Medium ejection device and image reading device

What is claimed is: 1 . A medium ejection device comprising: a pair of ejection rollers including a first roller and a second roller that nip and eject a medium to be transported; a lever that is movably disposed at a position overlapping the pair of ejection rollers in an axial direction parallel to rotation shafts of the pair of ejection rollers, the lever moving in a movement direction from one of the first roller and the second roller to another of the first roller and the second roller to push the medium nipped between the pair of ejection rollers; a lever position adjustment unit that moves the lever in the movement direction to adjust an advance position; and a motor that transmits power to the pair of ejection rollers, wherein the lever includes a first lever and a second lever, the first lever being located on one side of the pair of ejection rollers in the axial direction, the second lever being located on another side of the pair of ejection rollers in the axial direction away from the first lever, the first lever and the second lever are disposed to sandwich the pair of ejection rollers in the axial direction, and turning of the motor in a first rotation direction rotates the pair of ejection rollers in a direction in which the medium is ejected, and turning of the motor in a second rotation direction that differs from the first rotation direction transmits power to the lever position adjustment unit and moves the first lever and the second lever to the advance position. 2 . The medium ejection device according to claim 1 , wherein the pair of ejection rollers includes a pair of first ejection rollers and a pair of second ejection rollers spaced apart from the pair of first ejection rollers in the axial direction, the first ejection roller being one of the pair of first ejection rollers, the second ejection roller being one of the pair of second ejection rollers, and a third lever that differs from the first lever and the second lever is provided between the pair of first ejection rollers and the pair of second ejection rollers. 3 . The medium ejection device according to claim 1 , further comprising: a position detection unit that detects the advance position of the lever; and an encoder that detects an advance amount of the lever, wherein the advance position of the lever is determined based on a detection result of the position detection unit and a detection result of the encoder. 4 . The medium ejection device according to claim 3 , wherein the position detection unit is disposed at a position that overlaps part of the pair of ejection rollers in a direction in which the medium is ejected. 5 . The medium ejection device according to claim 1 , further comprising: a position detection unit that detects the advance position of the lever, wherein the position detection unit includes a first position detection unit and a second position detection unit, the first position detection unit is configured to detect a first detected portion of the first lever, the second position detection unit is configured to detect a second detected portion of another lever different to the first lever, and the first lever, the other lever, the first position detection unit, and the second position detection unit are disposed such that the second position detection unit does not detect the other lever when the first position detection unit detects the first lever, and the first position detection unit does not detect the first lever when the second position detection unit detects the other lever. 6 . The medium ejection device according to claim 1 , wherein the lever position adjustment unit includes a cam and a one-way gear provided on a pivot shaft of the cam, since the cam does not pivot due to the one-way gear when the motor turns in the first rotation direction, the lever position adjustment unit does not operate, and since the cam pivots via the one-way gear when the motor turns in the second rotation direction, the lever position adjustment unit operates. 7 . The medium ejection device according to claim 1 , further comprising: a position detection unit that detects the advance position of the lever; and a pushing member that pushes the lever, wherein the lever includes a pushing portion that pushes the medium, a detected portion to be detected by the position detection unit, and a pivot shaft provided between the pushing portion and the detected portion, part of the lever between the pivot shaft and the detected portion is pushed by the pushing member, part of the lever between the pivot shaft and the detected portion is in contact with the lever position adjustment unit, and the pair of ejection rollers overlaps part of the cam and part of the pushing member in a direction in which the medium is ejected. 8 . The medium ejection device according to claim 1 , wherein the lever is moved by the lever position adjustment unit to a first advance position and a second advance position located beyond the first advance position. 9 . The medium ejection device according to claim 8 , wherein the lever is moved to a third advance position located beyond the second advance position. 10 . The medium ejection device according to claim 9 , further comprising: a control unit; a separating unit that separates one medium from multi-fed media; and a medium thickness detection unit that is disposed downstream of the separating unit in a transport direction of the medium and detects information regarding a thickness of the medium, wherein the control unit causes the medium thickness detection unit to detect the medium separated by the separating unit and moves the lever to the second advance position when a detection result of the medium thickness detection unit is equal to or greater than a first threshold or moves the lever to the third advance position when the detection result of the medium thickness detection unit is smaller than the first threshold. 11 . The medium ejection device according to claim 10 , wherein the control unit moves the lever to the first advance position when the detection result of the medium thickness detection unit is equal to or more than a second threshold that is greater than the first threshold. 12 . The medium ejection device according to claim 10 , wherein the control unit is configured to receive a selected type of the medium and determines the advance position of the lever based on the selected type of the medium. 13 . The medium ejection device according to claim 10 , wherein the control unit stops transport of the medium after the medium thickness detection unit detects the medium, determines the advance position of the lever based on the detection result of the medium thickness detection unit, moves the lever to the determined advance position of the lever, and resumes transport of the medium. 14 . The medium ejection device according to claim 10 , wherein the control unit determines the advance position of the lever based on the detection result of the medium thickness detection unit and, when the current advance position of the lever does not match the detection result, stops transport of the medium, matches the current advance position of the lever with the detection result, and resumes transport of the medium. 15 . The medium ejection device according to claim 2 , wherein an odd number of levers are disposed, the lever being one of the odd number of levers, when a region between the pair of first ejection rollers and the pair of second ejection rollers is a first region or a center region and regions on both