Cross shaft joint and steering device for vehicle using the same

The invention claimed is: 1. A cross shaft joint comprising: a cross shaft including four shaft parts which are arranged in a shape of a cross; a plurality of needle rollers rolling on outer peripheral faces of the respective shaft parts; bearing cups each having a cylindrical part, and a bottom part for closing an opening at one end side of the cylindrical part, the bearing cups externally fitted to the shaft parts via the needle rollers; and yokes provided with bearing holes into which the bearing cups are inserted, wherein the needle rollers are maintained in a tight fit state between the shaft parts and the bearing cups, wherein: each of the cylindrical parts is provided with a projected part which is projected radially inward of the cylindrical part in a curved shape, at an inner peripheral side thereof, and an apex of the projected part is in contact with the needle roller within a range in an axial direction of the needle roller, the range containing an axial center of the needle roller in the axial direction, and an axial center of the cylindrical part has a largest wall thickness. 2. The cross shaft joint according to claim 1 , wherein a height h of the projected part within a range in the axial direction, the range a center of which is the apex of the projected part, and which corresponds to 60 to 70% of a length of the needle roller, is set to be 0<h≦0.005 mm. 3. The cross shaft joint according to claim 2 , wherein a radial gap s of the needle roller inside the bearing cup is set to be −0.03 mm≦s<0. 4. A steering device for a vehicle, the steering device comprising: a column shaft to which a steering wheel is mounted; a steering shaft for steering wheels for steering by way of a steering mechanism; and a cross shaft joint which is interposed between the column shaft and the steering shaft for tiltably coupling the column shaft and the steering shaft to each other, wherein the cross shaft joint is the cross shaft joint according to claim 3 . 5. A steering device for a vehicle, the steering device comprising: a column shaft to which a steering wheel is mounted; a steering shaft for steering wheels for steering by way of a steering mechanism; and a cross shaft joint which is interposed between the column shaft and the steering shaft for tiltably coupling the column shaft and the steering shaft to each other, wherein the cross shaft joint is the cross shaft joint according to claim 2 . 6. The cross shaft joint according to claim 1 , wherein a radial gap s of the needle roller inside the bearing cup is set to be −0.03 mm≦s<0. 7. A steering device for a vehicle, the steering device comprising: a column shaft to which a steering wheel is mounted; a steering shaft for steering wheels for steering by way of a steering mechanism; and a cross shaft joint which is interposed between the column shaft and the steering shaft for tiltably coupling the column shaft and the steering shaft to each other, wherein the cross shaft joint is the cross shaft joint according to claim 6 . 8. A steering device for a vehicle, the steering device comprising: a column shaft to which a steering wheel is mounted; a steering shaft for steering wheels for steering by way of a steering mechanism; and a cross shaft joint which is interposed between the column shaft and the steering shaft for tiltably coupling the column shaft and the steering shaft to each other, wherein the cross shaft joint is the cross shaft joint according to claim 1 . 9. The cross shaft joint according to claim 1 , wherein an outer peripheral surface of the bearing cup is planar. 10. The cross shaft joint according to claim 1 , wherein the apex of the projected part is in surface contact with the needle roller within a range in an axial direction of the needle roller.