DE102017010615A1 - Planet carrier for a planetary gear, in particular a motor vehicle - Google Patents

Abstract

The invention relates to a planetary carrier (10) for a planetary gear, with a plurality of Planetenradachsen (12) on which respective planetary gears (16) are rotatably mounted, with a Planetenradachsen common (12) support member (22), and with a Planetenradachsen (12) common fuse element (24), by means of which the Planetenradachsen (12) in the axial direction of Planetenradachsen (12) on the carrier element (22) and against rotation about the respective axial direction of the respective Planetenradachse (12) relative to the carrier element (22) are secured, wherein the Planetenradachsen (12) each have at least one oil-permeable channel (36) which is at least partially covered in the axial direction by the securing element (24).

Description

The invention relates to a planet carrier for a planetary gear, in particular a motor vehicle, according to the preamble of claim 1.

Such a planet carrier for a planetary gear, in particular a motor vehicle, is also referred to as a planetary gear and is for example already the DE 102 36 753 A1 as well as the EP 0 274 874 A2 to be known as known. The planet carrier comprises a plurality of Planetenradachsen, to which respective planetary gears are to be stored rotatably. In addition, the planet carrier comprises a planetary gear common carrier element and a Planetenradachsen common fuse element, by means of which the Planetenradachsen are secured in the axial direction of the Planetenradachsen on the support element. In addition, the Planetenradachsen are secured by means of the securing element against rotation about the respective axial direction of the respective Planetenradachse relative to the carrier element, so that the respective Planetenradachse can not rotate about their respective axial direction relative to the carrier element and thus in particular not relative to the securing element.

Object of the present invention is to develop a planet carrier of the type mentioned in such a way that in a particularly simple manner, a particularly efficient operation can be realized.

This object is achieved by a planet carrier with the features of claim 1. Advantageous embodiments with expedient developments of the invention are specified in the remaining claims.

In order to further develop a planet carrier specified in the preamble of claim 1 type such that in a particularly simple manner a particularly efficient operation can be realized, it is inventively provided that the Planetenradachsen each have at least one oil-permeable channel, which in the axial direction of the respective Planetenradachse at least partially covered by the securing element and thereby closed, for example. In particular, for example, an opening of the respective channel and thus the respective Planetenradachse in the axial direction at least partially, in particular at least predominantly or completely, covered by the securing element and thus closed, the opening itself, that is considered in itself and especially if the Opening is not closed by the securing element in the axial direction, in the axial direction of the oil can be flowed through. However, since the opening now, for example, at least partially, in particular completely, covered by the securing element in the axial direction and thus closed, in the finished state of the planet carrier no oil in the axial direction can flow through the opening more.

It has been found to be particularly advantageous that the securing element, the opening or the respective channel in the axial direction at least partially, in particular completely closes and with a respective wall of the respective Planetenradachse one of the oil in the radial direction of the respective Planetenradachse durchströmbare and in the limited respective channel opening flow opening. By way of example, the oil can flow into the channel in the radial direction, in particular from the inside to the outside, or flow out of the channel in the radial direction, in particular from outside to inside, so that a particularly advantageous oil guide can be realized in a simple manner.

Overall, it can be seen that the fuse element in the planet carrier according to the invention has at least a triple function. First, the securing element is used as the planetary gear axes common and thus central securing element to secure the Planetenradachsen in the axial direction of the respective Planetenradachse on the support element. Second, the securing element is used to secure the Planetenradachsen against rotation about the respective axial direction of the respective Planetenradachse relative to the carrier element and in particular relative to the securing element. Third, the securing element is used to guide the oil used as a lubricant and to realize a particularly advantageous oil guide, so that, for example, respective bearings on which the respective planet gears are rotatably mounted on the respective Planetenradachsen, particularly advantageous with the oil to be able to supply. As a result, a particularly low-friction and therefore more efficient, that is low-energy, operation of the planetary gear can be ensured. Since the fuse element is thus used both for securing the Planetenradachsen and to realize an advantageous oil guide, the number of parts and thus the cost, weight and space requirements of the planet carrier and thus the planetary gear can be kept very low overall. For oil supply no additional components must be used or the number of additional components for the realization of an advantageous oil guide can be kept particularly low, since the realization of the oil guide anyway used components coming in particular in the form of Planetenradachsen and the fuse element can be used.

Securing the respective Planetenradachse against rotation about the respective axial direction of the respective Planetenradachse relative to the support member is also referred to as radial securing the respective Planetenradachse. In this case, the invention is based on the finding that usually for the radial and axial securing of Planetenradachsen a plurality of screws, in particular in the form of grub screws is used. Here, during assembly, the respective, also referred to as the planetary axis Planetenradachse must be accurately positioned so that the respective screw finds a corresponding hole in the respective planetary axis. In addition, in the planetary axis, the corresponding hole, in particular depending on the design, optionally be provided with a thread and be provided at all.

Another way to secure the Planetenradachsen is caulking. In this case, the respective planetary axis has at its two ends a collar, which receives by forming a sufficient non-positive and / or positive connection with the carrier element. By this transformation, the planetary axis is caulked with the support element. Again, however, the planetary axis must be processed accordingly complicated. A subsequent, non-destructive disassembly is not possible.

Since in the planet carrier according to the invention, the planetary axes common fuse element is used, the Planetenradachsen can be easily and thus inexpensively secured to the support member. In particular, the Planetenradachsen can be reversibly releasably secured to the support member and thus easily replaced, for example. Furthermore, usually come to realize a sufficient oil supply of Planetenradachsen additionally shaped components used, which can now also be avoided.

The respective channel is formed, for example, as a bore, in particular as a central bore. Usually, the hole for the realization of a manufacturability must be consistent. However, if in the finished state of the planet carrier such a continuity of the bore is undesirable, the bore is subsequently closed, for example by means of a ball and / or it is pressed a collar, so that the oil can not run out of the bore directly. Thus, costly additional components and / or processing steps are required, but this can now be avoided in the planet carrier according to the invention.

By using the securing element to realize an advantageous oil guide, for example, the channel formed as a bore can be made cylindrical. Further, it is possible to design the respective channel as a blind hole, so that the channel or the bore is not necessarily designed to be continuous in the axial direction of the respective Planetenradachse and thus completely penetrate the respective Planetenradachse. As a result, additional components and additional processing steps can be avoided, so that the cost of the planet carrier can be kept in a very small frame.

The securing element may be formed, for example, as a securing ring or lock washer, which is secured, for example against rotation relative to the support member about the axial direction of the planet carrier. In particular, it is conceivable that the securing element, in particular by means of at least one or more screws, is connected to the carrier element.

In order to keep the number of parts particularly low while avoiding the Planetenradachsen in a particularly simple manner against rotation about the respective axial direction of the respective Planetenradachse relative to the support element, it is provided in a further embodiment of the invention that the securing element in respective grooves of the respective Planetenradachsen engages.

The planet carrier according to the invention allows a particularly simple assembly and a particularly simple geometry of the planetary axes, so that they can be carried out easily and inexpensively. In addition, a particularly advantageous and in particular simple oil guide in the respective planetary axis is possible, so that the aforementioned bearing can be particularly advantageous supplied with a sufficient amount of oil and thus lubricated particularly advantageous. Furthermore, the number of parts of the planet carrier can be kept particularly low, at the same time a reversible and thus destructive disassembly capability of Planetenradachsen is displayed.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and from the drawing. The features and feature combinations mentioned above in the description as well as those mentioned below in the description of the figures and / or in the figures features and combinations of features shown alone are usable not only in the combination specified, but also in other combinations or alone, without departing from the scope of the invention.

• 1 eine schematische und geschnittene Seitenansicht eines erfindungsgemäßen Planetenträgers gemäß einer ersten Ausführungsform;
• 2 eine schematische Perspektivansicht einer Planetenachseneinrichtung des Planetenträgers gemäß der ersten Ausführungsform;
• 3 eine schematische und geschnittene Seitenansicht des Planetenträgers gemäß einer zweiten Ausführungsform; und
• 4 eine schematische Perspektivansicht der Planetenachseneinrichtung gemäß der zweiten Ausführungsform.

The drawing shows in:

• 1 a schematic and sectional side view of a planet carrier according to the invention according to a first embodiment;
• 2 a schematic perspective view of a planetary axis device of the planet carrier according to the first embodiment;
• 3 a schematic and sectional side view of the planet carrier according to a second embodiment; and
• 4 a schematic perspective view of the planetary axle device according to the second embodiment.

In the figures, the same or functionally identical elements are provided with the same reference numerals.

1 shows a schematic and sectional side view of a planet carrier 10 for a planetary gear, in particular a motor vehicle. The planet carrier 10 is also referred to as a planetary gear and is used for example in a transmission of a drive train of the motor vehicle. The planet carrier 10 has a plurality of Planetenradachsen 12 on, how particularly good in conjunction with 2 is recognizable. Show 1 and 2 a first embodiment of the planet carrier 10 , Out 2 It can be seen that the Planetenradachsen also called planetary axes 12 Components of a Planetenradachseneinrichtung 14 are.

At the planetary axles 12 is in each case at least one planetary gear 16 the planetary gear rotatably store or stored, so that the respective planet gear 16 about a respective axis of rotation 18 relative to the respective Planetenradachse 12 can rotate when the respective planetary gear 16 at the respective Planetenradachse 12 is stored. The respective axis of rotation 18 coincides with the respective axial direction of the respective Planetenradachse 12 together so that the respective planetary gear 16 about the axial direction of the respective Planetenradachse 12 is rotatable relative to this. Especially good 1 is recognizable that the respective planetary gear 16 about at least one respective camp 20 rotatably on the respective Planetenradachse 12 is stored. The warehouse 20 For example, a rolling bearing to realize a particularly low-friction storage can.

The planet carrier 10 also includes a Planetenradachsen 12 common carrier element 22 , where - as will be explained in more detail below - the Planetenradachsen 12 on the carrier element 22 are held. Thus, the planetary gears 16 around their respective axes of rotation 18 and thus about the respective axial direction of the respective Planetenradachse 12 relative to the carrier element 22 rotatable. In addition, the planet carrier includes 10 one the planetary axles 12 common and thus central security element 24 which is formed in the first embodiment as a retaining ring.

In finished manufactured state of the planetary gear is the planet carrier 10 for example, a rotation axis which is also referred to as the main axis of rotation 26 rotatable relative to a housing of the planetary gear, wherein the securing element 24 coaxial with the axis of rotation 26 is arranged. The planet carrier 10 is for example about at least one particular designed as a rolling bearing 28 rotatable on at least one component 30 stored the planetary gear, so that in particular when the planet carrier 10 is driven, that is, when torques on the planet carrier 10 be transferred to the planet carrier 10 about the axis of rotation 26 relative to the device 30 rotates. Is this the camp 28 designed as a rolling bearing, so a particularly low-friction storage can be realized.

Especially good 1 and 2 it can be seen that the planetary gear axes 12 by means of the planetary gear axes 12 common fuse element 24 in the axial direction of the respective Planetenradachsen 12 on the carrier element 22 secured, in particular fixed, are. In addition, the Planetenradachsen 12 by means of the planetary gear axes 12 common fuse element 24 against rotation about the respective axial direction of the respective Planetenradachse 12 relative to the carrier element 22 secured. In other words, the fuse element prevents 24 that the Planetenradachsen 12 around the respective axial directions of the respective Planetenradachsen 12 relative to the carrier element 22 and in particular relative to the securing element 24 can turn. This allows the planetary gears 16 rotatably defined on the Planetenradachsen 12 be stored.

How very good 1 is recognizable, has the respective Planetenradachse 12 a groove 32 on, in which the fuse element 24 intervenes. The respective planet wheel axle 12 thus acts positively with the securing element 24 together so that the respective Planetenradachse 12 by means of the securing element 24 against rotation about the axial direction of the respective Planetenradachse 12 relative to the support member 22 and relative to the securing element 24 is secured. In addition, by the positive cooperation of the Planetenradachse 12 with the securing element 24, the respective Planetenradachse 12 in its axial direction on the securing element 24 secured. Around the planetary axle 12 over the fuse element 24 in the axial direction on the carrier element 22 Secure is the security element 24 , in particular in the axial direction, in the radial direction and in the circumferential direction of the carrier element 22 held on this. For this purpose, for example, a screw designed as a grub screw 34 for use, by means of which the securing element 24 on the carrier element 22 is attached. For example, the fuse element is 24 by means of the screw 34 in the axial direction and in the radial direction on the carrier element 22 secured. In addition, for example, prevents the screw 34 that the fuse element 24 about the axis of rotation 26 and thus about the axial direction of the support element 22 can rotate relative to this.

In order to realize a particularly efficient operation in a particularly simple manner, the respective Planetenradachse 12 at least one channel through which oil can flow 36 on, which at least a first length range 38 and at least a second length range 40 having. The length ranges 38 and 40 are fluidly connected to each other, so that, for example, the oil out of the length range and in the length range 40 can flow in. In particular, the channel comprises 36 for example, several, in the circumferential direction of the respective Planetenradachse 12 successive and spaced apart second Längenberieche 40 , Especially good 1 It can be seen that the length region 38 in the axial direction of the respective Planetenradachse 12 extends while the respective length range 40 obliquely or perpendicular to the axial direction of the respective Planetenradachse 12 extends. In the first embodiment, the respective length range runs 40 at least substantially in the radial direction of the respective Planetenradachse 12 , The channel 36 and thus the length ranges 38 and 40 are, for example, as holes in the planetary gear 12 educated.

The respective channel 36 itself has a particular acting as an inflow opening 42 on, which, for example, viewed in itself can be flowed through in the axial direction of the oil or could. However, this is the opening 42 in the axial direction of the respective Planetenradachse 12 at least partially, in particular at least predominantly or completely, by the securing element 24 covered and thus closed, so that the respective flowed through by the oil channel 36 in the axial direction of the respective Planetenradachse 12 at least partially, in particular at least predominantly or completely, by the securing element 24 covered and thus closed. This limit the fuse element 24 and a respective wall 44 the respective planetary gear axis 12 a respective, of the oil in the radial direction of the respective Planetenradachse 12 streamable and into the canal 36 opening flow opening 46 , about which, for example, the oil in the radial direction of the planet carrier 10 from the inside out into the canal 36 can flow in. This in the manner described in the channel 36 Initiated oil can first of all the length range 38 flow through and from the length range 38 reach the length range 40. The oil can then change the length range 40 flow through and is by means of the length range 40 , which on the one hand in the length range 38 and on the other hand to an environment of the respective Planetenradachse 12 flows through, so that the channel 36 flowing oil to the camp 20 to be led. That way, the bearing can 20 supplied with the oil and thereby lubricated by means of the oil, so that a particularly low-friction and consequently efficient operation can be realized. Overall, it can be seen that for guiding the oil anyway coming to use components such as Planetenradachsen 12 and the fuse element 24 can be used, so that a particularly advantageous oil guide with only a small number of parts and thus can represent in terms of weight, cost and space. At the same time, a supply of the respective camp 20 be ensured with a sufficient amount of oil. Another advantage is that the Planetenradachsen 12 by means of the securing element 24 reversibly detachable and thus non-destructive on the support element 22 are secured so that the Planetenradachsen 12 for example, non-destructive of the support element 22 and of the fuse element 24 can be solved and replaced, for example.

3 and 4 illustrate a second embodiment in which the securing element 24 for example, is designed as a lock washer. It is also in 3 a sun wheel 47 the planetary gear recognizable, the sun gear 47 with the planet wheels 16 combs. Furthermore, it is off 3 a ring gear 48 of the planetary gear can be seen, wherein the ring gear 48 with the planet wheels 16 combs. Out 4 is recognizable that the planet carrier 10 or the Planetenradachseneinrichtung 14 several screws 50 by means of which, for example, the securing element 24 on the carrier element 22 secured, in particular set, is. For this purpose, for example, penetrates the respective screw 50 a corresponding passage opening of the securing element 24 and is in one corresponding threaded hole of the support element 22 screwed.

LIST OF REFERENCE NUMBERS

10

planet carrier

12

pinion shaft

14

Planetenradachseneinrichtung

16

planet

18

axis of rotation

20

camp

22

support element

24

fuse element

26

axis of rotation

28

camp

30

module

32

groove

34

screw

36

channel

38

length range

40

length range

42

opening

44

wall

46

flow-through

47

sun

48

ring gear

50

screw

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

• DE 10236753 A1 [0002]
• EP 0274874 A2 [0002]

Claims (5)

A planetary carrier (10) for a planetary gear having a plurality of planetary gears (12) to which respective planetary gears (16) are to be rotatably mounted, a carrier element (22) common to the planetary gear axes, and a planetary gear (12) common securing element (24), by means of which the Planetenradachsen (12) in the axial direction of Planetenradachsen (12) on the support element (22) and against rotation about the respective axial direction of the respective Planetenradachse (12) relative to the support member (22) secured are, characterized in that the Planetenradachsen (12) in each case at least one oil-flow channel (36), which is at least partially covered in the axial direction by the securing element (24). Planet carrier (10) after Claim 1 , characterized in that the securing element (24) the respective channel (36) in the axial direction at least partially closes and with a respective wall (44) of the respective Planetenradachse (12) one of the oil in the radial direction of the respective Planetenradachse (12) durchströmbare and in the respective channel (36) opening out flow opening (46) limited. Planet carrier (10) after Claim 1 or 2 , characterized in that the respective channel (36) is formed as a blind hole. Planet carrier (10) according to any one of the preceding claims, characterized in that the securing element (24) is formed as a disc or ring. Planet carrier (10) according to any one of the preceding claims, characterized in that the securing element (24) engages in respective grooves (32) of the respective Planetenradachsen (12).

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