DE102015224865A1 - Rotary table bearings - Google Patents

Abstract

The invention relates to a rotary table bearing arrangement, comprising an outer ring, an inner ring and arranged between these, rolling on corresponding tracks rolling elements over which the outer ring and the inner ring are guided axially and radially to each other. According to the invention, the rolling bodies (9) are designed as planets (12) having groove profiles (13) with groove profiles (13) in corresponding groove profiles (15, 18, 18) formed on the raceways (14, 16, 17, 29, 30) , 19, 31, 32) engage, wherein the inner ring (4) and / or the outer ring (2) consists of two axially arranged ring halves (5, 6, 24, 25) which are interconnected via connecting means, and wherein between the two ring halves (5, 6, 24, 25) one or more spacer elements (20) are arranged.

Description

Field of the invention

The invention relates to a rotary table bearing arrangement, comprising an outer ring, an inner ring and arranged between these, rolling on corresponding tracks rolling elements over which the outer ring and the inner ring are guided axially and radially to each other.

Background of the invention

Machine tools that are used for cutting material processing often have a rotary table rotatably mounted about a vertical axis, on which the tool to be machined is clamped. The rotary table is rotatably mounted on a rotary table bearing assembly relative to a machine frame and coupled to a corresponding drive. Known rotary table bearing arrangements, the storage of such z. B. rotary axis rotary tables are used, usually comprise multi-row axial-radial bearings, for example comprising two axial rows of rolling elements, usually comprising cylindrical rollers, and a radial row of rolling elements, also comprising cylindrical rollers. Although the use of several different rows of rolling elements is expedient with regard to the specific inclusion of given axial and radial forces by the corresponding types of bearings, however, the bearing is elaborately designed, as for the axial and Radialwälzkörperreihen specific, inevitably differently oriented careers must be formed, what to do leads that the inner ring and the outer ring must be designed specifically or respectively processed accordingly.

Object of the invention

The invention is thus based on the object of specifying an improved over the prior art rotary table bearing arrangement.

Description of the invention

To solve this problem, it is provided in a rotary table bearing arrangement according to the invention that the rolling elements are designed as a groove profile exhibiting planets, which engage with their groove profiles in corresponding formed on the raceways groove profiles, wherein the inner ring and / or the outer ring consists of two axially arranged ring halves , which are interconnected via connecting means, and wherein one or more spacer elements are arranged between the two ring halves.

The invention provides to carry out the rotary table bearing arrangement as a planetary bearing. The rolling elements, which are designed as planets, which are usually mounted in cage discs, have a groove profile, ie circumferential grooves, which usually have a triangular shape in cross section. With this groove profile, the rolling elements engage in shape-compatible groove profiles, which are formed on the raceways of the inner and outer ring. Due to the geometry of the grooves, it is possible with such planets to accommodate both axial and radial forces, that is to say that with a rolling bearing type both axial and radial support are provided. The rolling elements or planets are arranged with their axes of rotation parallel to the rolling bearing pivot axis, according to the raceways are formed on the inner and outer ring. So both have only radial treads.

In order to minimize the bearing clearance or to adjust the bearing preload exactly, either the inner ring or the outer ring or, if necessary, both of two axially positioned ring halves is formed. These are connected to each other via connecting means, usually connecting screws. For clearance or respectively bias adjustment one or more spacer elements are arranged between the two ring halves, via which the distance between the two ring halves can be adjusted to each other. Since each ring half has a raceway section and thus also a groove profile section, thus also the axial distance of the ring-half groove side groove profiles can be adjusted to each other and also their relative position to the groove profile of the rolling elements. This can be done via the appropriate setting. This is necessary because in the self-adjusting bearing air respectively the bias to be set a number of parameters such as the flank angle, the pitch diameter, the crown of the rolling elements, the division at each of the three components inner ring, outer ring, rolling elements, etc. enter. By appropriate design of the thickness of the spacer elements or can now be reacted to the interaction of just these parameters by the or the spacer elements are measured exactly, so that the desired clearance respectively bias setting. This setting is also appropriate in view of the even distribution of the radial load on the planets, so that it does not come to local stresses and thus any overuse.

According to a first alternative of the invention it can be provided that the planets are arranged in two rows, wherein the planets each engage a row with their groove profiles in the groove profile of a ring half, wherein only the inner ring or only the outer ring consists of two ring halves. In this embodiment of the invention, a bias of the planet between the inner ring and outer ring is achieved in that the two Wälzkörperreihen depending on the selected spacer element thickness on the inner ring halves or outer ring halves, depending on which ring is now in two parts, relative to the other, not divided ring axially offset and thus clamped.

Alternatively, it is conceivable to provide only one planetary row, in which case the two rings are divided, that is, the groove profile, which preferably runs over the entire planet, engages in the groove profile sections of the two ring halves of the inner ring and the two ring halves of the outer ring , In this case, appropriate spacers between the two pairs of ring halves are set so that these ring halves can be axially offset separately relative to the planet.

The one or more spacer elements are designed accordingly after the existing radial clearance has been measured in the preassembled state and the preload to be set has been defined bearing-specific. The spacer element or elements are then ground as a function of the measured values to the required extent with correspondingly small manufacturing deviations, so that an exact adjustment of the resulting prestressing is possible.

Preferably, a spacer element in the form of an annular perforated disc is used, wherein the connecting means pass through the perforated disc in the corresponding holes or holes. If both the inner and the outer ring in two parts, so of course two such spacers are used.

Alternatively to the use of such an annular perforated disc, it is also conceivable to use a plurality of spacer elements in the form of perforated ring segments, which are also interspersed in the corresponding holes or holes of the connecting means. These ring segments result in their entirety a closed ring, so that in turn results in an exact, defined spacing of the ring halves over the entire circumference of the ring.

A third alternative of the invention finally provides that the spacer elements are separate perforated disks, wherein each perforated disk is penetrated by a connecting means. Here, only locally corresponding perforated discs are thus set, in each connection region in which a connecting means is positioned. Again, this can be done a highly accurate spacing of the ring halves.

In addition to the rotary table bearing arrangement itself, the invention further relates to a machine tool for machining material of a workpiece comprising a machine frame and a rotary table rotatably mounted thereon by a rotary table bearing arrangement of the type described about an axis of rotation for receiving the workpiece.

Brief description of the drawings

The invention will be explained in more detail below with reference to two embodiments with reference to the accompanying drawings. The drawings are schematic representations and show in:

1 1 is a schematic representation of a rotary table bearing arrangement according to the invention of a first embodiment, in a sectional partial view,

2 a schematic representation of a rotary table bearing arrangement according to the invention a second embodiment, in a sectional partial view, and

3 a schematic representation of a rotary table bearing arrangement according to the invention a third embodiment, in a sectional partial view.

Detailed description of the drawings

1 shows a rotary table bearing arrangement according to the invention 1 comprising an outer ring 2 , which is to be attached to a machine frame of a machine tool not shown here. For this purpose, corresponding holes 3 provided to engage in the corresponding connection means such as connecting bolts or the like to connect this attachment portion with the machine frame.

The rotary table bearing arrangement 1 further includes an inner ring 4 , consisting of two inner ring halves 5 . 6 , Each inner ring half 5 . 6 is with a hole 7 . 8th provided, with the holes 7 . 8th aligned with each other and the inclusion of connection means not shown here serve as appropriate connecting bolts, over which the two inner ring halves 5 . 6 tightly clamped together.

Further provided are rolling elements 9 , which are in two rows of rolling elements 10 . 11 , which are axially spaced from each other, are positioned. Each row of rolling elements 10 . 11 further comprises a cage not shown in detail in the form of two cage discs, in which the rolling elements 9 are rotatably received with their cylindrical ends.

The rotary table bearing arrangement 1 is designed as a planetary bearing arrangement. As 1 shows are the rolling elements 9 as a planet 12 executed, each having a circumferential groove profile 13 exhibit. This groove profile is seen cross-sectionally triangular, like 1 clearly shows. The planets 12 are basically cylindrical.

In a similar way, the outer ring 2 with a tread 14 provided, which has two sections, in which corresponding groove profiles 15 are formed, which thus have a corresponding profile shape. The same applies to the two inner ring halves 5 . 6 , These also each have a career 16 . 17 on, each with a groove profile 18 . 19 , which is also form-compatible with the groove profile of the planets 12 is, trained.

Obviously the planets are attacking 12 with their respective groove profile 13 into the corresponding groove profiles 15 . 18 and 19 on the outer ring 2 and the inner ring halves 5 . 6 a, wherein in the assembled position - unlike shown - the planets 12 are arranged clamped between the rings, so therefore a corresponding bias is given.

To be able to set this preload exactly, is between the two ring halves 5 . 6 in the example shown, a spacer element 20 in the form of a circular perforated disc 21 arranged, the corresponding holes 22 has, engage by the connecting means not shown here. The perforated disc 21 is dimensioned in thickness so that - taking into account specific bearing parameters with the flank angle of the groove profiles, the pitch circle diameters, the crown of the rolling elements, etc. - a defined bias of the planet 12 between the rings 2 . 4 results. This is the perforated disc 21 Accordingly, exactly ground, so that in the mounting position, so if the inner ring halves 5 . 6 are firmly clamped together on the connecting means respectively connecting screws, adjusts the exact preload.

2 shows an embodiment of a radial bearing assembly according to the invention 1 , which basically according to 1 equivalent. Provided again is an outer ring 2 as well as an inner ring 4 with the ring halves 5 . 6 as well as the two rows of rolling elements 10 . 11 each comprising the cage-guided planets 12 , These are in turn with the corresponding groove profile 13 provided in the corresponding groove profiles 15 and 18 respectively. 19 intervenes.

Unlike the embodiment according to 1 here are several spacer elements 20 in the form of individual perforated slices 23 between the two ring halves 5 . 6 set. Instead of a circular perforated disk 21 So here comes a variety of single punched, smaller slices 23 for use. Of course, their thickness is sized accordingly, so that a defined bias of the planet 12 in stock.

3 shows a third embodiment possibility of a rotary table bearing arrangement according to the invention, comprising an outer ring 2 as well as an inner ring 4 , Here is next to the inner ring 4 that made the ring halves 5 . 6 exists, also the outer ring 2 from two ring halves 24 . 25 , the corresponding holes 26 . 27 , are passed through the corresponding connecting means such as connecting bolts to the ring halves 24 . 25 firmly tense each other. Also between these ring halves 24 . 25 is a spacer element 20 or are several such spacers 20 set to the ring halves 24 . 25 defined spaced from each other to set a defined preload in the camp can. Of course, the same applies here with regard to the spacer element (s) 20 between the ring halves 5 . 6 of the inner ring 4 ,

Again, there are rolling elements 9 in the form of planets 12 provided, but these are only in a row here 28 in front. The planets 12 So extend along the two treads 16 . 17 the ring halves 5 . 6 of the inner ring 4 as well as along the treads 29 . 30 the ring halves 24 . 25 of the outer ring 2 , These treads are in turn with corresponding groove profiles 18 . 19 respectively 31 . 32 Mistake. Also the planets 12 have a corresponding groove profile 13 which can either extend over the entire planet length, or, as in 3 shown is formed in two sections, so that here too the groove profile 13 respectively the groove profile sections in the corresponding groove profiles 18 . 19 and 31 . 32 on the inner and outer ring halves 5 . 6 respectively 24 . 25 intervention. Because here one-piece and arranged only in a row planets 12 are provided, it is necessary to adjust the bearing preload, both the inner ring 4 as well as the outer ring 2 to divide and over the appropriate spacers 20 the respective ring halves 5 . 6 and 24 . 25 be spaced from each other so that adjusts the corresponding preload on the groove profile engagement.

In conclusion, it should be noted that, based on the 1 and 2 , The design may also be the shape that the respective inner ring 4 is one-piece, while the outer ring 2 divided and consists of two outer ring halves.

LIST OF REFERENCE NUMBERS

1

 Rotary table bearing arrangement

2

 outer ring

3

 drilling

4

 inner ring

5

 Inner ring half

6

 Inner ring half

7

 drilling

8th

 drilling

9

 rolling elements

10

 rolling body row

11

 rolling body row

12

 planet

13

 groove profile

14

 tread

15

 groove profile

16

 career

17

 career

18

 groove profile

19

 groove profile

20

 spacer

21

 perforated disc

22

 drilling

23

 disc

24

 ring half

25

 ring half

26

 drilling

27

 drilling

28

 line

29

 tread

30

 tread

31

 Rillenproifl

32

 groove profile

Claims (7)

Rotary table bearing assembly, comprising an outer ring, an inner ring and arranged between these, rolling on corresponding raceways rolling elements over which the outer ring and the inner ring are guided axially and radially to each other, characterized in that the rolling elements ( 9 ) as a groove profile ( 13 ) containing planets ( 12 ) are executed, with their groove profiles ( 13 ) in corresponding, on the careers ( 14 . 16 . 17 . 29 . 30 ) formed groove profiles ( 15 . 18 . 19 . 31 . 32 ), wherein the inner ring ( 4 ) and / or the outer ring ( 2 ) of two axially arranged ring halves ( 5 . 6 . 24 . 25 ), which are interconnected via connecting means, and wherein between the two ring halves ( 5 . 6 . 24 . 25 ) one or more spacer elements ( 20 ) are arranged. Rotary table bearing arrangement according to claim 1, characterized in that the planets ( 12 ) in two rows ( 10 . 11 ), the planets ( 12 ) each one row ( 10 . 11 ) with their groove profiles ( 13 ) in the groove profile ( 18 . 19 ) of a ring half ( 5 . 6 ), whereby only the inner ring ( 4 ) or only the outer ring ( 2 ) of two ring halves ( 5 . 6 ) consist. Rotary table bearing arrangement according to claim 1, characterized in that the planets ( 12 ) in a row ( 28 ), the planets ( 12 ) in the groove profile ( 18 . 19 . 31 . 32 ) of both ring halves ( 5 . 6 . 24 . 25 ) of the inner ring ( 4 ) and the outer ring ( 2 ) intervene. Rotary table bearing arrangement according to one of the preceding claims, characterized in that a spacer element ( 20 ) an annular perforated disc ( 21 ), which is interspersed by the connecting means is. Rotary table bearing arrangement according to one of claims 1 to 3, characterized in that the spacer elements ( 20 ) perforated ring segments, which are interspersed by the connecting means are. Rotary table bearing arrangement according to one of claims 1 to 3, characterized in that the spacer elements ( 21 ) Perforated discs ( 23 ), each perforated disc ( 23 ) is penetrated by a connecting means. Machine tool for cutting material processing of a workpiece, comprising a machine frame and a machine frame on this by a rotary table bearing arrangement ( 1 ) according to one of the preceding claims about a rotation axis rotatably mounted rotary table for receiving the workpiece.

Images