| CPC F16D 23/12 (2013.01) [F16D 28/00 (2013.01); F16H 1/28 (2013.01); F16H 57/082 (2013.01); F16D 2023/123 (2013.01); F16H 1/2836 (2013.01); F16H 2057/085 (2013.01)] | 9 Claims |
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1. A geared motor comprising:
a housing;
an electric motor that is installed to the housing and is configured to output a torque of rotation in response to supply of an electric power to the electric motor;
a speed reducer that is configured to output the torque of the rotation transmitted from the electric motor after reducing a rotational speed of the rotation; and
a rotary element that is configured to be rotated by the torque transmitted from the speed reducer, wherein:
the speed reducer includes:
a sun gear which is configured to receive the torque transmitted from the electric motor;
a plurality of planetary gears which are configured to mesh with the sun gear, wherein each of the plurality of planetary gears is configured to rotate and revolve around the sun gear in a circumferential direction of the sun gear;
a plurality of pins each of which is installed at a rotational center of a corresponding one of the plurality of planetary gears;
a plurality of planetary gear bearings each of which is installed between a corresponding one of the plurality of planetary gears and a corresponding one of the plurality of pins;
a carrier which is shaped in an annular form and is rotatable relative to the sun gear, wherein the carrier supports one end portion of each of the plurality of pins and thereby rotatably supports each of the plurality of planetary gears;
a first ring gear which is shaped in an annular form and is configured to mesh with the plurality of planetary gears; and
a second ring gear which is shaped in an annular form and is configured to mesh with the plurality of planetary gears, wherein a number of teeth of the second ring gear is different from a number of teeth of the first ring gear, and the second ring gear is configured to output the torque to the rotary element;
the plurality of planetary gears, the plurality of pins, the plurality of planetary gear bearings and the carrier form a carrier subassembly;
at least one planetary gear among the plurality of planetary gears has:
a first planetary gear annular surface which is an annular surface formed at one axial end of the at least one planetary gear; and
a second planetary gear annular surface which is an annular surface formed at another axial end of the at least one planetary gear that is opposite to the one axial end of the at least one planetary gear;
the sun gear has a sun gear annular surface that is an annular surface and is opposed to the first planetary gear annular surface such that a portion of the sun gear annular surface is abuttable against and is slidable relative to a portion of the first planetary gear annular surface;
one of the second ring gear and the rotary element has an output-side annular surface that is an annular surface and is opposed to the second planetary gear annular surface such that a portion of the output-side annular surface is abuttable against and is slidable relative to a portion of the second planetary gear annular surface;
a relative movement of the carrier subassembly relative to the housing in an axial direction is limited when the first planetary gear annular surface abuts against the sun gear annular surface or when the second planetary gear annular surface abuts against the output-side annular surface;
the at least one planetary gear has:
a planetary gear main body that is shaped in a tubular form;
a first projection that is shaped in a tubular form and projects from one axial end surface of the planetary gear main body; and
a second projection that is shaped in a tubular form and projects from another axial end surface of the planetary gear main body which is opposite to the one axial end surface of the planetary gear main body;
the first planetary gear annular surface is formed at an end surface of the first projection; and
the second planetary gear annular surface is formed an end surface of the second projection.
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