DE102015200376A1 - Deep groove ball bearing with a radially divided outer ring - Google Patents

Abstract

The invention relates to a deep groove ball bearing (1) with an inner ring (3), a two - part outer ring (2), and with radially arranged between these bearing rings (2; 3) spherical rolling elements (4), which on a track (8, 9) of the Rolling outer ring (2) and on a raceway (14) of the inner ring (3), wherein the outer ring (2) consists of two axially juxtaposed and firmly connected, annular outer ring segments (2a, 2b).
In order to enable a simple assembly of this deep groove ball bearing, in particular in full complement design, the invention provides that the two annular outer ring segments (2a, 2b) are positively and non-positively connected to these locking means (5, 6, 7, 10) connected to each other.

Description

Field of the invention

The invention relates to a deep groove ball bearing with an inner ring, a two-part outer ring, and with radially arranged between these bearing rings spherical rolling elements which roll on a raceway of the outer ring and on a raceway of the inner ring, wherein the outer ring of two axially juxtaposed and firmly connected, annular outer ring segments consists.

Background of the invention

It is known that deep groove ball bearings made of plastic there are particularly well used where comparatively small axial and radial forces are to be borne and relatively low speeds will occur, and where appropriate, where they are used in an environment with highly corrosive media on metal , Bearing rings such deep groove ball bearings can be prepared, for example, by machining of extruded plastic rods. To improve the carrying capacity of such deep groove ball bearings made of plastic, it makes sense to form them full complement, ie without a bearing cage, so that the bearing balls must be used individually radially between the two bearing rings. Since the raceways of the bearing rings are usually formed radially quite deep, the flanks of the raceways when mounting the bearing balls seen in the axial direction virtually undercuts, which make the insertion of the bearing balls in the raceways of inner ring and outer ring much difficult to impossible. If the inner ring and / or the outer ring of the deep groove ball bearing are formed divided, there is the problem that the pitch of the bearing ring is to be provided in terms of optimum Wälzkörpermontage where the raceway of inner ring or outer ring have their axial center. This results in the operation of the deep groove ball bearing at this division point to a reduced load capacity of the bearing and to increased wear of the rolling elements and the raceways of the bearing rings.

Against this background is from the US 3,244,821 A a generic deep groove ball bearing known whose outer race consists of two circular segments, which are axially set together. To connect the two outer ring segments they are pressed axially into an axial bore of a flexible bearing housing, wherein the bearing housing initially radially elastically widens and after receiving the two outer ring segments again elastically regresses that it has radially outwardly an approximately cylindrical geometry. The radial outer side of the two outer ring segments and the radial inner side of the elastic housing have mutually congruent longitudinal sectional geometries, so that the two outer ring segments forming a single outer ring for the deep groove ball bearing are positively held together in the bearing housing. In this deep groove ball bearing, the bearing rings are made of plastic.

Moreover, from the DE 24 50 321 A1 a deep groove ball bearing made of plastic, in which the radially inner and the radially outer race are made in one piece. In this deep groove ball bearing, the respective grooves are bounded on at least one axial side by a bendable lip. The local 7 shows an embodiment of this deep groove ball bearing, in which the radius of the grooves does not coincide with the radius of the spherical rolling elements, but is smaller than the ball radius. In the embodiment according to the local 8th the running groove is seen in longitudinal section formed from three composite straight lines, whereby the balls roll on tapered surfaces of the radially outer race.

Object of the invention

The invention has for its object to introduce a deep groove ball bearing, which is easy to assemble, especially if it is full roll, that is formed without a bearing cage. The construction to be presented should in particular be suitable for producing the deep groove ball bearing at least with regard to the bearing rings made of plastic having the grooves for the rolling bodies.

Description of the invention

This object is achieved by the features of claim 1. Advantageous developments of the invention are defined in the subclaims.

Accordingly, the invention is based on a deep groove ball bearing, with an inner ring, a two-part outer ring, and with radially arranged between these bearing rings spherical rolling elements which roll on a raceway of the outer ring and on a raceway of the inner ring, wherein the outer ring of two axially juxtaposed as well firmly connected, annular outer ring segments consists. In order to enable easy mounting of this deep groove ball bearing, it is provided that the two annular outer ring segments are positively connected to each other and positively connected to each other via this locking means.

The locking means on the annular outer ring segments allow a simple and quick connection of the same, without being a Another component, such as the elastic housing of the deep groove ball bearing according to the US 3,244,821 A is needed. The good connectivity of the two annular outer ring segments also allows a very simple and quick installation of the deep groove ball bearing. For this purpose, the inner ring and the first outer ring segment are concentric and axially spaced from one another in a mounting device, and then insert the balls in the groove of the inner ring and at the same time in half the groove of the first annular outer ring segment. Finally, the first outer ring segment of the inner ring center is axially approximated and then placed the second annular outer ring segment on the first annular outer ring segment and these two outer ring segments by means of the common locking means by exerting an axial force firmly connected.

According to a preferred embodiment may be provided with respect to the locking means, that the first outer ring segment in the region of its roller near the axial end has a plurality of axially aligned locking fingers that at the free axial end of each locking finger a radially inwardly directed latching hook is formed that the second outer ring segment in Has a region of its rolling body near the axial end a plurality of axialnutförmige latching receptacles, which have remote from the axially open one end of the axiallynutförmigen locking receptacles each having a radially inwardly directed locking depression, and that in the assembled state, the latching fingers in the respectively associated axiallynutförmigen latching receptacles and the latching hooks in the associated Rastsenken interlock positively and positively.

In particular, to exclude a possible axial and / or radial play of the locking connection described and to further improve the connection, it can be provided that the two outer ring segments are additionally connected by a weld, a soldering or gluing together.

According to a first variant with regard to the formation of the geometry of the grooves in the bearing rings can be provided that the rolling elements are designed as balls whose radius is identical or slightly smaller than the radius of the raceway of the outer ring and the raceway of the inner ring. Although this geometry of the raceway grooves provides the largest bearing surface for transmitting radial and axial loads in relation to the geometry of the spherical rolling bodies, it has the disadvantage that the circular dividing plane in the raceway of the outer race is constantly being overrun by the bearing balls There caused an increased wear and, as a result, the carrying capacity of the deep groove ball bearing actually has to be set lower.

The invention therefore provides according to a further development that the first outer ring segment and the second outer ring segment in the assembled state of the outer ring in the region of the outer ring race coincide where the rolling elements have no contact with the composite raceway of the outer ring.

Accordingly, according to a second variant with regard to the formation of the geometry of the grooves in the bearing rings provided that the rolling elements are formed as balls, that the radius of the rolling elements is identical or slightly smaller than the radius of the raceway of the inner ring, and that the radius of the rolling elements smaller than the radius of the composite raceway of the outer ring, so that the rolling elements roll on the outer ring only on the axial edges of the composite track of the two outer ring segments. As a result, the circular dividing plane in the raceway of the outer ring is not rolled over by the rolling elements in this design.

In further development of this idea, it is provided that the two half-raceways of the outer ring, seen in the longitudinal section of the deep groove ball bearing, together form the geometry of a gothic window. This ensures that the balls of the deep groove ball bearing in the region of the dividing plane in the outer ring have no contact with the composite raceway groove of the outer ring.

It is judged to be advantageous if it is provided that latching receptacles having snap-in hooks as well as latching recesses having latching recesses are circumferentially alternately formed adjacent to one another both on the first outer ring segment and on the second outer ring segment. In the best case, the two annular outer ring segments are geometrically identical and manufactured by the same manufacturing process. This saves individual manufacturing tools for the two annular outer ring segments, whereby the manufacturing costs can be kept low.

Finally, it can be provided that the inner ring, the outer ring and the rolling elements are made of plastic. Alternatively, the rolling elements can also be made of ceramic or glass, ie of materials which are non-metallic, but have a high resistance to corrosive media.

A deep groove ball bearing with at least a portion of the features described can be formed without a cage, so vollkugelig, whereby the Number of rolling element housable in the deep groove ball bearing is increased in comparison with an embodiment with a Wälzkörperkäfig and the bearing capacity of the bearing.

Brief description of the drawings

The inventively embodied deep groove ball bearing is explained below in two preferred embodiments with reference to the accompanying drawings. Showing:

1 a partial longitudinal section through a deep groove ball bearing with a two-part outer ring according to a first embodiment,

2 a partial longitudinal section through a deep groove ball bearing with a two-part outer ring according to a second embodiment,

3 two annular segments of the outer ring according to 1 before their assembly in a highly schematized processing of the segments shown, and

4 the assembled from the two annular segments outer ring in a view as in 3 ,

Detailed description of the drawings

Accordingly, shows 1 a full complement deep groove ball bearing 1 which is an inner ring 3 , a two-part outer ring 2 and a plurality of spherical rolling elements 4 has, of which only one rolling element 4 is recognizable. The rolling elements 4 are radially between the two bearing rings 2 . 3 in a composite career 8th . 9 of the outer ring 2 and a career 14 of the inner ring 3 arranged. The career 14 of the inner ring 3 as well as the composite career 8th . 9 of the outer ring 2 are groove-shaped and have in longitudinal section a circular segment-shaped geometry with a radius which is the radius of the spherical rolling elements 4 corresponds or may be slightly larger. The outer ring 2 is made of two annular outer ring segments 2a . 2 B assembled, which radially inward in each case an axial half of the composite track 8th . 9 of the outer ring 2 exhibit. The two outer ring segments 2a . 2 B are positive and non-positive by means of interlocking locking means 5 . 6 . 7 . 10 connected to each other, which is substantially radially outward on the two outer ring segments 2a . 2 B are formed.

The deep groove ball bearing 11 according to 2 differs from the deep groove ball bearing 1 according to 1 only by another geometry of the composite track 12 . 13 of the outer ring 2 , Visible is the radius of the first raceway section 12 and the radius of the second raceway section 13 the composite career 12 . 13 each greater than the radius of the spherical rolling elements 4 , This indicates the composite track 12 . 13 of the outer ring 2 according to 2 seen in longitudinal section a geometry, as is known from Gothic windows. This causes the spherical rolling elements 4 only on the two axial flanks of the composite track 12 . 13 of the outer ring 2 unroll, and rolling on the joint between the two raceway sections 12 . 13 advantageously does not take place.

With regard to the locking means is in both deep groove ball bearings 1 . 11 according to the 1 and 2 provided that the first outer ring segment 2a . 2a ' in the region of its roller near the axial end of several axially aligned locking fingers 6 that at the free axial end of each latch finger 6 a radially inwardly directed latching hook 7 is formed, that the second outer ring segment 2 B . 2 B' in the region of its roller near the axial end of several axialnutförmige locking receptacles 5 has that far from the axially open one end of the axialnutförmigen locking receptacles 5 These each have a radially inwardly oriented locking sink 10 have, and that in the assembled state, the latching fingers 6 in the respectively associated axialnutförmigen locking receptacles 5 as well as the locking hooks 7 in the assigned Rastsenken 10 interlock positively and positively.

Because the bearing rings 2 . 3 this deep groove ball bearing 1 . 11 radially outside or radially inside are firmly received on a shaft or in a housing bore, the latching connection described in most applications should be sufficient to a falling apart of the two outer ring segments 2a . 2a '; 2 B . 2 B' to prevent. To the connection between the outer ring segments 2a . 2a '; 2 B . 2 B' To further improve, it can be provided that these by means of a weld 15 , a bond 16 or in metallic outer ring segments 2a . 2a '; 2 B . 2 B' be firmly connected together by means of a soldering. The welding can be done by known methods, for example by means of ultrasonic welding.

The 3 and 4 show the two outer ring segments 2a . 2 B in a developed schematic representation shortly before joining them together ( 3 ) and after their assembly ( 4 ). It can be seen that in this embodiment, the first outer ring segment 2a a plurality of axially aligned locking fingers 6 has, at which the axially end in each case a radially inwardly directed latching hook 7 is trained. The second outer ring segment 2 B on the other hand has a corresponding number of axialnutförmigen locking receivers 5 on, in each of which a radially inward-oriented locking sink 10 is trained. When joining the two outer ring segments 2a . 2 B grip the said locking means 6 . 7 ; 5 . 10 into each other, causing the two outer ring segments 2a . 2 B are permanently connected to each other.

The deep groove ball bearing according to the invention 1 . 11 is preferably made of at least one plastic, although it may also be made of metal. When designed as a plastic bearing, it may be useful to the bearing rings 2 . 3 made of plastic, and as a material for the production of the bearing balls 4 To use glass or a ceramic material.

LIST OF REFERENCE NUMBERS

1

 Deep groove ball bearings

2

 outer ring

2a

 First annular outer ring segment

2 B

 Second annular outer ring segment

2a '

 First annular outer ring segment

2 B'

 Second annular outer ring segment

3

 inner ring

4

 Ball, spherical rolling element

5

 latching receptacle

6

 latching fingers

7

 latch hook

8th

Raceway on the first annular outer ring segment 2a

9

Track on the second annular outer ring segment 2 B

10

 Rest sink

11

 Deep groove ball bearings

12

Raceway on the first annular outer ring segment 2a '

13

Track on the second annular outer ring segment 2 B'

14

 Running track on the inner ring

15

 welding

16

splice

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US 3244821 A [0003, 0008]
• DE 2450321 A1 [0004]

Claims (10)

Deep groove ball bearings ( 1 . 11 ), with an inner ring ( 3 ), a two-part outer ring ( 2 ), and with radially between these bearing rings ( 2 ; 3 ) arranged spherical rolling elements ( 4 ), which are on a career track ( 8th . 9 ; 12 . 13 ) of the outer ring ( 2 ) and on a career track ( 14 ) of the inner ring ( 3 ), whereby the outer ring ( 2 ) of two axially juxtaposed and firmly interconnected, annular outer ring segments ( 2a . 2 B ; 2a ' . 2 B' ), characterized in that the two annular outer ring segments ( 2a . 2 B ; 2a ' . 2 B' ) positively and non-positively on this formed locking means ( 5 . 6 . 7 . 10 ) are interconnected. Deep groove ball bearings ( 1 . 11 ) according to claim 1, characterized in that the first outer ring segment ( 2a . 2a ' ) in the region of its roller-near axial end a plurality of axially aligned locking fingers ( 6 ), that at the free axial end of each latch finger ( 6 ) a radially inwardly directed latching hook ( 7 ) is formed, that the second outer ring segment ( 2 B . 2 B' ) in the region of its roller near the axial end a plurality of axialnutförmige locking receptacles ( 5 ), that remote from the axially open one end of the axialnutförmigen locking receptacles ( 5 ) These each have a radially inwardly directed locking sink ( 10 ), and that in the assembled state, the latching fingers ( 6 ) in the respectively associated axialnutförmigen locking receptacles ( 5 ) as well as the catch hooks ( 7 ) into the assigned latching banks ( 10 ) interlock positively and positively. Deep groove ball bearings ( 1 . 11 ) according to claim 1 or 2, characterized in that the two outer ring segments ( 2a . 2 B ; 2a ' . 2 B' ) additionally by a weld ( 15 ), Gluing ( 16 ) or soldering are connected together. Deep groove ball bearings ( 1 ) according to one of claims 1 to 3, characterized in that the rolling bodies ( 4 ) are formed as balls whose radius is identical or slightly smaller than the radius of the track ( 8th . 9 ; 12 . 13 ) of the outer ring ( 2 ) and the career path ( 14 ) of the inner ring ( 3 ). Deep groove ball bearings ( 11 ) according to one of claims 1 to 3, characterized in that the first outer ring segment ( 2a ; 2a ' ) and the second outer ring segment ( 2 B ; 2 B' ) in the assembled state of the outer ring ( 2 ) in the area of the outer ring raceway ( 12 . 13 ) meet where the rolling elements ( 4 ) have no contact with the composite career ( 12 . 13 ) of the outer ring ( 2 ) to have. Deep groove ball bearings ( 11 ) according to claim 5, characterized in that the rolling bodies ( 4 ) are formed as balls, that the radius of the rolling elements ( 4 ) is identical or slightly smaller than the radius of the track ( 14 ) of the inner ring ( 3 ), and that the radius of the rolling elements ( 4 ) is smaller than the radius of the composite track ( 8th . 9 ; 12 . 13 ) of the outer ring ( 2 ), so that the rolling elements ( 4 ) on the outer ring ( 2 ) only on the axial flanks of the two outer ring segments ( 2a . 2 B ; 2a ' . 2 B' ). Deep groove ball bearings ( 11 ) according to claim 5 or 6, characterized in that the composite track ( 12 . 13 ) of the outer ring ( 2 ) seen in longitudinal section of the deep groove ball bearing together has the geometry of a Gothic window. Deep groove ball bearings ( 1 . 11 ) according to one of claims 1 to 7, characterized in that latching hooks ( 7 ) having latching fingers ( 6 ) as well as 10 ) having detent receptacles ( 5 ) circumferentially alternately adjacent to both the first outer ring segment ( 2a ; 2a ' ) as well as on the second outer ring segment ( 2 B ; 2 B' ) are formed. Deep groove ball bearings ( 1 . 11 ) according to one of claims 1 to 8, characterized in that the inner ring ( 3 ), the outer ring ( 2 . 2a ; 2a '; 2 B ; 2 B' ) and the rolling elements ( 4 ) consist of plastic. Deep groove ball bearings ( 1 . 11 ) according to one of claims 1 to 9, characterized in that this is formed without a cage, so vollkugelig

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