Heat exchanger

1 . A heat exchanger comprising: a heat exchanger main body that forms a flow path through which a fluid flows; a plurality of heat transfer tubes arranged in the flow path in parallel so as to extend in an extending direction of the flow path; and baffle plate groups each having a plurality of baffle plates provided at intervals in the extending direction of the flow path while supporting the heat transfer tubes in the flow path, wherein each of the baffle plates is provided so as to occupy only a part of a flow path cross section when viewed in the extending direction of the flow path, and the plurality of baffle plates of the baffle plate group are provided so that occupied regions of the baffle plates do not overlap each other when viewed in the extending direction of the flow path and the occupied regions that are combined occupy an entire region of the flow path cross section. 2 . The heat exchanger according to claim 1 , wherein, in the plurality of baffle plates of the baffle plate group, the occupied regions transition either: in stages from an outer peripheral side to an inner peripheral side of the heat exchanger main body in a direction from an upstream side to a downstream side in the extending direction of the flow path; or in stages from the inner peripheral side to the outer peripheral side of the heat exchanger main body in the direction from the upstream side to the downstream side in the extending direction of the flow path. 3 . A heat exchanger comprising: a heat exchanger main body that forms a flow path through which a fluid flows; a partition plate that partitions the flow path into an upside region and a downside region; an opening formed in a portion of the partition plate close to an end portion thereof on a downstream side of the upside region and which communicates the upside region with the downside region; a plurality of heat transfer tubes arranged in the flow path in parallel so as to extend in an extending direction of the flow path; and baffle plate groups each having a plurality of baffle plates provided at intervals in the extending direction of the flow path while supporting the heat transfer tubes in the flow path, wherein each of the baffle plates is provided so as to occupy only a part of a flow path cross section when viewed in the extending direction of the flow path, and the plurality of baffle plat-is of the baffle plate group are provided so that at least parts of occupied regions of the baffle plates do not overlap each other when viewed in the extending direction of the flow path and the occupied regions that are combined occupy an entire region of the flow path cross section, wherein the plurality of baffle plates of the baffle plate group in the upside region are provided so that the occupied regions transition in stages from an outer peripheral side to an inner peripheral side of the heat exchanger main body in a direction from an upstream side to a downstream side in the extending direction of the flow path, and wherein the plurality of baffle plates of the baffle plate group in the downside region are provided so that the occupied regions transition in stages from the inner peripheral side to the outer peripheral side of the heat exchanger main body in the direction from the upstream side to the downstream side in the extending direction of the flow path. 4 . The heat exchanger according to claim 1 , wherein the heat transfer tube has straight portions extending in the extending direction, and a bend portion connecting end portions of the straight portions on a downstream side, and in the baffle plate group on a most downstream side adjacent to the bend portion, the number of baffle plates is smaller than that of the other baffle plate group located on an upstream side. 5 . The heat exchanger according to claim 1 , wherein a through-hole that penetrates the baffle plate in the extending direction is formed in at least a part of a periphery of the heat transfer tube in the baffle plate. 6 . The heat exchanger according to claim 1 , wherein the baffle plate has a peripheral edge portion that surrounds a periphery of the heat transfer tube, and support portions that connect a plurality of the peripheral edge portions to each other and that form a gap between the support portions. 7 . The heat exchanger according to claim 6 , wherein a cutout is formed in at least a part of the peripheral edge portion. 8 . The heat exchanger according to claim 1 , wherein the baffle plate has a base end portion that protrudes from the heat transfer tube and that has a streamlined cross-sectional shape from an upstream side to a downstream side in the extending direction, and a connecting portion that connects the base end portions adjacent to each other. 9 . The heat exchanger according to claim 3 , wherein the heat transfer tube has straight portions extending in the extending direction, and a bend portion connecting end portions of the straight portions on a downstream side, and in the baffle plate group on a most downstream side adjacent to the bend portion, the number of baffle plates is smaller than that of the other baffle plate group located on an upstream side. 10 . The heat exchanger according to claim 3 , wherein a through-hole that penetrates the baffle plate in the extending direction is formed in at least a part of a periphery of the heat transfer tube in the baffle plate. 11 . The heat exchanger according to claim 3 , wherein the baffle plate has a peripheral edge portion that surrounds a periphery of the heat transfer tube, and support portions that connect a plurality of the peripheral edge portions to each other and that form a gap between the support portions. 12 . The heat exchanger according to claim 11 , wherein a cutout is formed in at least a part of the peripheral edge portion. 13 . The heat exchanger according to claim 3 , wherein the baffle plate has a base end portion that protrudes from the heat transfer tube and that has a streamlined cross-sectional shape from an upstream side to a downstream side in the extending direction, and a connecting portion that connects the base end portions adjacent to each other.