Heat exchanger for vehicle

What is claimed is: 1. A heat exchanger for a vehicle comprising: a heat exchange unit including a plurality of plates layered to alternately form a first flow channel and a second flow channel therein to exchange heat of operation fluids passing through each of the first and second flow channels, the heat exchange unit having one surface connected to an expansion valve; first and second inflow holes formed separately at both surfaces of the heat exchange unit and connected to the first flow channel and the second flow channel, respectively; first and second exhaust holes formed separately in a diagonal direction of the first and second inflow holes at both surfaces of the heat exchange unit and connected to the first flow channel and the second flow channel, respectively; and a noise reducer integrally connected to another surface of the heat exchange unit, the noise reducer reducing noise and vibration occurring when an operation fluid that is injected through the second inflow hole moves; and wherein the noise reducer comprises: at least two noise reduction plates layered at the other surface of the heat exchange unit, the at least two noise reduction plates forming at least one space in the noise reducer and having a connection hole which communicates with the second exhaust hole; and a closing and sealing plate mounted to an outer side of the at least two noise reduction plates to form a space between the closing and sealing plate and the outer side of the at least two noise reduction plates, wherein the heat exchange unit and the noise reducer have a cover plate mounted at the one surface of the heat exchange unit and the another surface of the noise reducer, and the cover plate has a connection block mounted thereto at an opposite side of the expansion valve, the connection block having first and second penetration holes which communicate with the first inflow hole and the second exhaust hole, respectively. 2. The heat exchanger of claim 1 , wherein the at least one space blocks the connection of the first flow channel and the first inflow hole to inject only an operation fluid that is discharged through the second exhaust hole. 3. The heat exchanger of claim 1 , wherein the noise reducer comprises: at least one noise reduction plate having one surface layered at the other surface of the heat exchange unit, the at least one noise reduction plate having a protruding end which protrudes toward the other surface of the heat exchange unit and having a connection hole which communicates with the second exhaust hole; a resonance hole in which one side of the protruding end is opened to communicate with the connection hole; and a closing and sealing plate mounted to an outer side of the at least one noise reduction plate to be in contact with the protruding end and forming a space which communicates with the resonance hole between the closing and sealing plate and the at least one noise reduction plate. 4. The heat exchanger of claim 3 , wherein the space blocks the connection of the first flow channel and the first inflow hole to inject only an operation fluid that is discharged through the second exhaust hole. 5. The heat exchanger of claim 1 , wherein the expansion valve is connected to the heat exchange unit through a connection flange mounted to the heat exchange unit by a fixed plate, and the connection flange is integrally fixed to the heat exchange unit through a fixing bolt which penetrates the heat exchange unit from the other surface of the heat exchange unit. 6. The heat exchanger of claim 1 , wherein the first inflow hole is formed at the other surface of the heat exchange unit, and the first exhaust hole is formed separately in a diagonal direction of the first inflow hole at the one surface of the heat exchange unit, and the second inflow hole is formed at the one surface of the heat exchange unit, and the second exhaust hole is formed separately in a diagonal direction of the second inflow hole at the other surface of the heat exchange unit. 7. The heat exchanger of claim 1 , wherein the operation fluids include a first refrigerant having a high temperature and a high pressure that is discharged from a condenser to pass through each first flow channel through the first inflow hole, and a second refrigerant having a low temperature and a low pressure that is discharged from an evaporator to pass through each second flow channel through the second inflow hole.