Patent ID: 8157659

Claim:
A telescopic shaft comprising: an inner shaft and a tubular outer shaft that are fitted to each other so as to be relatively movable in an axial direction; at least a pair of axial grooves that are formed in an outer circumference of the inner shaft and in an inner circumference of the outer shaft, respectively, to extend in the axial direction to be opposed to each other; a plurality of rolling elements forming a row in the axial direction that are interposed between the corresponding pair of axial grooves in the inner shaft and the outer shaft and capable of transmitting torque between the inner shaft and the outer shaft; and a retaining member capable of moving together with the plurality of rolling elements in the axial direction while retaining the rolling elements; the retaining member including a facing portion facing an end surface of the inner shaft, and the facing portion of the retaining member coming into contact with the end surface of the inner shaft, as the telescopic shaft telescopes, to thereby limit movement of the plurality of rolling elements in the axial direction; a convex projecting in the axial direction that is provided in the end surface of the inner shaft, the facing portion of the retaining member coming in contact with a summit portion of the convex in the end surface of the inner shaft and thereby limiting the movement of the plurality of rolling elements in the axial direction; and a push nut locked to the convex, the push nut coming in contact with a rolling element located at an end of the row, as the telescopic shaft extends, thereby limiting the movement of the retaining member in the axial direction, by which the movement of the plurality of rolling elements in the axial direction is limited; and the push nut including an annular plate whose inner circumference has a plurality of radial cuttings, the annular plate including a radially inner portion and a radially outer portion, the radially inner portion being locked on an outer periphery of the convex, the radially inner portion being deformed by bending so as to protrude in a direction in which the rolling elements drop off from the axial groove of the inner shaft, the radially outer portion being in contact with the end surface of the inner shaft, a part of the radially outer portion facing the axial groove of the inner shaft, and the part of the radially outer portion being configured to prevent the rolling elements from dropping off from the axial groove of the inner shaft.