Assembling apparatus

The invention claimed is: 1. An assembling apparatus comprising: a shaft member having a linear assembling function and a rotational assembling function; and a base configured to support the shaft member so that the shaft member is movable in an axial direction and axially rotatable, the base including a recess portion formed at an inner periphery of the base; and a drive unit which can move the shaft member in the axial direction and axially rotate the shaft member, wherein the drive unit comprises a motor and a power conversion mechanism switchably converting output of the motor between axial movement and axial rotation of the shaft member, wherein the power conversion mechanism includes a clutch, the clutch including a cylindrically shaped clutch body so that the shaft member passes through a center of the clutch body, the clutch body being movable in the axial direction of the shaft member between a first axial position and a second axial position, the clutch body including a stopper member formed on an outer periphery of the cylindrically shaped clutch body, wherein, upon the clutch body being disposed in the first axial position, the stopper member of the clutch body is disposed in the recess portion of the base and the shaft member is configured to move in the axial direction, and wherein, upon the clutch body being disposed in the second axial position, the stopper member of the clutch is separated from the recess portion of the base, and the shaft member is configured to rotate axially. 2. The assembling apparatus of claim 1 , wherein the power conversion mechanism comprises: a linear motion mechanism which is connected to the motor, the linear motion mechanism capable of moving the shaft member in the axial direction with respect to the base using the output of the motor, a rotation mechanism which axially rotates the shaft member with respect to the base, and a switching mechanism, that includes the clutch, the switching mechanism configured to connect and disconnect the motor and the rotation mechanism. 3. The assembling apparatus of claim 2 , wherein: the linear motion mechanism comprises a first member in which the shaft member is inserted, the first member is attached to the base such that it is axially rotatable, a first engagement portion is formed on the first member, the first engagement portion slidably engages a male screw formed on the shaft member, the male screw extends in a spiral manner, the rotation mechanism comprises a second member in which the shaft member is inserted, the second member is attached to the base such that it is axially rotatable, a second engagement portion is formed at the second member, the second engagement portion slidably engages a spline formed on the shaft member, and the spline extends in the axial direction. 4. The assembling apparatus of claim 3 , wherein: the first member is axially rotated by the motor with respect to the base, wherein the clutch is configured to connect or disconnect the first member and the second member. 5. The assembling apparatus of claim 4 , wherein the clutch body is prevented from rotating axially with respect to the second member via engagement with the second member, and the clutch body is movable in the axial direction with respect to the second member, and the clutch further comprises a connection portion provided at the clutch body, the connection portion engaging or disengaging from the first member when the clutch body moves in the axial direction with respect to the second member, and the stopper member engaging the base when the clutch body moves in the axial direction when the connection portion does not simultaneously engage the first member. 6. The assembling apparatus of claim 3 , further comprising a stopper mechanism connected to and capable of releasing the second member and the base. 7. The assembling apparatus of claim 1 , further comprising at least one of: (a) a press-fit head which presses an article when the shaft member moves in the axial direction, (b) an assembling hand having a plurality of fingers which grip an article, and (c) a measurement tool which contacts the article and transmits a detection signal when the shaft member moves in the axial direction, and wherein (a), (b) and/or (c) is movably mounted on the shaft member between a use position and a non-use position. 8. The assembling apparatus of claim 1 , further comprising: a tightening tool mounted on the shaft member, the tightening tool axially rotated by axial rotation of the shaft member so that the tightening tool applies a torque to a fastener member, and an axial movement mechanism capable of moving the tightening tool in the axial direction with respect to the shaft member. 9. An assembling apparatus comprising: a shaft member having a linear assembling function and a rotational assembling function; and a base configured to support the shaft member so that the shaft member is movable in an axial direction and axially rotatable; and a drive unit configured to move the shaft member in the axial direction and axially rotate the shaft member, wherein the drive unit comprises a motor and a power conversion mechanism switchably converting output of the motor between axial movement and axial rotation of the shaft member, wherein the power conversion mechanism comprises: a linear motion mechanism which is connected to the motor, the linear motion mechanism configured to move the shaft member in the axial direction with respect to the base using the output of the motor, a rotation mechanism which axially rotates the shaft member with respect to the base, and a switching mechanism configured to connect and disconnect the motor and the rotation mechanism, wherein the linear motion mechanism comprises a first member in which the shaft member is inserted, the first member is attached to the base such that it is axially rotatable, a first engagement portion is formed on the first member, the first engagement portion slidably engages a male screw formed on the shaft member, the male screw extends in a spiral manner, the rotation mechanism comprises a second member in which the shaft member is inserted, the second member is attached to the base such that it is axially rotatable, a second engagement portion is formed at the second member, the second engagement portion slidably engages a spline formed on the shaft member, and the spline extends in the axial direction, wherein the power conversion mechanism includes a cylindrically shaped clutch body so that the shaft member passes through a center of the clutch body, a stopper member formed on an outer periphery of the cylindrically shaped clutch body, the clutch body being movable in the axial direction of the shaft member between a first axial position and a second axial position, wherein, upon the clutch body being disposed in the first axial position, the clutch body is engaged with the second member which is disposed between the clutch body and the shaft member and disengaged from the first member, and the stopper member formed on the outer periphery of the clutch body engages with the base, and the shaft member is configured to move in the axial direction, and wherein, upon the clutch body being disposed in the second axial position, the stopper member of the clutch is separated from the base, and the clutch body engages with both of the first member and the second member that are disposed between the clutch body and the shaft member, and the shaft member is configured to rotate axially.