LUBRICATION SYSTEM

Abstract

A lubrication system for a wind turbine is provided, the lubrication system including a lubricant consumer to which fresh lubricant is supplied and out of which used lubricant is extracted, a pump for pumping fresh lubricant to the lubricant consumer, a waste lubricant collector where used lubricant can flow after being extracted from the lubricant consumer, and a plurality of containers delivering fresh lubricant to the lubrication system.

Claims

1. A lubrication system for a wind turbine, the lubrication system comprising: a lubricant consumer to which fresh lubricant is supplied and out of which used lubricant is extracted; a pump for pumping fresh lubricant to the lubricant consumer; and a waste lubricant collector where used lubricant can flow after being extracted from the lubricant consumer, wherein the lubrication system further comprising a plurality of containers delivering fresh lubricant to the lubrication system.

2. The lubrication system according to claim 1, wherein the lubrication system further comprising an input valve for controlling the flow of fresh lubricant from the containers.

3. The lubrication system according to claim 2, wherein a control unit controls the flow through the input valve.

4. The lubrication system according to claim 3, wherein the control unit is configured to monitor how long the fresh lubricant was stored in the different containers, in particular by keeping track of the time when the containers were refilled or replaced.

5. The lubrication system according to claim 1, wherein the containers are detachable for allowing a replacement of empty containers with containers filled with fresh lubricant.

6. The lubrication system according to claim 1, wherein at least two of the containers are connected in parallel.

7. The lubrication system according to claim 1, wherein at least two of the containers are connected in series.

8. The lubrication system according to claim 1, wherein the lubricant consumer is at least a component of the drive train of the wind turbine, in particular a main bearing.

9. The lubrication system according to claim 1, wherein the waste lubricant collector is a sump.

10. The lubrication system according to claim 9, wherein a removable can is connected to the sump.

11. The lubrication system according to claim 9, wherein at least one of the containers is connected to the sump after being emptied from fresh lubricant.

12. The lubrication system according to claim 1, wherein the lubrication system further comprising sensors to monitor the fill level of the containers and/or of the waste lubricant collector.

13. A method of lubricating a wind turbine by a lubrication system, the lubrication system comprising a lubricant consumer to which fresh lubricant is supplied and out of which used lubricant is extracted, a pump for pumping fresh lubricant to the lubricant consumer, a waste lubricant collector where used lubricant can flow after being extracted from the lubricant consumer, a plurality of containers delivering fresh lubricant to the lubrication system, input valves for controlling the flow from the containers and a control unit for controlling the flow through the input valves, the method comprising: connecting a first container of the plurality of containers being filled with fresh lubricant to the lubricant consumer and having a second container of the plurality of containers being filled with fresh lubricant disconnected from the lubricant consumer; extracting fresh lubricant from the first container by the pump; monitoring if the first container is empty and/or monitoring the filling level of the first container; and connecting the second container to the lubricant consumer when the first container is empty or when the filling level of the first container is lower than a predefined value.

14. The method of lubricating a wind turbine by a lubrication system according to claim 13, further comprising the step of monitoring how long the fresh lubricant is stored in the different containers in particular by keeping track of the time when the containers were refilled or replaced.

15. The method of lubricating a wind turbine by a lubrication system according to claim 14, further comprising the step of connecting the containers to the lubricant consumer according to the time when the containers were refilled or replaced in such a way that containers comprising fresh lubricant stored for a longer time are connected first.

Description

BRIEF DESCRIPTION

[0043] Some of the embodiments will be described in detail, with reference to the following figures, wherein like designations denote like members, wherein:

[0044] FIG. 1 shows a lubrication system according to a first embodiment of the invention providing lubricant from a plurality of containers to a roller bearing;

[0045] FIG. 2 shows a lubrication system according to a second embodiment of the invention providing lubricant from a plurality of containers to a hydrodynamic bearing;

[0046] FIG. 3 shows a lubrication system according to a third embodiment of the invention providing lubricant from a plurality of containers to a roller bearing; and

[0047] FIG. 4 shows a schematic view of a wind turbine.

DETAILED DESCRIPTION

[0048] FIG. 1 shows a lubrication system 1 according to a first embodiment of the invention providing lubricant from a plurality of containers 2 to a roller bearing 28.

[0049] Hence, the lubricant consumer 10 is the roller bearing 28, which can be the main bearing 28 of the wind turbine 20. A pump 4 extracts the fresh lubricant 11 from the containers 2 and brings it to the lubricant consumer 10. A filter 5 is added to filter impurities of the fresh lubricant 11 and avoiding that dirt reaches the lubricant consumer 10. A distributor 6 distributes the fresh lubricant 11 through pipes 7 to be able to reach the lubricant consumer 10 at different points and have an efficient lubrication.

[0050] Used lubricant 12 is extracted from the lubricant consumer 10 and collected in a waste lubricant collector, in this case a sump 8. To be able to empty the sump 8 more easily, the sump is connected to a removable can 9 which can be detached and brought out of the wind turbine 20. For this, an output valve 15 between the sump 8 and the can 9 is closed to avoid spillage of used lubricant 12. The output valve 15 is a manually operated valve which is opened by an operator when the can 9 is to be filled with used lubricant 12.

[0051] Alternatively, it is possible to connect containers 2 to the sump 8 when they are empty. This measure reduces the transportation costs, as empty containers 2 are not transported right away from the wind turbine 20 when used but are used to collect used lubricant 12.

[0052] Four containers 2 are coupled to the lubrication system 1 parallelly. By input valves 3, each container 2 can be opened and closed. In this case, the first of the containers 2 is opened and the container 2 is partly empty of fresh lubricant 11, as it is being used for lubricating the lubricant consumer 10. The other containers 2 are not connected to the lubricant consumer 10 and their input valves 3 are closed. A control unit 13 controls the opening, closing and flow rate of the input valves 3 and thereby controls which containers 2 are emptied first, which are usually the containers 2 comprising the older fresh lubricant 11. Hence, the control unit 13 subsequently and automatically opens the next container 2 when the container 2 connected to the lubricant consumer 10 is empty or is about to become empty.

[0053] The containers 2 are detachable, thereby allowing a replacement of an empty container 2 with a container 2 filled with fresh lubricant 11, as shown in the upper right corner of the figure.

[0054] FIG. 2 shows a lubrication system 1 according to a second embodiment of the invention providing lubricant from a plurality of containers 2 to a hydrodynamic bearing 29. The setup is similar to the one shown in FIG. 1. However, the lubrication system 1 shown here comprises sensors 14 to monitor the fill level of the containers 2.

[0055] FIG. 3 shows a lubrication system 1 according to a third embodiment of the invention providing lubricant from a plurality of containers 2 to a roller bearing 28. The containers 2 are arranged in three parallelly coupled groups, each group comprising five serially connected containers 2. One input valve 3 is arranged to control the flow of each group of five containers 2, wherein the input valves 3 are controlled by the control unit 13. In this figure, the upper group of containers 2 is empty, the middle group of containers 2 is currently connected to the lubricant consumer 10 and the lower group of containers 2 is disconnected from the lubricant consumer 10. Having a single input valve 3 for a group of serially connected containers 12 reduces the costs of the lubrication system 1. However, the containers 2 within the group will be emptied jointly.

[0056] FIG. 4 shows a schematic view of a wind turbine 20. The wind turbine 20 comprises a tower 22 on top of which a nacelle 21 is rotatably mounted. The wind turbine 20 further comprises a hub 23 which is connected to the nacelle 21. A plurality of blades 24 are mounted on the hub 23. The wind turbine 20 further comprises a drive train comprising a main bearing 25, a gearbox 26, and a generator 27.

[0057] Although the present invention has been disclosed in the form of preferred embodiments and variations thereon, it will be understood that numerous additional modifications and variations could be made thereto without departing from the scope of the invention.

[0058] For the sake of clarity, it is to be understood that the use of “a” or “an” throughout this application does not exclude a plurality, and “comprising” does not exclude other steps or elements.

REFERENCE LIST

[0059] 1 Lubrication system [0060] 2 Container [0061] 3 Input valve [0062] 4 Pump [0063] 5 Filter [0064] 6 Distributor [0065] 7 Pipe [0066] 8 Sump [0067] 9 Can [0068] 10 Lubricant consumer [0069] 11 Fresh lubricant [0070] 12 Used lubricant [0071] 13 Control unit [0072] 14 Sensor [0073] 15 Output valve [0074] 20 Wind turbine [0075] 21 Nacelle [0076] 22 Tower [0077] 23 Hub [0078] 24 Blades [0079] 25 Main bearing [0080] 26 Gearbox [0081] 27 Generator [0082] 28 Roller bearing [0083] 29 Hydrodynamic bearing