Transfer for four-wheel drive vehicle

What is claimed is: 1. A transfer for a four-wheel drive vehicle, the transfer comprising: an input shaft; an output shaft having a common axis with the input shaft; a high-low switching mechanism configured to change a rate of rotation input from the input shaft and transmit the resultant rotation to the output shaft by a motion of a high-low sleeve in an axial direction of the out-put shaft, the high low switching mechanism being connected to the input shaft; an output member configured to output power to a second output destination that is different from a first output destination of the output shaft; a clutch configured to adjust and transmit some of the power from the output shaft to the output member; a locking sleeve configured to move in the axial direction of the output shaft, the locking sleeve supported by the output shaft in a manner so that the locking sleeve is unable to rotate around the axis of the output shaft relative to the output shaft, the locking sleeve configured to selectively engage with the output member so that the output shaft and the output member lock together; a screw mechanism that includes a threaded shaft member, a nut member, and an electric motor, the threaded shaft member and the nut member being supported by the output shaft and being screwed together, the electric motor configured to rotatably drive one of the threaded shaft member and the nut member so that the nut member moves linearly in the axial direction of the output shaft; a transmitting mechanism configured to transmit the linear motion of the nut member to the clutch; a drum cam configured to convert a rotational motion of the electric motor into a linear motion in the axial direction of the out-put shaft; and a switching mechanism configured to selectively switch the high-low sleeve and the locking sleeve between an H4L position and an L4L position, by transmitting the linear motion converted by the drum cam to the high low-sleeve and the locking sleeve via a high-low shift fork and a 4WD locking fork respectively, in conjunction with rotational motion of the electric motor, the H4L position being (i) a position in which the high-low sleeve provided in the high-low switching mechanism is in a position in which a high-speed gear is established in the high-low switching mechanism, and (ii) the locking sleeve is in a position in which the output shaft and the output member are locked together, the L4L position being (1) a position in which the high-low sleeve provided in the high-low switching mechanism is in a position in which a low-speed gear is established in the high-low switching mechanism, and (2) the locking sleeve is in the position in which the output shaft and the output member are locked together. 2. The transfer according to claim 1 , further comprising: a second shaft that is arranged parallel to the output shaft, the second shaft being configured to move in an axial direction of the second shaft, wherein the high-low shift fork and the 4WD locking fork are configured to alternately engage the second shaft, the switching mechanism is configured to transmit a motion of the second shaft in an axial direction to the high-low sleeve and the locking sleeve via the high-low shift fork and the 4WD locking fork respectively. 3. The transfer according to claim 2 , wherein the switching mechanism includes a fixed shaft, a first stopper, and a second stopper, the fixed shaft is arranged parallel to the second shaft, the high-low shift fork has a first pair of through-holes through which the second shaft and the fixed shaft pass so that the high-low shift fork moves in the axial direction of the second shaft and the fixed shaft, the high-low shift fork has a first communication hole that communicates between the first pair of through-holes, a first interlocking member is arranged inside the first communication hole, the first interlocking member is configured to move in an axial direction of the first communication hole so that a first end portion of the first interlocking member selectively engages with a recessed portion on the second shaft, and a second end portion of the first interlocking member selectively engages with a recessed portion on the fixed shaft, the 4WD locking fork has a second pair of through-holes through which the second shaft and the fixed shaft pass so that the 4WD locking fork moves in the axial direction of the second shaft and the fixed shaft, the 4WD locking fork has a second communication hole that communicates between the second pair of communication holes, a second interlocking member is arranged inside the second communication hole, the second interlocking member is configured to move in an axial direction of the second communication hole so that a first end portion of the second interlocking member selectively engages with a recessed portion on the second shaft, and a second end portion of the second interlocking member selectively engages with a recessed portion on the fixed shaft, the first stopper is arranged on the second shaft, the first stopper is configured to selectively move the high-low shift fork in the axial direction by the movement of the second shaft in the axial direction of the second shaft, the second stopper is arranged on the second shaft, the second stopper is configured to selectively move the 4WD locking fork in the axial direction by the movement of the second shaft in the axial direction of the second shaft, and the switching mechanism is configured to alternately engage the second shaft and the high-low shift fork, and the second shaft and the 4WD locking fork, by the first stopper, the second stopper, the first interlocking member, and the second interlocking member so that the movement of the second shaft is alternately transmitted to the high-low shift fork or the 4WD locking fork. 4. The transfer according to claim 1 , further comprising: a second shaft that is arranged parallel to the output shaft, the second shaft being configured to move in an axial direction of the second shaft; and a third shaft that is arranged parallel to the output shaft, the third shaft being configured to move in an axial direction of the second shaft, wherein the high-low shift fork is connected to the second shaft, the 4WD locking fork is connected to the third shaft, the switching mechanism is configured to transmit a motion of the second shaft in an axial direction to the high-low sleeve via the high-low shift fork, and the switching mechanism is configured to transmit a motion of the third shaft in an axial direction to the locking sleeve via the 4WD locking fork. 5. The transfer according to claim 1 , wherein an output shaft support bearing that rotatably supports an end portion of the output shaft on the drum cam side, is arranged inside the drum cam within a length range of the drum cam in the axial direction of the output shaft. 6. The transfer according to claim 1 , wherein a cam engaging member is connected to the second shaft, the drum cam has a cam groove that engages with the cam engaging member, the cam groove is configured to move the cam engaging member in the axial direction of the second shaft by the drum cam that is connected to one of the threaded shaft member and the nut member and rotates around the axis of the output shaft, and the cam groove has an inclined cam groove portion that extends in a direction inclined with respect to the axis of the output shaft such that an amount of movement in the axial direction of the second shaft by the rotation of the drum cam is greater than an amount of movement of the nut member in the axial direction of the output shaft by the rotation of one of the threaded shaft member and the nut member. 7. The transfer according to claim 1 , wherein the nut member sc