DE2551032C3 - Axial thrust bearing with tiltable sliding shoes - Google Patents

Description

The invention relates to an axial thrust bearing, in particular for ship propulsion systems, with at least between arranged on a flat surface of a shaft collar and an associated support surface of the bearing housing, tiltable sliding shoes, which are guided in a housing groove, against being taken along by the Shaft collar held, directly supported against each other in the circumferential direction of the bearing and by a Assembly opening of the housing are to be installed and removed radially through.

In a known thrust bearing of this type (GB-PS 69 003), the sliding blocks are individually installed and removed radially through the assembly opening, must therefore be brought individually to the assembly opening. This is done when expanding the Slide shoes by turning the shaft, the collar of which is carried along after removing the first slide shoe

must be provided for the remaining sliding blocks.

The invention is based on the task of simplifying the installation and removal of the sliding blocks without the To impair the tilting mobility of the sliding blocks in the installed state.

This problem is solved within the meaning of the invention in that the sliding shoes are closed by means of intermediate links an articulated chain, which is open when it is expanded, connected to one another and as links in this chain are to be threaded in and out one after the other through the assembly opening and that the intermediate links in the Installed condition of the sliding shoes show play compared to the sliding shoes.

The intermediate links thus connect the sliding blocks to form an initially finite chain which is to be threaded through the assembly opening into the housing groove of the axial thrust bearing and to be threaded out of it. Both take place when the shaft is at a standstill, so that it is no longer necessary to provide the shaft collar with a driver in order to be able to remove the sliding blocks. In the installed state, the finite sliding shoe chain is closed with the help of a bridge, with the intermediate links only having to meet the condition of allowing the sliding shoes to move freely under load and thus not absorb or transmit any force from this natural mobility.

Such intermediate links that meet these conditions can be designed in various ways.

You can, for example, connecting links made of elastic or flexible material, such as. B. cords, Coupling or the like, which sag slack when the sliding blocks are installed and thus none Transferring forces. These intermediate links are only to be trained in terms of strength so that they Threading and pulling out the entire sliding shoe chain can take over occurring forces.

It is zwa ^r known, sliding shoes via elastic members together to connect (DE-PS 3 12 489 and GB-PS 1 25 509), besides, is not thought of the sliding blocks by means of the resilient members so as to open in the expansion state of the link chain with each other to connect that the installation would be possible through a mounting opening.

In practice it has proven to be useful to design the individual intermediate link as a chain link, It is advisable to use the chain links with elongated holes or bores of larger diameter to be provided through which the pegs attached to the sliding blocks grip with sufficient play. The reverse Design is of course possible. With the help of these elongated holes or holes of larger diameter Immediately there is a game between the sliding blocks in the installed state and the Intermediate links, whereby the tilting mobility of the sliding blocks is preserved.

It is advantageous if the sliding shoes are set back in steps in the area of the joints Have contact surfaces for the chain links. These contact surfaces are on the support surface of the Bearing housing facing side of the sliding shoes arranged so that the running surface of the sliding shoes is retained over the entire surface.

In the context of further embodiments of the invention it is provided that the sliding shoes with a are preferably provided with a spherical collar, with which they lie against one another in the installed state. It also proves it is useful if the beginning and the

End of the articulated chain forming sliding blocks in the installed state in the area of the assembly opening of the Bearing housing are articulated with a bridge.

In the drawing, the invention is shown schematically and by way of example. It shows

F i g. 1 shows a cross section through a thrust bearing during the installation of the sliding shoe chain,

F i g. 2 shows a cross section according to FIG. 1 with the sliding shoes located in the operating control,

F i g. 3 and 4 plan views of two articulated sliding shoes in the assembly and Operating position and

F i g. 5 shows a longitudinal section through a sliding shoe.

1 and 2, a cross section through a thrust bearing is shown, in which the designated 1 Shaft, in particular a ship pressure wave, has a collar 2, which is used to transmit the axial forces is determined. Located on at least one side of the flat surface of this collar 2, if necessary on both sides In the installed state (cf. F i g. 2) form an endless chain and have the task of reducing the axial pressure of the collar 2 on the associated Transfer support surface of the bearing housing 3, the sliding blocks 4 against being entrained by the Shaft collar are held.

In the embodiment according to FIGS. 1 and 2, the sliding blocks 4 are articulated to one another via intermediate links (Chain links) 5 connected. All sliding shoes 4 thus form together with the intermediate links initially an open articulated chain, which through a mounting opening 13 of the bearing housing 3 in their Operating position is brought. For this purpose, the sliding shoe that forms the beginning of the articulated chain is on 4 in the embodiment example, a tension member 7, for example a rope, is connected, which around the shaft 1 is led around and with the help of which the entire link chain is inserted into the guide groove of the bearing housing 3 can move in. As soon as this process is finished, the first and last shoe are located on the Articulated chain in the area of the assembly opening 13, where it is supported by a bridge 8, see FIG. 2, articulated are connected to one another and now form a closed sliding shoe chain 4, 5, 6. Securing the Slide shoes 4 against being entrained by the Welienbund 2 takes place by a stop 9, which in the embodiment consists of a web 11 which is attached to a flange 10 is arranged and on the circumference of the sliding shoes 4 located in the region of the assembly opening 13 has a fixing effect. The assembly opening 13 is closed with a cover 12.

For larger bearings it is recommended to use the chain Halve in length and one half clockwise, the other half counter to it to introduce. As with the one-piece chain, the connection and fixation takes place in the area of the assembly opening. To dismantle the chain halves only the bridge 8 and the stop 9 need to be removed will. Assembly and disassembly with the upper part of the bearing lifted is of course also possible.

The intermediate links 5, which connect the sliding blocks 4 to one another in an articulated manner, must be designed in this way be that they do not hinder the tilting mobility of the sliding blocks 4 in the operating state. For this reason have the intermediate links 5 according to the embodiment of FIG. 3 to 5 in the area of each pin 6 Elongated hole 14. During the assembly and disassembly of the sliding blocks 4, these can be different according to FIG. 3 away from each other according to the length of the elongated holes 14, so that the link chain is easy in the Can thread the guide groove of the bearing housing 3. In the operating state, the sliding blocks 4 are located, as shown in FIG. 4th indicates to each other. The elongated holes 14 are therefore dimensioned so that the sliding blocks 4 are not in this position are hindered by the intermediate links 5 in their tilting mobility.

As FIGS. 3 to 5 also show, the Slide shoes 4 have a preferably spherical collar 15, in the area of which they lie against one another. In areas of the hinge points, the sliding shoes 4 are recessed and form a recessed contact surface 16, so that the articulated arrangement of the intermediate links 5 the support of the sliding shoes on the support surface of the Bearing housing 3 can not interfere.

For this purpose 2 sheets of drawings

Claims (6)

Patent claims: 1. Axial thrust bearings, especially for ship propulsion systems, with at least between a flat surface of a shaft collar and an associated support surface the bearing housing arranged, tiltable sliding shoes, which are guided in a housing groove, held against entrainment by the shaft collar, directly against each other in the circumferential direction of the bearing supported and installed and removed radially through an assembly opening in the housing are, characterized in that the sliding shoes (4) via intermediate links (5) to an im Expanded state of the open link chain articulated to one another and as links of this chain are to be threaded in and out successively through the assembly opening (13) and that the Have intermediate links in the installed state of the sliding shoes with respect to the sliding shoes game. 2. Axial thrust bearing according to claim i, characterized in that the individual intermediate member (5) is designed as a chain link. 3. Axial thrust bearing according to claim 2, characterized in that the chain links (5) with Long holes (14) or large-diameter holes and the sliding shoes (4) with the long holes or bores are provided with pegs (6) penetrating through play. 4. Axial thrust bearing according to claim 2 or 3, characterized in that the sliding shoes (4) on their side facing the support surface of the bearing housing in the area of the hinge points for the Chain links (5) have contact surfaces (16) for the chain links that are set back in steps. 5. Axial thrust bearing according to claim 1 or one of the following, characterized in that the Sliding shoes (4) are provided with a preferably convex annular collar (15) with which they are in the In the installed condition. 6. Axial thrust bearing according to claim 1 or one of the following, characterized in that the The beginning and the end of the link chain forming slide shoes (4) in the installed state in the area of the Mounting opening (13) of the bearing housing (3) connected to one another in an articulated manner by means of a bridge (8) are.