Heat exchanger

The invention claimed is: 1 . A heat exchanger, comprising: a plurality of first core plates and a plurality of second core plates stacked alternatingly; and a plurality of first flow paths through which a first fluid flows and a plurality of second flow paths through which a second fluid flows, the plurality of first flow paths and the plurality of second flow paths each defined between a first core plate of the plurality of first core plates and an adjacent second core plate of the plurality of second core plates, the plurality of first flow paths and the plurality of second flow paths disposed in an alternating manner in a stacking direction; wherein each first core plate of the plurality of first core plates and each second core plate of the plurality of second core plates includes: a plurality of passage holes including a first passage hole, a second passage hole, and a third passage hole, the first passage hole, the second passage hole, and the third passage hole disposed adjacent to a first end of the respective core plate, the first end of the respective core plate disposed opposite a second end of the respective core plate in a first direction extending perpendicular to the stacking direction, the first passage hole partially defining a first flow-through portion, the second passage hole partially defining a second flow-through portion; and a boss portion surrounding the third passage hole; wherein the first flow-through portion connects the plurality of first flow paths in the stacking direction and is isolated from the second fluid in the plurality of second flow paths, and the second flow-through portion connects the plurality of second flow paths in the stacking direction and is isolated from the first fluid in the plurality of first flow paths; and wherein the boss portion includes an edge portion facing toward a center of the respective core plate, the edge portion oriented obliquely to the first direction and to a second direction, which extends perpendicular to the stacking direction and to the first direction, such that a distance from the edge portion to a centerline of the respective core plate increases as the edge portion extends toward the second passage hole. 2 . The heat exchanger according to claim 1 , further comprising a plurality of fin plates disposed in the plurality of first flow paths and the plurality of second flow paths. 3 . The heat exchanger according to claim 2 , wherein a gap between the edge portion and an associated fin plate of the plurality of fin plates narrows as the edge portion extends away from the second passage hole. 4 . The heat exchanger according to claim 1 , wherein: each first core plate of the plurality of first core plates and each second core plate of the plurality of second core plates further includes a second boss portion surrounding the second passage hole, the second boss portion including a second edge portion facing toward the center of the respective core plate, the second edge portion oriented obliquely to the first direction and to the second direction such that a distance from the second edge portion to the centerline of the respective core plate increases as the second edge portion extends toward the first passage hole; the edge portion contacts the first fluid flowing in an associated first flow path of the plurality of first flow paths; and the second edge portion contacts the second fluid flowing in an associated second flow path of the plurality of second flow paths. 5 . A heat exchanger, comprising: a plurality of core plates including a plurality of first core plates and a plurality of second core plates, stacked alternatingly in a stacking direction; a plurality of oil flow paths and a plurality of coolant flow paths alternatingly formed between the plurality of core plates in the stacking direction; each of the plurality of core plates including: a pair of oil passage holes including a first oil passage hole and a second oil passage hole arranged at opposite sides of the respective core plate in a first direction extending perpendicular to the stacking direction; a pair of coolant passage holes including a first coolant passage hole and a second coolant passage hole, the first coolant passage hole disposed adjacent to the first oil passage hole in a second direction extending perpendicular to the stacking direction and to the first direction, the second coolant passage hole disposed adjacent to the second oil passage hole in the second direction; a first boss portion surrounding the first oil passage hole; and a second boss portion surrounding the first coolant passage hole; wherein: the first boss portion includes a first edge portion facing toward a center of the respective core plate, the first edge portion oriented obliquely to the first direction and to the second direction such that a first distance from the first edge portion to a centerline of the respective core plate increases as the first edge portion extends toward the first coolant passage hole; and the second boss portion includes a second edge portion facing toward the center of the respective core plate, the second edge portion oriented obliquely to the first direction and to the second direction such that a second distance from the second edge portion to the centerline of the respective core plate increases as the second edge portion extends toward the first oil passage hole; wherein the plurality of oil flow paths fluidically communicate with one another via the pair of oil passage holes of the plurality of core plates; and wherein the plurality of coolant flow paths fluidically communicate with one another via the pair of coolant passage holes of the plurality of core plates. 6 . The heat exchanger of claim 5 , further comprising: a plurality of first fin plates each disposed in a respective oil flow path of the plurality of oil flow paths; and a plurality of second fin plates each disposed in a respective coolant flow path of the plurality of coolant flow paths. 7 . The heat exchanger of claim 5 , wherein each of the plurality of oil flow passages is defined by and between a lower face of a respective first core plate of the plurality of first core plates and an upper face of a respective second core plate of the plurality of second core plates. 8 . The heat exchanger of claim 5 , wherein each of the plurality of coolant flow passages is defined by and between an upper face of a respective first core plate of the plurality of first core plates and a lower face of a respective second core plate of the plurality of second core plates. 9 . The heat exchanger of claim 5 , wherein each of the plurality of core plates includes a pair of through holes through which neither the first fluid nor the second fluid passes. 10 . The heat exchanger of claim 5 , further comprising a top plate arranged on an uppermost core plate of the plurality of core plates, the top plate including: a coolant introduction portion in fluid communication with one of the first coolant passage hole and the second coolant passage hole of the uppermost core plate; and a coolant discharge portion in fluid communication with the other of the first coolant passage hole and the second coolant passage hole of the uppermost core plate. 11 . The heat exchanger of claim 5 , further comprising a bottom plate arranged on a lowermost core plate of the plurality of core plates, the bottom plate including: an oil introduction portion in fluid communication with one of the first oil passage hole and the second oil passage hole of the lowermost core plate; and an oil discharge portion in fluid communication with the other of the first oil passage hol