Motion assist apparatus

What is claimed is: 1. A motion assist apparatus comprising: a first orthosis adapted to be attached to a leg of a user; a second orthosis adapted to be attached to an upper body of the user; a first frame connected to the first orthosis; a second frame connected to the second orthosis; an actuator that is configured to selectively apply a force to the user through an intermediary of the first orthosis and the second orthosis by transmitting a driving force to the first frame or the second frame; a posture estimation sensor that detects a posture angle of the upper body relative to a vertical plane having a longitudinal direction of the user defined as a perpendicular direction thereof; a control unit that controls the drive of the actuator such that a force for reducing a deviation of the posture angle from a reference posture angle is applied to the user; a trigger sensor that is configured to detect an occurrence of a trigger event, and an operation unit configured to transmit a signal to the control unit when the operation unit is operated by a user; wherein the control unit sets, as the reference posture angle, a posture angle detected by the posture estimation sensor at a time when the trigger sensor detects the occurrence of the trigger event after the control unit receives the signal from the operation unit and starts a calibration of the posture estimation sensor, or at a time when the signal from the operation unit is received. 2. The motion assist apparatus according to claim 1 , wherein: the trigger sensor is a force sensor that detects a magnitude of the force to be applied by the actuator in order to control a tilt of the upper body relative to the vertical plane, which has the longitudinal direction of the user defined as the perpendicular direction, and the control unit is configured to drive the actuator such that a gap between the second orthosis and the user in a basic posture is reduced and sets, as the reference posture angle, the posture angle detected by the posture estimation sensor in a case where a force detected by the force sensor reaches a predetermined value or a value in a predetermined range. 3. The motion assist apparatus according to claim 1 , wherein: the trigger sensor is a setting switch through which the user inputs a signal at an arbitrary timing, and the control unit sets, as the reference posture angle, the posture angle detected by the posture estimation sensor in a case where a signal from the setting switch is detected. 4. The motion assist apparatus according to claim 1 , wherein the second orthosis has, on the user side, an abutting member which comes in contact with the user when the apparatus is worn by the user, and wherein a fixing position of the abutting member can be changed in a vertical direction with respect to the second frame. 5. A motion assist apparatus comprising: a first orthosis adapted to be attached to a leg of a user; a second orthosis adapted to be attached to an upper body of the user; a first frame connected to the first orthosis; a second frame connected to the second orthosis; an actuator that is configured to selectively apply a force to the user through an intermediary of the first orthosis and the second orthosis by transmitting a driving force to the first frame or the second frame; a posture estimation sensor that detects a posture angle of the upper body relative to a vertical plane having a longitudinal direction of the user defined as a perpendicular direction thereof; a control unit that controls the drive of the actuator such that a force for reducing a deviation of the posture angle from a reference posture angle is applied to the user; and a trigger sensor that is configured to detect an occurrence of a trigger event, wherein the control unit is configured to set, as the reference posture angle, a posture angle detected by the posture estimation sensor at a time when the trigger sensor detects the occurrence of the trigger event, and wherein the second orthosis has, on the user side, an abutting member which comes in contact with the user when the apparatus is worn by the user, and the abutting member has a round shape as observed from a side of the user. 6. A motion assist apparatus comprising: a first orthosis adapted to be attached to a leg of a user; a second orthosis adapted to be attached to an upper body of the user; a first frame connected to the first orthosis; a second frame connected to the second orthosis; an actuator that is configured to selectively apply a force to the user through an intermediary of the first orthosis and the second orthosis by transmitting a driving force to the first frame or the second frame; a posture estimation sensor that detects a posture angle of the upper body relative to a vertical plane having a longitudinal direction of the user defined as a perpendicular direction thereof; a control unit that controls the drive of the actuator such that a force for reducing a deviation of the posture angle from a reference posture angle is applied to the user; and a trigger sensor that is configured to detect an occurrence of a trigger event, wherein the control unit is configured to set, as the reference posture angle, a posture angle detected by the posture estimation sensor at a time when the trigger sensor detects the occurrence of the trigger event, and wherein an abutting member is installed at a portion of the second orthosis that is abutted against the user, and the abutting member is rotatable about an axis line parallel to a lateral direction of the user with respect to the second orthosis. 7. A motion assist apparatus comprising: a first orthosis adapted to be attached to a leg of a user; a second orthosis adapted to be attached to an upper body of the user; a first frame connected to the first orthosis; a second frame connected to the second orthosis; an actuator that is configured to selectively apply a force to the user through an intermediary of the first orthosis and the second orthosis by transmitting a driving force to the first frame or the second frame; a posture estimation sensor that detects a posture angle of the upper body relative to a vertical plane having a longitudinal direction of the user defined as a perpendicular direction thereof; a control unit that controls the drive of the actuator such that a force for reducing a deviation of the posture angle from a reference posture angle is applied to the user; and a trigger sensor that is configured to detect an occurrence of a trigger event, wherein the control unit is configured to set, as the reference posture angle, a posture angle detected by the posture estimation sensor at a time when the trigger sensor detects the occurrence of the trigger event, wherein the second orthosis has an abutting member, which comes in contact with the user, on a front side of the user, when the apparatus is worn by the user, and wherein: the abutting member has a size, in a lateral direction, which covers an area from a joint part of a sixth rib on a right side of the user and a sixth costal cartilage on the right side of the user, to a joint part of a sixth rib on a left side and a sixth costal cartilage on the left side, and an area from a joint part of a seventh rib on the right side of the user and a seventh costal cartilage on the right side of the user to a joint part of a seventh rib on the left side and a seventh costal cartilage on the left side, and the abutting member has a size, in a vertical direction, which covers an area from the joint part of the sixth rib on the right side of the user and the sixth costal cartilage on the right side of the user to a joint part of the seventh rib on the right side and the seventh costal cartilage o