Planetary gear assembly, drive unit including the planetary gear assembly, and image forming apparatus including the drive unit, and installation method for planetary gear assembly

What is claimed is: 1. A planetary gear mechanism, comprising: a plurality of first planetary gears; an outer gear to mesh with the plurality of first planetary gears; a first sun gear coaxially disposed on the same axis as the outer gear, to transmit force to the first planetary gears; a first carrier to rotatably support the plurality of first planetary gears, the first carrier rotatably supported and including a hole through which a stick member penetrates in a direction of axis of rotation of the first carrier; and a stick mount on which the stick member penetrating through the hole is mounted, wherein the outer gear is unrotatably held, wherein the hole is formed at the center of rotation of the first carrier, and the first sun gear includes the stick mount on a plane facing the first carrier in the axial center, and the stick member has a noncircular shape in cross section, and the hole of the first carrier has a noncircular shape to allow the stick member to fit therein. 2. The planetary gear mechanism according to claim 1 , wherein the hole of the first carrier is formed at the center of rotation of the first carrier, and the first sun gear includes the stick mount on a plane facing the first carrier in an axial center of the first sun gear. 3. The planetary gear mechanism according to claim 1 , further comprising a gear mount to which one of the sun gear and the outer gear is fixed, the gear mount including a plane facing the carrier, wherein the carrier includes a plurality of the holes evenly formed on a circumference of a lateral surface of the carrier, wherein the gear mount includes a plurality of the stick mounts on the plane facing the carrier. 4. The planetary gear mechanism according to claim 1 , further comprising a plurality of second planetary gears, a second sun gear, and a second carrier, wherein the plurality of first planetary gears, the first sun gear and the first carrier comprise a first group and the plurality of second planetary gears, the second sun gear and the second carrier comprise a second group, wherein the first and second groups are disposed in series in an axial direction of the outer gear, wherein the first carrier and the second sun gear are constituted as a single integrated member common to each group. 5. The planetary gear mechanism according to claim 1 , wherein the stick mount is a recess in the first sun gear. 6. The planetary gear mechanism according to claim 4 , wherein the position of the hole in the first carrier is axially aligned with a hole in the second carrier. 7. A planetary gear mechanism, comprising: a plurality of first planetary gears; an outer gear to mesh with the plurality of first planetary gears; a first sun gear coaxially disposed on the same axis as the outer gear, to transmit force to the first planetary gears; a first carrier to rotatably support the plurality of first planetary gears, the first carrier rotatably supported and including a hole through which a stick member penetrates in a direction of axis of rotation of the first carrier; and a stick mount on which the stick member penetrating through the hole is mounted, the stick mount disposed opposite the first carrier, wherein the outer gear is unrotatably held, wherein the stick member has a rounded rectangular shape in cross section, and the hole of the first carrier has a rounded rectangular shape to allow the stick member to fit therein. 8. A method for assembling a planetary gear mechanism, the planetary gear mechanism comprising: a plurality of planetary gears; an outer gear to mesh with the plurality of planetary gears; a sun gear to transmit force to the planetary gears, the sun gear coaxially disposed on the same axis as the outer gear; a carrier to rotatably support the plurality of planetary gears, the carrier rotatably supported and including a hole through which a stick member penetrates in a direction of axis of rotation of the carrier; and a stick mount on which the stick member penetrating through the hole is mounted, the stick mount disposed opposite the carrier, the outer gear is unrotatably held, wherein the hole is formed at the center of rotation of the first carrier, and the first sun gear includes the stick mount on a plane facing the first carrier in the axial center, and the stick member has a noncircular shape in cross section, and the hole of the first carrier has a noncircular shape to allow the stick member to fit therein the method comprising: inserting the stick member to the hole of the carrier; mounting the stick member at the stick mount; meshing the plurality of planetary gears with the sun gear and the outer gear by moving the carrier along the stick member, to mount the carrier in the outer gear; and removing the stick member after carrier is mounted.