DE10235280A1 - Planetary transmission has all planet wheels in common planet carrier, each first planet wheel with double engagement and planet carrier on cross-roller bearing - Google Patents

Abstract

The planetary transmission (1) has all the planet wheels (8, 12) in a common planet carrier (14), staged with small (10) and large (6) stage wheels. The latter are engaged with the sunwheel (4). Each first planet wheel has teeth engaged with the hollow wheel (16) and a small stage wheel. The planet carrier is mounted in the housing (18) on a cross-roller bearing (23).

Description

The invention relates to a planetary gear claim 1 and according to the subject of the earlier patent application the applicant with the file number 101 44 805.8.

With the planetary gear after the older registration is the planet carrier over two Bearing, which is arranged on both sides of a ring gear and designed as an angular bearing are stored. Such tapered roller bearings are expensive and claim a relatively large axial depth and beyond also radial installation space due to the inner and outer rings of the tapered roller bearings.

It is an object of the present invention improved storage of the planet carrier of the aforementioned To create planetary gear, which takes up less space and a cost reduction for the entire transmission enables.

The solution to this problem results itself from the features of claim 1. As an advantage thereby achieved that the planet carrier only has one Bearing, which absorbs radial and axial forces, against the casing is stored. This bearing is designed as a crossed roller bearing and runs on a split bearing inner ring, while the outer raceways of the crossed roller bearing in the housing are incorporated. The planet carrier can therefore be made of one material are manufactured, which is not for the reel body of the Bearing hardened must become.

Cross roller bearings for the storage of a planet carrier in the housing of a planetary gear are through EP-B 981 697 Although known, but for a planetary gear, which is designed differently in particular with regard to the arrangement and type of planet.

In an advantageous embodiment of the Invention, the crossed roller bearing is arranged in a radial plane, in the axial direction - between the two planets. This results in a favorable bearing load and an axially shortened one Construction for the entire planetary gear.

In a further advantageous embodiment the invention is the divided inner ring by clamping means axially on the planet carrier fixed. This means that the bearing can be easily assembled and adjusted.

In an advantageous development of the Invention are the clamping means as obliquely arranged screw elements or set screws, advantageously also one perpendicular to the direction of support arranged chamfer is provided on the inner ring of the bearing. Thereby there is an optimal support effect on the crossed roller bearing. The individual support or tensioning elements that attached to the planet carrier are reaching between the planet gears. That too the result is a compact design.

Embodiments of the invention are shown in the drawing and are described in more detail below: Show it:

1 a planetary gear with crossed roller bearings, fixed by a retaining ring;

2 a planetary gear with crossed roller bearings, fixed by inclined grub screws and

3 a planetary gear with crossed roller bearings, fixed by another form of clamping device.

1 shows a planetary gear 1 , which largely corresponds to the planetary gear according to the earlier application 101 44 805.8 of the applicant; therefore, the same reference numerals are used for the most part for the same parts. The planetary gear 1 has an input shaft 2 on, which is designed as a hollow shaft and a serration 3 can be positively connected to a drive shaft, not shown, of a drive motor. A sun gear 4 (Indoor sun) is rotatable with the input shaft 2 connected and combs with a large step wheel 6 of a stepped planet 8th who also has a small step wheel 10 which engages with a first planet 12 located. The step planet 8th is about a camp 5 and the first planet 12 is about an axis 7 and a warehouse 9 in a common planet carrier 14 stored. As described and illustrated in the earlier application, there are two planetary stages 8th with four planets 12 in engagement. The planet carrier 14 is about a deep groove ball bearing 11 on the input shaft 2 stored. The planet gear 12 is in engagement with a ring gear 16 (Outside sun), which is part of an approximately cylindrical casing 18 is. Via a cylindrical centering surface 17 and a flange 19 can the entire planetary gear 1 be connected to a drive motor housing, not shown, so that the ring gear or the external sun 16 as a fixed link of the planetary gear 1 acts. The output of the planetary gear 1 takes place via the planet carrier 14 by means of a flange 20 that has a recess 22 to accommodate the stepped planet 8th having. So far this planetary gear is known from the applicant's earlier application.

The bearing of the planet carrier in relation to the housing 18 takes place via a cross roller bearing known per se 23 which is on the planet carrier 14 by means of an inner ring 24 is mounted, which is divided in the middle and from the two ring halves 24a . 24b consists. The inner ring 24 is made of bearing steel and has a hardened tete running surface for the rolling elements of the crossed roller bearing 23 on. The crossed roller bearing 23 has no outer ring, but two radially outer treads 25 that in the housing 18 are incorporated - the material for the housing 18 is therefore to be chosen so that the treads 25 are hardenable for the rolling elements. The axial fixation of the cross roller bearing 23 on the planet carrier 14 takes place via the inner ring 24 that is on the one hand on a covenant 26 of the planet carrier 14 supports and on the other hand via one on the planet carrier 14 attached holding body 27 , the multiple pressure fingers distributed over the circumference 27a having. The holding body 27 with his pressure fingers 27a is elastic, ie it can become loose when the inner ring is tightened 24 over the pressure fingers 27a deform elastically and thus compensate for any manufacturing tolerances. This is the crossed roller bearing 23 on the planet carrier 14 axially fixed and adjusted with regard to its bearing play. The attachment of the holding body 27 on the planet carrier 14 is done by individual screws distributed over the circumference 28 ,

2 shows a further embodiment for the arrangement and axial fixation of a cross roller bearing 30 for the same planetary gear 1 , as in 1 shown. On the planet carrier 14 ' is again a split inner ring 31 mounted, the two ring halves 31a and 31b having. The inner ring shown in the drawing on the left 31a is based on the federal government 26 ' of the planet carrier 14 ' from, while the ring half shown in the drawing on the right 31b over one in the planet carrier 14 ' screwed, inclined set screw 32 is supported. The grub screw 32 , several of which span the circumference of the planet carrier 14 are distributed, has an angle α in the drawing or axial plane which is approximately 25 °. An outer threaded section 32a is in a corresponding threaded hole 33 in the planet carrier 14 ' screwed in, and a support surface 32b , ie the face of the grub screw 32 presses on the inner ring half 31b that have a chamfer, ie an inclined surface 31c has the inclination of the support surface 32b equivalent. The inner ring 31 can thus via the grub screw 32 axially fixed, and the bearing play of the cross roller bearing 30 can be done by adjusting the grub screw 32 in the thread 33 can be set, whereby by the inclined arrangement of the grub screw 32 also gives a radial component.

3 shows for the same planetary gear 1 , as described above, a further embodiment for an arrangement and axial fixation of a cross roller bearing 34 with a split inner ring 35 from the two halves of the ring 35a and 35b consists. The axial fixation of the outer inner ring 35b is done here via an angled pin 36 that has an inclined end 36a which on the inner ring 35b presses, and an axially parallel end 36b which has a thread 37 in the planet carrier 14 '' is tense. The inner ring half 35b has - similar to the embodiment according to 2 - also a bevel 38 for a plane-parallel support of the end of the pen 36a on.

1

planetary gear

2

input shaft

3

serration

4

sun

5

camp

6

step gear

7

axis

8th

step planet

9

camp

10

step gear

11

Deep groove ball bearings

12

planet

14

planet carrier

14 '

planet carrier

14 ''

planet carrier

16

ring gear

17

centering

18

casing

19

flange

20

flange

22

recess

23

Crossed roller bearings

24

inner ring

24a

ring half

24b

ring half

25

treads

26

Federation

26 '

Federation

26 ''

Federation

27

holding body

27a

pressure fingers

28

screw

30

Crossed roller bearings

31

inner ring

31a

ring halves

31b

ring halves

31c

chamfer

32

Set screw

32a

threaded portion

32b

supporting

34

Crossed roller bearings

35

inner ring

35a

ring half

35b

ring half

36

pen

36a

inclined The End

36b

paraxial The End

37

thread

38

chamfer

Claims (7)

Planetary gear ( 1 ) with a sun gear that can be driven by a drive motor ( 4 ), one with a housing ( 18 ) connected ring gear ( 16 ), a group of first planets ( 12 ) and a group of second planets ( 8th ), - where all planets ( 8th . 12 ) in a common planet carrier ( 14 ) are stored, the second planets ( 8th ) as step planters with small ( 10 ) and large step wheels ( 6 ) and the large step wheels ( 6 ) the stepped planet ( 8th ) with the sun gear ( 4 ) are engaged, - whereby each of the first planets ( 12 ) has a toothing which is simultaneously with the ring gear ( 16 ) and a small step wheel ( 10 ) a stepped planet ( 8th ) is engaged and - the planet carrier ( 14 . 14 ' . 14 '' ) compared to the housing ( 18 ) via a crossed roller bearing ( 23 . 30 . 34 ) is mounted, which one on the planet carrier ( 14 . 14 ' . 14 '' ) arranged split inner ring ( 24 . 31 . 35 ) having. Planetary gear according to claim 1, characterized in that the inner ring ( 24 . 31 . 34 ) is divided in a radial plane that is between the center planes of the ring gear ( 16 ) and the sun gear ( 4 ) is arranged. Planetary gear according to claim 1 or 2, characterized in that the raceways ( 25 ). for the crossed roller bearing ( 23 ) in the housing ( 18 ) are incorporated. Planetary gear according to claim 1, 2 or 3, characterized in that the inner ring ( 24a . 31a . 35a ) over a bundle ( 26 . 26 ' . 26 '' ) of the planet carrier ( 14 . 14 ' . 14 '' ) and via clamping devices, ( 27 . 32 . 36 ) located on the planet carrier ( 14 . 14 ' . 14 '' ) is axially fixed. Planetary gear according to claim 4, characterized in that the clamping means as an elastic retaining ring ( 27 ) with pressure fingers ( 27a ) are formed, the retaining ring ( 27 ) on the planet carrier ( 14 ) and the pressure fingers ( 27a ) on the inner ring ( 24b ) support. Planetary gear according to claim 4, characterized in that the clamping means as threaded pins ( 32 ) with longitudinal axes inclined at an angle α ( 32c ) are trained. Planet carrier according to claim 6, characterized in that the inner ring ( 31b ) on the federal ( 26 ' ) facing away from a support surface designed as a chamfer ( 31c ) which is approximately perpendicular to the longitudinal axis ( 32c ) of the grub screw ( 32 ) is arranged.