Transfer for four-wheel drive vehicle

What is claimed is: 1. A transfer for a four-wheel drive vehicle, the four-wheel drive vehicle including a driving source, right and left main drive wheels, a power transmission member, and right and left auxiliary drive wheels, the transfer being configured to output part of driving force, which is transmitted from the driving source to the main drive wheels, to the auxiliary drive wheels via the power transmission member when a drive mode of the four-wheel drive vehicle has been changed from a two-wheel drive mode to a four-wheel drive mode, the transfer comprising: a ring gear having a cylindrical shape, the ring gear being supported so as to rotate around a rotation axis, and configured to drive the power transmission member; an input shaft extending through an inside of the ring gear, the input shaft being supported so as to rotate concentrically with the ring gear and, configured to receive part of the driving force that is transmitted from the driving source to the main drive wheels; a disconnect mechanism configured to connect the ring gear to the input shaft and disconnect the ring gear from the input shaft, wherein the disconnect mechanism is an intermesh disconnect mechanism and includes first teeth and a movable meshing member, wherein the first teeth are provided on the ring gear, wherein the movable meshing member includes second teeth configured to be engaged with or released from the first teeth, and wherein the movable meshing member is provided on the input shaft so as not to relatively rotate and so as to move in a direction of the rotation axis; and an actuator configured to change the disconnect mechanism between a connection position and a disconnection position, the connection position being a position at which the ring gear and the input shaft are coupled to each other so as not to relatively rotate, the disconnection position being a position at which relative rotation between the ring gear and the input shaft is allowed, wherein the actuator is configured to move the movable meshing member between the connection position and the disconnection position by using an electromagnet the actuator includes a trip mechanism, the electromagnet and a spring, wherein the trip mechanism and the electromagnet are configured to change the disconnect mechanism between the connection position and the disconnection position, wherein the spring is configured to urge the movable meshing member from the disconnection position toward the connection position, wherein the trip mechanism includes a first piston, a second piston and a holder, wherein the first piston is configured to be reciprocated by the electromagnet in the direction of the rotation axis by a predetermined stroke, the second piston is provided so as to relatively rotate with respect to the input shaft and is moved by the first piston against an urging force of the spring, and the holder has multi-step latch teeth and is provided on the input shaft so as not to relatively rotate or move in the direction of the rotation axis, the holder is configured to latch the second piston, moved by the first piston, with any one of the multi-step latch teeth, wherein the trip mechanism is configured to cause the second piston to move the movable meshing member to the disconnection position against the urging force of the spring by a predetermined number of times of reciprocating stroke of the first piston, and the trip mechanism is configured to, when the number of times of reciprocating stroke exceeds the predetermined number of times, unlatch the second piston and allow the movable meshing member to move to the connection position under the urging force of the spring. 2. The transfer according to claim 1 , wherein both ends of the input shaft are supported by a pair of bearings provided inside a case such that the input shaft rotates concentrically with the ring gear, and the disconnect mechanism is arranged between the pair of bearings. 3. The transfer according to claim 1 , wherein the power transmission member is a propeller shaft configured to transmit power toward the auxiliary drive wheels, and the trip mechanism and the electromagnet are arranged on the same side as the ring gear with respect to an axis of the propeller shaft. 4. The transfer according to claim 1 , further comprising: a ball cam arranged between the electromagnet and the trip mechanism, the ball cam including an annular member and spherical rolling elements, the annular member being arranged in a state where the annular member overlaps with the first piston of the trip mechanism in the direction of the rotation axis, the spherical rolling elements being sandwiched by a pair of mutually facing cam faces respectively formed on the annular member and the first piston, the ball cam being configured to space the annular member and the first piston apart from each other when the annular member and the first piston are relatively rotated, wherein the movable meshing member is configured to be moved in the direction of the rotation axis by the ball cam via the trip mechanism when braking torque is transmitted to the annular member by the electromagnet and then the annular member and the first piston relatively rotate. 5. The transfer according to claim 1 , further comprising: a synchronizer arranged between the movable meshing member and the trip mechanism inside the ring gear, the synchronizer including an input shaft-side friction engagement member and a ring gear-side friction engagement member, the input shaft-side friction engagement member being provided on the input shaft so as not to relatively rotate, the ring gear-side friction engagement member being provided on the ring gear so as not to relatively rotate and so as to move in the direction of the rotation axis together with the movable meshing member, the synchronizer being configured to synchronize rotation of the ring gear with rotation of the input shaft by causing the input shaft-side friction engagement member and the ring gear-side friction engagement member to be in sliding contact with each other before the movable meshing member is moved to the connection position. 6. The transfer according to claim 1 , wherein part of the movable meshing member is arranged between the ring gear and a portion of the input shaft, and the portion of the input shaft corresponds to a range of an axial length of the ring gear.