The present invention relates to a heat exchanger for a vehicle, in which a second radiator as a heat exchanger for cooling electronic components, such as an inverter and a motor, and a first radiator as a heat exchanger for cooling an engine are manufactured into an integral-type heat exchanger, an
The present invention relates to a heat exchanger for a vehicle, in which a second radiator as a heat exchanger for cooling electronic components, such as an inverter and a motor, and a first radiator as a heat exchanger for cooling an engine are manufactured into an integral-type heat exchanger, and a reservoir tank is integrally coupled to the integral-type heat exchanger.
대표청구항▼
What is claimed is: 1. A heat exchanger for a vehicle comprising: a first radiator for heat-exchanging high-temperature cooling water passing though an engine, into low-temperature cooling water and discharging the low-temperature cooling water toward the engine; a second radiator mounted integrall
What is claimed is: 1. A heat exchanger for a vehicle comprising: a first radiator for heat-exchanging high-temperature cooling water passing though an engine, into low-temperature cooling water and discharging the low-temperature cooling water toward the engine; a second radiator mounted integrally with the first radiator, the second radiator allowing high-temperature cooling water passing though an electronic component equipped inside the vehicle to pass therethrough, heat-exchanging the high-temperature cooling water into low-temperature cooling water, and discharging the low-temperature cooling water to the electronic component; and a reservoir tank bonded integrally to the second radiator via a communication pipe by means of brazing for allowing cooling water to be introduced from the second radiator to the reservoir tank though the communication pipe, the reservoir tank having a cooling water outlet located higher than an upper portion of the second radiator for allowing the introduced cooling water to flow toward the electronic component, a filler neck formed on the upper portion thereof for replenishing cooling water, and a drain part formed on the lower portion thereof for discharging cooling water. 2. The heat exchanger according to claim 1, wherein each of the first and second radiators includes: a pair of header tanks spaced apart from each other and formed by combining headers and tanks with each other; a plurality of tubes whose ends are coupled between the header tanks in such a manner as to fluidically communicate with one another to allow cooling water to flow therethrough; and radiation fins mounted between the tubes, wherein one side header of the first radiator and one side header of the second radiator are formed integrally with each other into an a single header, and the other side header of the first radiator and the other side header of the second radiator are formed integrally with each other into an a single header, wherein the header tanks of the first radiator have a cooling water inlet and a cooling water outlet, and wherein one of the header tanks of the second radiator has a cooling water inlet. 3. The heat exchanger according to claim 2, further comprising: a first support mounted on the first radiator to fix the radiation fins arranged on the outer surface of at least one of one side tube and the other side tube located at the outermost side of the first radiator; and a second support mounted on the second radiator to fix the radiation fins arranged on the outer surface of at least one of one side tube and the other side tube located at the outermost side of the second radiator. 4. The heat exchanger according to claim 2, wherein after the first radiator is temporarily assembled with the header tanks, the tubes, the radiation fins, the cooling water inlet and the cooling water outlet for the first radiator and the second radiator is temporarily assembled with the header tanks, the tubes, the cooling water inlet and the cooling water outlet for the second radiator, the temporarily assembled first and second radiators are put into a brazing furnace in a state where the reservoir tank and the communication pipe are temporarily assembled with the second radiator, and then, the first and second radiators and the reservoir tank are formed integrally with one another while clad material is melted at their bonded portions. 5. The heat exchanger according to claim 1, wherein each of the first and second radiators includes: a pair of header tanks spaced apart from each other and formed by combining headers and tanks with each other; a plurality of tubes whose ends are coupled between the header tanks in such a manner as to fluidically communicate with one another to allow cooling water to flow therethrough; and radiation fins mounted between the tubes, wherein one side header of the first radiator and one side header of the second radiator are formed as separate parts, and the other side header of the first radiator and the other side header of the second radiator are formed as separate parts, wherein the header tanks of the first radiator have a cooling water inlet and a cooling water outlet, and wherein one of the header tanks of the second radiator has a cooling water inlet, wherein said tanks are of the integral-type. 6. The heat exchanger according to claim 5, further comprising: a first support mounted on the first radiator to fix the radiation fins arranged on the outer surface of at least one of one side tube and the other side tube located at the outermost side of the first radiator; and a second support mounted on the second radiator to fix the radiation fins arranged on the outer surface of at least one of one side tube and the other side tube located at the outermost side of the second radiator. 7. The heat exchanger according to claim 5, wherein one side tank of the first radiator and one side tank of the second radiator are formed integrally with each other, and a baffle is formed in the integral-type tank for partitioning the inner space of the integral-type tank, and wherein the other side tank of the first radiator and the other side tank of the second radiator are formed integrally with each other, and another baffle is formed in the integral-type tank for partitioning the inner space of the integral-type tank. 8. The heat exchanger according to claim 5, wherein after the second radiator is temporarily assembled with the header tanks, the tubes, the cooling water inlet and the cooling water outlet, the temporarily assembled second radiator is put into a brazing furnace in a state where the reservoir tank and the communication pipe are temporarily assembled with the second radiator, and then, the second radiator and the reservoir tank are formed integrally with each other while clad material is melted at their bonded portions. 9. The heat exchanger according to claim 2, wherein the second radiator and the reservoir tank are temporarily assembled with each other in such a way that one end of the communication pipe is fluidically communicated with a though-hole formed on the reservoir tank and the other end of the communication pipe is fluidically communicated with a though-hole formed on the tank of the header tank of the second radiator, so that the reservoir tank and the second radiator are bonded with each other by means of brazing.
Raduenz, Dan R.; Braun, Jason J.; Meshenky, Steve P.; Grotophorst, Thomas R.; Hornback, Daniel E., Heat exchanger and method of manufacturing the same.
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