Wind energy system with a fully integrated machine assembly |
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申请号 | US11621227 | 申请日 | 2007-01-09 | 公开(公告)号 | US07579706B2 | 公开(公告)日 | 2009-08-25 |
申请人 | Sonke Siegfriedsen; | 发明人 | Sonke Siegfriedsen; | ||||
摘要 | A wind energy system comprising a tower, a machine housing which is rotatably arranged on the tower about its axis, receiving a gear mechanism, a generator, a slip ring arrangement, a brake, and a rotor which is mounted in the machine housing and which is provided with at least one rotor blade, wherein the gear mechanism, generator, vertical bearing arrangement, slip ring transmission element and rotor bearing are integrated in the machine housing. | ||||||
权利要求 | The invention claimed is: |
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说明书全文 | This application is a continuation-in-part of International Application No. PCT/DE2005/001552, filed on Sep. 6, 2005, which in turn bases priority on German Application No. 10 2004 046 536.0, filed on Sep. 24, 2004. 1. Field of Invention The invention relates to a wind energy system having a tower, a machine housing located on the tower so as to rotate about its axis and receiving a gear mechanism, a generator, a slip ring arrangement and a brake, and a rotor mounted in the machine housing having at least one rotor blade. 2. Description of the Prior Art Over the last few decades, wind power technology has dynamically further developed, but this only relates in average to very large installations for main parallel operations. However, there have been no advances over the past twenty years in the development of small plant systems in the kilowatt range. Therefore, these plants are still very expensive and have consequently not appeared on the market. The use of wind power could play an important part in supplying two billion people having no access to electricity. For this purpose, there is a considerable need for plants in the power range of 1 to 10 kW, but this is only possible if the plants are extremely robust and inexpensive, easy to erect and largely maintenance-free. Existing small plants are unable to fulfill these demands because they are too expensive and/or too fault-prone. A major problem is to design the individual components required so as to be matched to one another in optimum manner, and which can be joined together appropriately. A reliable plant can only be developed on satisfying this requirement. It is also of decisive importance to be able to manufacture all the components inexpensively using CNC machines and enabling easy, rapid installation. In order to permit an easy erection, it is very advantageous if the plant has a limited head weight. Most of the presently commercially available small plants are constructed from individual standard components which are screwed to a machine frame. This leads to relatively large subassemblies, which are, therefore, usually very heavy. These components are not matched to the specific needs of wind power utilization so they do not meet the requirements regarding service life and loading. It is common to all of these solutions that they have a considerable head weight, are expensive, and also fault-prone, so that they are unsuitable for more widespread use. As prior art, particular reference is made to the 1954 German patent 890 480, which discloses a plant construction which is in part integrated, but which has too many components to be screwed together. Therefore, the problem of the invention is to provide a wind energy system of the aforementioned type in which all the components are matched to one another in optimum manner, and all parts can be compactly joined together so as to provide a lightweight and, in particular, inexpensive machine set or unit. According to the invention, this problem is solved by the implementation of a fully integrated machine assembly with all the components being compactly combined in a cast part. These components consist of the vertical mounting, slip ring transmission member, gear mechanism, generator, brake and rotor bearing. All the parts are geometrically arranged in such a way for providing a compact and lightweight machine housing. It is particularly advantageous if the machine housing is manufactured as an aluminum cast part. Further features and advantages of the present invention can be gathered from the following descriptions of the preferred embodiment with reference to the attached drawings, wherein: Referring still to Rotor shaft 20 is mounted in rotary manner in machine housing 18 by means of a front bearing 42 and a rear bearing 44. Rotor shaft 20 carries rotor 16 (shown in Generator shaft 50 is mounted by means of a front bearing 54 and a rear bearing 56. Front bearing 54 is pressed into machine housing 18 and the rear bearing 56 into brake 32. Front bearing 54 is lubricated with the lubricant of gear mechanism 24, and the rear bearing 56 with a separate grease filling. Brake 32 with rear bearing 56 is screwed to the machine housing 18, and consequently seals the generator area 26 against environmental affects. This construction permits an extremely compact, lightweight design of the entire machine assembly. The gear mechanism 24 is located as close as possible to vertical bearing 28, and the generator 26 is positioned above oil pan 52 and vertical bearing 28. As a result, the machine housing 18 has a particularly short construction length. In the form of a casting, which can be completely machined on a CNC machining center in one setting, the machine housing 18 can be very inexpensively manufactured. It is advantageous if the rotor axis 58 is at right angles to the tower axis 34. The machine housing has a particularly low weight if an aluminum alloy is used as the material. In addition, the parts are reduced to a minimum, which has a positive effect on costs and also the reliability of the system. The wind energy system in which the machine housing 18 is in the form of a block in casting form with an outer ring of a lower first bearing 36 serving for the lower mounting of a journal 40 screwed to the top of the tower 10 and an outer ring of an upper second bearing 38 for the upper mounting of journal 40, an outer ring of a third bearing 42 for mounting the front of rotor shaft 20 with an outer ring of a fourth bearing 44 for mounting the rear of rotor shaft 20 carrying the gear wheel 46 and inserted in the machine housing 18, an outer ring of a fifth bearing 54 for mounting the front end of generator shaft 50 and an outer ring of a sixth bearing 56 for mounting the rear end of generator shaft 50, has a reduced weight which makes the total expenditure for the erection of the wind energy system including the tower, much lower. It is also proposed that the gear pinion 48 of gear mechanism 24 is pressed into the generator shaft 50, and the slip ring transmission member 30 is mounted on journal 40. The brake 32, in the form of a centrifugal brake resting on the free end of the generator shaft 50 and whose abutment is firmly connected to the machine housing block 18 or in the form of an electrically released disk brake placed on the generator shaft 50 surrounding the fifth bearing 54, reduces the otherwise necessary apparatus expenditure, particularly in those cases where the at least one rotor blade is not adjustable. |