DE1122781B - Cardan joint with needle bearing - Google Patents

Description

Cardan joint with needle bearing The invention relates to a cardan joint with needle bearing of the pivot pin. Known universal joints of this type have the disadvantage that with heavy load on the joint due to the elastic resilience of the Material of the fork legs and possibly also of the joint cross, the bearing needles be subjected to a strong one-sided edge pressure, which is mainly at the outer edge. Relatively heavy wear on the bearing needles and a reduction in the life of the universal joint is the result.

It has already been proposed to reduce the edge pressures at the ends of the To avoid bearing needles in that the bearing bushes are particularly rotatable are or have a spherical shape and rest in corresponding spherical bearing shells. This procedure is quite cumbersome and especially with regard to the required Accuracy is also quite costly. An extraordinarily high cost of manufacturing equipment is needed to achieve the accuracy, which is a prerequisite for a the cardan shaft is running properly.

Needle roller bearings are known in which a bearing surface is curved is so that canting between the races no additional edge pressure cause on the needle bearings. The manufacture of such bearing rings with arched Running surface also requires a very high level of manufacturing equipment to the required accuracy for the relatively small needle roller bearings of the universal joints to achieve.

The subject of the invention is such a design of the cardan joint with needle bearings in the bearing bushes of the joint yokes, which have the disadvantages described avoids without the need for additional expenditure causing costs is. According to the invention, the bearing journals or the bushings are in the joint yokes, Finally, both parts are designed so that the bearing surfaces of the pin close not parallel to those of the bearing bushes in the unloaded state of the cardan shaft are. This results in a gap that becomes larger from the center of the joint to the outside between pin and socket. As a result, the bearing needles wear out when they are underloaded PTO shaft not along its entire length. Only when the PTO shaft is fully loaded the bearing needles come due to the elastic deformation of the fork legs caused offset of the axes on two opposite bearing bushes full to wear.

According to the invention, either the bearing journals are slightly conical formed with the diameter increasing towards the center of the joint, or the bearing bushes are used Manufactured with an inner cone, the diameter of the bushing towards the center of the joint decreases. Finally, both measures can also be combined. The measure for that Change in diameter or for the greatest width of the gap is according to the invention 1 to 5% of the diameter of the pivot pin.

The inventive design of a universal joint brings without additional Effort a much longer service life of the bearing needles, since the same in the bear the full load of the joint over its entire length and stress evenly will. That the needles are only on one joint when the joint is unloaded or less loaded Wear at the end can be accepted because of the specific stress involved of the material still remains within tolerable limits.

The invention is shown schematically in the drawing.

Fig. 1 shows in section a bearing bush with cross pin and needle bearing, wherein the pin is conical with an increasing diameter towards the center of the joint is; Fig. 2 shows an embodiment where the pivot pin is cylindrical, but the bearing bush is designed with an inner cone, the inner diameter towards the center of the joint too decreases; Fig. 3 shows an embodiment in which the pin is conical with from the center of the joint outwards decreasing diameter and the liner conical on the inside with a diameter that increases from the center of the joint to the outside is; Fig. 4 shows the elastic deformation of the fork legs of a conventional joint fork, where the dashed position is greatly exaggerated for the sake of clarity Way represents the deformed state; Fig. 5 schematically shows the state at fully loaded joint, also in the interest of clarity of illustration the deformations, the axial misalignment at the joint forks and the play in the joints are drawn significantly enlarged.

1 to 3, the dimension for the conical configuration of the pin 1 or the sleeve 2 is shown much larger than what the invention provides. As a result, the gap between the bearing needles 3 and their contact surfaces is much larger than what the practical embodiment of the invention provides. If a fork 4 is elastically deformed with its legs according to FIG. 4 as a result of the torsional stress on the articulated shaft, the result is the diagram shown in FIG. 5 in a greatly coarsened form. It can be clearly seen that the bearing needles bearing only on one side when the joint is unloaded or less loaded are in contact with their entire length when fully loaded. The prerequisite is, of course, that the dimension for the conical design of the pin or the bushes is correctly selected with regard to the stress on the joint fork or with regard to its possible elastic deformation. The measure given above for the size of the difference in diameter has proven to be the optimum. The service life of the bearing needles could be increased considerably without any disadvantages.

Claims (4)

CLAIMS: 1. Universal joint with cross pins which are mounted in the bearing bushes of the joint yokes having cylindrical pins, and in which the bearing surfaces of the pin and the bearing bushes in longitudinal section are straight, characterized in that the bearing surfaces of the pin (1) in the area of Needles (3) to which the bearing bushes (2) to the free end of the pin to have a slightly larger distance from each other than to the pin neck, so that when idling the needles only wear on the pin neck and at full load due to the deformation of the joint parts over their entire length . 2. Cardan joint according to claim 1, characterized by a slightly conical design of the bearing pin (1) of the joint cross with an increasing diameter towards the center of the joint. 3. Cardan joint according to claim 1, characterized in that the inner diameter of the bearing bushes (2) is designed to decrease towards the center of the joint. 4. Cardan joint according to claim 1, characterized in that the bearing journals (1) of the joint cross are conical with an increasing diameter towards the center of the joint and the bearing bushes (2) of the joint forks are conical with a diameter decreasing towards the center of the joint. Documents considered: German Patent No. 759 573; Austrian Patent No. 182 018; French Patent Nos. 768 354, 897 201, 1 102 201; USA. Patent Nos. 1,943,814, 1,966 486, 2,270,281, 2,300,658, 2,328,139, 2,353,299.