DE102012214770A1 - Insert shaft system for use in spur gear differential, has sleeve shaft stump inserted into inner side of shaft for transferring rotational torque, and partial axially extending eccentric oil passage provided in sleeve shaft stump - Google Patents

Abstract

The system (1) has a sleeve shaft stump (2) i.e. sun wheel, inserted into an inner side of a shaft (3) for transferring rotational torque. A partial axially extending eccentric oil passage (18) is provided in the sleeve shaft stump. The oil passage is reciprocally arranged around a rotational axis and comprises an oil outlet aperture that is formed at a front side of the sleeve shaft stump. The oil passage is connected with an oil groove (20) over a radially aligned communicating passage (19), where the oil groove is formed at an external peripheral part of the sleeve shaft stump.

Description

Field of the invention

The invention relates to a plug-in shaft system, with a hollow shaft stub, in the interior of which a shaft is transmitting torque.

From the state of the art, about the US 5989143 a differential arrangement with lubrication supply lines is known. A hollow shaft with oil channels is also from the EP 0362043 A1 known. Lubricating devices for transmission are further from the EP 1 031 766 B1 and the DE 600 01 123 T2 known. Transmission and oil supply mechanisms for a power transmission device are also known from the documents DE 10 2006 000 080 A1 and DE 10 2009 055 005 A1 known.

However, the known systems have disadvantages in the utilization of space, in ease of installation, in cost efficiency and in the achieved sealing effect.

It is necessary to solve the disadvantages of the prior art with the aid of the invention presented below.

Disclosure of the invention

This object is achieved in a generic plug-shaft system according to the invention that at least one at least partially axially extending eccentric oil passage is present in the hollow shaft stub.

Advantageous embodiments are claimed in the subclaims and are explained in more detail below.

Thus, it is advantageous if the Ölleitkappe is mounted encompassing in the hollow shaft stub or the hollow shaft stub. In this way, on the one hand a very compact design can be realized and on the other hand a particularly easy to install unit can be made available.

It is also advantageous if a Ölleitkappe axially spaced from the Abdichtkappe, forming a Ölleitraum, is attached to the end face of the hollow shaft stub.

To achieve a particularly good lubrication, it is advantageous if at least one oil channel opens into the Ölleitraum or open a plurality of preferably parallel oil channels.

It is also advantageous if the Ölleitkappe has a funnel-like depression, which is preferably arranged centrally. In this way, oil can be easily fed to another hollow shaft, especially when the funnel-like depression opens into a tube which is inserted in the other hollow shaft.

The fluid guide is also simplified when the recess opens into an oil outlet.

It is also expedient if the Ölleitraum is formed as a gap, in particular as an annular gap, which is preferably produced by spacer elements which are axially inserted in the direction of the end face of the hollow shaft stub.

As particularly durable and durable, it has been found when the Ölleitkappe is made of a metal material, such as steel.

Further, it is advantageous if the hollow shaft stub and the shaft, which is preferably designed as a solid shaft, via a toothing positively and / or non-positively connected to each other. In this way, a torque transmission can be easily realized and also a mounting can be simplified.

The applications increase when the hollow shaft stump is part of a sun gear by the shaft is accommodated in the manner of a sun wave.

The invention also relates to a differential, such as a spur gear, with a plug-in shaft system of the expression according to the invention, preferably two sun gears are used.

It is also advantageous if in the region of the end face of the oil passage, a recess aligned in this direction in the oil cap is present, or the oil cap has at least three evenly distributed on its inner side projections, so that a distance between the end of the oil passage and the Oil cap is present. This distance can then be used to achieve a particularly efficient oil line. A blunt placement of the Ölleitkappe and concomitant sealing of the oil passages is prevented.

It is also expedient if in the hollow shaft stub at least one at least partially axially extending eccentric oil passage is present.

It is also advantageous if two or more oil channels are arranged on both sides of a rotation axis. The production can be simplified and improve the lubrication behavior of the plug-in shaft system.

It is also advantageous if the oil channel has an oil outlet opening on the end face of the hollow stub shaft. The oil discharge from the oil channel is thereby efficiently possible.

An advantageous embodiment is also characterized in that the oil passage communicates via a radially aligned connecting channel with a groove formed on the outer circumference of the hollow shaft stub oil groove. Oil can then be simply routed through the oil groove to the connecting channel and further to the oil outlet opening of the oil channel, so that oil gets into the gap between the sealing cap and the Ölleitkappe. The oil can then be passed through the Ölauslassöffnung the Ölleitkappe in the interior of another hollow shaft.

In order to facilitate efficient oil guidance, it is advantageous if the oil groove is aligned in the axial direction.

It is also advantageous if the hollow shaft stump is designed as a sun gear with an external toothing. In this way, a planetary gear can be realized and thereby also a planetary gear.

In order to prevent falling apart of the items, it is advantageous if the shaft is axially fixed in the hollow shaft stub via a snap ring.

The production can be simplified if the oil passage and the connecting channel are formed as mutually perpendicular holes.

Further, it is advantageous if the oil passages are evenly spaced around the axis of rotation of the hollow shaft stub and to her.

The invention thus relates to a plug-in shaft system and in particular also a plug connection between a sun shaft and the sun gear seated thereon. It also relates to a differential with two sun gears or a transfer case with a sun gear and another central shaft, such as a sun gear, a planet carrier or a ring gear.

The Ölleitkappe, which could also be referred to as cap, frontally covers a stub shaft. The stub shaft is hollow and provided in its cylindrical wall with parallel oil passages. The oil channels open into a gap between the cap, so the Ölleitkappe and the end face of the hollow shaft stub. In this case, a gap is generated by spacer elements, which are passed through axially in the direction of the end face of the stub shaft.

In other words, the Ölleitkappe covered the hollow shaft stub, which is provided with at least one oil passage. The oil channel opens into the Ölleitkappe. The Ölleitkappe that stuck in the stub shaft or can sit on this, runs funnel-like. The tube of the funnel engages in an oil passage of the stub shaft of an axially opposite shaft or in a tube which sits in the opposite shaft. The waves are rotatable against each other.

The invention can also be characterized by the fact that in a device with a hollow shaft or a hollow shaft section another shaft is seated in the hollow shaft or a shaft section in the hollow shaft section. An annular gap between the hollow shafts or hollow shaft sections is axially closed with a cap which sits on the end face of both shafts or shaft sections in the hollow shaft or in the hollow shaft section. Furthermore sits on the hollow shaft or the hollow shaft section another cap with at least one "funnel opening". The further cap collects oil emerging from at least one lubrication channel of the hollow shaft and supplies it to the further system via the funnel opening.

The invention will be explained in more detail below with the aid of a drawing, which reproduce different embodiments. Show it:

1 a first embodiment of a plug-in shaft system in a longitudinal sectional view along an axis of rotation of the hollow shaft stub,

2 a further longitudinal sectional view of a plug-in shaft system according to the invention,

3 a further sectional view of a plug-in shaft system of 1 and 2 used Ölleitkappe,

4 another illustration of the Ölleitkappe 3 .

5 a view from the hollow shaft end of the Ölleitkappe on this,

6 a view of the Ölleitkappe from the side of the hollow shaft stub,

7 an enlarged view of an end face of the hollow shaft stump with attached Ölleitkappe the 3 to 6 .

8th a further longitudinal sectional view of the plug-in shaft system of 1 . 2 and 7 with oil grooves on the outside of the hollow shaft stub,

9 an embodiment of the hollow shaft stump of the embodiments of the 1 . 2 . 7 and 8th as sun wheel in a perspective view predominantly viewed from a Ölleitkappenfernen side, and

10 the sun gear off 9 seen from a Ölleitkappenseite.

The figures are merely schematic in nature and are only for the understanding of the invention. The same elements are provided with the same reference numerals.

In 1 is a first embodiment of a plug-in shaft system according to the invention 1 shown. The plug-in shaft system 1 has a hollow shaft stub 2 on. Inside the hollow shaft stump 2 is a shaft designed as a solid shaft 3 used.

A sealing cap 4 is at a frontal end 5 of the hollow shaft stump 2 appropriate. The sealing cap 4 has an end flange 6 on, the sealing on an inside 7 of the hollow shaft stump 2 is applied. A frontal end 8th the sealing cap 4 is axially within the hollow shaft stub 2 arranged or at least flush with the front end 5 of the hollow shaft stump 2 aligned.

Axial to the sealing cap 4 spaced is a Ölleitkappe 9 educated. The oil cap 9 and the sealing cap 4 form an oil conduit 10 out. The oil cap 9 also has a funnel-like depression 11 on which into an oil outlet 12 passes.

The oil cap 9 stuck in a tube 13 , which in turn is in a hollow shaft 14 inserted, which in turn is rotatable, in particular relative to the hollow shaft stub 2 ,

On the outside of the shaft 3 and the inside of the hollow shaft stub 2 is a toothing, designed in the manner of a spline. The hollow shaft stump 2 and the wave 3 are formed complementary to each other.

At the same axial location, the two elements each have a groove 15 on, in which a fuse element 16 , in the style of a snap ring 17 is available. About the snap ring 17 becomes the wave 3 relative to the hollow shaft stub 2 fixed in the axial direction.

In the hollow shaft stump 2 are oil channels 18 educated. The oil channel 18 is via a radially aligned connecting channel 19 with an oil groove 20 connected.

The oil groove 20 is at a front end remote area of the hollow shaft stub 2 formed, namely on the outside, the oil groove 20 is aligned in the axial direction.

The oil cap 9 is made of steel. The sealing cap 4 is also made of steel, but can also be made of plastic. It is also possible that the Ölleitkappe 9 made of plastic. Light metal alloys are also possible for both components.

In 2 It is good to see that the oil ducts 18 on both sides of a rotation axis 21 are formed, and run parallel to it. The hollow shaft stump 2 is designed as a sun gear. The front end of the shaft 3 is with the reference numeral 22 Mistake.

As in the 3 to 6 can be seen, the Ölleitkappe 9 a funnel-like depression 11 on that into the oil outlet 12 passes.

On the inside of the oil cap 9 are in three places protrusions 23 designed to make a plane fitting the Ölleitkappe 9 at the front ends of the oil channels 18 to prevent.

The oil cap 9 has a flange area 24 on, the front end 5 of the hollow shaft stump 2 encompasses and with a press fit on the outside of the hollow shaft stub 2 is applied.

It should also be mentioned that instead of the projections 23 , Also recesses may be formed in the material of Ölleitkappe, or a combination of recesses and protrusions 23 can be used.

The oil cap 9 is subject to play within the tube 13 but with the tube 13 in the hollow shaft 14 is pressed.

In 8th is the inflow of oil through the oil groove 20 in the connection channel 19 and then into the oil channel 18 good to open, in which case the oil in the funnel-like depression 11 in the oil cap 9 So in the Ölleitraum 10 , penetrates.

As in the 9 and 10 is clearly visible, the hollow shaft stump 2 , in the manner of a sun gear, on the outside an external toothing 25 on.

An oil is understood here to mean a hydraulic agent, which is a fluid. Engine oil, hydraulic oil and similar oils are to be subsumed under this.

LIST OF REFERENCE NUMBERS

1

 Stub shaft system

2

 Hollow shaft end

3

 wave

4

 sealing cap

5

 frontal end of the hollow shaft stub

6

 end flange

7

 inside

8th

 frontal end of the sealing cap

9

 Ölleitkappe

10

 Ölleitraum

11

 funnel-like depression

12

 oil outlet

13

 tube

14

 hollow shaft

15

 groove

16

 fuse element

17

 snap ring

18

 oil passage

19

 connecting channel

20

 oil groove

21

 axis of rotation

22

 frontal end of the shaft

23

 head Start

24

 flange

25

 external teeth

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 5989143 [0002]
• EP 0362043 A1 [0002]
• EP 1031766 B1 [0002]
• DE 60001123 T2 [0002]
• DE 102006000080 A1 [0002]
• DE 102009055005 A1 [0002]

Claims (10)

Plug-in shaft system ( 1 ) with a hollow shaft stump ( 2 ) in the interior of which a wave ( 3 ) transmitting torque, characterized in that in the hollow shaft stub ( 2 ) at least one at least partially axially extending eccentric oil passage ( 18 ) is available. Plug-in shaft system ( 1 ) according to claim 1, characterized in that two or more oil channels ( 18 ) on both sides of a rotation axis ( 21 ) are arranged. Plug-in shaft system ( 1 ) according to one of claims 1 or 2, characterized in that the oil channel ( 18 ) frontally on the hollow shaft stump ( 2 ) has an oil outlet opening. Plug-in shaft system ( 1 ) according to one of claims 1 to 3, characterized in that the oil channel ( 18 ) via a radially aligned connecting channel ( 19 ) with a on the outer circumference of the hollow shaft stub ( 2 ) formed oil groove ( 20 ). Plug-in shaft system ( 1 ) according to claim 4, characterized in that the oil groove ( 18 ) is aligned in the axial direction. Plug-in shaft system ( 1 ) according to one of claims 1 to 5, characterized in that the hollow shaft stump ( 2 ) is designed as a sun gear with external teeth. Plug-in shaft system ( 1 ) according to one of claims 1 to 6, characterized in that the shaft ( 3 ) in the hollow shaft stump ( 2 ) via a snap ring ( 17 ) is axially fixed. Plug-in shaft system ( 1 ) according to one of claims 4 to 7, characterized in that the oil channel ( 18 ) and the connection channel ( 19 ) are formed as mutually perpendicular holes. Plug-in shaft system ( 1 ) according to one of claims 2 to 8, characterized in that the oil passages ( 18 ) evenly in the axis of rotation ( 21 ) of the hollow shaft stump ( 2 ) and are equally spaced therefrom. Differential, such as a spur gear differential, with a plug-in shaft system ( 1 ) according to one of claims 1 to 9, wherein preferably two sun gears are used.

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