DE3104097A1 - Live ring - Google Patents

Abstract

To accept axial and radial loads use is made of at least two rows of rolling elements which roll on tracks of at least one inner race and at least one outer race. To check the tracks and rolling elements in the installed state, at least one row of rolling elements is covered by a removable guide ring accessible from outside or inside, and at least one inner or outer race which can be at least partially removed in the unloaded state or a race part is provided. Live rings of this kind are used in heavy lifting, conveying and transshipping equipment such as bucket wheel excavators, cranes used in transshipment and offshore, in oil buoys and towers for casting ladles, to connect the rotatable upper part to the fixed lower part.

Description

The invention relates to large roller bearings consisting of at least

a number of axial loads and a number of radial and / or Axial loads absorbing, on running surfaces at least one inner and at least of an outer ring rolling elements.

Large roller bearings of this type can be used as three-row roller bearings or double-row Roll ball bearings be formed. Two rows of rollers are used to accommodate Axial loads in both directions and a row of rollers takes up radial loads, or it absorbs the row of rollers axial loads in one direction, while the row of balls Axial loads in the opposite direction and radial loads. In both Cases one of the bearing rings is divided, while the corresponding other bearing ring can be undivided. Such large roller bearings are known; they will be in serious Lifting, conveying and handling equipment for connecting the rotatable upper part with the fixed lower part used.

In devices such as bucket-wheel excavators, crows in handling and off-sbore operations, in oil buoys, ladle pouring towers and other applications often work via the In addition to normal operating loads, considerable additional forces are exerted on the slewing bearing a. These forces can shorten the service life and damage the raceway rolling elements to breakage or even the bearing rings. The reason for such additional forces Inadequate flatness, load concentrations in stiff points, deflections in certain areas of the lower and / or upper connection structures or unusual, operational shocks, for example a hard latching of a ladle Ladle pouring towers, a sudden submergence of a supply boat under one Lifting load in offshore operation.

The classification societies require cranes in offshore operation a routine check of the swivel bearings at certain time intervals, which make a complex removal and installation of the slewing bearings necessary.

This is because it is not just the fastening screws that have to be used for these checks Checked for sufficient preload and thus resistance to breakage, but also the rolling elements, the raceways and the spacers of the rolling elements with regard to damage, Abrasion and cracks as a result of material fatigue or the use of force are controlled. In the case of the known large roller bearings, this is not possible without complete dismantling of the bearing possible, resulting in long downtimes and high dismantling and installation costs develop.

Ongoing monitoring and replacement of damaged ones Rolling bodies or spacers are therefore not present in these known large roller bearings possible.

The invention is therefore based on the object of a large roller bearing to create an ongoing review of the rolling elements and their spacers and guide elements and / or, a replacement of damaged or broken rolling elements, Spacers or cages are allowed without dismantling the bearing.

This problem is solved with a large roller bearing of the type mentioned at the beginning Art through at least one accessible from the outside or the inside, through one that can be dismantled Fübrungsring covered rolling element row and / or at least one, in the relieved State at least partially removable inner and / or outer ring or a ring part. In comparison to the known large roller bearings, this is the case with the large roller bearing according to the invention It is particularly advantageous that after one of the guide rings has been dismantled a row of rolling elements also under load from the side is exposed and thus investigate leaves. Damaged or broken rolling elements, spacers or easily identify cages and damaged raceways.

At the same time, the removable guide ring allows it. one in that The damaged seal in the affected area can easily be replaced. In the end can be bent in the adjacent area in the raceway of the rolling element row Stressed areas of the bearing rings attach strain gauges to allow ongoing measurements to be carried out and to determine excessive local pressure or load concentrations.

If the device in which the slewing bearing is used is balanced, that a pure axial load acts on the slewing bearing is the opposite of that acting axial load bearing ring demountable to the with this bearing ring to be able to examine cooperating rolling element series. Also leave in this area attach strain gauges.

The large roller bearing advantageously consists of at least one in cross-section angular inner and / or outer ring with at least one over a row of rolling elements axial loads absorbing raceway and a row of rolling elements covering guide ring. The raceway of the angular inner and / or outer ring consists of the bearing surface of the bearing ring on the connecting structure; to this The guide ring is screwed onto the supporting surface. Since, therefore, the row of rolling elements is not is covered by the bearing ring, both can be removed after removing the guide ring examine effortlessly. Both the inner ring and the outer ring can also be used angular with opposing raceways in the axial direction and one each above and below one of the angle rings arranged rolling element row and one a the angle rings overlapping removable inner or. Outer ring part formed be. In this case, a row of rolling elements absorbs the main axial load while the other row of rolling elements a possibly occurring, for example from tilting moments absorbs resulting and opposing axial load.

In the case of a pure axial load acting in one direction, there is a row of rolling elements relieved so that the corresponding inner or outer ring part for the purpose of testing can be dismantled. Such a large roller bearing can, for example, have an axial load A row of supporting rollers as well as a row of balls which absorb radial and axial loads exhibit.

In this case, the entire slewing bearing is advantageously made from an angular outer ring with a carrier roller raceway and a ball raceway, an angular inner ring with a corresponding support roller raceway, a Inner ring part with a ball raceway and one detachably attached to the outer ring, the guide ring covering the conveyor roller row. The outer ring is therefore in one piece and has two opposing rolling element raceways, during the Inner ring in two parts, each with a roller track and a ball track is trained.

Conversely, however, the outer ring and the inner ring can also be in two parts be designed in one piece.

The inner ring part with the ball raceway can be when a Dismantle the pure axial load so that the balls and the ball raceways are examined while only the guide ring is used to examine the row of idlers must be removed.

In another embodiment of the invention, the large roller bearing one load bearing and one axial load Holding roller row on, as well as a row of radial rollers that absorb radial loads. In this case it exists Large roller bearing made of an angular inner ring with a carrier roller raceway, a this opposite holding roller raceway and one arranged therebetween Radial roller raceway, an angular outer ring with a carrier roller and a Radial roller raceway, an outer ring part with a holding roller raceway, an am Inner ring detachably attached, the support rollers covering guide ring and a further, the holding rollers and the radial rollers covering, between the outer ring and the guide ring removably attached to the outer ring part. In this version can be as in the embodiment described above, the support roller row after Examine removal of the appropriate guide ring under load while the holding and radial roller row after loosening the outer ring part and removing it the corresponding guide ring can be examined.

The removal of the guide rings is made easier if they are made up of segments exist. In addition, the guide rings can either be fastened with the fastening screws or be fastened with separate screws.

The invention is illustrated below with reference to two in the drawing Embodiments of the explained in more detail. In the drawing: Fig. 1 shows a Section through a large roller bearing and FIG. 2 a section through another large roller bearing.

The large roller bearing according to FIG. 1 consists of an angular outer ring 1 with a support roller raceway 2, a radial roller raceway 3 and one with the Outer ring 1 releasably connected flat-ring disk-shaped outer ring part 4 with a Holding roller track 5.

Between the outer ring 1 and the outer ring part 4 is made of segments existing guide ring 6 arranged. The outer ring 1 with its outer ring part 4 and the guide ring 6 is by means of fastening screws regularly arranged on the circumference 7 fixed with nuts on a connecting structure 8.

An angular inner ring 9 engages with its a support roller raceway 10 and a holding roller raceway 11 having part in the space between the outer ring 1 and the outer ring part 4. The inner ring 9 has internal teeth 13 provided, by means of which he is opposite the outer ring 1 with the connecting structure 8 can be set in rotation in a manner not shown. In the case of an indoor or external toothing on the lower bearing ring, the toothing would have to be on the other hand Outer ring 1 are located.

The lower surface of the inner ring 9 is preferably made up of segments existing guide ring 14 connected by fastening screws 7, which with a Seal 34 cooperates and one on the support roller raceway 2 of the outer ring 1 and the carrier roller raceway 10 of the inner ring 9 covers the carrier roller row 15 running off. The guide ring 14 can, however, also by means of special, not shown in detail Screws to be attached to the inner ring 9.

Since the carrier roller raceway 10 corresponds to the lower surface of the inner ring 9, is the row of idlers 15 after removal of the guide ring 14 completely free, so that yourself. the support rollers and their guide elements, not shown and have the relevant careers examined without difficulty.

Furthermore, strain gauges 32 are in the area of the greatest axial load-related Bend of the inner ring 9 arranged so that constant monitoring of the bearing load is possible.

A row of retaining rings 16 is located between the retaining roller raceway 11 of the inner ring 9 and the Hal-tcroll Erlreuiba: i'i of the outer ring part 4. This Holding roller row @ takes up A @@ alkrärfte in the opposite direction. The ones on the Holding roller series'16 acting axial forces generally result from eccentric Loads or tilting moments on the Ansc? Lu3ko.trultion that is connected to the inner ring 9 18 8 act.

Furthermore, a radial roller pulley 17 acts with the radial roller raceway 3 of the outer ring 1 and the Radialorllenlaufbahn 12 the inner ring 9 together Guide ring 6 is used to guide both the holding roller row 16 and the radial roller row 17. On the outer ring part 4, there are also strain gauges 33 in the area of the greatest bend arranged so that constant monitoring of the load is also possible here.

For checking the holding roller row 16, the radial roller row 17 and their raceways 5, 11 or 3, 12, it is sufficient to axially position the connecting structure 18 to load without tilting moments occurring. Then the fastening screws 7 so that the outer ring part 4 can be lifted and the segments of the guide ring 6 can be removed. The row of holding rollers 16 then lies exactly like the row of radial rollers 17 completely free. Even the career paths can then be examined and damaged Holding or radial rollers are replaced.

In order to enable this also with the support roller row 15, the connection structure must 18 after the fastening screws 7 for the outer ring 1 with the outer ring part 4 have been tightened again after installation of the guide ring 6, loaded off-center will. Now the unloaded support rollers of the support roller row 15 can be adjusted replace the corresponding segments of the guide ring 14 if necessary.

The embodiment according to FIG. 2 has a screw 37 with a Connection structure connected to a slipping when loosening the inner ring part 20 to avoid angled inner ring 19 and an associated one, however removable inner ring part 20. The inner ring 19 has a support roller raceway 21 and the inner ring part 20 has a ball raceway 22. An angular outer ring 23 with a support roller raceway 24 and a ball raceway 25 acts with the inner ring 19 and the inner ring part 20 via a row of supporting rollers 30 that absorb axial loads and a row of balls 31 which absorb axial and radial loads. Inner ring 19 with the inner ring part 20 is provided with regularly provided on the circumference bores 27 provided to the inner ring 19 and the inner ring part 20 with a corresponding To be able to connect connecting construction. The outer ring 23 is correspondingly with regularly arranged on the circumference bores 28 are also provided for a screw connection is provided with a corresponding connection structure are. Furthermore, the outer ring 23 has an external toothing 29.

Since the support roller raceway 24 on the outer ring 23 is in the same plane how the lower surface of the outer ring 23 is, is used as a cover for the row of support rollers 30 to the outside a guide ring 26, optionally consisting of segments the lower surface of the outer ring 23 is screwed on with the aid of screws 36.

The embodiment according to FIG. 2 thus differs from the embodiment according to FIG. 1 in that they have only two rows of rolling elements and an external toothing 29 has instead of an internal toothing 13. When examining the row of idlers 30 are the guide ring 26 or individual segments in an analogous manner in the white Support roller row 15 of FIG. 1 removed. After that, individual rollers can be damaged be replaced if the slewing bearing is loaded eccentrically. Then.the Rolling bodies on the side facing away from the load are relieved and can be eased remove. In order to be able to examine the row of balls 31, the slewing bearing must are loaded exactly axially, because then after the ring 19 by screws with Connection structure was attached, the inner ring 20 can be loosened and lifted until the row of balls 31 is exposed. In this case, too, individual balls in the row of balls 31 can be replaced if damaged. L e r s e i t e

Claims (8)

"Large roller bearing" claims: g Large roller bearing consisting of at least one Series of axial loads and a series of radial and / or axial loads, rolling on raceways at least one inner and at least one outer ring Rolling bodies are not indicated by at least one from the outside or internally accessible by a removable guide ring (6,14,26) covered rolling element row (15,16,30) and / or at least one in the relieved state at least partially removable inner or outer ring or a ring part (4,20). Z. large roller bearing according to claim 1, g e k e n n z e i c h -n e t d u r c h at least one inner and / or outer ring with an angular cross-section (9,1,19,23) with at least one of a row of rolling elements (15,30) absorbing axial loads Raceway (10,2,21,24) and a guide ring covering the row of rolling elements (15,30) (14.26). 3, large roller bearing according to claim 2, g e k e n n z e i c h -n e t d u r c h an angular inner ring (3, 19) and an angular Outer ring (1,23) with axially opposing raceways (10,11; 24,25) one above and one below one of the angle rings (9.23) Rolling body row (15, 16; 30,31) and one of the angle rings (1,19) overlapping removable inner or outer ring part (4,20). 4. Large roller bearing according to claim 3, g e k e n n z e i c h -n e t d u r c h a row of supporting rollers (30) which absorbs axial loads and a radial and axial loads receiving row of balls (31). 5. Large rolling layers / according to claim 4, g e k e n n z e i c h -n e t d u r c h an angular outer ring (23) with a support roller raceway (24) and a ball raceway (25), an angular inner ring (19) with a corresponding one Support roller raceway (21), an inner ring part (20) with a ball raceway (22) and a guide ring which is detachably fastened in the outer ring (23) and covers the row of supporting rollers (30) (26). 6. Large roller bearing according to claim 3, g e k e n n z e i c h -n e t d u r c h a row of supporting and holding rollers (15, 16) each absorbing axial loads, as well as one Radial roller row absorbing radial loads (17). 7. slewing rings / according to claim 6, g e k e n n z e i c h -ne e t you d u u r c h an angular inner ring (9) with a carrier roller raceway (10), one of these opposite holding roller tracks (11) and one arranged therebetween Radial roller raceway (12), an angular outer ring (1) with a carrier roller and a radial roller raceway (2,3), an outer ring part (4) with a holding roller raceway (5), one on the inner ring (9) releasably attached, the support rollers (15) covering guide ring (14) and another, the holding rollers (16) as well the radial rollers (17) covering, between the outer ring (1) and the outer ring part (4) detachably attached guide ring (6). 8. Large roller bearing according to one or more of claims 1 to 7, g e k e nn n z e i n e t d u r c h a guide ring consisting of segments (6,14,26).