Gear housing for a planetary gear device that structurally isolates an inner gear

What is claimed is: 1. An apparatus for suppressing noise produced in a planetary gear device, comprising: an inner gear that has an inner peripheral surface with inner tooth portions formed on the inner peripheral surface, wherein the inner gear has an outer peripheral surface with a raised portion formed on the outer peripheral surface, and wherein the inner gear has an opening end face extending between the inner peripheral surface and the outer peripheral surface; and a substantially cylindrical housing for containing the inner gear comprising a stopper disposed on an interior surface of the housing, wherein movement of the inner gear in a circumferential direction within the housing is limited by contact between the raised portion of the inner gear and the stopper, wherein a radial gap is formed between the inner gear and the housing such that the inner gear floats inside the housing, wherein a surface of the raised portion is parallel with the opening end face, wherein the raised portion has a contacting protrusion extending in the axial direction beyond the opening end face of the inner gear or a second opening end face of the inner gear, wherein the housing has a contacting surface disposed facing the opening end face or the second opening end face of the inner gear, wherein the contacting surface is configured to contact the contacting protrusion, and wherein the contacting protrusion limits axial movement of the inner gear by contacting the contacting surface. 2. The apparatus of claim 1 , wherein a surface of the stopper that contacts the raised portion is curved, and wherein a surface of the raised portion that contacts the surface of the stopper is curved. 3. The apparatus of claim 1 , further comprising: a plurality of raised portions formed on the outer peripheral surface of the inner gear; and a plurality of contacting protrusions, each contacting protrusion disposed on one of the plurality of raised portions, respectively, one of the contacting protrusions extending in the axial direction beyond the opening end face and the other of the contracting protrusions extending in the axial direction beyond the second opening end face of the inner gear, wherein the contacting surface faces the opening end face and a second contacting surface is disposed in the housing facing the second opening end face, and wherein each of the contacting protrusions has a curved surface configured to contact the contacting surface or the second contacting surface, respectively, such that a linear contact is created between each of the contacting protrusions and the contacting surface and the second contacting surface, respectively. 4. A planetary gear device comprising: the apparatus of claim 1 ; at least one planetary gear that meshes with the inner gear; a sun gear, positioned along a radial center of the housing, that meshes with the at least one planetary gear; and a carrier that supports the at least one planetary gear rotatably. 5. The planetary gear device as set forth in claim 4 , further comprising: a second sun gear that rotates with a rotation of the carrier; one or more second planetary gears, disposed on a periphery of the second sun gear, that mesh with the second sun gear; a second carrier that supports the one or more second planetary gears rotatably; and a second housing whereon is formed, on an inner peripheral surface thereof, inner teeth that mesh with the one or more second planetary gears, wherein the housing and the second housing are formed integrally. 6. A planetary gear device, comprising: at least two stages of planetary gear mechanisms each comprising: a sun gear; one or more planetary gears, arranged on the periphery of the sun gear, meshing with the sun gear; and a carrier that supports the one or more planetary gears rotatably, wherein, of the at least two stages of planetary gear mechanisms, the planetary gear mechanism configured to operate at the highest rotational speed comprises the apparatus of claim 1 , wherein the one or more planetary gears of the planetary gear mechanism and the inner gear mesh, and wherein, of the at least two stages of the planetary gear mechanism, the planetary gear mechanism configured to operate at the lowest rotational speed comprises a housing that includes inner teeth formed on an inner peripheral surface of the housing and that mesh with the one or more planetary gears of the planetary gear mechanism configured to operate at the lowest rotational speed. 7. An actuator comprising: the planetary gear device as set forth in claim 6 ; and a motor, connected to the planetary gear device, for driving the planetary gear device. 8. An apparatus for suppressing noise produced in a planetary gear device, comprising: an inner gear that has an inner peripheral surface with inner tooth portions formed on the inner peripheral surface, wherein the inner gear has an outer peripheral surface with a raised portion formed on the outer peripheral surface, and wherein the inner gear has an opening end face that extends between the inner peripheral surface and the outer peripheral surface, wherein the raised portion is extended along the outer peripheral surface of the inner gear for part of an axial length of the inner gear; and a substantially cylindrical housing for containing the inner gear comprising a stopper disposed on an interior surface of the housing, wherein movement of the inner gear in a circumferential direction within the housing is limited by contact between the raised portion of the inner gear and the stopper, wherein a radial gap is formed between the inner gear and the housing such that the inner gear floats inside the housing, wherein a surface of the raised portion is parallel with the opening end face, and wherein the raised portion comprises a protrusion extending radially outward from the outer peripheral surface, wherein the protrusion comprises a groove extending radially inward from a distal end of the raised portion, the groove being configured to receive the stopper to limit movement of the inner gear relative to the housing. 9. The apparatus of claim 8 , further comprising five additional raised portions extending radially outwards from the outer peripheral surface, each of the five additional raised portions extending at substantially the same height from the outer peripheral surface, and wherein each of the five additional raised portions comprises a groove extending radially inward from a distal end of the raised portion, each of the five additional raised portions being configured to receive a corresponding stopper to limit movement of the inner gear relative to the housing. 10. The apparatus of claim 8 , wherein the outer peripheral surface further comprises a second raised portion extending in the axial direction, the second raised portion comprising a second surface that is parallel with a second opening end face of the inner gear. 11. The apparatus of claim 9 , wherein three of the six raised portions each has a surface parallel with the opening end face of the inner gear, and wherein the other three of the six raised portions each has a surface parallel with the second opening end face of the inner gear. 12. The apparatus of claim 11 , wherein the three of the six raised portions each having the surface parallel with the opening end face of the inner gear are spaced substantially evenly about the inner gear circumferentially, and wherein the other three of the six raised portions each having the surface parallel with the second opening end face of the inner gear are spaced substantially evenly about the inner gear circumferentially and are offset fro