Bicycle rear derailleur

What is claimed is: 1. A bicycle rear derailleur comprising: abuse member configured to be mounted to a bicycle frame, the base member having a frame facing side and a non-frame facing side; a movable member movably coupled to the base member; a linkage including an outer link pivotally connected to the base member about a first pivot axis and pivotally connected to the movable member about a second pivot axis, and an inner link pivotally connected the base member about a third pivot axis and the movable member about a fourth pivot axis, the first, second, third and fourth pivot axes being offset from each other, the outer link overlying the inner link as viewed from a direction facing the frame facing side of the base member; and a motor unit including an output shaft having a rotational axis being parallel to at least one of the first pivot axis and the second pivot axis, the output shaft of the motor unit being configured to pivotally support the outer link, the output shaft of the motor unit driving the outer link such that a motor force is transmitted from the outer link to the inner link to move the movable member with respect to the base member, the inner link moving in response to movement of the outer link. 2. The bicycle rear derailleur according to claim 1 , wherein a movement force of the output shaft of the motor unit is transmitted at a portion of the outer link located between the first and second pivot axes of the outer link. 3. The bicycle rear derailleur according to claim 1 , wherein the rotational axis of the output shaft and the first pivot axis are coaxial. 4. The bicycle rear derailleur according to claim 1 , wherein the linkage includes a biasing member interposed between the inner link and the outer link to bias the movable member to one of a low shift stage position and a top shift stage position. 5. The bicycle rear derailleur according to claim 1 , further comprising a saver mechanism is operatively coupled between the output shaft of the motor unit and the outer link. 6. The bicycle rear derailleur according to claim 5 , wherein the outer link includes a first linking member pivotally connected to the movable member, and a second linking member pivotally connected to the base member and being attached to the first linking member; and the saver mechanism includes an output member movably operated by the motor unit, a drive link movably mounted on the outer link between a drive transmitting position that connects a drive force of the motor to the outer link and a non-drive transmitting position that disconnect the drive force of the motor from the outer link, and a biasing element applying a biasing force on the drive link into engagement with the output member to maintain the drive link in the drive transmitting position. 7. The bicycle rear derailleur according to claim 6 , wherein the biasing element is mounted on a mounting element that attaches the second linking member to the first linking member. 8. The bicycle rear derailleur according to claim 7 , further comprising a biasing member having a first end connected to the mounting element and a second end connected to the inner link. 9. The bicycle rear derailleur according to claim 7 , wherein the biasing element is a coil spring having a coil portion disposed on the mounting element and a first end portion contacting the first linking member and a second end portion contacting the drive link. 10. The bicycle rear derailleur according to claim 6 , wherein the drive link is pivotally mounted on the second linking member. 11. The bicycle rear derailleur according to claim 6 , wherein the second linking member is rotatably mounted on the output shaft of the motor unit. 12. The bicycle rear derailleur according to claim 11 , wherein the output member is fixed on the output shaft of the motor unit to rotate with the output shaft. 13. The bicycle rear derailleur according to claim 1 , further comprising a chain guide pivotally coupled to the movable member about a chain guide pivot axis; and a friction element operatively arranged between the movable member and the chain guide to frictionally provide rotational resistance in a first rotational direction of the chain guide about the chain guide pivot axis. 14. A bicycle rear derailleur comprising: a base member configured to be mounted to a bicycle; a movable member movably coupled to the base member; a linkage including an outer link pivotally connected to the base member about a first pivot axis and pivotally connected to the movable member about a second pivot axis, and an inner link pivotally connected the base member about a third pivot axis and the movable member about a fourth pivot axis, the first, second, and third pivot axes being offset from each other; a motor unit including an output shaft having a rotational axis being parallel to at least one of the first pivot axis and the second pivot axis, the output shaft of the motor unit being configured to pivotally support the outer link, the output shaft of the motor unit driving the outer link to move the movable member with respect to the base member such that a motor force is transmitted from the outer link to the inner link, the inner link moving in response to movement of the outer link; a drive link pivotally mounted on an axis offset from the rotational axis of the output shaft; and a biasing element interposed between the outer link and the drive link to apply a biasing force on the drive link. 15. A bicycle rear derailleur comprising: a base member configured to be mounted to a bicycle; a movable member movably coupled to the base member; a linkage including an outer link pivotally connected to the base member about a first pivot axis and pivotally connected to the movable member about a second pivot axis, and an inner link pivotally connected the base member about a third pivot axis and the movable member about a fourth pivot axis, the first, second, third and fourth pivot axes being offset from each other; and a motor unit including an output shaft having a rotational axis being parallel to at least one of the first pivot axis and the second pivot axis, the outer link being fixed to the output shaft of the motor unit, the output shaft of the motor unit being configured to pivotally support the outer link, the output shaft driving the outer link to move the movable member with respect to the base member such that a motor force is transmitted from the outer link to the inner link, the inner link moving in response to movement of the outer link.