DE102012009362A1 - Generator gearbox of wind power plant, has sun gear comprising inner peripheral surface that is attachable on outer circumferential surface of the hollow shaft in press-fit manner - Google Patents

Abstract

The generator gearbox has a drive shaft and an output shaft between which a sun gear (5) and a hollow shaft (6) and are arranged as cooperating transmission units of planetary gear set. The sun gear has an inner peripheral surface (7) that is attachable on an outer circumferential surface (8) of the hollow shaft in press-fit manner. The inner peripheral surface of sun gear and outer circumferential surface of hollow shaft are designated as friction coefficient increasing units.

Description

FIELD OF THE INVENTION

The present invention relates to a generator gear of a wind turbine, comprising a drive shaft and an output shaft, between the drive shaft and the output shaft, a sun gear and a hollow shaft are arranged as cooperating transmission parts of a planetary gear, wherein further the sun gear with an inner peripheral surface on an outer peripheral surface of the hollow shaft can be plugged ,

The field of application of the invention extends to transmissions, in particular planetary gears, as they occur in the drive train of a wind turbine. Important features of such generator gearboxes include the dimensions and weight. It depends on the design of the gear parts in addition to the selection of materials and the constructive aspects of the prevailing forces and torques, which act on the transmission. Such transmissions are subject to exceptional stresses, which are caused by their structural position and the unevenly changing load collective.

BACKGROUND OF THE INVENTION

From the DE 10 2010 031 161 A1 a gearbox emerges in the drive train of a wind turbine. The transmission includes a gear housing, a planetary gear with a sun gear, a planet carrier with rotatably mounted therein planetary gears and a ring gear. The sun gear is engaged with a plurality of planetary gears and derives the torque on the output side via a sun gear shaft designed as a hollow shaft. The planet gears are rotatably mounted in a planet carrier and are in addition to the sun gear with a ring gear engaged.

From the EP 2 199 607 A1 goes another gear with a revolving in a housing planetary stage for a rotor provided with a wind turbine. The planetary stage consists of a rotor connected to the planet carrier, which has two interconnected by webs side cheeks and a plurality of planet bearings mounted in the planet carrier planetary gears. The planet gears are on the one hand with a central sun gear and on the other hand with a fixedly connected to the gear housing ring gear engaged.

From the well-known state of the art shows that in existing transmissions of wind turbines, the sun wave is made in one piece. A sun shaft can also be designed in two parts, wherein the power transmission from the sun gear to the hollow shaft is realized by a spline. The preparation of the teeth is complex and takes up a lot of space. A conventional interference fit can not be used because of the thin cross sections of the sun gear and the hollow shaft for the large transmitted torque.

From the DE 10 2009 023 402 A1 is a molded body, comprising a substrate and a force applied to at least a portion of the surface of the substrate, Reibwerterhöhende layer comprising a predominantly inorganic binder matrix and incorporated therein hard material particles out. The thickness of the binder matrix is less than the average particle size of the hard material particles, so that the hard material particles protrude from the binder matrix. The molded body can be used as a connecting element for friction-increasing, non-positive connection of components.

Furthermore, the friction-increasing layer is particularly suitable for the production of press or clamping connections, as a securing element for screw connections, as well as for the direct coating of screw for screw locking. Between coated and uncoated moldings, when tightened by the friction-increasing coating, microforming occurs, thereby increasing the coefficient of adhesion friction.

From the EP 2 075 466 B1 a connection of a low-speed main shaft of a wind turbine and an input shaft of a transmission of the said wind turbine emerges. The connection surface on the low-speed main shaft and the corresponding connection surface on the input shaft are opposite surfaces which are pressed against each other by biasing means, with a permanent load being applied to the connection surfaces. Further, friction increasing means are provided between the axial connecting surfaces, the friction increasing means comprising a coating comprising a friction increasing powder containing grains of diamonds. Furthermore, the coating containing the friction-enhancing powder may be applied directly to one of the bonding surfaces or to a washer installed between the bonding surfaces.

DISCLOSURE OF THE INVENTION

It is therefore an object of the present invention to provide a transmission, in particular a generator gear of a wind turbine, which is optimized in terms of its weight and load capacity.

The object is achieved on the basis of a generator gearbox according to the preamble of claim 1 in conjunction with its characterizing features. Advantageous developments of the invention will become apparent from the following dependent claims.

According to the invention, the sun gear and the hollow shaft have a press fit, with friction-increasing means being arranged between the inner peripheral surface of the sun gear and the outer peripheral surface of the hollow shaft.

According to a preferred embodiment, the hollow shaft is roughened on the outer peripheral surface between the inner peripheral surface of the sun gear and the outer peripheral surface of the hollow shaft as Reibwerterhöhendes means and / or the sun gear roughened on the inner peripheral surface. The roughening can be generated mechanically or chemically, but also by laser processing. As a result, the coefficient of friction and thus the adhesion forces between the sun gear and the hollow shaft is increased.

According to a further preferred embodiment, a coefficient of friction-increasing film is arranged between the inner circumferential surface of the sun gear and the outer peripheral surface of the hollow shaft as friction-increasing means. The Reibwerterhöhende film is mounted on the intermediate surface and then pushed the sun gear on the hollow shaft. The interference fit between sun gear and hollow shaft ensures a rotationally secure fixation.

According to a further preferred embodiment, a coefficient of friction-increasing coating is arranged between the inner circumferential surface of the sun gear and the outer peripheral surface of the hollow shaft as friction-increasing means. The Reibwerterhöhende coating can be applied either to the sun or on the hollow shaft, but also on both components and realizes a rotationally secure fixation between the sun and the hollow shaft. Such a friction-increasing layer may be a composite-stable conversion layer, such as a phosphate layer.

The friction-increasing film and the friction-increasing coating preferably contain hard particles of carbides, nitrides and / or diamonds. The hard particles penetrate when pressing the sun gear to the hollow shaft in the respective peripheral surfaces and form a microforming. This eliminates the spline in a sun gear hollow shaft connection. Thus, large torques can be transmitted due to the significantly increased coefficient of friction between the sun and the hollow shaft, both weight and space is saved due to the press connection.

It is further proposed that the sun gear consists of the material 18CrNiMo6 and the hollow shaft consists of the material 42CrMo4. Due to the two-part sun gear shaft, the highly stressed sun gear can be made of a higher quality and more durable material than the hollow shaft. It is also conceivable to use other alloys, the sun gear in each embodiment consists of a higher quality material than the hollow shaft.

The invention includes the technical teaching that the sun gear has at least one longitudinal bore and at least one transverse bore, wherein the at least one longitudinal bore is arranged on an end face of the sun gear and the at least one transverse bore is arranged on the inner peripheral surface of the sun gear. Preferably, the at least one longitudinal bore and the at least one transverse bore are formed as blind holes, wherein the at least one transverse bore opens into the at least one longitudinal bore.

Furthermore, preferably, the at least one longitudinal bore and the at least one transverse bore form a channel, which can be acted upon by a fluid via the longitudinal bore on the end face of the sun gear in order to simplify assembly and disassembly of the sun gear to the hollow shaft. Thus, the increased coefficient of friction due to a forming in the interface fluid film during assembly and disassembly of the sun gear to the hollow shaft has no relevance. In addition, the assembly and disassembly is even easier.

BRIEF DESCRIPTION OF THE DRAWINGS

Further, measures improving the invention will be described in more detail below together with the description of a preferred embodiment of the invention with reference to FIGS. Show it:

1 a schematic side view of a wind turbine with an inventively designed generator gear, and

2 a schematic sectional view of the interference fit invention between a sun gear and a hollow shaft.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT

1 shows a side view of a wind turbine 2 with their essential components. The wind turbine 2 has a tower 15 on, on which a rotatably mounted about a vertical axis gondola 16 is arranged in the form of a machine housing. In the gondola 16 is a generator gearbox 1 secured against rotation, the generator gear 1 a drive shaft 3 and an output shaft 4 having. The drive shaft 3 of the generator gearbox 1 is with a hub 17 one more rotor blades 18 having rotor 19 connected. The output shaft 4 is with a driven drive device in the form of a generator 20 rotationally connected.

The generator gearbox 4 is designed so that there is a slow rotational movement of the drive shaft 5 in a fast rotary motion of the output shaft 6 implements. For this purpose, the generator gearbox 4 one or more planetary gear, which via a final spur gear with the output shaft 6 interact. By means of the wind turbine 1 Electrical energy is generated by the offset from the wind in rotation rotor rotation on the drive shaft 5 in the generator gearbox 4 initiates. The generator gearbox 4 Turns the rotary motion into a faster turning motion and finally over the output shaft 6 the fast rotary motion to generate electricity on the generator 9 transfer.

In 2 are a hollow shaft 6 and a sun wheel 5 to see. The hollow shaft 6 and the sun wheel 5 are gear parts of the generator gearbox 1 the wind turbine 2 out 1 , The sun wheel 5 is with an inner peripheral surface 7 on an outer peripheral surface 8th the hollow shaft 6 attachable, being between the sun gear 5 and the hollow shaft 6 a press federation exists. Further, between the sun gear 5 and the hollow shaft 6 a friction-increasing film 9 arranged. The friction-increasing film 9 has a friction-increasing coating 10 with hard particles, especially diamonds. The diamonds are pressed into the inner peripheral surface during assembly 7 of the sun wheel 5 and in the outer peripheral surface 8th the hollow shaft 6 ,

The sun wheel 5 has a longitudinal bore 11 and a transverse bore 12 on, with the longitudinal bore 11 on an end face 13 of the sun wheel 5 is arranged and the transverse bore 12 on an inner peripheral surface 7 of the sun wheel 5 is arranged. The blind bore designed as a longitudinal bore 11 runs axially from the end face 13 of the sun wheel 5 , The transverse bore 12 however, extends radially from the inner peripheral surface 7 of the sun wheel 5 , where the transverse bore 12 in the longitudinal bore 11 empties. Thus, the transverse bore 12 and the longitudinal bore 11 fluidly connected to each other and form a channel 14 through which a fluid can flow. About a thread 21 in the longitudinal bore 11 For example, a fluid carrying conduit may be mounted to remove the fluid during assembly and disassembly of the sun gear 5 on the hollow shaft 6 provide. The fluid flows over the channel 14 between the sun wheel 5 and the hollow shaft 6 , wherein a fluid film is formed in this intermediate surface, so that by the Reibwerterhöhende film 9 increased coefficient of friction the assembly and disassembly of the sun gear 5 on the hollow shaft 6 unaffected. In addition, by the introduction of the fluid into the interface a sliding of the sun gear 5 on the hollow shaft 6 allows and thereby facilitates assembly and disassembly.

The invention is not limited to the preferred embodiment described above. On the contrary, modifications are conceivable which are included in the scope of protection of the following claims. So it is also possible, for example, instead of a longitudinal bore 11 and a transverse bore 12 can the sun wheel 5 a longitudinal bore 11 and several in the longitudinal bore 11 opening transverse bores 12 include. Furthermore, the transverse bore 12 in the form of a over the entire inner circumference of the sun gear 5 be formed extending groove.

In addition, it should be noted that "encompassing" does not exclude other elements or steps, and "a" or "an" does not exclude a multitude. It should also be appreciated that features or steps described with reference to any of the above embodiments may also be used in combination with other features or steps of other embodiments described above. Reference signs in the claims are not to be considered as limiting.

LIST OF REFERENCE NUMBERS

1

generator gear

2

Wind turbine

3

drive shaft

4

output shaft

5

sun

6

hollow shaft

7

Inner circumferential surface

8th

Outer circumferential surface

9

friction-increasing film

10

friction-increasing coating

11

longitudinal bore

12

cross hole

13

face

14

channel

15

tower

16

gondola

17

hub

18

rotor blades

19

rotor

20

generator

21

thread

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 102010031161 A1 [0003]
• EP 2199607 A1 [0004]
• DE 102009023402 A1 [0006]
• EP 2075466 B1 [0008]

Claims (10)

Generator gear ( 1 ) of a wind turbine ( 2 ), comprising a drive shaft ( 3 ) and an output shaft ( 4 ), between the drive shaft ( 3 ) and the output shaft ( 4 ) a sun wheel ( 5 ) and a hollow shaft ( 6 ) are arranged as cooperating transmission parts of a planetary gear, wherein further the sun gear ( 5 ) with an inner peripheral surface ( 7 ) on an outer peripheral surface ( 8th ) of the hollow shaft ( 6 ) is attachable, characterized in that the sun gear ( 5 ) and the hollow shaft ( 6 ) have a press fit and between the inner peripheral surface ( 7 ) of the sun wheel ( 5 ) and the outer peripheral surface ( 8th ) of the hollow shaft ( 6 ) Reibwerterhöhende means are arranged. Generator gear ( 1 ) according to claim 1, characterized in that between the inner peripheral surface ( 7 ) of the sun wheel ( 5 ) and the outer peripheral surface ( 8th ) of the hollow shaft ( 6 ) as Reibwerterhöhendes agent a Reibwerterhöhende film ( 9 ) is arranged. Generator gear ( 1 ) according to claim 1, characterized in that between the inner peripheral surface ( 7 ) of the sun wheel ( 5 ) and the outer peripheral surface ( 8th ) of the hollow shaft ( 6 ) as Reibwerterhöhendes agent a Reibwerterhöhende coating ( 10 ) is arranged. Generator gear ( 1 ) according to claim 2 or 3, characterized in that the friction-increasing film ( 9 ) and the friction-increasing coating ( 10 ) Hard particles of carbides, nitrides and / or diamonds included. Generator gear ( 1 ) according to claim 1, characterized in that between the inner peripheral surface ( 7 ) of the sun wheel ( 5 ) and the outer peripheral surface ( 8th ) of the hollow shaft ( 6 ) as Reibwerterhöhendes agent the hollow shaft ( 6 ) on the outer peripheral surface ( 8th ) is roughened and / or the sun gear ( 5 ) on the inner peripheral surface ( 7 ) is roughened. Generator gear ( 1 ) according to claim 1, characterized in that the sun gear ( 5 ) at least one longitudinal bore ( 11 ) and at least one transverse bore ( 12 ), wherein the at least one longitudinal bore ( 11 ) on an end face ( 13 ) of the sun wheel ( 5 ) is arranged and the at least one transverse bore ( 12 ) on the inner peripheral surface ( 7 ) of the sun wheel ( 5 ) is arranged. Generator gear ( 1 ) according to claim 1, characterized in that the at least one longitudinal bore ( 11 ) and at least one transverse bore ( 12 ) are formed as blind holes, wherein the at least one transverse bore ( 12 ) in the at least one longitudinal bore ( 11 ) opens. Generator gear ( 1 ) according to claim 1, characterized in that the at least one longitudinal bore ( 11 ) and the at least one transverse bore ( 12 ) a channel ( 14 ) formed over the longitudinal bore ( 11 ) at the end face ( 13 ) of the sun wheel ( 5 ) can be acted upon by a fluid to a mounting and dismounting of the sun gear ( 5 ) to the hollow shaft ( 6 ). Generator gear ( 1 ) according to claim 1, characterized in that the sun gear ( 5 ) consists of the material 18CrNiMo6. Generator gear ( 1 ) according to claim 1, characterized in that the hollow shaft ( 6 ) consists of the material 42CrMo4.

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