Rectifying device, coating apparatus, coating method, and photoconductor manufacturing method

What is claimed is: 1 . A rectifying device comprising: a first flow channel member that has an annular first flow channel through which a fluid flows in an axial direction, the first flow channel being provided between an inner peripheral wall and an outer peripheral wall; a second flow channel member that has a second flow channel between the inner peripheral wall and the outer peripheral wall, the second flow channel being provided upstream of the first flow channel in a flowing direction of the fluid and being connected with the first flow channel along an entire circumference; an inflow section that is provided at the second flow channel member and that allows the fluid to flow into a circumferential area of the second flow channel located away from the first flow channel in the axial direction; a first guide wall that is provided within the second flow channel at a position located away from the inflow section in a circumferential direction and that guides the fluid flowing toward a first side in the circumferential direction through the second flow channel toward the first flow channel; and a second guide wall that is provided within the second flow channel at a position adjacent to the first guide wall in the circumferential direction, the second guide wall guiding the fluid flowing toward a second side in the circumferential direction through the second flow channel toward the first flow channel and being disposed in a direction intersecting the first guide wall. 2 . The rectifying device according to claim 1 , wherein an angle formed between lines that connect a connection end to a point on the first guide wall and a point on the second guide wall that are located at ¼ of a height from the connection end to a lower end of the inflow section is set to 40° or smaller, the connection end being where the first guide wall and the second guide wall connect with each other. 3 . The rectifying device according to claim 2 , wherein the angle formed between the lines that connect the connection end to the point on the first guide wall and the point on the second guide wall that are located at ¼ of the height from the connection end to a lowermost end of the inflow section is set to 10° or smaller, the connection end being where the first guide wall and the second guide wall connect with each other. 4 . The rectifying device according to claim 1 , wherein the inflow section includes a single inflow section, and the first guide wall and the second guide wall include a single first guide wall and a single second guide wall, respectively, wherein the fluid flowing in from the inflow section and flowing toward the first side in the circumferential direction through the second flow channel is guided to the first guide wall, and wherein the fluid flowing in from the inflow section and flowing toward the second side in the circumferential direction through the second flow channel is guided to the second guide wall. 5 . The rectifying device according to claim 1 , wherein the inflow section includes two or more inflow sections, and each of the inflow sections is provided with the first guide wall and the second guide wall, wherein the fluid flowing in from one of the inflow sections of a neighboring pair and flowing toward the first side in the circumferential direction through the second flow channel is guided to the first guide wall, and wherein the fluid flowing in from another one of the inflow sections of the neighboring pair and flowing toward the second side in the circumferential direction through the second flow channel is guided to the second guide wall adjacent to the first guide wall. 6 . The rectifying device according to claim 1 , further comprising: a cylindrical inner tube that serves as the inner peripheral wall in the first flow channel member and the second flow channel member; a protrusion that is integrated with an outer peripheral surface of the inner tube and is configured such that the first guide wall and the second guide wall protrude radially outward from the inner tube; and a cylindrical outer tube that receives the inner tube therein, has an inner peripheral surface that comes into contact with the protrusion, and serves as the outer peripheral wall in the first flow channel member and the second flow channel member. 7 . The rectifying device according to claim 6 , wherein the outer tube includes the inflow section. 8 . A coating apparatus comprising: the rectifying device according to claim 1 in which the fluid is a coating liquid to be applied to a cylindrical body; and a coating liquid retainer that is provided at a downstream side in the first flow channel of the rectifying device in a flowing direction of the coating liquid, the coating liquid retainer including an upper opening and a lower opening and retaining the coating liquid, the coating liquid retainer allowing the cylindrical body to extend through the upper opening and the lower opening and causing the cylindrical body to relatively move upward in a vertical direction so as to apply the coating liquid to an outer peripheral surface of the cylindrical body. 9 . A coating method for applying a coating liquid by using the coating apparatus according to claim 8 , the coating method comprising: allowing the coating liquid to flow in from the inflow section and guiding the coating liquid flowing toward the first side in the circumferential direction through the second flow channel toward the first flow channel along the first guide wall, allowing the coating liquid to flow in from the inflow section and guiding the coating liquid flowing toward the second side in the circumferential direction through the second flow channel toward the first flow channel along the second guide wall, and feeding the coating liquid merging at the first flow channel to the coating liquid retainer; and moving the cylindrical body upward in the vertical direction relative to the coating liquid retainer so as to apply the coating liquid from the coating liquid retainer to the outer peripheral surface of the cylindrical body. 10 . The coating method according to claim 9 , wherein an angle formed between lines that connect a connection end to a point on the first guide wall and a point on the second guide wall that are located at ¼ of a height from the connection end to a lower end of the inflow section is set to 40° or smaller, the connection end being where the first guide wall and the second guide wall connect with each other. 11 . The coating method according to claim 10 , wherein the angle formed between the lines that connect the connection end to the point on the first guide wall and the point on the second guide wall that are located at ¼ of the height from the connection end to a lowermost end of the inflow section is set to 10° or smaller, the connection end being where the first guide wall and the second guide wall connect with each other. 12 . The coating method according to claim 9 , wherein the cylindrical body is a cylindrical member or is formed by wrapping an endless-belt-like member around a cylindrical core. 13 . A photoconductor manufacturing method for manufacturing a photoconductor by using the coating method according to claim 9 , wherein the cylindrical body is a metallic cylindrical member or is formed by wrapping a metallic endless-belt-like member around a cylindrical core, and wherein the coating liquid contains a photoconductive material.