Demand air door heater for refrigerator

The invention claimed is: 1. A refrigeration system, comprising: a freezer compartment; a refrigerator compartment; a powered cooling unit that reduces a temperature of air in the freezer compartment; a passageway fluidly interconnecting the freezer compartment and the refrigerator compartment; a first sealing surface extending around at least a portion of the passageway; a barrier member that closes off the passageway when in a closed position to thereby prevent air flow from the freezer compartment to the refrigerator compartment, and wherein the barrier member permits air flow from the freezer compartment to the refrigerator compartment when in an open position, and wherein the barrier member defines a surface that faces the passageway when the barrier member is in its closed position, and a second sealing surface extending around the barrier member surface, wherein the first and second sealing surfaces engage one another to prevent air flow past the barrier member when the barrier member is in the closed position; an electrically powered actuator that is mechanically connected to the barrier member and shifts the barrier member from the closed position to the open position; an electric heating element extending along one of the first and second sealing surfaces; a controller that utilizes at least one operating parameter of the refrigeration system as an input to control the electrically powered actuator and the electric heating element, wherein when the barrier is to be opened or closed, the controller activates the powered actuator and the electric heating element simultaneously until the barrier is opened or closed. 2. The refrigeration system of claim 1 , wherein: the barrier member comprises a door that pivots between the open and closed positions. 3. The refrigeration system of claim 2 , wherein: the passageway defines an opening, and wherein the first sealing surface comprises a first ring extending around the opening, and the second sealing surface comprises a second ring extending around a peripheral portion of the door. 4. The refrigeration system of claim 3 , wherein: the heating element extends along at least a portion of the first ring. 5. The refrigeration system of claim 4 , including: a divider wall separating the freezer compartment from the refrigerator compartment; and wherein: the passageway comprises an aperture in the divider wall. 6. The refrigeration system of claim 1 , wherein: the barrier member comprises a door that slides linearly between the open and closed positions. 7. The refrigeration system of claim 1 , including: a temperature sensor that provides the controller with a signal corresponding to an air temperature in the refrigerator compartment, and wherein the controller actuates the electrically powered actuator based, at least in part, on the air temperature in the refrigerator compartment. 8. The refrigeration system of claim 7 , including: a switch providing the controller with a signal indicating whether or not the barrier member is opened or closed and wherein: the controller compares the air temperature in the refrigerator compartment to a preset target temperature, wherein the controller provides power to the electrically powered actuator to open the barrier member if the air temperature in the refrigerator compartment is greater than the target temperature, and provides power to the electrically powered actuator to close the barrier member if the temperature in the refrigerator compartment is less than the target temperature, and wherein the controller simultaneously provides power to the electric heating element when power is supplied to the electrically powered actuator, and wherein the controller does not supply power to the electric heating element when power is not being supplied to the electrically powered actuator. 9. The refrigeration system of claim 8 , wherein: the electrically powered actuator is electrically connected in parallel with the electric heating element whereby the electrically powered actuator and the electric heating element are simultaneously controlled by a single output from the controller. 10. The refrigeration system of claim 1 , including: a divider wall between the freezer compartment and the refrigerator compartment; and wherein: the passageway comprises an opening through the divider wall; the divider wall comprising polymer material extending around the opening; the electric heating element is molded into the polymer material and extends around the opening directly adjacent the first sealing surface. 11. The refrigeration system of claim 10 , wherein: the opening is generally quadrilateral, and the barrier member defines a generally quadrilateral perimeter that fits closely around the opening when the barrier member is in a closed position. 12. A method of controlling air flow between a freezer compartment and a refrigerator compartment of a refrigeration system, the refrigeration system having a powered cooling unit that reduces a temperature of air in the freezer compartment and a passageway fluidly interconnecting the freezer compartment and the refrigerator compartment, and a first sealing surface extending around at least a portion of the passageway, the method comprising: providing a barrier member that moves between open and closed positions to control air flow between a freezer compartment and a refrigeration compartment, wherein the barrier member defines a surface that faces the passageway when the barrier member is in its closed position, and a second sealing surface extending around the barrier member surface, wherein the first and second sealing surfaces engage one another to prevent air flow past the barrier member when the barrier member is in the closed position; providing an electrically powered actuator that is mechanically connected to the barrier member to move the barrier member from the closed position to the open position; providing an electric heating element adjacent the barrier member to melt ice to permit the barrier member to open and/or close; providing a sensor indicating if the barrier member is open or closed; utilizing an operating parameter of the refrigeration system as a control input to determine when the barrier member is to be opened and closed; when the barrier member is to be opened, simultaneously providing electric power to the electrically powered actuator and to the electric heating element until the barrier member is opened; and when the barrier member is to be closed, simultaneously providing electric power to the electrically powered actuator and the electric heating element until the barrier member is closed. 13. The method of claim 12 , including: electrically connecting the electrically powered actuator and the electric heating element in parallel whereby electrical power is supplied to the electrically powered actuator and the electric heating element from a single electrical power surface. 14. The method of claim 12 , wherein: the freezer compartment and the refrigeration compartment are fluidly connected by a passageway; the barrier member forms a seal in the form of a ring around the passageway; and including: positioning the electric heating element along the seal. 15. The method of claim 12 , including: providing a sensor indicating if the barrier member is open or closed; pivoting the barrier member between open and closed positions. 16. A refrigeration system, comprising: a freezer compartment; a refrigeration compartment; a passageway between the freezer compartment and