A cover assembly for a circular bearing port in the yoke of a universal joint comprises a plurality of separate cover segments configured and dimensioned for insertion into the port in positions coacting with each other to close the port. Each of the cover segments has an outer edge seated in a locking groove circumscribing an interior surface of the port. The cover segments are interconnected to form an integral circular cover, and the cover is rotationally fixed with respect to the yoke.

A universal joint includes a bearing including a bearing cup fitted in a bearing hole of a yoke and rolling elements arranged between the bearing cup and a shaft portion of a cross shaft. A method for manufacturing the universal joint includes: simulating a shrunken state in which a sample bearing cup selected from bearing cups in a same lot is fitted in the bearing hole such that only an outside diameter is restrained, by press-fitting the sample bearing cup into a reference hole of a reference jig; measuring a diameter of an inscribed circle inscribed to the rolling elements in the shrunken state; setting an outside diameter of the shaft portion to a required outside diameter according to the diameter of the inscribed circle; and inserting the bearing cup with the rolling elements between the shaft portion having the required outside diameter and the bearing hole.

Provided are a method for measuring a bearing cup gap in a universal joint that enables bearing cups to be easily and accurately assembled to a yoke member, and a manufacturing method for a universal joint, to which the measuring method is applied. The measuring method is used for a universal joint including a yoke member, bearing cups, and a joint spider member to measure gaps between bottom surfaces of the bearing cups and the joint spider member. The method includes acquiring first relationship data, acquiring second relationship data, acquiring a displacement amount of the pair of bearing cups, and calculating a gap between bottom surfaces of the bearing cups and end surfaces of a pair of shaft portions based on the first relationship data, the second relationship data, and the displacement amount.

Disclosed is a cardan shaft sliding assembly suitable for both a gearbox-differential arrangement, which provides the cardan shaft freedom of motion in the axial direction, and for an undercarriage arrangement between two axles. The cardan shaft sliding assembly has multiple mounting diameters of different dimensions positioned on a yoke shaft in order to provide housing and assembly of the protective cover in both the gearbox-differential arrangement and the undercarriage arrangement between two axles. The yoke shaft with the mounting diameters provides the cardan shaft with freedom of motion in the axial direction and is one of the parts forming the sliding assembly.

An elastic junction device for the dynamic connection, in a rolling mill, between the motor side and the head of an adapter or between the adapter and one or more rolling rolls comprises a central body which can be connected to an end of said flange so that it can rotate integrally therewith. The device additionally comprises two skids through a connecting pin so that said block rotates integrally with said flange, said skids being mechanically couplable to said adapter to allow the rotation thereof upon the rotation of said flange and vice versa. The junction device comprises at least a first damper element and at least a second damper element housed in the block and which act on opposite parts of the connecting pin so as to absorb the axial tensions which are transmitted along the adapter as a result of the stresses caused by rolling.

In order to attach cup bearings 18 with good precision in portions between circular holes 15 that are formed in joining-arm sections 10 of yokes 7a, 7b of a cross shaft universal joint 6 and the tip-end sections of a shaft section 17a of a cross shaft 8 regardless of variation in the dimensions of the joining-arm sections 10, the circular holes 15 in the tip-end sections thereof, and the cup bearings 18, and elastic deformation of the joining-arm sections 10 of the yoke 7a during press-fitting work, press-fitting punches 33 are used to pressure fit the cup bearings 18 to a preset reference position inside the circular holes 15, and the value of the pressure that is applied to the press-fitting punches at that instant is set as a reference pressure, and at the instant when the pressure applied to the press-fitting punches becomes larger than the reference pressure by a preset specified value, the cup bearings 18 are determined to have reached positions where press-fitting is complete.

A universal joint comprising a first ring cross link configured to be coupled to a driving yoke; a second ring cross link configured to be coupled to a driven yoke; an internal coupling yoke operably coupling yoke coupling the first ring cross link and the second ring cross link together, wherein at least one of the internal coupling yoke, the first cross link, and the second cross link include a wobble joint where the internal coupling yoke is coupled to the first cross link and/or the second cross link.