Disc brake and planetary gear reduction mechanism

The invention claimed is: 1. A disc brake comprising: a pair of pads each disposed on both sides of an axial direction of a rotor interposed therebetween; a piston configured to push at least one of the pair of pads against the rotor; a caliper body including a cylinder in which the piston is movably accommodated; a motor provided on the caliper body; a planetary gear reducer configured to boost and transmit rotation from the motor; and a piston propeller configured to propel the piston to a braking position by rotation transmitted thereto from the planetary gear reducer, wherein the planetary gear reducer includes: a sun gear including an input gear to which the rotation from the motor is transmitted and an output gear extending axially from a radial central region of the input gear; a plurality of planetary gears arranged to mesh with the output gear of the sun gear and surround the output gear; and an internal gear arranged to mesh with each planetary gear and surround the planetary gear, and wherein the internal gear includes: an internal gear body including an inner teeth that meshes with gears of the plurality of planetary gears; an annular wall extending from an axial end of the internal gear body toward a radial center side to restrict movement of each planetary gear in an axial direction; and a support formed in a cylindrical shape and configured to rotatably support the sun gear and extend from an inner peripheral side end of the annular wall toward a direction of being away from the internal gear body in an axial direction of the sun gear, and wherein the support contacts the sun gear on an outer periphery of the cylindrical shape. 2. The disc brake according to claim 1 , wherein the support is formed with an annular surface extending along the axial direction of the sun gear. 3. The disc brake according to claim 1 , wherein the sun gear is provided with a boss that extends axially within a range from the radial central region of the input gear to the output gear, and wherein the boss of the sun gear is rotatably supported on the support of the internal gear. 4. The disc brake according to claim 1 , wherein the sun gear includes a cylindrical step extending axially from the input gear, and wherein the support of the internal gear is disposed radially inside the step of the sun gear, so that the step of the sun gear is rotatably supported on the support of the internal gear. 5. The disc brake according to claim 3 , wherein an annular groove is formed in one end surface of the boss. 6. The disc brake according to claim 1 , wherein the internal gear further includes a cylindrical engaging portion integrally and axially extending in a tubular shape from an end of the internal gear body. 7. The disc brake according to claim 3 , wherein the planetary gear reducer further includes a bush arranged between the boss of the sun gear and the support of the internal gear. 8. A disc brake comprising: a pair of pads each disposed on both sides of an axial direction of a rotor interposed therebetween; a piston configured to push at least one of the pair of pads against the rotor; a caliper body including a cylinder in which the piston is movably accommodated; a motor provided on the caliper body; a planetary gear reducer configured to boost and transmit rotation from the motor; and a piston propeller to propel the piston to a braking position by rotation from the planetary gear reducer, wherein the planetary gear reducer includes: a sun gear including an input gear to which the rotation from the motor is transmitted and an output gear extending axially from a radial central region of the input gear; a plurality of planetary gears arranged to mesh with the output gear of the sun gear and surround the output gear; an internal gear arranged to mesh with each planetary gear and surround the planetary gear, and wherein the internal gear includes a support having a tubular shape and configured to rotatably support the sun gear on an outer peripheral surface thereof, a cylindrical wall, and an internal gear body including an inner teeth formed inside the cylindrical wall to mesh with gears of the plurality of planetary gears, and wherein the support is configured with a plurality of projections protruding radially outward from an outer peripheral surface of the cylindrical wall, arranged at an interval along a circumferential direction, and rotatably supporting an inner peripheral surface of the input gear of the sun gear. 9. The disc brake according to claim 8 , wherein each of the plurality of projections is formed within a range from one end to another end of the cylindrical wall.