Direct vent dilution air connection system

What is claimed is: 1. A direct vent blower system for use with a gas-fueled heater having a burner, the blower system comprising: a blower housing comprising a first blower housing piece and a second blower housing piece, the first and second blower housing pieces being adapted and configured to be connected to one another in a manner to collectively surround a blower fan, the first housing piece comprising a dilution air inlet port, the blower housing further comprising a combustion products inlet port and an exhaust port, the combustion products inlet port being configured to receive combustion products from the burner of the gas-fueled heater, the exhaust port being configured to discharge from the blower housing a mixture of dilution air and combustion products, the dilution air inlet port comprising a tubular portion having an end margin comprising a plurality of flanges separated by slits extending axially along the end margin, the slits being configured to enable flexing of the plurality of flanges from an unflexed position, at least some of the flanges of the tubular portion being a portion of the first blower housing piece, the first blower housing piece being a molded one-piece member; a gasket extending within the end margin of the dilution air inlet port; and a clamp positioned radially about the plurality of flanges and engageable such that one or more of the plurality of flanges is moveable radially inward from the unflexed position. 2. A blower system in accordance with claim 1 further comprising an air supply system comprising an inlet portion, a combustion air portion, and a one-piece fitting, the one-piece fitting comprising an inlet, dilution air outlet, and a combustion air outlet, the inlet portion of the air supply system being in fluid communication with the inlet of the one-piece fitting, the combustion air portion of the air supply system being in fluid communication with the combustion air outlet of the one-piece fitting and configured to provide combustion air to the burner of the gas-fueled heater, the dilution air outlet of the one-piece fitting being positioned at least partially within the gasket and the end margin of the dilution air inlet port of the first blower housing piece such that the dilution air outlet of the one-piece fitting is in fluid communication with the dilution air inlet port of the blower housing. 3. A blower system in accordance with claim 2 wherein only one clamp secures the one-piece fitting within the blower system. 4. A blower system in accordance with claim 2 wherein the dilution air outlet of the one-piece fitting is not adhered to the dilution air inlet port of the first blower housing piece. 5. A blower system in accordance with claim 2 wherein the one-piece fitting is a street type fitting wherein the dilution air outlet has a first maximum outer diameter, the inlet has a second maximum outer diameter, and the combustion air outlet has a third maximum outer diameter, the first maximum outer diameter being less than both the second and third maximum outer diameters. 6. A blower system in accordance with claim 1 wherein the gasket includes a cylindrical portion extending axially between a first end portion and a second end portion, and a radial flange extending radially from the first end portion, the cylindrical portion positionable within the end margin of the dilution air inlet port, the radial flange having an outer diameter greater than that of the end margin of the of the dilution air inlet. 7. A blower system in accordance with claim 6 wherein the dilution air inlet port includes at least one stop extending radially inward, the stop adapted and configured to engage with the cylindrical portion of the gasket to prevent over insertion of the gasket into the dilution air inlet port. 8. A blower system in accordance with claim 1 further comprising an air supply system comprising an inlet portion, a combustion air portion, a connection fitting, and a one-piece fitting, the one-piece fitting comprising an inlet, dilution air outlet, and a combustion air outlet, the inlet portion of the air supply system being in fluid communication with the inlet of the one-piece fitting, the combustion air portion of the air supply system being in fluid communication with the combustion air outlet of the one-piece fitting and configured to provide combustion air to the burner of the gas-fueled heater, the dilution air outlet of the one-piece fitting being in fluid communication with the connection fitting, the connection fitting being adhered to the dilution air outlet of the one-piece fitting, the connection fitting being comprised of a material other than rubber, and the connection fitting positioned at least partially within the gasket and the end margin of the dilution air inlet port of the first blower housing piece such that the dilution air outlet of the one-piece fitting is in fluid communication with the dilution air inlet port of the blower housing. 9. A blower assembly in accordance with claim 8 wherein the connection fitting is comprised of polyvinylchloride. 10. A blower system in accordance with claim 8 wherein only one clamp secures the connection fitting within the blower system. 11. A blower system in accordance with claim 8 wherein the connection fitting is not adhered to the dilution air inlet port of the first blower housing piece. 12. A blower system in accordance with claim 8 wherein the gasket includes a cylindrical portion extending axially between a first end portion and a second end portion, and a radial flange extending radially from the first end portion, the cylindrical portion positionable within the end margin of the dilution air inlet port, the radial flange having an outer diameter greater than that of the end margin of the of the dilution air inlet. 13. A blower system in accordance with claim 12 wherein the dilution air inlet port includes at least one stop extending radially inward, the stop adapted and configured to engage with the cylindrical portion of the gasket to prevent over insertion of the gasket into the dilution air inlet port. 14. A method for installing a direct vent blower system for use with a gas-fueled heater having a burner, the method comprising: positioning a gasket at least partially within a blower housing, the blower housing comprising a first blower housing piece and a second blower housing piece, the first and second blower housing pieces being adapted and configured to be connected to one another in a manner to collectively surround a blower fan, the first housing piece comprising a dilution air inlet port, the blower housing further comprising a combustion products inlet port and an exhaust port, the combustion products inlet port being configured to receive combustion products from the burner of the gas-fueled heater, the exhaust port being configured to discharge from the blower housing a mixture of dilution air and combustion products, the dilution air inlet port comprising a tubular portion having an end margin comprising a plurality of flanges separated by slits extending axially along the end margin, the slits enabling flexing of the plurality of flanges from an unflexed position, at least some of the plurality of flanges being a portion of the first blower housing piece, the first blower housing piece being a molded one-piece member, the gasket being positioned within the end margin of the dilution air inlet port; coupling an air supply system to the blower housing, the air supply system comprising an inlet portion, a combustion air portion, and a one-piece fitting, the one-piece fitting comprising an inlet, dilution air outlet, and