Filament winding apparatus and method of controlling filament winding apparatus

What is claimed is: 1 . A filament winding apparatus that winds a fiber bundle consisting of a plurality of fibers on an outer surface of a liner, the filament winding apparatus comprising: a fiber feeder configured to feed the fiber bundle; and a guide assembly including a roller configured to guide the fiber bundle fed by the fiber feeder to the outer surface of the liner while making the fiber bundle in contact with the roller, wherein the roller comprises: a suction hole configured to suck the outside air and is provided in at least a surface of the roller that is to be in contact with the fiber bundle; and a suction unit configured to suck the outside air from the suction hole with such a suction force that draws the fiber bundle in contact with the roller. 2 . The filament winding apparatus according to claim 1 , wherein the roller further comprises: an ejection hole configured to eject the air and is provided in at least a surface of the roller that is in contact with the fiber bundle; and an ejection unit configured to eject the air from the ejection hole with such an ejection force that spreads each of the fibers included in the fiber bundle in contact with the roller in a direction perpendicular to a conveying direction of the fiber bundle. 3 . The filament winding apparatus according to claim 2 , wherein the suction unit changes at least one of determination of whether suction is to be performed and magnitude of the suction force according to a misalignment of the fiber bundle relative to a predetermined position. 4 . The filament winding apparatus according to claim 2 , wherein the suction hole includes a first suction hole and a second suction hole, the ejection hole is placed in a middle part of the roller in a width direction of the roller, and the first suction hole and the second suction hole are placed on both ends of the ejection hole. 5 . The filament winding apparatus according to claim 4 , wherein the suction unit performs suction from the first suction hole or the second suction hole corresponding to a location where the fiber bundle has a misalignment or, increases the suction force from the first suction hole or the second suction hole corresponding to the location where the fiber bundle has the misalignment. 6 . The filament winding apparatus according to claim 1 , wherein the roller is in a concave shape having a reduced-diameter middle part of the roller in a width direction of the roller, and the suction hole is placed in the middle part of the roller. 7 . The filament winding apparatus according to claim 6 , wherein the suction unit changes at least one of determination of whether suction is to be performed and magnitude of the suction hole according to a winding technique of the fiber bundle on the liner. 8 . The filament winding apparatus according to claim 6 , wherein the suction unit changes at least one of determination of whether suction is to be performed and magnitude of the suction force according to a misalignment of the fiber bundle relative to a predetermined position. 9 . The filament winding apparatus according to claim 1 , wherein the roller is made of a porous material, and the suction hole is pores of the porous material. 10 . A control method of a filament winding apparatus, the filament winding apparatus comprising a fiber feeder configured to feed a fiber bundle consisting of a plurality of fibers; and a guide assembly including a roller configured to guide the fiber bundle fed by the fiber feeder to an outer surface of a liner while making the fiber bundle in contact with the roller, wherein the roller comprises a suction hole configured to suck the outside air and is provided in at least a surface of the roller that is in contact with the fiber bundle; a suction unit configured to suck the outside air from the suction hole with such a suction force that draws the fiber bundle in contact with the roller; an ejection hole configured to eject the air and is provided in at least a surface of the roller that is in contact with the fiber bundle; and an ejection unit configured to eject the air from the ejection hole with such an ejection force that spreads each of the fibers included in the fiber bundle in contact with the roller in a direction perpendicular to a conveying direction of the fiber bundle, the control method comprising causing the suction unit to change at least one of determination of whether suction is to be performed and magnitude of the suction force according to a misalignment of the fiber bundle relative to a predetermined position. 11 . The control method according to claim 10 , wherein the suction hole includes a first suction hole and a second suction hole, the ejection hole is placed in a middle part of the roller in a width direction of the roller, and the first suction hole and the second suction hole are placed on respective sides of the ejection hole, the control method comprising either causing the suction unit to perform suction from the first suction hole or the second suction hole corresponding to a location where the fiber bundle has a misalignment, or causing the suction unit to increase the suction force from the first suction hole or the second suction hole corresponding to the location where the fiber bundle has the misalignment. 12 . The control method according to claim 10 , wherein the roller is in a concave shape having a reduced-diameter middle part of the roller in a width direction of the roller, and the suction hole is placed in the middle part of the roller, the control method comprising causing the suction unit to change at least one of determination of whether suction is to be performed and magnitude of the suction hole according to a winding technique of the fiber bundle on the liner. 13 . The control method according to claim 10 , wherein the roller is made of a porous material, and the suction hole is pores of the porous material.