DE10216137A1 - Planet gear starter disk between wheels on bolt designs disk as triangle or square to differ in geometry axially from carrier circumference for easy fitting and service. - Google Patents

Abstract

The starter disk (9) differs in geometry from the circular so that in the planet wheel carrier (1) the disk presents a negative contour relative the carrier geometry and as a result of this the disk is necessarily prevented from rotating. The axial depth of the specified negative contour should be less than the axial extent of the starter disk (9). This geometry takes the form of a triangle or square, in which two opposing corners lie in line with the center of the carrier (1).

Description

Field of application of the invention

The invention relates to a thrust washer, in particular for planetary gears in a planetary gearbox with its mounting hole on in one Planetary arranged planetary pin and is arranged on both sides Planetary wheels limited, via a rolling bearing assembly on the Planetenradbolzen are rotatably mounted.

Background of the invention

Such thrust washers are already in the most diverse Variants previously known. They serve the axial start-up of the planetary gear and protect the unhardened planet carrier and the planetary gear Wear. The planet wheel runs with a flat face on one likewise plan the contact surface of the thrust washer. The planetary gear is with a through hole provided with the help of a storage is rotatably supported on the Planetenradbolzen. This storage can for example, by a Nadelkranz or by a full complement Needle set be formed. Depending on the Auflagerungsart therefore run on the thrust washers either the bearing cage or the end faces of the bearing needles. The Thrust washers are usually stamped from sheet metal. The surface of the Thrust washers are either ground, left in rolling quality or is coated. The choice of the material of the discs and their Surface quality as well as its surface hardness is essentially of the found ones Friction conditions dependent.

Such a generic thrust washer for a planetary gear is known from DE 40 09 968 A1. As the associated Fig. 1 shows, the rotatably mounted on a planetary gear via a roller bearing planetary gear is bounded on both sides by a thrust washer, which is pushed with its receiving bore on the Planetenradbolzen. These thrust washers are thus arranged between the high-speed planetary gear and the planet carrier, the latter being made in many cases of a relatively soft material, such as aluminum. In order to avoid digging the thrust washers in the planet, their rotation or their rotation must be excluded. In the aforementioned prior publication, this is realized by the thrust washer is provided at its outer periphery with an angled retaining claw which engages in an associated recess of the planet carrier.

The disadvantage here is that, on the one hand, such a thrust washer in production because of the required bending of the retaining claw to relatively expensive finished is. On the other hand, the assembly process is difficult because the bent retaining claw must be mounted in the associated recess.

Summary of the invention

The object of the invention is therefore to provide a thrust washer for a To provide planetary gear that can be produced and assembled in a simple manner.

According to the invention, this object is achieved by the characterizing part of Claim 1 in conjunction with its preamble solved in that the Thrust washer a deviating from the circular geometry has and in the planet carrier a negative contour to this Circumferential geometry is arranged so that this on the circumferential geometry in Planet carrier is held against rotation, wherein the axial depth of the negative contour is less than the axial extent of the thrust washer.

The term negative contour used in the context of the invention is so too understand that this must be at least as large in terms of surface area to the To pick up the thrust washer and this encloses so that their rotation by Positive locking is prevented.

The advantage of the thrust washer designed according to the invention is that this is easier to produce compared to the prior art, because no bent retaining claw is required. Another advantage is that the assembly process of the planetary gear is simplified, because the thrust washer is simply inserted into the planet carrier and due to their geometry of the geometry finds its own direction.

Advantageous embodiments of the circumferential geometry of the thrust washer are described in the subclaims.

Thus, it is provided according to claim 2 that the circumferential geometry as a Triangle is formed. From claim 3 it is apparent that the peripheral geometry should be formed as a square, according to claim 4, the arrangement This square is provided such that two opposite Corner points lie in a line with a center of the planet carrier. A Another type of circumferential geometry is also apparent from claim 5. After that this should be formed almost circular, at the periphery of a Segment is removed. According to a further feature of the invention according to Claim 6, the circumferential geometry should be circular and two opposite points, each with a rectangular shape Extension be provided. According to a further feature of the invention according to Claim 7, the circumferential geometry should be formed elliptical, with whose opposite ends each a segment is separated.

Finally, according to a last feature of the invention according to claim 8 the Thrust washer have a wavy shape. This has the advantage that at Consistent disc thickness whose axial width can be increased can.

The invention will be explained in more detail in the following embodiments.

Brief description of the drawings

Show it:

Fig. 1 shows a longitudinal section according to known by a carrier prior art,

Fig. 2 is a perspective view of a thrust washer of the prior art,

Fig. 3 is a partial longitudinal section through a planet gear according to the invention designed with thrust washer,

Fig. 4 is a plan view of a planet carrier with inserted thrust washer of FIG. 3 and

Fig. 5 differently designed thrust washers according to the invention.

Detailed description of the drawings

The planet carrier 1 shown in Fig. 1 according to the prior art has two side walls 2 , 3 , in which Planetenradbolzen 4 are fixed. On these planetary gears 6 are rotatably supported via bearing assemblies 5 , whose teeth 7 mesh on the one hand with a ring gear, not shown, and on the other hand with a sun gear, also not shown. On the Planetenradbolzen 4 of the planet gears 6 thrust washers 8 are arranged on both sides, which usually consist of a material with good sliding properties, eg. B. bronze-plated sheet metal, and thus reduce the friction between the planetary gears 6 and planet carrier 1 . The thrust washer 8 is seated with its receiving bore 8.1 on the Planetenradbolzen 4 on both sides of the planet gears. 6 As shown in FIG. 2, 8, the thrust washer on its circumferential surface an anti-twist 8.2, which is angled in the axial direction and engages in a recess, not shown, of the two side walls 2, 3 of the planet carrier. 1

As shown in FIGS. 3 and 4, the invention is characterized in that the thrust washer 9 with a deviating from the circular geometry, in this case with a square shape, with its receiving bore 9.1 on both sides adjacent to the planet gear 6 on the Planetenradbolzen. 4 is held. In the side walls 2 , 3 of the planet carrier 1 each a sector 10 is arranged, whose axial depth is less than the axial thickness of the thrust washers 9 , so that planet gear 6 and thrust washers 9 abut each other with their end faces. The sector 10 is limited by the arc 10.1 and the two radii 10.2 and takes the thrust washers 9 by positive engagement against rotation, which rests with its two lower peripheral surfaces of the two radii 10.2 .

As the schematic representation in Fig. 5 shows, the thrust washers 9 , 11 , 12 , 13 and 14 have a completely different from the circular shape deviating circumferential geometry. As already described, the thrust washer 9 is square and can be arranged differently in the planet carrier 1 . As can be seen, this can be arranged such that two opposite corners 9.2 form a line with a center 15 of the planet carrier 1 . The thrust washer 12 is characterized in that its peripheral geometry is designed elliptical, wherein at the opposite ends of each segment is separated. The thrust washer 11 is configured in a particularly simple manner triangular, while the thrust washer 14 has an annular peripheral geometry, which is provided at two opposite points, each with a rectangular extension 14.2 . Finally, in Fig. 5, the thrust washer 13 is shown, whose peripheral geometry is circular and at the periphery of a segment at one point is removed. Reference numeral 1 planet carrier
2 side wall
3 side wall
4 planet wheel bolts
5 bearing arrangement
6 planetary gear
7 tooth
8 thrust washer
8.1 receiving bore
8.2 anti-rotation lock
9 thrust washer
9.1 Mounting hole
9.2 corner point
10 sector
10.1 bow
10.2 radius
11 thrust washer
11.1 locating hole
12 thrust washer
12.1 locating hole
13 thrust washer
13.1 locating hole
14 thrust washer
14.1 locating hole
14.2 extension
15 center

Claims (8)

1. thrust washer, in particular for planet gears ( 6 ) in a planetary gear which is arranged with its receiving bore in a planet carrier ( 1 ) Planetenradbolzen fixed ( 4 ) and on both sides planetary gears ( 6 ) limited, via a roller bearing assembly ( 5 ) on the Planetenradbolzen ( 4 ) are rotatably mounted, characterized in that the thrust washer ( 9 , 11 , 12 , 13 , 14 ) has a deviating from the circular geometry and the planet carrier ( 1 ) is arranged a negative contour to this peripheral geometry, so that these on this Circumference geometry in the planet carrier ( 1 ) is held against rotation, wherein the axial depth of the negative contour is less than the axial extent of the thrust washer ( 9 , 11 , 12 , 13 , 14 ). Second thrust washer ( 11 ) according to claim 1, characterized in that the peripheral geometry is formed as a triangle. 3. thrust washer ( 9 ) according to claim 1, characterized in that the peripheral geometry is formed as a square. 4. thrust washer ( 9 ) according to claim 3, characterized in that two opposite vertices ( 9.2 ) of the square with a center ( 15 ) of the Planetenradträgers ( 1 ) lie in a line. 5. thrust washer ( 13 ) according to claim 1, characterized in that the peripheral geometry is formed almost circular, at the periphery of a segment is removed. 6. thrust washer ( 14 ) according to claim 1, characterized in that the peripheral geometry is circular and is provided at two opposite points, each with a rectangular shaped extension ( 14.2 ). 7. thrust washer ( 12 ) according to claim 1, characterized in that the peripheral geometry is formed elliptical, at the opposite ends of each segment is separated. 8. thrust washer ( 9 , 11 , 12 , 13 , 14 ) according to claim 1, characterized in that it is formed in a wavy shape.