ITTO960028A1 - SHELL ARTICULATION - Google Patents

Abstract

The cap articulation is composed of an upper and lower cap ring, a sliding jointed support ring on it and a pin axially connecting the cap rings, delimiting the axial movement of the support ring. To avoid damage to the pin in the event of impulsive horizontal loads, the support ring (3) with the axial play (12) and the upper cap ring (1) are arranged in front of the lower cap ring (2). with radial play (11).

Description

DESCRIPTION:

of the patent for Industrial Invention

The present invention refers to a cap joint according to the superior concept of the main claim.

Such an articulation is already known from DE 2261 474. A bearing ring is already equipped with cap sliding surfaces and axially loaded. On these sliding surfaces there is respectively supported a cap ring each with a corresponding shape. A pivot leading through the center, axially attaches the pieces of the joint together, with an elastic package being obtained an axial preload. Limited pivoting movement is made possible by a radial clearance between the support ring and the pin.

By means of the joint on the two sides of the support ring, in the case of horizontal loads, radial deformations of the pin must be calculated. In addition, the cup sliding surfaces must be machined on both sides precisely with regard to their position. This leads to a higher production effort.

It is the task of the present invention to improve a cap joint of the type mentioned at the beginning so that no damage to the pin occurs in the event of impulsive horizontal loads. The task is solved by the characterizing part of the main claim.

At first, in the case of the solution according to the present invention, only the lower sliding surfaces between the support ring and the lower cap ring are loaded during operation. The upper sliding surfaces simply have a safety function in case of extreme movements, such as horizontal impacts etc. Thanks to the axial play, during normal operation they are at least not loaded or arranged at an axial distance from each other. A radial clearance between the support ring and the lower cup ring along the pin permits a reciprocal radial movement resp. horizontal. This, according to the present invention, is used to keep radial loads away from the pin in the event of horizontal impacts and to transform these extensively through the cap geometry into traction loads in the pin. Furthermore, the solution according to the present invention has the advantage that only the lower sliding surfaces need to be machined with precision.

These and other characteristics are clarified below with the examples represented in the drawing. They show:

Figure 1 longitudinal section of an articulated joint with radial and axial play in the area of the upper cap ring and

Figure 2 the longitudinal section of a cap joint with radial and axial play in the area of the lower cap ring. The cap joint shown in Fig. 1 is composed of two cap rings 1, 2 and a support ring 3 arranged in the middle. This support ring 3 and the lower cap ring 2 support a load introduced by the support disc 4 and are therefore jointed together by means of larger sliding surfaces and a sliding system 6. The upper cap ring 1 is on the other hand, equipped with only small sliding surfaces, it is used only in the presence of significant transverse loads and serves as axial safety.

A pin 7 fixed on the lower cup ring 2 holds all the components axially together, an axial disk 8 with a sliding support 9., serves as a lifting side for the upper cup ring 1 and is fixed with a nut 10 This cap ring 1 is arranged with radial clearance 11 and axial clearance 12 on the pin 7.

If, during operation, horizontal load shocks or radial, the support ring 3 is raised by the lower cap ring 2 and moved radially, to the extent allowed by the cap shape. In this position, the upper cap ring 1, after exceeding the axial clearance 12, forms a fixed axial limit. By means of the cap sliding surfaces it adapts to the radial displacement of the support ring. Due to the foreseen radial clearance 11, there is no radial contact with the pin 7 which for this reason must not absorb any radial load. The danger of a radial deformation of the pin 7 is therefore excluded.

The execution according to Figure 2 differs from that in Figure 1, by the arrangement of the axial clearance 12 and radial 11. The pin 7 hangs freely through and with the shank 13 of the same in front of the hole 14 of the cap ring 2, forms a radial clearance 11. Furthermore, the head 15 of the pin 7 and the lower cap ring 2 are provided with cap surfaces 16 so that with an axial lifting of the support ring 3, a possibility is given to alignment of the pin 7, when the axial clearance 12 is exceeded.

Claims (1)

CLAIMS 1, Cap joint consisting of an upper and lower cap ring, a sliding support ring with a joint on this and a pin axially connecting the cap rings, delimiting the axial displacement of the support ring, characterized by the fact that the support ring (3) with axial clearance (12) and upper cup ring (1) are arranged opposite the lower cup ring (2) with radial clearance (11). 2. Articulation according to claim 1 characterized in that the radial clearance (11) is greater than the maximum relative radial movement between the upper (1) and lower (2) cup ring. 3. Cap joint according to claim 1 or 2 characterized by the fact that the radial movement is limited exclusively by the axial movement of the upper (1) and lower (2) cap ring (2). Cap joint according to one of the preceding claims, characterized in that the radial clearance (.11) is provided between the pin (7) and the upper cap ring (1). 5. Cap joint according to claim 4 characterized by the fact that the upper cap ring (1) is supported in a radially movable way along front sliding surfaces. Articulated joint according to claim 1, 2 or 3 characterized in that the radial clearance (11) is provided between the pin (7) and the lower cup ring (2). 7. Cap joint according to claim 6 characterized in that the pin (7) is supported by cap surfaces (16) in a rotatable manner in the lower cap ring (2).