Transmission apparatus, shift mechanism, and vehicle

What is claimed is: 1. A shift mechanism that intermittently rotates a shift cam in response to a transmission operation and holds the shift cam in each phase in an order of a neutral phase corresponding to a neutral position, a first gear phase corresponding to a first speed gear position, at least one subsequent gear phase corresponding to at least one subsequent speed gear position, and a maximum speed gear phase corresponding to a maximum speed gear position, the shift mechanism comprising: an index cam fixed to one end of the shift cam, the index cam rotating integrally with the shift cam to position the shift cam in each of the phases; a drive section that rotates the index cam; and a cam phase holding portion that holds the shift cam in each of the phases; wherein the index cam includes concave portions on a peripheral portion thereof, the concave portions are arranged in a circumferential direction corresponding to the respective phases in the order of the neutral position, the first speed gear position, the at least one subsequent speed gear position, and the maximum speed gear position that is a top speed gear position; the concave portions are engaged with the cam phase holding portion to converge and to hold the shift cam in a predetermined phase; and the concave portions are disposed on the peripheral portion of the index cam so that a rotation angle between the concave portions corresponding to the neutral position and the first speed gear position is the same as a rotation angle between the concave portions corresponding to the first speed gear position and a second speed gear position, and an angle between the concave portions corresponding to the maximum speed gear position and the neutral position is smaller than the rotation angle between the concave portions corresponding to the neutral position and the first speed gear position. 2. The shift mechanism according to claim 1 , wherein the index cam includes engagement passive sections arranged in a circumferential direction for each of the angles corresponding to each of the phases, the engagement passive sections being engaged by the drive section and transmitted in the circumferential direction to rotate the shift cam; and an angle R 1 defined by an acute angle between the maximum speed gear phase and the neutral phase and an angle R 2 defined by a rotation angle between the neutral phase and the first gear phase and that is the same as a rotation angle between each pair of adjacent phases from the first gear phase to the maximum speed gear phase are obtained by the following equations 1 to 4: M=Q×K−S   (Equation 1) P= 360° /M   (Equation 2) R 2= P×Q   (Equation 3) R 1= P×S   (Equation 4) where M denotes a total number of engagement passive sections, Q denotes a number of engagement passive sections advanced in transmission of each stage, K denotes a number of phases where the index cam stops turning between the first speed gear position and the maximum speed gear position including the neutral position (the number of gear stages+1), P denotes an arrangement interval of the engagement passive sections in the circumferential direction, and S denotes a natural number that indicates the number of engagement passive sections included in angle R 1 and that is smaller than Q. 3. A transmission apparatus comprising: the shift mechanism according to claim 1 ; and the shift cam including one end to which the index cam of the shift mechanism is fixed, the shift cam including groove portions that move shift forks on a peripheral surface of the index cam, the shift cam rotating integrally with the index cam and is held by the cam phase holding portion in each of the phases to engage with a dog at a gear position corresponding to each of the phases through the shift forks. 4. A vehicle comprising the shift mechanism according to claim 1 . 5. A transmission apparatus comprising: a shift cam including groove portions that move shift forks on a peripheral surface thereof, the shift cam rotating in an order of a neutral phase corresponding to a neutral position, a first gear phase corresponding to a first speed gear position, at least one subsequent gear phase corresponding to at least one subsequent speed gear position, and a maximum speed gear phase corresponding to a maximum speed gear position that is a top speed gear position to change engagement of a dog corresponding to each phase through the shift forks; and a shift mechanism that intermittently rotates the shift cam in response to a transmission operation to hold the phase of the shift cam in each phase of a corresponding transmission stage in the order of the neutral position, the first speed gear position, the at least one subsequent speed gear position, and the maximum speed gear position; wherein the shift mechanism holds the shift cam in each phase angle in which a rotation angle between the neutral phase and the first gear phase is the same as a rotation angle between the first gear phase and a second gear phase, and an angle defined by an acute angle between the maximum speed gear phase and the neutral phase is smaller than the rotation angle between the neutral phase and the first gear phase.