DE3104097C2 - - Google Patents

Description

The invention relates to a slewing bearing from at least a series of axial loads and a series of Ra absorbing dial and / or axial loads, on raceways min at least one inner and at least one outer ring lender rolling element with egg covered by guide rings relieved under a pure axial load and then at least partially removable inner or outer ring.

Slewing bearings of this type can be used as three-row roller bearings (GB-PS 12 54 409), as a combined double-row roller Ku gel bearing (GB-PS 10 88 676) or as double-row tapered rollers camp (GB-PS 14 53 327) be formed. Here serve in in the first case, two rows of rollers for absorbing axial loads in both directions and a row of roles Radialla takes on, or in the second case it takes the row of roles Axial loads in one direction while the row of balls Axial loads in the opposite direction and radial loads. In the third case, take the two roles row axial loads in one direction and additionally Radial loads. In all cases, one of the bearing rings divided while the corresponding other bearing ring shared or can be undivided. The divided or undivided Bearing rings are screwed together, and the large roller bearings are handled as one structural unit.

Such large roller bearings are used in heavy lifting, conveying and handling equipment for connecting the rotatable upper part used with the fixed lower part.

In devices such as bucket wheel excavators, cranes in the envelope - so such as offshore operation, with oil buoys, ladle casters and other applications are often more effective than normal ones Operating loads also add significant additional forces to that Slewing bearings. These forces can shorten the Le service life and damage to the raceways and rolling elements  to break or even result in the bearing rings. A lack of a plan can be the cause of such additional staff unit, load concentrations at stiff points, deflections in certain areas of the lower and / or upper range final constructions or exceptional operational requirements Impacts, for example a hard engagement of a cast iron pan at ladle pouring towers, a sudden dive of a ver care boat under a lifting load in off-shore operation, be.

The classification societies call for cranes in the Off-shore operation is already a routine check the pivot bearing at certain time intervals, the one elaborate removal and installation of the large roller bearings necessary do. These checks don't just have to the fastening screws on sufficient preload and there tested with break resistance, but also the rolling elements, the raceways and the spacers of the rolling elements Damage, abrasion and cracks due to materials fatigue or violence are checked. This is in the well-known large roller bearings from the aforementioned green which is not possible without a complete expansion of the warehouse Lich, whereby long downtimes as well as high off and on construction costs arise.

Ongoing monitoring and replacement of individual dam digter rolling elements or spacers is known in these Large slewing bearings are not possible because these elements are in one the condition of the large roller bearing is not easily accessible are.

The invention is therefore based on the object, a large to create rolling bearings, which is an ongoing review of the Rolling elements and their spacers and guide elements and an exchange of damaged or broken rolling elements per, spacers or cages allowed without removing the bearings.  

This task is solved in a slewing bearing gangs mentioned in that the axial loads absorb de idler roller row accessible from the outside or inside, at Relief in some areas with a tipping moment removable and the guide ring in the installed state of the large rolling bearing is accessible and removable. Compared to the known large roller bearings, it is in the Invention modern slewing bearings of particular advantage that after the Dismantling one of the guide rings also a row of rolling elements under stress since  Lich exposed and can therefore be examined. It can be then damaged or broken rolling elements, spacers or cages and damaged raceways. At the same time, the removable guide ring allows one damaged seal in the area in question easy to replace. Finally, in the run path of the rolling element row adjacent area in by bending stressed zones of the bearing rings strain gauges solidify to make ongoing measurements and too high determine local pressure or load concentrations.

If the device using the slewing bearing is used so balanced that a pure axial on the slewing bearing load acts is the opposite axial load receiving bearing ring can be dismantled to fit with this La investigate the gerring interacting rolling element row can. Strain measurements can also be carried out in this area attach stripes.

The large roller bearing advantageously consists of at least an inside and / or outside which is angular in cross section ring with at least one Axial over a row of rolling elements load-bearing career and one of these rolling elements row covering guide ring. The career of the angelför The inner and / or outer ring consists of the edition surface of the bearing on the adjacent construction; to this The guide ring is screwed onto the bearing surface. Since therefore the row of rolling elements is not covered by the bearing ring, can both be difficult after removing the guide ring start investigating. It can also both the inner ring as well the outer ring angularly with in the axial direction overlying careers and one above and one below one of the angle rings arranged rolling element row and one  one of the angle rings overlapping removable interior or outer ring part. In this case it takes a rolling element row the main taxi load while the other row of rolling elements any occurring, for example wise resulting from tilting moments and opposite acting axial load.

With a pure axial load acting in one direction relieved a row of rolling elements so that the correspond de Remove the inner and outer ring part for testing leaves. Such a large roller bearing can, for example an axial load carrying idler row and one Have rows of balls that absorb radial and axial loads. In this case, the whole slewing bearing is more advantageous example from an angular outer ring with idlers raceway and a ball raceway, an angular inside ring with a corresponding idler track, a Inner ring part with a ball raceway and one on the outside ring releasably attached, covering the row of idlers Guide ring. The outer ring is thus in one piece and has two opposing rolling element raceways NEN, while the inner ring in two parts with one Carrier roller raceway and a ball raceway is formed. Conversely, the outer ring can also be in two parts and the Inner ring can be formed in one piece.

The inner ring part with the ball track can be set to On act a pure axial load dismantle so that the balls and the ball tracks can be examined while at Examination of the row of idlers only the guide ring ent must be removed.

In another embodiment of the invention, this Slewing bearings each have a load bearing and axial loads  Holding roller row on, as well as a radial load Radial roller row. In this case there is the slewing bearing from an angular inner ring with single idlers career, one of these opposite holding rollers raceway and a radial roller arranged in between raceway, an angular outer ring with a support roller and a radial roller raceway, an outer ring part with a holding roller track, one on the inner ring bar-fastened guide ring covering the idlers and another, the holding rollers and the radial rollers covering, between the outer ring and the outer ring part detachably attached guide ring. With this execution tion can be as in the previously described embodiment the row of idlers after removing the corresponding one Examine the guide ring under load while the Hal Row and radial roller row after loosening the outer ring part and the expansion of the corresponding guide ring can be.

The removal of the guide rings is made easier if they consist of segments. In addition, the guide rings either with the fastening screws or with separate ones Screws are attached.

The invention is described below with reference to two in the drawing illustrated embodiments of the closer explained. In the drawing shows

Fig. 1 shows a section through a slewing bearing and

Fig. 2 shows a section through another large roller bearing.

The large rolling bearing according to Fig. 1 comprises an angular outer ring 1 with a supporting roller track 2, a radial roller track 3 and a detachably connected to the outer ring 1 shallow-ring-shaped outer ring member 4 having a holding roller running web 5.

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

An angular inner ring 9 engages with its supporting roller raceway 10 and a holding roller raceway 11 part in the space between the outer ring 1 and the outer ring part 4 . The inner ring 9 is provided with an internal toothing 13 , by means of which it can be rotated relative to the outer ring 1 with the connecting structure 8 in a manner not shown. In the case of an internal or external toothing on the lower bearing ring, however, the toothing would have to be on the outer ring 1 .

With the lower surface of the inner ring 9 , a preferably consisting of segments guide ring 14 is connected by fastening screws 7 , which cooperates with a seal 34 and one on the idler track 2 of the outer ring 1 and the idler raceway 10 of the inner ring 9 covering idler row 15 covers. However, the guide ring 14 can also be fastened to the inner ring 9 by means of special screws, not shown in detail.

Since the idler track 10 corresponds to the lower surface of the inner ring 9 , the idler row 15 is completely free after removal of the guide ring 14 , so that the idlers and their guide elements, not shown, and the corresponding tracks can be examined without difficulty. Furthermore, strain gauges 32 are arranged in the region of the greatest bending of the inner ring 9 due to axial load, so that constant monitoring of the bearing load is possible.

A holding roller row 16 is located between the holding roller raceway 11 of the inner ring 9 and the holding roller raceway 5 of the outer ring part 4 . This row of holding rollers absorbs axial forces in the opposite direction. The axial forces acting on the holding roller row 16 are generally due to eccentric loads or tilting moments which act on the connecting structure 18 connected to the inner ring 9 .

Furthermore, a radial roller row 17 cooperates with the radial roller raceway 3 of the outer ring 1 and the radial roller raceway 12 of the inner ring 9 . The guide ring 6 serves to guide both the holding roller row 16 and the radial roller row 17th Also on the outer ring part 4 strain gauges 33 are arranged in the region of the largest bend, so that here, too, constant monitoring of the load is possible.

To check the holding roller row 16 , the radial roller row 17 and their raceways 5, 11 and 3, 12 , it suffices to axially load the circuit construction 18 without tilting moments occurring. Then the fastening screws 7 can be loosened so that the outer ring part 4 can be raised and the segments of the guide ring 6 can be removed. The holding roller row 16 is then completely free, just like the radial roller row 17 . The raceways can then also be examined and damaged holding or radial rollers replaced.

In order to make this possible even with the idler roller row 15 , the connecting structure 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 , must be eccentrically loaded. Now the unloaded idlers of the idler row 15 can be replaced if necessary after removing the corresponding segments of the guide ring 14 .

The embodiment of FIG. 2 includes a connected via screws 37 to a terminal structure, in order to avoid slippage upon detachment of the inner ring member 20, angular inner ring 19 and an associated, but demontierba ren inner ring member 20. The inner ring 19 has a supporting roller track 21 and the inner ring part 20 has a ball raceway 22nd An angular outer ring 23 with a support roller raceway 24 and a ball raceway 25 cooperates with the inner ring 19 and the inner ring member 20 via an axial load on the receiving support roller row 30 and an axial and radial load bearing row 31 together. The inner ring 19 with the inner ring part 20 is provided with holes 27 provided regularly on the circumference in order to be able to connect the inner ring 19 and the inner ring part 20 with a corresponding connecting structure. Accordingly, the outer ring 23 is provided with regularly arranged on the circumference bores 28 , which are also provided for a screw connection with a corresponding connection construction. Furthermore, the outer ring 23 has an external toothing 29 .

Since the support roller track 24 lies in the same plane as the lower surface of the outer ring 23 on the outer ring 23, the support roller row is towards a given case screwed 30 to the outside of segments existing guide ring 26 on the lower surface of the outer ring 23 by means of screws 36 as a cover.

The embodiment according to FIG. 2 thus differs from the embodiment according to FIG. 1 in that it has only two rows of rolling bodies and an external toothing 29 instead of an internal toothing 13 . In an examination of the support roller row 30 , the guide ring 26 or individual Seg elements are removed in an analogous manner to that of the support roller row 15 of FIG. 1. Individual damaged idlers can then be replaced if the slewing bearing is loaded off-center. Then the rolling elements on the side facing away from the load are relieved and can be easily removed. In order to be able to examine the row of balls 31 , the large roller bearing must be loaded axially precisely, since then, after the ring 19 has been fastened by screws with a connecting structure, the inner ring 20 can be loosened and raised 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.

Claims (8)

1. Large-diameter roller bearings made up of at least one row of axial loads and one row of radial and / or axial loads, rolling on raceways of at least one inner and at least one outer ring, covered by guide rings with a relieved under a pure axial load and then at least partially removable Inner or outer ring, characterized in that the axial loads on the supporting idler row ( 15, 30 ) accessible from the outside or inside, relieved and disassembled when loaded with a tipping moment and the guide ring ( 14, 26 ) accessible in the installed state of the slewing bearing and is removable. 2. Large roller bearing according to claim 1, characterized by at least one cross-sectionally angular In and / or outer ring ( 9, 1; 19, 23 ) with at least one ner over a rolling element row ( 15, 30 ) bearing axial loads raceway ( 10, 2, 21, 24 ) and a guide ring ( 14, 26 ) covering the row of rolling elements ( 15, 30 ). 3. Large roller bearing according to claim 2, characterized by an angular inner ring ( 9, 19 ) and a win-shaped outer ring ( 1, 23 ) with axially opposite raceways ( 10, 11; 24, 25 ) one above and one below Angle rings ( 9, 23 ) arranged row of rolling elements ( 15, 16; 30, 31 ) and one of the angle rings ( 1, 19 ) overlapping removable inner and outer ring part ( 4, 20 ). 4. Large roller bearing according to claim 3, characterized by an axial load-bearing roller row ( 30 ) and a radial and axial load-bearing row of balls ( 31 ). 5. Large roller bearing according to claim 4, characterized by an angular outer ring ( 23 ) with a Tragrol lenlaufbahn ( 24 ) and a ball raceway ( 25 ), an angular inner ring ( 19 ) with a corresponding idler raceway ( 21 ), an inner ring part ( 20 ) with a Ball raceway ( 22 ) and a detachably fastened in the outer ring ( 23 ), the support roller row ( 30 ) cover the guide ring ( 26 ). 6. Large roller bearing according to claim 3, characterized by a respective axial load-bearing support and holding roller row ( 15, 16 ) and a radial load-bearing radial roller row ( 17 ). 7. Large roller bearing according to claim 6, characterized by an angular inner ring ( 9 ) with a Tragrol lenlaufbahn ( 10 ), an opposing Hal terollenlaufbahn ( 11 ) and an intermediate th radial roller raceway ( 12 ), an angular outer ring ( 1 ) with a support rollers - And a radial roller track ( 2, 3 ), an outer ring part ( 4 ) with a holding roller track ( 5 ), a releasably attached to the inner ring ( 9 ), the support rollers ( 15 ) covering guide ring ( 14 ) and another, the holding rollers ( 16 ) and the radial rollers ( 17 ) covering, between the outer ring ( 1 ) and the outer ring part ( 4 ) releasably attached BEFE guide ring ( 6 ). 8. Large roller bearing according to one or more of claims 1 to 7, characterized by a segment consisting of be guide ring ( 6, 14, 26 ).