Optical fiber bundle manufacturing apparatus, light guide, endoscope having light guide, and method of manufacturing optical fiber bundle

What is claimed is: 1. An optical fiber bundle manufacturing apparatus comprising: a winding member configured to rotate about a rotary axis to wind up an optical fiber wire; a guide member configured to move in a direction parallel to the rotary axis to guide the optical fiber wire to any one of: p first winding positions, a converging winding position, and q second winding positions, on an outer peripheral surface of the winding member, where p is a natural number of 2 or more and q is a natural number of 2 or more, and where p is a different number than q; and a processor configured to perform processing to move the guide member such that a first branching portion branching into p branches at the first winding positions, a converging portion converging the first branching portion branching into p branches into one at the converging winding position, a second branching portion branching into q branches from the converging portion converging into one at the second winding positions, and a connecting portion connecting the first branching portion and the second branching portion, are formed in this order by the optical fiber wire. 2. The optical fiber bundle manufacturing apparatus according to claim 1 , wherein the processor is configured to perform the processing to move the guide member during rotation of the winding member. 3. The optical fiber bundle manufacturing apparatus according to claim 1 , further comprising a memory, wherein the memory is configured to store a first winding path where a number of branches of the first branching portion and a number of branches of the second branching portion are equal to each other, and a second winding path where the number of branches of the first branching portion and the number of branches of the second branching portion differ from each other, and wherein the processor is configured to read either one of the first winding path and the second winding path from the memory, and to perform the processing to move the guide member according the first winding path and the second winding path read from the memory. 4. The optical fiber bundle manufacturing apparatus according to claim 1 , wherein the first branching portion includes p first branched end portions, wherein the second branching portion includes q second branched end portions, and wherein the processor is configured to perform the processing to move the guide member such that the optical fiber wire is approximately uniformly disposed between the respective first branched end portions and respective second branched end portions. 5. The optical fiber bundle manufacturing apparatus according to claim 4 , wherein the processor is configured to perform the processing to move the guide member such that the optical fiber wire is disposed at random in the converging portion. 6. The optical fiber bundle manufacturing apparatus according to claim 1 , further comprising a cutting device configured to cut the optical fiber wire wound around the winding member at the first branching portion and the second branching portion. 7. The optical fiber bundle manufacturing apparatus according to claim 1 , wherein the optical fiber wire has a diameter of 0.1 mm or less, and wherein the processor is configured to perform the processing to move the guide member such that the converging portion is formed of 10 or more portions of the optical fiber wire. 8. The optical fiber bundle manufacturing apparatus according to claim 1 , wherein the first branching portion includes p first branched end portions, wherein the second branching portion includes q second branched end portions, and wherein the processor is configured to perform the processing to move the guide member such that an arrangement number of portions of the optical fiber wire on each of paths between the respective first branched end portions and the respective second branched end portions is arbitrarily set in a distributed manner. 9. The optical fiber bundle manufacturing apparatus according to claim 8 , wherein the processor is configured to perform the processing to move the guide member such that the arrangement numbers are set substantially equal. 10. The optical fiber bundle manufacturing apparatus according to claim 9 , wherein the processor is configured to perform processing to move the guide member such that the connecting portion branches into p branches from q branches. 11. The optical fiber bundle manufacturing apparatus according to claim 1 , wherein the connecting portion is different than the converging portion. 12. The optical fiber bundle manufacturing apparatus according to claim 1 , wherein the processor is configured to perform processing to rotate the winding member a predetermined number of times, where the guide member is moved to form the first branching portion, the converging portion, the second branching portion and the connecting portion in the order in each time of the predetermined number of times of rotation of the winding member, and wherein the predetermined number of times is determined based on a kind of the optical fiber bundle being manufactured. 13. The optical fiber bundle manufacturing apparatus according to claim 1 , wherein the processor is configured to perform processing to move the guide member to any one of: one of a predetermined first winding position of the p first winding positions, the converging winding position, and one of a predetermined second winding position of the q second winding positions, based on which of the first branching portion, the converging portion, the second branching portion and the connection portion is being formed and which rotation of a predetermined number of rotations of the winding member is being performed. 14. The optical fiber bundle manufacturing apparatus according to claim 1 , wherein the winding member defines a first cutting groove at the first branching portion and a second cutting groove at the second branching portion where the first cutting groove and the second cutting groove are each configured to receive a cut such that portions of the optical fiber wire traversing the first branching portion, the converging portion and the second branching portion form the optical fiber bundle. 15. A method of manufacturing an optical fiber bundle, the method comprising: rotating a winding member about a rotary axis to wind up an optical fiber wire, and moving a guide member in a direction parallel to the rotary axis to guide the optical fiber wire to any one of: p first winding positions, a converging winding position, and q second winding positions, on an outer peripheral surface of the winding member, where p is a natural number of 2 or more and q is a natural number of 2 or more, and where p is a different number than q, wherein moving the guide member comprises moving the guide member such that: a first branching portion branching into p branches at the first winding positions, a converging portion converging the first branching portion branching into p branches into one at the converging winding position, a second branching portion branching into q branches from the converging portion converging into one at the second winding positions, and a connecting portion connecting the first branching portion and the second branching portion, are formed in this order by the optical fiber wire. 16. The method of manufacturing an optical fiber bundle according to claim 15 , wherein the moving the guide member is performed while the rotating the winding member such that an arrangement number