Exhaust heat recovery device

The invention claimed is: 1. An exhaust heat recovery device comprising: a first exhaust gas conduit having an inner peripheral side to which exhaust gas from an internal combustion engine flows in; a second exhaust gas conduit that is positioned at a downstream side from the first exhaust gas conduit in an exhaust gas flowing direction; a heat exchanger that carries out heat exchange between the exhaust gas flowing in from the first exhaust gas conduit and a fluid as a heated object; a valve that is configured to change a flow ratio between a flow rate of the exhaust gas flowing out to the second exhaust gas conduit from the first exhaust gas conduit not being subjected to the heat exchanger and a flow rate of the exhaust gas flowing in to the heat exchanger from the first exhaust gas conduit; and a branch that branches the exhaust gas subjected to the heat exchange with the fluid by the heat exchanger partially or fully to an exhaust gas recirculation flow passage that recirculates the exhaust gas to an intake system of the internal combustion engine; wherein the heat exchanger comprises a plurality of plates respectively configured to be annular and hollow and arranged at positions surrounding an outer periphery of the first exhaust gas conduit and a shell provided at a position surrounding the outer periphery of the first exhaust gas conduit and housing the plurality of plates therein, a flow passage for the fluid as the heated object is configured inside the plurality of plates so that the fluid is supplied to insides of the respective plates via a fluid supply passage and the fluid is discharged from the insides of the respective plates via a fluid discharge passage, and wherein the heat exchanger is configured so that, at a place inside of the shell and outside of the plurality of plates, the exhaust gas flows in from the first exhaust gas conduit via an exhaust gas inflow passage and is flows out to the second exhaust gas conduit via an exhaust gas outflow passage, wherein the inside of the shell is divided into a plurality of division areas, each of the division areas houses at least one plate of the plurality of plates therein, and a flow passage for the exhaust gas inside the shell is configured so that the exhaust gas flowing in from the exhaust gas inflow passage reaches the branch after contacting the plate in at least one of the plurality of division areas and the exhaust gas not branched to the exhaust gas recirculation flow passage at the branch flows out to the second exhaust gas conduit after contacting the plate in at least one of the plurality of division areas, wherein, in a first division area of the plurality of division areas, the exhaust gas flowing in from the exhaust gas inflow passage passes a first space defined between an outer periphery of the first exhaust gas conduit and an inner periphery of the plate to a second space defined between an outer periphery of the plate and an inner periphery of the shell and thereafter, in a second division area of the plurality of division areas, the exhaust gas passes again between the outer periphery of the plate and the inner periphery of the plate, passes through the exhaust gas outflow passage, and flows out to the second exhaust gas conduit, and wherein the branch is arranged in a position facing the second space. 2. The exhaust heat recovery device according to claim 1 , wherein the inside of the shell is divided into two division areas by a partition arranged approximately perpendicularly to an axial direction of the first exhaust gas conduit. 3. The exhaust heat recovery device according to claim 1 , wherein the inside of the shell is divided into two division areas by a partition arranged approximately in parallel to an axial direction of the first exhaust gas conduit. 4. The exhaust heat recovery device according to claim 2 , wherein the partition extends radially outward from the first exhaust gas conduit, wherein the two division areas include: a rear-side division area including a rear set of plates of the plurality of plates; and a front-side division area including a front set of plates of the plurality plates, and wherein the branch extends from an area overlapping the partition in the second space. 5. The exhaust heat recovery device according to claim 4 , wherein the rear set plates consists of a larger number of plates than the front set of plates. 6. The exhaust heat recovery device according to claim 3 , wherein the partition extends from an outer peripheral surface of the first exhaust gas conduit to an inner peripheral surface of the shell, wherein the two division areas include: a left-side division area in which left halves of plates of the plurality of plates are housed; and a right-side division area in which right halves of plates of the plurality of plates are housed, and wherein the branch extends from a communication passage that provides communication from the left-side division area to the right-side division area. 7. An exhaust heat recovery device, comprising: a first conduit that includes: a rear portion; and a central axis, a changeover valve that is located rearward of the first conduit, a second conduit that is located coaxial with and rearward of the first conduit, a heat exchanger that has a substantially annular shape, the heat exchanger being located coaxial with the first conduit and surrounding the rear portion of the first conduit, and the heat exchanger including: a plurality of plates that has an annular shape and is configured such that a cooling fluid flows therethrough; a shell that surrounds the plurality of plates; and a partition that extends radially outward from the rear portion of the first conduit, the partition being arranged to divide the inside of the heat exchanger into: a front-side division area including a front set of plates of the plurality of plates, and a rear-side division area including a rear set of plates of the plurality of plates, wherein the plurality of plates are surrounded by: the rear portion of the first conduit as an internal cylindrical surface; the shell as an external cylindrical surface; a front wall that extends inwardly from a front end of the shell and creates an exhaust gas inflow passage; and a rear wall that extends inwardly from a rear end of the shell and creates an exhaust gas inflow passage, and wherein the exhaust heat recovery device further comprises a branch that extends from the shell at a location overlapping the partition, the branch being in communication with an Exhaust Gas Recirculation (EGR) valve. 8. The exhaust heat recovery device according to claim 7 , wherein the exhaust gas inflow passage includes a hole created by an outer flange in the first conduit at a location forward of the plurality of plates, such that hot exhaust gas passes into the heat exchanger when the changeover valve is closed. 9. The exhaust heat recovery device according to claim 7 , wherein the rear set of plates comprises approximately twice as many plates as the front set of plates. 10. An exhaust heat recovery device, comprising: a substantially cylindrical shell; a plurality of plates that has an annular shape and is located in the shell, each plate of the plurality of plates including a corresponding left half and a right half; a first conduit that includes: a central axis; a front portion that is located frontward of the plurality of plates; a central portion that is located radially inward of the plurality of plates; and a rear portion that is located rearward of the plurality of plates, a second conduit that is located coaxial with and rearward of the first conduit; a heat exchanger that