Bicycle drive unit

What is claimed is: 1 . A bicycle drive unit comprising: a planetary gear mechanism comprising an input body, an output body and a plurality of transmission paths having different transmission ratios between the input body and the output body; a switching mechanism configured to switch between the plurality of transmission paths; a motor configured to transmit rotational force to the input body; and a housing configured to rotatably support a crankshaft and on which are provided the planetary gear mechanism, the switching mechanism and the motor, wherein a manual drive force that is input to the crankshaft is joined with a rotational force that is output from the output body of the planetary gear mechanism in a transmission path of a driving force from the output body of the planetary gear mechanism to a wheel. 2 . The bicycle drive unit according to claim 1 , wherein the output body is configured to be one of directly connected to the crankshaft and indirectly connected to the crankshaft via a coupling member that is coupled to the crankshaft. 3 . The bicycle drive unit according to claim 2 , Wherein the coupling member is one of directly coupled to the crankshaft and indirectly connected to the crankshaft via a one-way clutch. 4 . The bicycle drive unit according to claim 1 , wherein the planetary gear mechanism further comprises a transmission body that transmits rotation of the input body to the output body; and the switching mechanism is configured to switch between a first state, in which the input body and the output body integrally rotate together as a unit, and a second state in which the input body and the output body are rotated relative to each other. 5 . The bicycle drive unit according to claim 4 , wherein the switching mechanism comprises a switching unit that switches a connection state of the input body and the output body to the first state by connecting the transmission body and the output body, and that switches the connection state of the input body and the output body to the second state by releasing a connection between the transmission body and the output body. 6 . The bicycle drive unit according to claim 5 , wherein the switching unit comprises a pawl provided on one of the transmission body and the output body and configured to protrude from the one of the transmission body and the output body toward the other of the transmission body and the output body; and an engagement portion provided to the other of the transmission body and the output body in which the pawl is configured to selectively engage the engagement portion; the pawl is engaged with the engagement portion in the first state and the pawl is separated from the engagement portion in the second state. 7 . The bicycle drive unit according to claim 4 , wherein the input body comprises a sun gear; the output body comprises a planetary gear engaged with the sun gear and a carrier that rotatably supports the planetary gear; and the transmission body comprises a ring gear that is engaged with the planetary gear. 8 . The bicycle drive unit according to claim 4 , wherein the input body has a rotational axis that is offset from a rotational axis of the crankshaft. 9 . The bicycle drive unit according to claim 4 , wherein the input body has a rotational axis that is coaxial with a rotational axis of the crankshaft. 10 . The bicycle drive unit according to claim 5 , wherein the switching mechanism further comprises an actuator configured to control the switching unit. 11 . The bicycle drive unit according to claim 10 , wherein the switching unit comprises a pawl provided on and protruding from one of the transmission body and the output body toward the other of the transmission body and the output body; and an engagement portion provided to the other of the transmission body and the output body in which the pawl is configured to selectively engage the engagement portion; the pawl is engaged with the engagement portion in the first state and the pawl is separated from the engagement portion in the second state, and the actuator comprises a biasing member applying a force to the pawl so that the pawl projects from one of the transmission body and the output body; a movable member configured to cause the pawl to operate so that the pawl moves away from the engagement portion by coming in contact with the pawl; and a drive unit configured to switch between the first state and the second state by moving the movable member. 12 . The bicycle drive unit according to claim 10 , wherein the switching unit comprises a pawl provided on and protruding from one of the transmission body and the output body toward the other of the transmission body and the output body; and an engagement portion provided to the other of the transmission body and the output body in which the pawl is configured to selectively engage; the pawl is engaged with the engagement portion in the first state and the pawl is separated from the engagement portion in the second state, and the actuator comprises a biasing member applying a force to the pawl so that the pawl moves away from the engagement portion; a movable member configured to cause the pawl to operate so that the pawl projects from one of the transmission body and the output body by coming in contact with the pawl; and a drive unit configured to switch between the first state and the second state by moving the movable member. 13 . The bicycle drive unit according to claim 4 , further comprising a support portion configured to support the transmission body, the switching mechanism further comprising a one-way clutch that is disposed between the support portion and the transmission body; and the one-way clutch being configured to permit rotation of the transmission body in a first direction and prevent rotation of the transmission body in a second direction, which is the opposite of the first direction. 14 . The bicycle drive unit according to claim 1 , wherein the planetary gear mechanism further comprises a transmission body that transmits rotation of the input body to the output body; and the output body and the transmission body each comprise a plurality of gears having different total numbers of teeth. 15 . The bicycle drive unit according to claim 14 , wherein the output body comprises a first planetary gear; a second planetary gear that has a different total number of teeth than the first planetary gear and that integrally rotates with the first planetary gear; and a carrier that rotatably supports the first planetary gear and the second planetary gear; the transmission body comprises: a first sun gear that is engaged with the first planetary gear; and a second sun gear that is disposed coaxially with the first sun gear and that is engaged with the second planetary gear; the input body comprises a ring gear that is engaged with one of the first planetary gear and the second planetary gear; and the switching mechanism is configured to restrict rotation of at least one attic first sun gear and the second sun gear. 16 . The bicycle drive unit according to claim 15 , wherein a total number of teeth of the second sun gear is greater than a total number of teeth of the first sun gear. 17 . The bicycle drive unit according to claim 15 , wherein the switching mechanism comprises a support shaft that rotatably supports the first sun gear and the second sun gear; and a switching unit that switches between a first state, in which the first sun gear is non