Heat exchanger

The invention claimed is: 1 . A heat exchanger, comprising: a plurality of plates stacked on one another in a stacking direction; a plurality of oil flow paths and a plurality of coolant flow paths disposed in an alternating manner in the stacking direction, each of the plurality of oil flow paths and each of the plurality of coolant flow paths defined by a respective pair of adjacent plates of the plurality of plates; each plate of the plurality of plates including: a plurality of oil passage holes including a first oil passage hole and a second oil passage hole disposed on opposite sides of the respective plate and between which one of the plurality of oil flow paths extends; a plurality of coolant passage holes including a first coolant passage hole and a second coolant passage hole disposed on opposite sides of the respective plate and between which one of the plurality of coolant flow paths extends; a plurality of through holes including (i) a first through hole disposed in the respective plate between the first oil passage hole and the first coolant passage hole and (ii) a second through hole disposed in the respective plate between the second oil passage hole and the second coolant passage hole; a main plate portion; a boss portion protruding from the main plate portion and surrounding (i) the first through hole and (ii) one of the first oil passage hole and the first coolant passage hole; and another boss portion protruding from the boss portion and surrounding the first through hole; wherein the plurality of oil flow paths fluidically communicate with one another in the stacking direction via the plurality of oil passage holes; wherein the plurality of coolant flow paths fluidically communicate with one another in the stacking direction via the plurality of coolant passage holes; wherein the boss portion and the another boss portion protrude in opposite directions; wherein the boss portion of each plate of the plurality of plates abuts the boss portion of an adjacent plate of the plurality of plates; wherein the another boss portion of each plate of the plurality of plates abuts the another boss portion of an adjacent plate of the plurality of plates; wherein the main plate portion of each plate of the plurality of plates is a flat, planar portion oriented perpendicularly to the stacking direction; and wherein the main plate portion of each plate of the plurality of plates is rectangular. 2 . The heat exchanger according to claim 1 , wherein the first oil passage hole, the second oil passage hole, the first coolant passage hole, and the second coolant passage hole are each arranged proximal a different corner of the main plate portion of the respective plate. 3 . The heat exchanger according to claim 1 , wherein: the boss portion of each plate of the plurality of plates is brazed to the abutting boss portion of the adjacent plate of the plurality of plates; and/or the another boss portion of each plate of the plurality of plates is brazed to the abutting another boss portion of the adjacent plate of the plurality of plates. 4 . The heat exchanger according to claim 1 , further comprising a plurality of fin plates disposed in the plurality of oil flow paths and the plurality of coolant flow paths. 5 . The heat exchanger according to claim 4 , wherein each fin plate of the plurality of fin plates is brazed to a respective pair of plates of the plurality of plates that are disposed adjacent thereto. 6 . The heat exchanger according to claim 4 , wherein the plurality of fin plates includes: a plurality of first fin plates that are each disposed in a respective oil flow path of the plurality of oil flow paths; and a plurality of second fin plates that are each disposed in a respective coolant flow path of the plurality of coolant flow paths. 7 . The heat exchanger according to claim 1 , wherein the boss portion surrounds the first through hole and the first oil passage hole, and does not surround the first coolant passage hole. 8 . The heat exchanger according to claim 7 , wherein the boss portion and the first coolant passage hole each have an elongated shape. 9 . The heat exchanger according to claim 8 , wherein an elongated extent of the boss portion and an elongated extent of the first coolant passage hole extend substantially parallel to one another. 10 . The heat exchanger according to claim 7 , wherein: each plate of the plurality of plates further includes an additional boss portion protruding from the main plate portion and surrounding the first coolant passage hole; and the boss portion and the additional boss portion protrude from the main plate portion in opposite directions. 11 . The heat exchanger according to claim 10 , wherein the additional boss portion of each plate of the plurality of plates abuts the additional boss portion of an adjacent plate of the plurality of plates. 12 . The heat exchanger according to claim 11 , wherein the additional boss portion of each plate of the plurality of plates is brazed to the abutting additional boss portion of the adjacent plate of the plurality of plates. 13 . The heat exchanger according to claim 7 , wherein the boss portion is continuous and completely surrounds the first through hole and the first oil passage hole such that no portion of the main plate portion is disposed between the first through hole and the first oil passage hole. 14 . The heat exchanger according to claim 1 , wherein: the boss portion and the another boss portion are arranged on a first side of the respective plate; each plate of the plurality of plates further includes: a second-side boss portion arranged on a second side of the respective plate opposite the first side, the second-side boss portion protruding from the main plate portion and surrounding (i) the second through hole and (ii) one of the second oil passage hole and the second coolant passage hole; and another second-side boss portion arranged on the second side of the respective plate, the another second-side boss portion protruding from the second-side boss portion and surrounding the second through hole; the second-side boss portion and the another second-side boss portion protrude in opposite directions; the second-side boss portion of each plate of the plurality of plates abuts the second-side boss portion of an adjacent plate of the plurality of plates; and the another second-side boss portion of each plate of the plurality of plates abuts the another second-side boss portion of an adjacent plate of the plurality of plates. 15 . The heat exchanger according to claim 14 , wherein: the boss portion surrounds the first through hole and the first oil passage hole, and does not surround the first coolant passage hole; and the second-side boss portion surrounds the second through hole and the second oil passage hole, and does not surround the second coolant passage hole. 16 . The heat exchanger according to claim 15 , wherein: each plate of the plurality of plates further includes: an additional boss portion disposed on the first side of the respective plate, the additional boss portion protruding from the main plate portion and surrounding the first coolant passage hole; and an additional second-side boss portion disposed on the second side of the respective plate, the additional second-side boss portion protruding from the main plate portion and surrounding the second coolant passage hole; the boss portion and the additional boss portion protrude from the main plate portion in opposite directions; and the second-side