| 摘要 |
The present invention provides an integrated water cooling/air cooling thermoelectric device. The integrated water cooling/air cooling thermoelectric device comprises: a water supply pipe including a first hot water pipe and a first cool water pipe respectively having a hot water entrance and a cool water entrance formed in one sides thereof, the first hot water pipe and the first cool water pipe provided on an upper portion of the integrated water cooling/air cooling thermoelectric device in parallel with each other; a water discharge pipe including a second hot water pipe and a second cool water pipe respectively having a hot water exit and a cool water exit formed in one sides thereof, the second hot water pipe and the second cool water pipe provided on a lower portion of the integrated water cooling/air cooling thermoelectric device in parallel with each other to correspond to the water supply pipe; a plurality of cool water tubes consecutively installed at intervals in a longitudinal direction; a hot water tube adjacent to the cool water tube to connect the first hot water pipe to the second hot water pipe; a thermoelectric device being in surface contact with the cool water tube and the hot water tube to convert heat into electrical energy through heat exchange; and a plurality of heat pipes formed to extend in an orthogonal direction at intervals in the longitudinal direction on one side of the hot water tube. In comparison with a conventional thermoelectric device, a heat dissipation area may be increased, and a structure may be optimized to minimize heat loss, thereby maximizing heat dissipation capability and efficiency. When a high-capacity thermoelectric device is required, a thermoelectric device may be freely constructed to meet its required capacity. |
