DE102006004752A1 - Anti-friction bearing e.g. angular roller bearing, has rolling units arranged between outer ring and inner ring in cage, where outer ring and inner ring are arranged axially opposed to each other with their J- and/or L-shaped cross section - Google Patents

Abstract

The bearing has rolling units (8) arranged between an outer ring (2) and an inner ring (4) in a cage (7). The inner ring and the outer ring exhibit J-shape and/or L-shape in cross section, where the outer ring and the inner ring are arranged axially opposed to each other with their J- and/or L-shaped cross section. The inner ring exhibits a short shank (10) and a collar (15), where the short shank and the collar serve as a contact surface for a shaft (5) that is fastenable to the inner ring.

Description

Territory of invention

The Invention relates to a rolling bearing, in particular a tapered roller bearing, with an outer ring and an inner ring and arranged between them in a cage Rolling elements.

background the invention

Roller bearing, in particular tapered roller bearings, are in different embodiments known. So roll roller bearings, their bearing rings, namely the outer ring and the inner ring, are made chip forming and usually one Pressure angle of about 45 °, relative to the bearing axis. Furthermore, are made without cutting Bearing rings known which a pressure angle of about 60 °, relative on the bearing axis, own. In these tapered roller bearings, the rolling elements are usually in a cage guided. About that In addition, the outer rings have and the inner rings no shelves for receiving and Laufbegrenzung the Rolling elements. Of Furthermore, generally cylindrical rolling elements with parallel lateral surfaces in installed these bearings.

In contrast, have For tapered roller bearings, the bearing inner rings always two ground Borde and conical tapered rollers, which are taken up between the Borden are. This construction causes significant cost differences in the Compared to the taper roller bearings described above, the latter about 30% lower than tapered roller bearings. Furthermore are Non-cutting bearing rings in tapered roller bearings about 40% lighter across from the spherically shaped bearing rings with ribs in tapered roller bearings and have about it In addition, a smaller moment of inertia.

Of Furthermore, one or two-row angular contact ball bearings have a flatter spring characteristic in axial preloading Tapered roller bearings. The larger bearing suspension delayed ultimately the occurring backlash e.g. during the Life of a vehicle transmission, making it a lesser Preload loss comes.

In front this background is from DE-GM 70 19 131 is a rolling bearing known, whose bearing rings made of sheet metal in the manner of a hollow box profile are made. The cylindrical roller bearing consists of an outer ring and an inner ring and arranged between the two bearing rings Cylindrical rollers. Both the outer ring as well as the inner ring are in cross section through a closed box body profile educated. Portions of the hollow box profile are outward or retracted inside so that side shelves form. The for axial fixing the rolling elements or serving the Wälzkörperkäfigs Side shelves have twice the wall thickness.

Likewise shows the DE 30 22 227 A1 a rolling bearing in which the bearing rings are formed in cross-section as closed, lenticular hollow profiles. These hollow sections are difficult to manufacture and expensive to manufacture and have by the closed profiles a relatively high weight.

Farther is known from DE-OS 1 775 307 an angular contact ball bearings, in which the bearing rings consist of sheet metal and a substantially U-shaped cross-section have and are axially displaced into each other, that of a cage Rolled balls on tracks that roll into the legs of the sitting on a shaft inner ring and the thigh of the in one Casing seated outer ring pressed are. For sealing the rolling bearing and for the axial fixation of the rolling bearing parts is on the second leg of the inner ring a holding and sealing ring placed.

Finally revealed FR-PS 2 382 611 discloses a ball bearing in which the outer ring a U-shaped Cross-section, wherein the inner leg obliquely to the bearing axis of the bearing is inclined and on which the rolling elements are supported. Continue to run the Rolling elements on a coaxial with the bearing axis extending outer plane of the inner ring from. By the U-shaped Cross section and the pressed into the legs of the bearing races runways for the Bearing balls these camps are not for Cylindrical rollers suitable and also offer no space for recording sufficient lubricant for the warehouse.

One Another aspect of the known bearings is that the inner rings and the outer rings mostly entire area on the respective shaft or the surrounding component, e.g. one Casing, issue. This has the disadvantage that the lubrication of the bearing at these contact surfaces not always possible or at least not enough.

task the invention

Of the Invention is based on the object, a rolling bearing, in particular tapered roller bearings, Easy to make, easy lubrication the rolling elements of the Warehouse allows while a greater application depth, in particular in gearbox construction with higher Bearing speeds, allows.

Summary the invention

The invention is based on the finding that by a special cross-sectional shape of the Outer ring and the inner ring is easier to manufacture and lubricate the rolling bearing.

The The invention is therefore based on a rolling bearing, in particular tapered roller bearing, with an outer ring and an inner ring and arranged between them in a cage Rolling elements. moreover is provided that the outer ring and the inner ring in cross-section each have a substantially J- or L-shape, the outer ring and the inner ring with its J-shaped cross sections are arranged axially opposite to each other.

By this J-shaped Cross-section of the bearing rings is advantageously achieved that the outer ring and the inner ring of the rolling bearing can be easily made without cutting, and that the bearing rings also have no shelves for receiving and limiting the running of the rolling elements have to. this leads to to a considerable saving in costs and production costs for the Bearing ring. Cylindrical rollers are also cheaper in terms of production costs as ball rolls. Across from usual Tapered roller bearings are the non-cutting bearing rings of the tapered roller bearing considerably lighter in weight and thus have a lower Inertia.

To a further embodiment of the invention, the outer ring and the inner ring in J-shaped Cross section in each case a short, parallel to the bearing axis Leg, a running at an acute angle to the bearing axis long leg and a bridge connecting the short and long legs on. As a result, the largely J- or L-shaped cross-section of the bearing rings educated.

Of Further closes to the respective free end of the long leg in the J-shaped cross-section of the outer ring and the inner ring a short, parallel to the bearing axis extending collar at.

Further can be provided that the respective web in the J-shaped cross-section of the outer ring and the inner ring at an acute angle to the short leg is inclined and with the respective long leg of the outer ring and the inner ring forms a right angle. Thus run the short leg and the collar of the outer ring and the inner ring each in a coaxial alignment with the bearing axis.

By these inventive J-shaped or L-shaped Cross-section will allow that the short leg and the collar of the inner ring as a contact surface for an am Inner ring fastenable shaft serve. Likewise serve the short leg and the collar of the outer ring as a contact area for an am outer ring fastenable component, such as a bearing housing. In order to is a comparatively smaller contact surface of the inner ring on the Shaft and outer ring created on a component to be stored.

on the other hand however, it becomes a full circulation area the preferably designed as cylindrical rollers rolling elements ensures thus safe with the cage guided between the bearing rings are, as according to a further embodiment of the rolling bearing according to the invention the outer surfaces of the each long leg in J or L-shaped cross-section of the outer ring and the inner ring as a rotating surface for the Serve rolling elements.

One particular advantage of the invention is that of each through the J- or L-shaped cross section formed cavity in the outer ring and inner ring in the installed state with the shaft or the component at Demand is usable as a lubricant reservoir. In this case, the lubricant reservoir between the inner ring and the shaft and / or the outer ring and the component attached thereto with lubricant or a lubricant soaked Felt or foam strips to be filled.

Of the Lubricant can from radially outside or radially inside through Holes in the shaft or the component are supplied to said cavities. By radial punched holes in the oblique long legs from outer ring and / or inner ring, the lubricant can then continue to the rolling elements be directed.

at an advantageous development of the rolling bearing, the cylindrical rollers a slightly convex lateral surface exhibit. For example, the Mantelflä surface of the cylindrical rollers a Radius of 1,000 mm. As a result, production-related Angular error in the roller raceways and the expected roller slip at the rolling element ends considered and kept the Lagerreibmoment small. Although usually have non-cutting manufactured bearing rings a lower dimensional stability, however This is not a disadvantage with slightly crowned cylindrical rollers, because Under load, an axial self-centering of the crowned Cylindrical rollers in rolling contact respectively.

Farther is advantageous the rolling bearing axially biased. A distinct advantage e.g. opposite tapered roller bearings is the flatter spring characteristic when axially biasing the tapered roller bearing. This leads to a reduced backlash and lower preload loss while the bearing life.

short Description of the drawings

The The invention will be described below with reference to the accompanying drawings an embodiment explained in more detail. In this shows

1 a sectional view of the invention designed as a tapered roller bearing roller bearing, and

2 a perspective view of the rolling bearing according to 1 ,

detailed Description of the drawings

That in the 1 and 2 shown, designed as a preloaded tapered roller bearing bearings 1 has an outer ring 2 on, with which with its outer circumference on a component 3 , Eg a bearing housing is attached. Furthermore, the rolling bearing has 1 an inner ring 4 whose inner circumference is on a shaft 5 sits, the center axis at the same time the bearing axis 6 forms. The component 3 and the wave 5 are shown in dash-dot-dashed lines.

Between the outer ring 2 and the inner ring 4 of the rolling bearing 1 is a cage 7 arranged in which a set of cylindrical rollers designed as rolling elements 8th is stored, which deals with the outer ring 2 and the inner ring 4 in rolling contact.

As in particular from 1 it can be seen own the outer ring 2 and the inner ring 4 in cross-section and depending on the viewing direction in each case a J-shape or a widening L-shape. Hereinafter, only the J-shape is called. Here are the outer ring 2 and the inner ring 4 arranged with their J-shaped cross-sections axially opposite to each other.

The outer ring 2 and the inner ring 4 have, viewed in cross section, each have a short leg 9 respectively. 10 parallel to the bearing axis 6 run. Furthermore, the outer ring 2 and the inner ring 4 one at an acute angle to the bearing axis 6 extending long thigh 11 respectively. 12 on. The short thigh 9 and the long thigh 11 of the outer ring 2 as well as the short leg 10 and the long thigh 12 of the inner ring 4 are each by a substantially radially extending web 13 respectively. 14 connected so that the J-shaped cross-section of the outer ring 2 and the inner ring 4 results. Furthermore, the respective bridge 13 respectively. 14 in the J-shaped cross section of the outer ring 2 and the inner ring 3 at an acute angle to the respectively associated short leg 9 respectively. 10 inclined and forms with the respective long leg 11 of the outer ring 2 and the inner ring 4 a right angle.

At the free end of the long thigh 11 respectively. 12 of the outer ring 2 and the inner ring 4 continues to close each one parallel to the bearing axis 6 running collar 15 respectively. 16 at. Here are the short leg 9 respectively. 10 and the respective federation 15 respectively. 16 of the outer ring 2 or the inner ring 4 in a coaxial axis to the bearing axis 6 aligned. Therefore, the short leg is used 9 and the covenant 15 of the outer ring 2 as a contact surface for the outer ring 2 arranged radially outer component 3 , Similarly, the short leg serves 10 and the covenant 16 of the inner ring 4 as a contact surface for the shaft 5 , Furthermore, the outer surfaces of each long leg 11 respectively. 12 of the outer ring 2 and the inner ring 4 as rotating surfaces for the rolling elements 8th educated.

By the respective J-shaped cross section of the outer ring 2 and the inner ring 4 are cavities when installed 17 respectively. 18 between the outer ring 2 and the component disposed thereon 3 or the inner ring 4 as well as the wave 5 educated. These cavities 17 respectively. 18 Depending on the application, they can serve as lubricant reservoirs. These reservoirs can be used, for example, with lubricant or a felt-impregnated felt or foam strip between the outer ring 2 and component 3 and / or inner ring 4 and wave 5 be filled.

The filling of the cavities 17 respectively. 18 with lubricant, for example, via holes 21 . 22 respectively. 23 in the wave 5 or in the component 3 , what a 1 are indicated only schematically. The supply of lubricant from the lubricant reservoirs to the rolling elements 8th happens via radial bores 19 respectively. 20 according to 1 on the long thigh 11 . 12 of the outer ring 2 or inner ring 4 trained and in 2 also on the outer ring 2 are recognizable.

1

roller bearing

2

outer ring

3

component

4

inner ring

5

wave

6

bearing axle

7

Cage

8th

rolling elements

9

short leg

10

short leg

11

longer leg

12

longer leg

13

web

14

web

15

Federation

16

Federation

17

cavity

18

cavity

19

drilling for lubricant supply in inner ring

20

drilling for lubricant supply in the outer ring

21

Bore in the shaft 5

22

Bore in the shaft 5

23

Bore in the component 3

Claims (15)

Rolling bearings, in particular tapered roller bearings, with an outer ring ( 2 ) and an inner ring ( 4 ) and between them in a cage ( 7 ) arranged rolling elements ( 8th ), characterized in that the inner ring ( 4 ) and the outer ring ( 2 ) in cross-section each have a substantially J- or L-shape, wherein the outer ring ( 2 ) and the inner ring ( 4 ) are arranged axially opposite to each other with their J- or L-shaped cross-sections. Rolling bearing according to claim 1, characterized in that the outer ring ( 2 ) and the inner ring ( 4 ) in the J- or L-shaped cross section in each case a short, parallel to the bearing axis ( 6 ) extending legs ( 9 respectively. 10 ), one at an acute angle to the bearing axis ( 6 ) extending long leg ( 11 respectively. 12 ) and one the short and the long leg ( 9 . 10 respectively. 11 . 12 ) connecting bridge ( 13 respectively. 14 ) exhibit. Rolling bearing according to claim 1 or 2, characterized in that at the respective free end of the long leg ( 11 respectively. 12 ) in the J- or L-shaped cross section of the outer ring ( 2 ) and the inner ring ( 4 ) a short, parallel to the bearing axis ( 6 ) running bundle ( 15 respectively. 16 ). Rolling bearing according to at least one of claims 1 to 3, characterized in that the respective web ( 13 respectively. 14 ) in the J- or L-shaped cross section of the outer ring ( 2 ) and the inner ring ( 4 ) at an acute angle to the short leg ( 9 respectively. 10 ) is inclined, and with the respective long leg ( 11 respectively. 12 ) of the outer ring ( 2 ) and the inner ring ( 4 ) forms a right angle. Rolling bearing according to at least one of claims 1 to 4, characterized in that the short leg ( 9 respectively. 10 ) and the federal government ( 15 respectively. 16 ) of the outer ring ( 2 ) and the inner ring ( 4 ) each in a coaxial axis to the bearing axis ( 6 ). Rolling bearing according to at least one of claims 1 to 5, characterized in that the short leg ( 10 ) and the federal government ( 16 ) of the inner ring ( 4 ) as a contact surface for one on the inner ring ( 4 ) attachable shaft ( 5 ) serve. Rolling bearing according to at least one of claims 1 to 5, characterized in that the short leg ( 9 ) and the federal government ( 15 ) of the outer ring ( 2 ) as a contact surface for a on the outer ring ( 2 ) fastenable component ( 3 ) serve. Rolling bearing according to at least one of claims 1 to 7, characterized in that the mutually facing surfaces of each long leg ( 11 respectively. 12 ) of the outer ring ( 2 ) and the inner ring ( 4 ) as a rotating surface for the rolling elements ( 8th ) serve. Rolling bearing according to at least one of claims 1 to 8, characterized in that each formed by the J or L-shaped cross-section cavity ( 17 respectively. 18 ) in the outer ring ( 2 ) and inner ring ( 4 ) in the installed state with the component ( 3 ) or the wave ( 5 ) is provided as a lubricant reservoir. Rolling bearing according to claim 9, characterized in that the lubricant reservoir between the inner ring ( 4 ) and the wave ( 5 ) and / or the outer ring ( 2 ) and the component ( 3 ) is filled with lubricant or a felt-impregnated felt or foam strip. Rolling bearing according to at least one of claims 1 to 10, characterized in that the rolling bodies ( 8th ) are preferably formed as cylindrical rollers. roller bearing according to claim 11, characterized in that the cylindrical rollers a slightly convex lateral surface exhibit. Rolling bearing according to at least one of claims 1 to 12, characterized in that the outer ring ( 2 ) and the inner ring ( 4 ) non-cutting and without ribs for receiving and limiting the running of the rolling elements ( 8th ) are made. Rolling bearing according to at least one of claims 1 to 13, characterized in that the rolling bearing ( 1 ) is axially biased. Rolling bearing according to one of claims 1 to 13, characterized in that the long legs ( 11 . 12 ) of outer ring ( 2 ) or inner ring ( 4 ) Drilling ( 19 . 20 ) for the transmission of lubricant to the rolling elements ( 8th ) exhibit.