WO2015044158A1

WO2015044158A1 - Planet carrier

Info

Publication number: WO2015044158A1
Application number: PCT/EP2014/070292
Authority: WO
Inventors: Jens Kiesenbauer; Gunter Mahn; Sascha RUPPERT
Original assignee: Siemens Aktiengesellschaft
Priority date: 2013-09-27
Filing date: 2014-09-24
Publication date: 2015-04-02
Also published as: DE102013219634A1

Abstract

The invention relates to a planet carrier (1) having a crank web (2), at least three planetary shaft bolts (8) mounted on the crank web (2) and at least three planetary gears (15) rotatably mounted on the planetary shaft bolts (8), characterized in that the crank web (2) comprises at least two hole circles (4, 5) having different diameters (Di, D2) and each having at least three planetary shaft bores (6, 7), wherein the planetary shaft bolts (8) together with the planetary gears (15) mounted thereon are fixed in the planetary shaft bores (6, 7) of a single hole circle (4, 5). The present invention further relates to a kit for producing this type of planetary carrier (1), and to a planetary gearbox comprising this type of planetary carrier (1).

Description

The present invention relates to a planet carrier having a cheek, at least three Planetenachsbolzen arranged on the cheek and at least three planetary gears rotatably mounted on the Planetenachsbolzen. Furthermore, the present invention relates to a kit for producing such a planet carrier and a planetary gear with such a planet carrier.

Planetary gears are known in the art in a variety of configurations. They usually include an externally toothed sun gear, an internally toothed ring gear and a planetary carrier with planetary gears mounted thereon. The transmission ratio is determined by the center distance between the sun gear axis and the respective planetary axle bolts.

One-piece planetary carriers are usually produced by casting or drop forging and further processed mechanically. Figures 4 and 5 show an example

single-plate planet carrier with pre-cast axle journal, whereby FIG. 4 shows the planet carrier as a cast and / or forged blank and FIG. 5 shows the planet carrier in the mechanically processed state. The planet carrier has a triangular shape and comprises a central through-bore 101, which is provided with a toothing 102 in the context of a mechanical processing in order to connect the planet carrier positively with a shaft, such as on the output shaft of a planetary gear. Furthermore, the planet carrier comprises in the raw state in its corner regions three oval-shaped pin 103, from which planetary pin 104 are made in the context of mechanical processing, which receive the planetary gears of the planet carrier in the normal state. The planetary axes 104 each have a uniform distance from the center the toothing 102, which is also referred to as the center distance. About this center distance, the translation of the planetary gear set in the intended mounted state of the planet carrier.

A disadvantage of the one-piece planet carrier shown in Figures 4 and 5 is that a cast model or forging is required for the desired planet carrier, which is why very high costs. For each desired translation, a separate mechanical processing is required, resulting in different finished parts. As a result, for each translation planet carrier must be kept in stock, which is associated with higher inventory costs.

Based on this prior art, it is an object of the present invention to provide planet carrier of the type mentioned, which can be used flexibly and made cheaper.

To achieve this object, the present invention provides a planet carrier of the type mentioned, which is characterized in that the cheek comprises at least two different diameter hole circles each having at least three Planetenachsbohrungen, wherein the Planetenachsbolzen with the planetary gears arranged in the Planetenachsbohrungen a single bolt circle are attached. Due to the fact that according to the invention at least two different diameter hole circles are formed on the cheek, the Planetenachsbolzen can be arranged with the planetary gears arranged thereon either in the Planetenachsbohrungen the one pitch circle or in the Planetenachsbohrungen the other hole circle, whereby in the intended mounted state of the planet carrier different center distances between the Sonnenradachse and the Planetenachsbolzen and thus different translations of the planetary gear can be realized. Thus, the planet carrier according to the invention is very flexible use. About that In addition, the production of multiple bolt holes is associated with low cost, which is why the planet carrier according to the invention can be produced inexpensively. Advantageously, each of the Planetenachsbohrungen the first

Bolt circle arranged in the circumferential direction between two Planetenachsbohrungen the second bolt circle.

Preferably, each Planetenachsbohrung the first pitch circle is arranged centrally between two Planetenachsbohrungen the second pitch circle in the circumferential direction, whereby the arrangement is optimized.

According to one embodiment of the present invention, all Planetenachsbohrungen have a uniform diameter. This is advantageous in that planetary bolts with a uniform diameter can be used, whereby the variety of parts is reduced. Preferably, the Planetenachsbolzen are each secured with a mounting screw on the cheek, which extends through an end plate configured as an axial securing and is screwed into a front side provided in the region of a first free end of the Planetenachsbolzens threaded hole. In this way, a simple and inexpensive to manufacture structure of the planet carrier is achieved.

The Planetenachsbolzen are advantageous in the region of its second free end provided with a serving as a stop and radially projecting collar. Such a collar fixes one side of the arranged on the Planetenachsbolzen planetary gear.

Preferably, a spacer ring held on the planetary axle bolt is provided between each planetary gear and the cheek, which ensures a proper distance between the cheek and the planetary gear. To achieve the object mentioned above, the present invention further provides a kit for producing a planet carrier, the at least two bolt holes, each having at least three Planetenachsbohrungen cheek, at least three Planetenachsbolzen which are designed such that they either in the Planetenachsbohrungen the first pitch circle or in the Planetenachsbohrungen the second pitch circle can be fastened, and two each having at least three planetary gears having the same number of teeth planetary gear sets, wherein the planetary gear sets differ from each other in terms of the number of teeth of their planetary gears. With such a kit planet carrier different translation can be realized with only a single cheek.

In addition, the present invention provides for the solution of the above-mentioned object, a planetary gear with a planet carrier of the type described above.

Further features and advantages of the present invention will become apparent from the following description of an embodiment of a planet carrier according to the invention with reference to the accompanying drawings. 1 is a perspective view of a planetary carrier according to an embodiment of the present invention;

FIG. 2 is a front view of that shown in FIG

Planet carrier;

Figure 3 is a sectional view of the planet carrier along the

Line III-III in Figure 2; Figure 4 is a perspective view of the blank of a known planet carrier; and Figure 5 is a view of the planet carrier shown in Figure 4 in the machined state.

Figures 1 to 3 show a planet carrier 1 according to an embodiment of the present invention, which is for use in a planetary gear. The planet carrier 1 comprises a cheek 2, which in the present case is designed in the form of a circular disk, wherein in principle also deviating from a circular shape shapes are conceivable. The cheek 2 comprises a central through-bore 3, which is provided with a coupling toothing, not shown, and serves for the positive connection with a shaft, such as the output shaft of a planetary gear. Of course, instead of the toothing, an alternative type of fastening between shaft and cheek 2 can also be selected. On the cheek 2 two different diameters Di and D ₂ having hole circles 4, 5 are arranged, each comprising three Planetenachsbohrungen 6, 7, wherein all Planetenachsbohrungen 6, 7 have a uniform diameter d. The Planetenachsbohrungen 6 of the first pitch circle 4 are arranged in the circumferential direction in each case centrally between two Planetenachsbohrungen 7 of the second pitch circle 5, so that the Planetenachsbohrungen 6, 7 are evenly distributed over the cheek 2. The planet carrier 1 further comprises three identically constructed Planetenachsbolzen 8, which also have the diameter d substantially so that they can be introduced into both the Planetenachsbohrungen 6 and in the Planetenachsbohrungen 7. Each Planetenachsbolzen 8 is provided in the region of its first free end with a threaded bore 9 provided on the front side and in the region of its second free end with a radially projecting and annular collar 10 serving as a stop. Another component of the planet carrier 1 form three end plates 11th In addition, the planet carrier 1 comprises three spacer rings 13, the inner diameter of which is selected so that they can be arranged on the planetary axle bolts 8, three fastening screws 14 and three planetary gears 15 with associated bearings 16, which are also designed such that they on the Planetenachsbolzen 8 can be postponed. In addition, circlips 17 and starting discs 18 are part of the planet carrier 1. For mounting of the planet carrier 1 shown in Figures 1 to 3 in a first step, the gears 15 with the associated bearings 16, circlips 17 and thrust washers 18 on the planetary post 8th pushed, with the ends provided on the Planetenachsbolzen 8 bundles 10 serve as a stop. Then the spacer rings 13 are arranged on the planetary axle bolts 8. Now the Planetenachsbolzen 8 are introduced with their first free end in the Planetenachsbohrungen 7 of the second bolt circle 5 and fixed on the erstreckenden through the end plates 11-fixing screws 14.

If such a mounted planet carrier 1 arranged in an associated planetary gear, this planetary gear receives a first translation. To achieve a second translation, the planetary post bolts 8 can be fitted with alternative planetary gears in the above-described assembly, which differ from the planetary gears 15 in that they have a different number of teeth. Then the Planetenachsbolzen 8 are used with the attached planetary gears in the Planetenachsbohrungen 6 of the first pitch circle 4.

If such a mounted planet carrier 1 is inserted into the associated planetary gear, it receives a different translation.

Although the invention has been illustrated and described in detail by the preferred embodiment, so the invention is not limited by the examples disclosed and other variations can be deduced therefrom by those skilled in the art without departing from the scope of the invention.

Claims

claims

1. Planet carrier (1) with a cheek (2), at least three on the cheek (2) arranged Planetenachsbolzen (8) and at least three of the Planetenachsbolzen (8) rotatably mounted planetary gears (15), characterized in that the cheek (2) at least two different diameter (Di, D ₂ ) having hole circles (4, 5) each having at least three Planetenachsbohrungen (6, 7), wherein the Planetenachsbolzen (8) with the planetary gears (15) arranged thereon in the

Planetenachsbohrungen (6, 7) of a single bolt circle (4, 5) are attached.

2. planet carrier (1) according to claim 1, marked thereby, that each of the Planetenachsbohrungen (6) of the first bolt circle (4) in the circumferential direction between two Planetenachsbohrungen (7) of the second bolt circle (5) is arranged.

3. Planet carrier (1) according to claim 1, characterized marked, that each Planetenachsbohrung (6) of the first pitch circle

(4) is arranged centrally in the circumferential direction between two Planetenachsbohrungen (7) of the second bolt circle (5).

4. planet carrier (1) according to one of the preceding claims che, characterized in that all Planetenachsbohrungen (6, 7) have a uniform diameter (d).

5. planet carrier (1) according to any one of the preceding claims, characterized in that the Planetenachsbolzen (8) each with a fastening screw (14) on the cheek (2) are fastened, which extends through a formed as an axial securing end plate (11) and in a in the region of a first free end of Planetenachsbolzens (8) frontally provided threaded hole (9) is screwed.

6. planet carrier (1) according to one of the preceding claims, characterized in that the Planetenachsbolzen (8) are provided in the region of their second free end with a serving as a stop and radially projecting collar (10).

7. Planet carrier (1) according to one of the preceding claims che, characterized in that between each planet gear

(15) and the cheek (2) a on the Planetenachsbolzen (8) held spacer ring (13) is provided.

8. Kit for producing a planet carrier (1) having a at least two perforated circles (4, 5) each having at least three Planetenachsbohrungen (6, 7) having cheek (2), at least three Planetenachsbolzen (8), which are formed such that they optionally in the Planetenachsbohrungen (6) of the first bolt circle (4) or in the Planetenachsbohrungen (7) of the second bolt circle (5) are fastened, and two each having at least three planetary gears (15) the same number of teeth having planetary gear sets, wherein the planetary gear sets in terms the number of teeth of their planet gears (15) differ from each other.

9. planetary gear with a planet carrier (1) according to one of claims 1 to 7.