, the contacting surface and the distal surface both facing away from the retainer head, and wherein the contacting surface forms an obtuse angle with the distal surface when the seal is in an unstressed condition; and a clip portion extending from the collar of the retainer head, the clip portion being configured for insertion into the acceptance opening of the support structure, and the clip portion comprising at least one surface that is configured to press against an interior surface of the acceptance opening to urge the retainer assembly further into the acceptance opening, wherein the seal is configured to flex from the unstressed condition toward a fully flexed condition to bring the surface element closer to the support structure, and wherein, in the fully flexed condition, the free edge of the sealing foot is disposed radially outwardly and closer to the retainer head such that the contacting surface of the sealing foot and the distal surface of the main body form an angle greater than the obtuse angle of the unstressed condition. 12. The retainer assembly of claim 11 , wherein the retainer head and the clip portion are molded as a unitary structure. 13. The retainer assembly of claim 11 , wherein the clip portion comprises a stem extending from the collar. 14. The retainer assembly of claim 13 , wherein the clip portion comprises at least one flexible wing that extends in an angled relation away from an end of the stem, wherein the flexible wing comprises a dogleg configuration with a proximal face surface and a distal face surface, wherein the proximal face surface extends from the end of the stem radially outwardly, toward the collar, and to the distal face surface, and wherein the distal face surface extends from the proximal face surface radially inwardly, toward the collar, and to a free tip of the flexible wing. 15. The retainer assembly of claim 14 , wherein the at least one flexible wing is configured to flex toward the stem during insertion through the acceptance opening of the support structure, and wherein the distal face surface is configured to press against the interior surface of the acceptance opening to urge the retainer assembly downwardly into the acceptance opening. 16. The retainer assembly of claim 13 , wherein the clip portion comprises a pair of flexible wings that extend in angled relation away from an end of the stem in opposing directions, wherein each of the pair of flexible wings comprises a dogleg configuration with a proximal face surface and a distal face surface, wherein the proximal face surface extends from the end of the stem radially outwardly, toward the collar, and to the distal face surface, and wherein the distal face surface extends from the proximal face surface radially inwardly, toward the collar, and to a free tip of the flexible wing, and wherein the distal face surface is configured to press against the interior surface of the acceptance opening to urge the retainer assembly downwardly into the acceptance opening.