초록 ▼

A heat-exchanger heat sink (1; 102; 103; 104) includes a plurality of fin plates (2; 202; 203; 203a, 203b; 205), which are lined up spaced apart from one another in a plate-thickness direction; and at least one linking part (3; 3a, 3b; 304), which is disposed such that it intersects and hold the plu

A heat-exchanger heat sink (1; 102; 103; 104) includes a plurality of fin plates (2; 202; 203; 203a, 203b; 205), which are lined up spaced apart from one another in a plate-thickness direction; and at least one linking part (3; 3a, 3b; 304), which is disposed such that it intersects and hold the plurality of fin plates (2). The at least one linking part has a base (31), which may be rod or bar shaped, and a plurality of positioning protrusions (32), which protrude from a side surface of the base. Each of the fin plates has at least one latching groove (21, 26), into which the base is inserted such that each fin plate is located between adjacent positioning protrusions of the at least one linking part.

대표청구항 ▼

1. A heat sink, comprising: a plurality of fin plates, which are lined up spaced apart from one another in a plate-thickness (Y) direction; andat least one linking part disposed such that it intersects and holds the plurality of fin plates;wherein the at least one linking part comprises a base, whic

1. A heat sink, comprising: a plurality of fin plates, which are lined up spaced apart from one another in a plate-thickness (Y) direction; andat least one linking part disposed such that it intersects and holds the plurality of fin plates;wherein the at least one linking part comprises a base, which has a rod or bar shape, and a plurality of positioning protrusions, which protrude from a side surface of the base; andeach of the fin plates has at least one latching groove, into which the base is inserted such that each fin plate is located between adjacent positioning protrusions of the at least one linking part;wherein the fin plates have:notched parts, which are recessed more than their surroundings, on groove side surfaces that define spaces between open ends and a bottom surface of the at least one latching groove, andclaw parts that press against the linking part more on the side of the open ends of the latching groove than on the side of the notched parts. 2. The heat sink according to claim 1, wherein: the at least one latching groove comprises a plurality of latching grooves that are respectively formed on both sides in a plate-width (Z) direction at both end parts of each fin plate in the longitudinal direction; andthe at least one linking part comprises a plurality of linking parts that respectively hold the plurality of fin plates from or on both sides in the plate-width direction at both end parts of each fin plate in the longitudinal direction. 3. The heat sink according to claim 2, wherein the plurality of linking parts is respectively disposed in the plurality of latching grooves respectively located at a first end surface and at a second end surface of the fin plates, the first and second end surfaces of the fin plates being opposite of each other in the plate-width (Z) direction. 4. The heat sink according to claim 3, wherein each of the first end surface and the second end surface of the heat sink has a degree of planarity in the plate-width (Z) direction of the fin plates of 0.2 mm or less. 5. The heat sink according to claim 4, wherein the heat sink has a narrow-pitch section, in which the spacing between adjacent fin plates is d1, and a wide-pitch section, in which the spacing between adjacent fin plates is d2, which is wider than d1. 6. The heat sink according to claim 4, wherein the heat sink has a portion in which the spacing between adjacent fin plates is narrower than the plate thickness of the fin plates. 7. The heat sink according to claim 4, wherein: each of the plurality of latching grooves has a respective bottom surface, two groove side surfaces respectively extending from the bottom surface and two open ends defined at the end of the groove side surfaces that is opposite of the bottom surface, the notched parts being formed in an intermediate portion of each of the two groove side surfaces between the bottom surface and the respective open end, andeach of the fin plates has two claw parts that respectively press against the linking part more in a portion of the side surface between the notched part and the open end than in a portion between the notched part and the bottom surface. 8. The heat sink according to claim 7, wherein depressions are defined in each of the fin plates, each of the depressions having a depth of 0.1-0.5 millimeters and having a center that is spaced 0.2-1.0 millimeters from a closest adjacent one of the linking parts. 9. The heat sink according to claim 1, wherein the at least one linking part is attached such that its base is flush with an end surface of the fin plates in the plate-width (Z) direction. 10. The heat sink according to claim 1, wherein the heat sink has a narrow-pitch section, in which the spacing between adjacent fin plates is d1, and a wide-pitch section, in which the spacing between adjacent fin plates is d2, which is wider than d1. 11. The heat sink according to claim 1, wherein the heat sink has a portion in which the spacing between adjacent fin plates is narrower than the plate thickness of the fin plates. 12. The heat sink according to claim 1, wherein an end surface of the heat sink has a degree of planarity in the plate-width (Z) direction of the fin plates of 0.2 mm or less. 13. The heat sink according to claim 1, wherein each of the fin plates has a plate thickness of 0.3-1.5 millimeters. 14. The heat sink according to claim 1, wherein each of the fin plates has a cut-and-raised part configured to disrupt a flow of coolant across the fin plate. 15. The heat sink according to claim 1, wherein depressions are defined in each of the fin plates, each of the depressions having a depth of 0.1-0.5 millimeters and having a center that is spaced 0.2-1.0 millimeters from a closest adjacent one of the linking parts. 16. A heat exchanger, comprising: a heat sink having a plurality of fin plates, which are lined up spaced apart from one another in a plate-thickness (Y) direction; andthe heat sink having at least one linking part disposed such that it intersects and holds the plurality of fin plates;wherein the at least one linking part comprises a base, which has a rod or bar shape, and a plurality of positioning protrusions, which protrude from a side surface of the base;wherein each of the fin plates has at least one latching groove, into which the base is inserted such that each fin plate is located between adjacent positioning protrusions of the at least one linking part;wherein the fin plates have notched parts, which are recessed more than their surroundings, on groove side surfaces that define spaces between open ends and a bottom surface of the at least one latching groove, and claw parts that press against the linking part more on the side of the open ends of the latching groove than on the side of the notched parts; anda jacket that houses the heat sink,wherein a surface configured to mount a heat-generating element is defined on an outer surface of the jacket;the jacket has a coolant-inflow port for receiving a coolant, a coolant-outflow port for discharging the coolant, and a coolant passageway fluidly connecting the coolant-inflow port and the coolant-outflow port; andthe heat sink is disposed in the coolant passageway. 17. The heat exchanger according to claim 16, wherein opposite end surfaces of the fin plates in the plate-width (Z) direction are joined by brazing to respective opposite inner surfaces of the jacket. 18. An apparatus, comprising: a plurality of fin plates disposed in parallel in a first direction, each of the fin plates having a latching groove; andat least one link extending at least substantially in the first direction,wherein the at least one link is rod-shaped or bar-shaped;the at least one link has a base that engages in the latching grooves of the fin plates and a plurality of protrusions that are respectively disposed between adjacent ones of the fin plates;at least first and second notches are respectively defined in opposing walls of each of the latching grooves and extend in the first direction;first and second claws are respectively defined on the opposing walls of each of the latching grooves between the first and second notches and an open end of each of the latching grooves; andthe first and second claws press against the at least one link more on the side of the open ends of the latching grooves than on the side of the first and second notches. 19. The apparatus according to claim 18, further comprising a jacket comprising: an outer surface configured to mount a heat-generating element;a coolant-inflow port for receiving a coolant,a coolant-outflow port for discharging the coolant, anda coolant passageway fluidly connecting the coolant-inflow port and the coolant-outflow port;wherein the fin plates and at least one link are disposed within the coolant passageway. 20. The apparatus according to claim 19, wherein: the at least one latching groove comprises a plurality of latching grooves that are respectively defined in end portions of each of the fin plates; andthe at least one linking part comprises a plurality of linking parts that respectively engage the plurality of fin plates and extend along the first direction.