Ice making assembly for a refrigerator appliance

What is claimed is: 1. An ice making assembly for a refrigerator appliance, the ice making assembly comprising: a resilient mold defining a mold cavity; a fill cup positioned above the resilient mold for selectively filling the mold cavity with water; a heat exchanger in thermal communication with the resilient mold to freeze the water and form one or more ice cubes; a lifter mechanism positioned below the resilient mold and being movable between a lowered position and a raised position to deform the resilient mold and raise the one or more ice cubes; and a resilient seal comprising a cylindrical portion, a bottom portion generally perpendicular to the cylindrical portion, and a shoulder defining a joint and transition between the cylindrical portion and the bottom portion, the resilient seal sealingly engaged with the lifter mechanism and the heat exchanger, whereby an air-tight seal is formed between the lifter mechanism and the resilient seal and between the heat exchanger and the resilient seal, the cylindrical portion of the resilient seal received within a recess in the heat exchanger, wherein the resilient mold is sealingly engaged with the heat exchanger, whereby an air-tight seal is formed between the resilient mold and the heat exchanger, wherein a hermetically sealed cavity is defined by and formed between the resilient mold, the heat exchanger, the lifter mechanism, and the resilient seal, wherein the cylindrical portion of the resilient seal moves with the lifter mechanism and the cylindrical portion of the resilient seal flexes and compresses as the lifter mechanism moves between the lowered position and the raised position, whereby the air-tight seal between the resilient seal and the lifter mechanism and the hermetically sealed cavity are maintained as the lifter mechanism moves between the lowered position and the raised position, wherein the hermetically sealed cavity defines a generally fixed volume, whereby a discrete quantity of air is contained within the hermetically sealed cavity, whereby moisture intrusion into the hermetically sealed cavity and resultant frosting of the underside of the resilient mold is impeded. 2. The ice making assembly of claim 1 , wherein the heat exchanger defines a lifter channel and a lifter recess, the lifter mechanism comprising: a lifter arm that passes through the lifter channel; and a lifter projection extending from a top of the lifter arm and being positioned flush within the lifter recess when the lifter mechanism is in the lowered position. 3. The ice making assembly of claim 2 , wherein the resilient seal further comprises a lip at a bottom end of the resilient seal, wherein the resilient seal is sealingly engaged with the lifter arm of the lifter mechanism at the lip of the resilient seal. 4. The ice making assembly of claim 3 , wherein the lip of the resilient seal is sealingly engaged with the lifter arm of the lifter mechanism below the lifter channel of the heat exchanger. 5. The ice making assembly of claim 2 , wherein the resilient seal surrounds the lifter channel of the heat exchanger. 6. The ice making assembly of claim 1 , further comprising a sweep assembly positioned over the resilient mold and being movable between a retracted position and an extended position to push the ice cubes out of the resilient mold, and a drive mechanism operably coupled to the lifter mechanism and the sweep assembly to selectively raise the lifter mechanism and slide the sweep assembly to discharge the ice cubes. 7. The ice making assembly of claim 6 , wherein the drive mechanism comprises a motor mechanically coupled to a rotating cam, and wherein the lifter mechanism comprises a roller that rides against the rotating cam to move the lifter mechanism between the lowered position and the raised position. 8. The ice making assembly of claim 7 , wherein the resilient seal further comprises a lip at a bottom end of the resilient seal, wherein the resilient seal is sealingly engaged with a lifter arm of the lifter mechanism at the lip of the resilient seal above the roller of the lifter mechanism. 9. A refrigerator appliance defining a vertical direction, a lateral direction, and a transverse direction, comprising: a cabinet defining a chilled chamber; a door being rotatably mounted to the cabinet to provide selective access to the chilled chamber; an icebox mounted to the door and defining an ice making chamber; an ice making assembly positioned within the ice making chamber, the ice making assembly comprising: a resilient mold defining a mold cavity; a fill cup positioned above the resilient mold for selectively filling the mold cavity with water; a heat exchanger in thermal communication with the resilient mold to freeze the water and form one or more ice cubes; a lifter mechanism positioned below the resilient mold and being movable between a lowered position and a raised position to deform the resilient mold and raise the one or more ice cubes; and a resilient seal comprising a cylindrical portion, a bottom portion generally perpendicular to the cylindrical portion, and a shoulder defining a joint and transition between the cylindrical portion and the bottom portion, the resilient seal sealingly engaged with the lifter mechanism, whereby an air-tight seal is formed between the lifter mechanism and the resilient seal and between the heat exchanger and the resilient seal, the cylindrical portion of the resilient seal received within a recess in the heat exchanger, wherein the resilient mold is sealingly engaged with the heat exchanger, whereby an air-tight seal is formed between the resilient mold and the heat exchanger, wherein a hermetically sealed cavity is defined by and formed between the resilient mold, the heat exchanger, the lifter mechanism, and the resilient seal, wherein the cylindrical portion of the resilient seal moves with the lifter mechanism and the cylindrical portion of the resilient seal flexes and compresses as the lifter mechanism moves between the lowered position and the raised position, whereby the air-tight seal between the resilient seal and the lifter mechanism and the hermetically sealed cavity are maintained as the lifter mechanism moves between the lowered position and the raised position, wherein the hermetically sealed cavity defines a generally fixed volume, whereby a discrete quantity of air is contained within the hermetically sealed cavity, whereby moisture intrusion into the hermetically sealed cavity and resultant frosting of the underside of the resilient mold is impeded. 10. The refrigerator appliance of claim 9 , wherein the heat exchanger defines a lifter channel and a lifter recess, the lifter mechanism comprising: a lifter arm that passes through the lifter channel; and a lifter projection extending from a top of the lifter arm and being positioned flush within the lifter recess when the lifter mechanism is in the lowered position. 11. The refrigerator appliance of claim 10 , wherein the resilient seal further comprises a lip at a bottom end of the resilient seal, wherein the resilient seal is sealingly engaged with the lifter arm of the lifter mechanism at the lip of the resilient seal. 12. The refrigerator appliance of claim 11 , wherein the lip of the resilient seal is sealingly engaged with the lifter arm of the lifter mechanism below the lifter channel of the heat exchanger. 13. The refrigerator appliance of claim 10 , wherein the resilient seal surrounds the lifter channel of the heat exchanger. 14. The refrigerator appliance of claim 9 , further comprising a sweep assembly positioned over the resilient mold and