Braider and method of manufacturing flexible waveguide

What is claimed is: 1. A braider of forming an outer conductor of a flexible waveguide by braiding flat foil yarns that are obtained by slitting a composite film composed of a metal foil and a resin film with a constant cutting width, the braider comprising: a plurality of cylindrical bobbins around which the flat foil yarns are wound so as not to be inverted; a plurality of carriers to which the bobbins are rotatably attached, the plurality of carriers being configured to feed out the flat foil yarns from the bobbins; a core material supply mechanism configured to supply a core material to be placed inside the outer conductor; a waveguide take-out mechanism configured to take out the flexible waveguide after the outer conductor is formed; and a carrier movement determination mechanism configured to determine movement of the carriers so that there are always three or more cross points formed by the individual flat foil yarns with other ones of the flat foil yarns in an enlarged portion before the flat foil yarns form a braided shape. 2. The braider according to claim 1 , wherein an operation of the carrier movement determination mechanism is determined so that the three or more cross points include at least two cross points where two of the flat foil yarns that cross each other during a braiding operation are continuously in contact with each other at two or more points, and at a next cross point outside an outermost cross point of the at least two cross points, two of the flat foil yarns crossing each other are in contact with each other or are located so that a distance between the two of the flat foil yarns crossing each other is less than approximately half of a width of each of the two of the flat foil yarns crossing each other, the next cross point being included in the three or more cross points. 3. The braider according to claim 1 , comprising: eight or more of the carriers and the bobbins around which the flat foil yarns are wound; and eight or more of the flat foil yarns, wherein an angle change is about 10 degrees or less in a vertical plane of the flat foil yarns, the angle change being caused by the movement of the carriers with a cross point where two of the flat foil yarns that cross each other during a braiding operation are continuously in contact with each other at two or more points as a reference point. 4. The braider according to claim 1 , wherein the flat foil yarns is manufactured by continuous cutting the composite film using a slitter having a plurality of rotary blades. 5. The braider according to claim 1 , wherein the plurality of carriers are configured to acquire the flat foil yarns from lateral sides of the bobbins with the bobbins rotating around rotation axes of the bobbins when the flat foil yarns are fed from the bobbins. 6. The braider according to claim 1 , wherein front and back sides of the flat foil yarns are set so that a same surface of the composite film before being cut is on an outside or inside of the outer conductor to be formed. 7. A method of manufacturing a flexible waveguide including a flexible dielectric rod and an outer conductor, the outer conduct or being formed by braiding flat foil yarns on an outer periphery of the flexible dielectric rod, the method comprising: forming the outer conductor using the braider according to claim 6 ; and matching front and back sides of the flat foil yarns before the forming of the outer conductor. 8. The method of manufacturing a flexible waveguide according to claim 7 , wherein the matching of the front and back sides of the flat foil yarns includes identifying the flat foil yarns that are inverted by trial braiding, and correcting the front and back sides of the flat foil yarns. 9. The braider according to claim 1 , wherein the plurality of carriers include mechanisms configured to keep tension of the flat foil yarns constant. 10. The braider according to claim 1 , wherein the plurality of carriers include mechanisms configured to adjust tension of the flat foil yarns. 11. A method of manufacturing a flexible waveguide including a flexible dielectric rod and an outer conductor, the outer conductor being formed by braiding flat foil yarns on an outer periphery of the dielectric rod, the method comprising: forming the outer conductor using the braider according to claim 10 ; and adjusting tension of the flat foil yarns before the forming of the outer conductor. 12. The method of manufacturing a flexible waveguide according to claim 11 , wherein the adjusting of the tension of the flat foil yarns includes determining carriers having tension differences by trial braiding, and adjusting tension of the flat foil yarns using mechanisms configured to adjust the tension of the flat foil yarns, the mechanisms being included in the carriers. 13. A b-raider of forming a cylindrical member by braiding a plurality of strip members, the braider comprising: a plurality of cylindrical bobbins around which the strip members are wound so as not to be inverted; a plurality of carriers to which the bobbins are rotatably attached, the plurality of carriers being configured to feed the strip members out from the bobbins; and a carrier movement determination mechanism configured to determine movement of the plurality of carriers so that there are always three or more cross points formed by the individual strip members with other ones of the strip members in an enlarged portion before the strip members form a braided shape. 14. The braider according to claim 13 , wherein an operation of the carrier movement determination mechanism is determined so that the three or more cross points include at least two cross points where two of the strip members that cross each other during a braiding operation are continuously in contact with each other at two or more points, and at a next cross point outside an outermost cross point of the at least two cross points, two of the strip members crossing each other are in contact with each other or are located so that at a distance between the two of the strip members crossing each other is less than approximately half of a width of each of the two of the strip members crossing each other, the next cross point being included in the three or more cross points. 15. The braider according to claim 13 , comprising: eight or more of the carriers and the bobbins around which the strip members are wound; and eight or more of the strip members, wherein an angle change is about 10 degrees or less in a vertical plane of the strip members, the angle change being caused by the movement of the carriers with a cross point where two of the strip members that cross each other during a braiding operation are continuously in contact with each other at two or more points as a reference point.