Condenser for vehicle

What is claimed is: 1. A condenser for a vehicle which is used in an air conditioning system having an expansion valve expanding liquid refrigerant, an evaporator evaporating the liquid refrigerant expanded at the expansion valve through heat-exchange with air to change the liquid refrigerant into gaseous refrigerant, and a compressor receiving from the evaporator and compressing the gaseous refrigerant, wherein the condenser is provided between the compressor and the expansion valve, and wherein the condenser circulates coolant supplied from a radiator to condense the compressed refrigerant supplied from the compressor through heat-exchange with the coolant, the condenser comprising: a first heat-radiating portion formed by stacking a plurality of first plates, connected to the radiator to circulate the coolant, and circulating the refrigerant supplied from the compressor to condense the compressed refrigerant through heat-exchange with the coolant, wherein each of the first plates have an opening; a second heat-radiating portion integrally formed at a lower portion of the first heat-radiating portion formed by stacking a plurality of second plates, and circulating the gaseous refrigerant of low temperature/pressure supplied from the evaporator, wherein each of the second plates have an opening; and a receiver-drier portion, wherein the openings of the first and second plates are aligned to form a space containing the receiver-drier portion, wherein the receiver-drier portion receives the condensed refrigerant from the first heat-radiating portion, performing gas-liquid separation and moisture removal of the compressed refrigerant, wherein the receiver-drier portion sends the refrigerant in which the gas-liquid separation and the moisture removal is performed to the second heat-radiating portion, and wherein the second heat-radiating portion overcools the refrigerant passing through and supplied from the receiver-drier portion through heat exchange with the gaseous refrigerant of low temperature/pressure supplied from the evaporator. 2. The condenser of claim 1 , wherein a first connecting line for supplying the condensed refrigerant to the receiver-drier portion is formed at a lower portion of the first heat-radiating portion. 3. The condenser of claim 1 , wherein a second connecting line for receiving from the receiver-drier portion the refrigerant in which the gas-liquid separation and the moisture removal is performed is formed at the second heat-radiating portion. 4. The condenser of claim 3 , wherein the second heat-radiating portion is provided with a refrigerant line for flowing the refrigerant supplied from the receiver-drier portion through the second connecting line and a gaseous refrigerant line for flowing the gaseous refrigerant of low temperature/pressure supplied from the evaporator; and wherein the refrigerant passing through the refrigerant line is overcooled through heat-exchange with the gaseous refrigerant passing through the gaseous refrigerant line. 5. The condenser of claim 1 , wherein a heat-isolating portion for preventing heat-exchange with the refrigerant passing through the first heat-radiating portion and the overcooled refrigerant passing through the second heat-radiating portion is formed between the first heat-radiating portion and the second heat-radiating portion. 6. The condenser of claim 5 , wherein the heat-isolating portion is receivable of nitrogen therein through a plurality of brazing holes formed along a length direction thereof between the first heat-radiating portion and the second heat-radiating portion. 7. The condenser of claim 1 , further comprising an upper cover mounted on an upper surface of the heat-radiating portion and the receiver-drier portion and a lower cover mounted on a lower surface of the receiver-drier portion and the second heat-radiating portion; wherein a coolant inlet for receiving the coolant and a coolant outlet for exhausting the coolant are formed respectively at one side and an other side of the upper cover, and a refrigerant inlet for receiving the refrigerant from the compressor is formed at the other side of the upper cover. 8. The condenser of claim 7 , wherein a refrigerant outlet connected to the expansion valve and a gaseous refrigerant inlet connected to the evaporator are formed at an other side of the lower cover, and a gaseous refrigerant outlet connected to the compressor is formed at one side of the lower cover. 9. The condenser of claim 1 , wherein a desiccant for removing moisture remaining in the refrigerant is replaceably provided in the receiver-drier portion.