Vehicle lamp reflector having ventilation channel adjacent lamp capsule

What is claimed is: 1. An automotive lamp reflector ( 12 ) adapted to receive an automotive lamp capsule ( 10 ) having a resilient gasket ( 64 ) and retaining keys ( 42 ) extending from a lamp base ( 20 ), the reflector ( 12 ) comprising: a neck ( 2 ) and a reflective optical surface ( 16 ) formed thereon, the optical surface ( 16 ) defining an inner reflector cavity ( 19 ); the neck ( 2 ) defining a bore ( 40 ) having a bore inner surface ( 44 ), the bore ( 40 ) extending in an axial direction ( 18 ) between a neck entrance region ( 46 ) and a neck exit region ( 48 ), the neck entrance region ( 46 ) sized to receive a lamp capsule ( 10 ) and facing away from the optical surface ( 16 ), the neck entrance region ( 46 ) opening to an exterior region ( 45 ) disposed outwardly exterior of the reflector ( 12 ); the neck exit region ( 48 ) being adjacent the optical surface ( 16 ), whereby the bore ( 40 ) communicates between the inner reflector cavity ( 19 ) and the exterior region ( 45 ); the neck further defining: a socket region ( 50 ) adapted to receive the lamp capsule ( 10 ) when positioned in the bore ( 40 ), the socket region ( 50 ) comprising a capsule latching structure ( 52 ) adapted to retain, at an axially predetermined position, the plurality of retaining keys ( 42 ) formed on the lamp base ( 20 ) of the lamp capsule ( 10 ); a gasket seating surface ( 47 ) axially displaced from the capsule latching structure ( 52 ) and configured to receive the lamp gasket ( 64 ) disposed on the lamp base ( 20 ) of the lamp capsule ( 10 ); and at least one channel ( 43 ) defined in the neck ( 2 ) adjacent to and recessed relative the gasket seating surface ( 47 ), said at least one channel ( 43 ) opening to the neck entrance region ( 46 ) and thereby bounding an air passageway ( 70 ) in fluid communication between the reflector cavity ( 19 ) and the neck entrance region ( 46 ), whereby when a lamp capsule ( 10 ) is received in the bore ( 40 ) with the lamp gasket ( 64 ) adjacent the gasket seating surface ( 47 ) and the retaining keys ( 42 ) of the lamp capsule ( 10 ) retained against the capsule latching structure ( 52 ) in the socket region ( 50 ), the air passageway ( 70 ) defined in the neck ( 2 ) permits communication of air between the optical surface ( 16 ) and neck entrance region ( 46 ). 2. The lamp reflector of claim 1 , wherein the at least one channel ( 43 ) is formed as a recess in the neck ( 2 ). 3. The lamp reflector of claim 1 , wherein the gasket seating surface ( 47 ) is defined along the bore inner surface ( 44 ) and the at least one channel ( 43 ) is defined by at least one axially extending recess along the bore inner surface ( 44 ) extending between the neck entrance region ( 46 ) and the optical surface ( 16 ). 4. The lamp reflector of claim 3 , wherein the at least one channel ( 43 ) is recessed outwardly radially away from a reflector longitudinal axis ( 18 ). 5. The lamp reflector of claim 1 , wherein the gasket seating surface ( 47 ) is defined at the neck entrance region ( 46 ) and the at least one channel ( 43 ) is recessed below a peripheral lip of the neck entrance region ( 46 ). 6. The lamp reflector of claim 1 , wherein the bore inner surface ( 44 ) is cylindrical. 7. The lamp reflector of claim 1 , wherein the at least one channel ( 43 ) comprises a plurality of channels ( 43 ) thereby defining a plurality of air passageways ( 70 ). 8. The lamp reflector of claim 1 , wherein the capsule latching structure ( 52 ) comprises a plurality of lamp-retaining slots. 9. The lamp reflector of claim 8 , wherein the lamp-retaining slots are of the bayonet type, whereby rotation of the lamp capsule ( 10 ) brings the retaining keys ( 42 ) into engagement with the capsule latching structure ( 52 ). 10. The lamp reflector of claim 8 , wherein the lamp-retaining slots extend at least partially transverse the bore ( 40 ), whereby rotation of the lamp capsule ( 10 ) brings the retaining keys ( 42 ) into retention with the lamp-retaining slots. 11. The lamp reflector of claim 1 in combination with the lamp capsule ( 10 ), whereby when the lamp capsule ( 10 ) is disposed in the bore ( 40 ) and the retaining keys ( 42 ) are engaged in the latching structure ( 52 ), the at least one channel ( 43 ) defines the air passageway ( 70 ) between an outwardly facing surface of the gasket ( 64 ) and the gasket seating surface ( 47 ). 12. An automotive headlamp ( 6 ) comprising a lamp reflector ( 12 ) in combination with an automotive lamp capsule ( 10 ), comprising the reflector ( 12 ) defining an inner surface ( 16 ) and a neck ( 2 ) having a bore ( 40 ) extending between the reflector inner surface ( 16 ) and a neck entrance region ( 46 ) and defining a capsule-receiving region, the neck ( 2 ) further defining a capsule latching structure ( 52 ), the neck entrance region ( 46 ) being in communication with an exterior region ( 45 ) disposed outwardly exterior of the reflector ( 12 ); the lamp capsule ( 10 ) comprising a lamp base ( 20 ) on which is mounted a light source ( 11 ) and a gasket ( 64 ), wherein the lamp base ( 20 ) is latched in the capsule-receiving region, the light source ( 11 ) is disposed in optical association with the reflector inner surface ( 16 ), and the gasket ( 64 ) is seated in register with the neck ( 2 ) at a gasket seating surface ( 47 ) of the neck ( 2 ); and the neck ( 2 ) further defining in the gasket seating surface ( 47 ) at least one air flow channel ( 43 ) extending across and bounded by the gasket ( 64 ) and thereby defining an air passageway ( 70 ) in communication between the reflector inner surface ( 16 ) and the exterior region ( 45 ). 13. The headlamp of claim 12 , wherein the gasket ( 64 ) is disposed on an inner surface ( 44 ) of the bore ( 40 ). 14. The headlamp of claim 13 , wherein the at least one channel ( 43 ) is recessed radially outward of the bore inner surface ( 44 ). 15. The headlamp of claim 12 , wherein the gasket ( 64 ) is received on an outer peripheral surface of the bore ( 40 ) adjacent the neck entrance region ( 46 ). 16. The headlamp of claim 15 , wherein the outer peripheral surface of the bore ( 40 ) is oriented facing axially downward. 17. The headlamp of claim 12 , wherein the lamp capsule ( 10 ) further comprises a plurality of retaining keys ( 42 ) received in an associated plurality of slots of the capsule latching structure ( 52 ).