On-off valve device and rotary machine

The invention claimed is: 1. A rotary machine, comprising: a rotary shaft which rotates about an axis; a turbine rotor blade which rotates along with the rotary shaft; a housing which covers the rotary shaft and the turbine rotor blade; and an on-off valve device disposed in the housing, wherein a scroll flow path is spirally formed continuing to an inflow port of the housing and has a flow path area gradually decreased toward a downstream side of a fluid flow, a suction flow path is formed to lead from the inflow port to the scroll flow path and the suction flow path is formed between a first wall surface of the housing and a second wall surface of the housing that faces the first wall surface, the on-off valve device includes a valve body which is configured of a single piece or multiple divided pieces and is disposed in the suction flow path, the valve body extends from the upstream side toward the downstream side of the fluid flow, and the valve body is rotatably configured in the housing in a direction toward and away from the first wall surface and the second wall surface, the valve body is configured to have a first surface which faces the first wall surface and gradually goes away from the first wall surface after gradually approaching the first wall surface from the upstream side toward the downstream side of the fluid flow, and a second surface which faces the second wall surface, and an upstream-side narrowed flow path is formed between the first wall surface and the valve body at an end on the upstream side, and a downstream-side narrowed flow path is formed between the second wall surface and the valve body at an end on the downstream side, wherein the rotary machine further includes multiple guide portions which are disposed in the scroll flow path to go away from each other in a circumferential direction of the rotary shaft, disposed on the outside in a radial direction of the rotary shaft from the turbine rotor blade, and includes curved guide surfaces facing inwardly in the radial direction, and each of the guide surfaces in the guide portions positioned on the upstream side in the fluid flow is provided so as to guide the fluid toward the next guide surface in the guide portion positioned on the downstream side. 2. The rotary machine according to claim 1 , wherein each guide portion is formed to have a longitudinal axis along the circumferential direction, and wherein among the guide portions adjacent to each other in the circumferential direction, the guide surface at a trailing edge which becomes the end on the downstream side in the guide portion on the upstream side is disposed such that an extension line of a tangential line in a cross section orthogonal to the rotary shaft in the guide surface passes through the guide surface in the guide portion on the downstream side. 3. The rotary machine according to claim 1 , wherein after a thickness dimension of each guide portion gradually increases in the radial direction from a leading edge which becomes the end on the upstream side to a trailing edge which becomes the end on the downstream side, the thickness dimension decreases, and each guide portion is formed in a blade shape when viewed in an extension direction of the rotary shaft of the turbine rotor blade. 4. The rotary machine according to claim 1 , wherein the scroll flow path is formed in a shape in which a flow path area of the scroll flow path decreases in a flow direction of the fluid, wherein each guide portion is formed in a plate shape extending in the circumferential direction, and wherein among the guide portions adjacent to each other in the circumferential direction, the leading edge which becomes the end on the upstream side in the guide portion positioned on the downstream side is positioned on the inside in the radial direction of the leading edge in the guide portion positioned on the upstream side. 5. The rotary machine according to claim 1 , wherein the scroll flow path is formed in a shape in which the flow path area of the scroll flow path decreases in the flow direction of the fluid, wherein each guide portion is formed in a plate shape extending in the circumferential direction, and wherein among the guide portions adjacent to each other in the circumferential direction, the trailing edge which becomes the end on the downstream side in the guide portion positioned on the downstream side is positioned on the inside in the radial direction of the trailing edge in the guide portion positioned on the upstream side. 6. The rotary machine according to claim 1 , wherein the scroll flow path is formed in a shape in which the flow path area of the scroll flow path decreases in the flow direction of the fluid, wherein each guide portion is formed in a plate shape extending in the circumferential direction, and wherein among the guide portions adjacent to each other in the circumferential direction, a dimension in a longitudinal direction along the circumferential direction of the guide portion positioned on the downstream side decreases. 7. The rotary machine according to claim 1 , wherein the housing is formed to be divided in the extension direction of the rotary shaft of the turbine rotor blade, and wherein the guide portion is integrally formed with the divided one of the housing. 8. The rotary machine according to claim 1 , wherein in the housing, the second wall surface is formed of a division wall surface which divides the scroll flow path into two paths in the direction intersecting the flow direction of the fluid.