Air conditioner for vehicle

What is claimed is: 1. An air conditioner for a vehicle comprising: an air blowing device; an air-conditioning case having an air inflow port formed on one side for introducing the air blown from the air blowing device into the air-conditioning case, a plurality of air outflow ports formed on the other side for discharging out air, a cold air passageway which is formed between the air inflow port and the air outflow ports and in which an evaporator is mounted, and a warm air passageway in which a heater is mounted; a desiccant rotor mounted at the upstream side of the evaporator in an air flow direction inside the air-conditioning case, one side of the desiccant rotor relative to the air-conditioning case being used as a desiccant part for dehumidifying the air flowing inside the air-conditioning case, the other side of the desiccant rotor being used as a regeneration part for drying and regenerating moisture absorbed at the desiccant part; a bypass passageway and a regeneration passageway formed below the cold air passageway and the warm air passageway inside the air-conditioning case, the bypass passageway being adapted to let some of the air passing through the desiccant part of the desiccant rotor bypass the cold air passageway and the warm air passageway, the regeneration passageway being adapted to supply the air passing through the bypass passageway to the regeneration part of the desiccant rotor; a communication chamber formed at an outlet of the bypass passageway inside the air-conditioning case for communicating the rear side warm air passageway of the heater, the bypass passageway and the regeneration passageway with one another, and a door mounted inside the communication chamber for selectively opening and closing the rear side warm air passageway of the heater, the bypass passageway and the regeneration passageway relative to the communication chamber, wherein the heater has one side area arranged on the bypass passageway and the other side area arranged on the warm air passageway in order to heat the air flowing the bypass passageway and the warm air passageway, and heats the dehumidified air passing the bypass passageway through the desiccant part of the desiccant rotor, and then, supplies the heated air to the regeneration part of the desiccant rotor so as to regenerate the desiccant rotor. 2. The air conditioner according to claim 1 , further comprising: a discharge passageway formed between the bypass passageway and the regeneration passageway for discharging out the air passing through the regeneration part of the desiccant rotor through the regeneration passageway. 3. The air conditioner according to claim 2 , wherein a drain part for discharging out condensate water generated from the evaporator is formed below the evaporator inside the air-conditioning case, and wherein an outlet of the discharge passageway is adjacent to the drain part. 4. The air conditioner according to claim 3 , wherein the drain part penetrates through the bypass passageway, the discharge passageway and the regeneration passageway and extends in the downward direction of the air-conditioning case, and wherein the outlet of the discharge passageway penetrates through the regeneration passageway and extends in the same direction as the drain part. 5. The air conditioner according to claim 1 , wherein a warm air communication hole is formed on a partition wall between the rear side warm air passageway of the heater and the communication chamber, wherein a regeneration communication hole is formed on a partition wall which partitions the bypass passageway and the regeneration passageway for communicating an inlet of the regeneration passageway with the outlet of the bypass passageway, and wherein the door is mounted inside the communication chamber which is adjacent to the outlet of the bypass passageway for selectively opening and closing the warm air communication hole and the regeneration communication hole. 6. The air conditioner according to claim 1 , wherein a warm air communication hole is formed on a partition wall between the rear side warm air passageway of the heater and the communication chamber, and wherein the door comprises: a thin film member slidably mounted inside the communication chamber for selectively opening and closing the warm air communication hole, the outlet of the bypass passageway and the inlet of the regeneration passageway according to a sliding position; and a gear part rotatably mounted inside the communication chamber and engaged with one side of the thin film member so as to operate the thin film member. 7. The air conditioner according to claim 1 , wherein mode doors are mounted inside the air-conditioning case for opening and closing the plural air outflow ports, and wherein the air-conditioning mode comprises: a regeneration mode that the door is operated to communicate the bypass passageway and the regeneration passageway with each other, such that the air passing through the bypass passageway flows toward the regeneration passageway; a heating mode that the door is operated to communicate the bypass passageway and the rear side warm air passageway of the heater with each other, such that the air passing through the bypass passageway flows toward the rear side warm air passageway of the heater; and an exhaust mode that the door is operated to communicate the rear side warm air passageway of the heater and the regeneration passageway with each other and closes all of the air outflow ports, such that the air passing through the cold air and warm air passageways flows toward the regeneration passageway. 8. The air conditioner according to claim 1 , wherein the inlet of the regeneration passageway is communicated with the communication chamber, and the outlet is communicated with the front side of the regeneration part of the desiccant rotor. 9. The air conditioner according to claim 1 , further comprising: a motor mounted inside the air-conditioning case for rotatably operating the desiccant rotor; and a control part for variably controlling RPM of the desiccant rotor by controlling the motor according to an air volume blown from the air blowing device. 10. The air conditioner according to claim 1 , wherein the heater is a heater core in which cooling water for a vehicle engine flows. 11. The air conditioner according to claim 1 , wherein the heater is an electric heater heated by receiving electric power from a battery of the vehicle. 12. The air conditioner according to claim 10 , wherein the heater separately controls ON-OFF modes of the one side area arranged on the bypass passageway and the other side area arranged on the warm air passageway. 13. The air conditioner according to claim 1 , wherein the one side area arranged on the bypass passageway is smaller than the other side area of the heater arranged on the warm air passageway. 14. The air conditioner according to claim 1 , wherein the partition walls are respectively formed at front and rear sides of the desiccant rotor of the air-conditioning case for partitioning the inside of the air-conditioning case into a desiccant part area and a regeneration part area relative to the desiccant rotor.