DE102018120930A1 - Planetary gear with a planet carrier, planetary gears, planet pins and with a lubricator - Google Patents

Abstract

The invention relates to a planetary gear (1) with a planet carrier (4), planet wheels (5), planet pins (3) and with a lubricating device, the planetary gear (1) having the features:
- The respective planet pins (3) is received on the planet carrier (4), wherein in each case a planet pin (3) is mounted at least at a bearing point (41) in the planet carrier (4),
- At least one of the planet gears (5) on a support surface (2) of a planetary bolt (3) is mounted,
the lubricating device is formed by at least one channel-like lubricant supply (14) formed in the planet carrier (4), a sleeve (15), at least one inlet channel (16, 17) and at least one outlet channel (18),
- The planetary pin (3) has an axially extending pin axis (10) and the inside with a along a pin axis (10) extending hole (19) and each with the respectively in the hole (19) leading inlet channel (16, 17) as is also provided from the hole (19) leading to the support surface (2) outlet channel (18),
the sleeve (15) is seated in the hole (19),
- The lubricant supply (14) is permeable connected to an inlet channel (17).

Description

Field of the invention

• - der jeweilige Planetenbolzen ist an dem Planetenträger aufgenommen, wobei jeweils ein Planetenbolzen zumindest an einer Lagerstelle in dem Planetenträger gelagert ist,
• - mindestens eines der Planetenräder ist auf einer Trägerfläche eines Planetenbolzens gelagert,
• - die Schmiervorrichtung ist durch wenigstens eine in dem Planetenträger ausgebildete kanalartige Schmiermittelzuführung, aus einer Hülse, wenigstens einem Einlasskanal und wenigstens einem Auslasskanal gebildet,
• - der Planetenbolzen weist eine sich axial erstreckende Bolzenachse auf und ist innenseitig mit einem sich entlang einer Bolzenachse erstreckenden Loch sowie jeweils mit dem jeweils in das Loch führenden Einlasskanal als auch aus dem Loch zur Trägerfläche führenden Auslasskanal versehen,
• - die Hülse sitzt in dem Loch.

Planetary gear with a planetary carrier, planetary gears, planetary pins and with a lubricating device, the planetary gear with the features:

• - The respective planet pins is accommodated on the planet carrier, wherein in each case a planet pin is mounted at least at a bearing point in the planet carrier,
• at least one of the planet wheels is mounted on a carrier surface of a planetary pin,
• the lubricating device is formed by at least one channel-like lubricant supply formed in the planet carrier, a sleeve, at least one inlet channel and at least one outlet channel,
• the planet pin has an axially extending pin axis and is provided on the inside with a hole extending along a pin axis and with the inlet channel leading into the hole as well as the outlet channel leading out from the hole,
• - The sleeve sits in the hole.

Background of the invention

A planetary pin of such a planetary gear is off W014015253 A1 known. In planetary gearboxes of motor vehicles, the lubricating oil is usually distributed by the rotating components of the planetary gear. The adequate lubrication of the planetary bearings is therefore difficult. Accordingly, the oil supply to the planetary bearings is given special attention. The lubricating devices therefore have means for collecting the lubricating oil, from which channel-like lubricant feeds lead to the corresponding planetary bearings. Planetary bearings are usually formed from planet pins, bearings for the planet pins in the planet carrier and planet bearings. In many of the known planetary gear the channel-like lubricant feeds are formed in the planet carrier and lead there to inlet channels of the planetary pin. The lubricating oil is collected during operation of the planetary gear in a variety of facilities and directed by the action of centrifugal forces on the channel-like lubricant feeders and the respective inlet channel in the planet pins. The inlet channel opens into a hole which is formed coaxially in the respective planet pins. From the hole, the lubricant should be directed via one or more outlet channels of the planetary bolt directly to the storage of planetary gears. The hole on the planet pin is a blind hole, so that the planet pin is provided only on one side with an opening. In order to keep as much lubricating oil during rotation of the planet carrier, according to the arrangement according to W014015253 A1 closed the opening of the hole in the planetary bolt through the bottom of a sleeve. The sleeve is pressed into the planet pin and provided with an opening through which passes the lubricating oil from the inlet channel of the planetary pin into the cavity of the blind hole of the planet shaft. A further opening of the sleeve is for the lubricating oil permeable to the respective outlet channel opposite. Due to this arrangement, the lubricating oil is held in the planetary pin in a targeted manner and from there it is directed directly to the bearing of the respective planet.

Description of the invention

The object of the invention is to provide planetary gear in which the lubrication conditions can be improved and can be easily produced inexpensively. In addition, the weight saving is to pay attention.

The object is solved according to the subject of claim 1.
Thereafter, it is provided that at least a first wall portion of the seated in the hole of the planetary bolt sleeve together with a second wall portion of the planetary pin radially bounds an annular channel of the lubricating device. The annular channel runs inside the hole of the planetary bolt around the pin axis and is bounded radially outwardly by the inner cylindrical wall portion of the planetary pin and radially inwardly by a wall portion of the sleeve. According to the invention, the annular channel is also closed by the sleeve and axially against the hole of the planetary bolt.

In the previously known and described in the chapter "Background of the invention" arrangements, the entire cavity formed by the hole in the planetary pin is closed only axially with the bottom of the sleeve. The effectiveness of the supply of the lubricating oil to the planetary bearing may decrease with increasing diameter of the planetary bolt, if thereby the limited by the bottom of the sleeve cavity in the interior of the planetary bolt is too large. The result is that the lubricating oil does not effectively flow immediately to the respective outlet channel, but is first distributed to the walls of the sleeve. A reduction of the diameter of the hole in the planet pin would be helpful in this case. However, this measure in turn leads to relatively thick walls of the planet pins. The thick walls of the planet pins have an effect disadvantageous on the material consumption and the weight of the planetary gear.

The advantage of the invention is that in the planetary gear according to the invention now no longer the entire cavity of the planetary bolt is limited to collect the lubricating oil, but only the annular channel. The volume of the annular channel can be tuned by the design and the dimensions sleeve targeted to the required flow conditions of the lubricating oil, and that at larger bolt diameters regardless of the volume of the hole in the planet shaft. The wall thicknesses of the respective planetary bolt are only dependent on its loads dependent selectable that advantageously also the weight of the planetary bolts can be reduced.

Radial is transverse to the pin axis of the respective planetary bolt or transversely to the central axis of the planet carrier. Axial accordingly rectified with the bolt axis and the central axis. The outlet channel leads from the annular channel to the support surface on the outer surface of the planetary pin. The support surface is either Wälzlaufbahn, Gleitlaufbahn or seat for a bearing ring. The respective planetary bearing is accordingly a rolling bearing or a plain bearing. Both the inlet channel and the outlet channel in the planet pin are usually channels, which transversely, ie in the radial direction, depart from the axially along the pin axis of the planet pin extending hole. These channels are often designed as holes. The lubricant supply is a channel which, together with the inlet channel, ensures a lube-oil-permeable connection to the annular channel, i. h., flows into the annular channel. The respective outlet channel in the planetary pin is permeable to lubricating oil and connected to the annular channel. The lubricating oil fed via the lubricant supply is collected in the annular channel and is led from there via a short path directly into the outlet channel. The annular channel is also axially closed at least axially to one side of the hole by means of the sleeve, when wall portions of the sleeve and the annular channel defined by the sleeve extend axially up to the opening of the hole in the planet pin.

An embodiment of the invention provides that the annular channel is closed axially to both axial sides of the hole through the sleeve. Accordingly, the invention can be used for planet pins in which the hole is a through hole. Blind holes in the planet pin are usually drilled axially. Accordingly, their production is complicated. In addition, the planetary pins have a relatively high weight due to their solid closed end. In general, planet pins with through holes can be made easier and cheaper because their blanks can be cut from pipes. The costly drilling is eliminated. In addition, also eliminates the proportion of the material of the planet pins, which is formed by the material of the closed end of the planet pins with blind holes and which is torn when drilling. The planet pins are lighter and material is saved.

An embodiment of the invention is provided, that the sleeve is formed by a cylindrical base body, which end is either radially expanded on both sides or only on one side. The cylindrical body limits the annular gap radially inward and the expansion (s) limit the annular gap axially. By such a design of the sleeve, the simple targeted design of the annular channel on the dimensions of the body and the execution of the expansion is possible. From the base body, starting from a hollow cylindrical blank, an axial end of the blank or both axial ends of the blank are radially expanded, preferably radially, to the inner diameter of the hole of the planet pin. Such a sleeve can be produced relatively easily and inexpensively by cold forming from a thin-walled hollow cylindrical blank.

With a further embodiment of the invention, it is provided that the diameter of the base body, preferably the outer diameter, is smaller than the inner diameter of the hole in the planet pin. A half of the difference between the diameter of the base body and the inner diameter of the hole results in the radial height of the annular channel, which can be designed so targeted on the choice of the dimensions of the sleeve. The radially expanded portions of the sleeve have on the outside a diameter whose nominal dimension corresponds to the inner diameter of the hole so that advantageously set by sliding the outer diameter of the expansion (s) a sliding, sealing or interference fit between the sleeve and the planetary pin can be sealed by the ring channel to its environment. A further embodiment of the invention provides that the sleeve has an axially along the bolt axis frightening through hole, which is surrounded by the annular channel and which opens axially into the hole of the planetary bolt or at the opening of the hole in the environment of the planet carrier. The annular channel and the through hole are radially and / or axially separated from each other by the wall or by sections of the wall of the sleeve.

Opposite arrangements with a blind hole is independent of the targeted supply of the lubricating oil over the annular channel advantageous one created further passage in the planetary bolt through which an exchange of lubricating oil between the two sides of the planetary gear can take place.

A further embodiment of the invention provides that an inlet channel with an environment of the planetary gear (the planet carrier) is connected so that advantageously also independently of the lubricant supply further lubricating oil can be introduced into the respective planet pins.

Description of the drawings

The invention will be explained in more detail with reference to an embodiment. In 3 is an embodiment of a planetary gear 1 simplified in a side view. The planetary gear 1 has a planet carrier 4 , Planetary gears 5 and planet pins 3 on. The planet wheels 5 are about the respective pin axis 10 rotatable each on a planetary pin 3 stored and mesh with a sun gear 6 and a ring gear 7 , The sun wheel 6 is with a drive shaft 8th connected and coaxial with a central axis 9 of the planetary gear 1 aligned.

1 shows a partial section of the planetary gear 1 along one of the bolt axes 10 from one of the planetary gears 1 installed planet bolts 3 , The planet wheel 5 is with a rolling bearing designed as a needle bearing 11 on the planet stud 3 around the bolt axis 10 rotatably mounted. The needles roll directly on one through the surface of the planetary bolt 3 trained support surface 2 from. The planetary pin 3 is twice in the planet carrier 4 , so left side in a carrier plate 12 as well as on the right in a carrier plate 13 , each at a storage location 41 or. 42 , firmly recorded.

A lubricating device is through a lubricant supply 14 and a sleeve 15 , from two inlet channels 16 and 17 and an exhaust duct 18 educated. The lubricant supply 14 is a channel in the radial direction through a portion of the support plate 13 runs. The respective planet pin 3 is inside with a hole designed as a through hole and axially aligned hole 19 Provided. The symmetry axis of the cylindrically formed hole 19 is the bolt axis 10 , In the wall 20 of the planet pin are both the respective inlet channel 16 and 17 as well as the outlet channel 18 as transverse (radial) to the pin axis 10 aligned transverse bores formed.

The sleeve 15 sits in the hole 19 and bounded with a wall section 21 a ring channel 22 radially inward to the pin axis 10 out. On the outside is the annular channel 22 through a wall section 23 of the planetary bolt 3 limited. In addition, the ring channel 22 in axial directions through funnels formed widenings 24 and 25 limited and opposite the hole 19 locked. The ring channel 22 runs rotationally symmetrical about the pin axis 10 , The wall section 21 is on a hollow cylindrical body 26 the sleeve 15 educated. The wall sections of the expansions 24 and 25 run along the bolt axis 10 in the radial direction over to the inner wall of the planetary bolt 3 rising. The main body 26 the sleeve 15 has a first (outer) diameter 27 which is smaller than a second (inside) diameter 28 of the hole 19 , The height of the ring channel 22 results from half the difference of the diameter 27 and 28 , The expansion 24 is with a cylindrical section 29 provided whose (outer) diameter 30 the diameter 28 of the hole 19 equivalent. The sleeve 15 sits with a press fit between the cylindrical section 29 and the inner wall of the hole 19 in the planet stud 3 , The wall section 21 the sleeve 15 that between the expansions 24 and 25 runs, is hollow cylindrical and defines a through hole 31 , The through hole 31 is from the ring channel 22 surrounded and through the wall section 21 separated from this.

The planetary pin 3 is axially above a plane surface of the support plate 13 out. At the protruding part of the planetary bolt 3 there is an opening of an inlet channel 16 thus at its one end in the environment of the planet carrier 4 opens and at the other end in the ring channel 22 , The other inlet channel 17 connects those in the planet carrier 4 trained lubricant supply 14 with the ring channel 22 , The lubricant supply penetrate 14 and the inlet channel 17 the depository 41 of the planetary bolt 3 ,

1 and 2 : The one in the illustration 1 Lubricating oil stream symbolized with the arrows becomes at a throat 32 collected and via the channel-like lubricant supply 14 in an extension 33 of the intake channel 17 collected and from there into the ring channel 22 directed. The cross section of the extension 33 is in 2 , a non-scale longitudinal section along the line AA to 1 shown and may alternatively also one around the bolt axis 10 be running annular groove.

In 4 is an electrically powered vehicle 34 or hybrid vehicle roughly shown schematically. The vehicle 34 has at the rear axle an electric drive unit with an electric machine 35 on. The application of the planetary gear according to the invention 1 is conceivable in such a drive unit. The planetary gear can, for example, in cooperation with a geared connection 36 and the electrical machine 35 coaxial on the axis 39 be arranged and via an output shaft 8th with a powered vehicle grade 37 the driven vehicle wheels 37 and 38 the rear axle be operatively connected.

LIST OF REFERENCE NUMBERS

1

planetary gear

2

Carrier surface of the planetary bolt

3

planet shaft

4

planet carrier

5

planet

6

sun

7

ring gear

8th

drive shaft

9

Central axis of the planetary gear

10

Bolt axis of the planetary bolt

11

Rolling

12

Support plate of the planet carrier

13

Support plate of the planet carrier

14

lubricant feed

15

shell

16

inlet channel

17

inlet channel

18

exhaust port

19

Hole in the planet bolt

20

Wall of the planetary bolt

21

Wall section of the sleeve

22

annular channel

23

Wall section of the planetary bolt

24

widening

25

widening

26

body

27

Diameter of the main body

28

Diameter of the hole

29

cylindrical section

30

Diameter of the cylindrical section

31

Through hole through the sleeve

32

throat

33

extension

34

vehicle

35

electric machine

36

geared connection

37

driven vehicle wheel

38

driven vehicle wheel

39

axis

40

longitudinal axis

41

depository

42

depository

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

• WO 14015253 A1 [0002]

Claims (10)

Planetary gear (1) with a planet carrier (4), planetary gears (5), planet pins (3) and with a lubricating device, the planetary gear with the features: - The respective planet pins (3) is received on the planet carrier (4), wherein in each case a planet pin (3) is mounted at least at a bearing point (41) in the planet carrier (4), - At least one of the planet gears (5) is mounted on a support surface (2) of a planetary pin (3), the lubricating device is formed by at least one channel-like lubricant supply (14) formed in the planet carrier (4), a sleeve (15), at least one inlet channel (16, 17) and at least one outlet channel (18), - The planetary pin (3) has an axially extending pin axis (10) and is on the inside with a along a pin axis (10) extending hole (19) and each with the respectively in the hole (19) leading inlet channel (16, 17 ) as well as from the hole (19) to the support surface (2) leading outlet channel (18), the sleeve (15) sits in the hole (19), - The lubricant supply (14) is connected to lubricating oil permeable to an inlet channel (17), - At least a first wall portion (21) of the sleeve (15) radially together with a second wall portion (23) of the planetary pin (3) defines an annular channel (22) of the lubricating device, wherein the annular channel (22) inside in the hole (19) of the Planet pin (3) around the pin axis (10) rotates, - The outlet channel (18) leads from the annular channel (22) from the support surface (2), - The annular channel (2 20) is also axially closed at least to one side by the sleeve (15) opposite the hole (19). Planetary gear to Claim 1 in that the annular channel (22) is closed axially towards both axial sides of the hole (19) by the sleeve (15). Planetary gear to Claim 1 or 2 in which the sleeve (15) has a cylindrical base body (26) and is provided at the end with at least one radial widening (24, 25) adjoining the base body (26), the base body (26) being provided with the wall section (21). is provided and wherein the annular channel (22) is closed end in both axial directions through the expansion (24, 25) of the sleeve. Planetary gear to Claim 1 or 2 in that the sleeve (15) has a cylindrical base body (26) with a first diameter (27) which is smaller than a second diameter (28) of the hole (19), wherein the sleeve (15) at least axially to one Side with a radial expansion (24, 25) is provided, and wherein the expansion (24, 25) has a third diameter (30) which corresponds to the second diameter. Planetary gear to Claim 3 or 4 in that the sleeve is seated in the hole (19) of the planet pin (5) at least at one location with an interference fit between the widening (24) and the planet pin (5). Planetary gear to Claim 1 . 2 , 3, 4 or 5, in which the sleeve (15) has a through hole (31) frightening axially along the pin axis (10), which is surrounded by the ring channel (22) and axially into the hole (19) of the planet pin (19). 3) or at the opening of the hole (19) in the vicinity of the planet carrier (4) opens. Planetary gear to Claim 1 . 2 . 3 . 4 . 5 or 6 in which a first inlet channel (16), which is connected to an environment of the planetary gear (1) for lubricating oil, passes from an outer side of the planet carrier (4) into the annular channel (22). Planetary gear to Claim 1 . 2 . 3 . 4 . 5 . 6 or 7 in that the lubricant supply (14) transmissively leads from an environment of the planetary carrier (4) into an inlet channel (17), wherein the inlet channel (17) opens into the annular channel (22). Planetary gear to Claim 8 in that both the lubricant supply (14) and the inlet channel (17) lead through the bearing point (41), wherein the planet pin (3) is mounted at the bearing point in the planet carrier (4). Planetary gear to Claim 5 in that the sleeve (15) has a cylindrical section on the widening (24) whose outer diameter (30) corresponds to the third diameter (28).

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