The present invention refers to a system for assembling/disassembling windmills that offers essential characteristics as far as novelty is concerned besides of remarkable advantages with respect to the means known and used for the same purposes in the current state of the art.
More particularly, the invention proposes the development of a system whereby the assembly and disassembly operations of tower segments, nacelle and full rotor making up the windmills can be carried out in a much easier and quicker manner in comparison to the traditional systems, without having to move huge cranes to the place of installation, and therefore in a much more economical manner than in said traditional systems.
To such purposes, the system of the invention includes a number of devices that provide a guided movement along the supporting tower, elements for friction fixing to the various tower segments, and systems for handling the different loads with a total protection as far as the integrity of all elements of the windmill is concerned.
The application field of the invention is included within the industrial sector dedicated to the construction and installation of windmills to take advantage of the wind energy and its eventual conversion to electric energy.
The evolution of the industry of energy generation from renewable sources and in particular from wind energy is in an upward progression in both installed capacity and the technology itself. The growing demand for machines with a higher generation capacity and also the availability of sites with lower-quality wind, urges the windmill designers to increase the size of both the tower and the rotor of its machines.
This entails an increase in the assembly height and in the maximum work load that the cranes for windmill assembly must withstand. Currently, these cranes already imply a great cost for the installation companies for wind turbines, both by the high operational costs (they also imply a cost when the environmental conditions do not allow to work), and by the high transportation costs. They also imply a real concern due to their scarcity and therefore to availability problems. All these problems of cost and availability are supposed to be growing as cranes with greater height and work load are required.
These shortcomings and requirements of the current technology lead to feeling the need for designing a system including structures and mechanisms that are capable of performing the main crane manoeuvres, but with a much lower operating cost. It is also necessary to reduce the downtime cost, for example when the weather conditions do not allow to use the crane.
There are many types of designs relating to the solution of this problem. Specifically, the industry presents three types of general solutions to this particular problem: a lifting structure capable of modifying its position along the tower (see, for example, EP 2746571 A2, US 2009/0282776 A1, US 2011/0067353 A1, among others), a structure capable of lifting the windmill as it inserts tower segments at the bottom, and devices that behave as a crane but with lower operating cost (see, for example, U.S. Pat. No. 8,584,429 B2). All these proposals solve the windmill assembly but suffer from problems which are intrinsic to their design which in turn cause the solution to be insufficient. These problems in the current state of the art are summarized in the following 5:
1. Disproportionate size of structure (high cost of transportation)
2. It requires modifications to the product (windmill)
3. Auxiliary structure of hoist (complexity of assembly and guidance)
4. Stresses unable to be withstood by the tower (inappropriate design)
5. Auxiliary equipment for the rotation of the tower (extra cost of operation)
Therefore, there is a real need in the current state of the art for solutions enabling to effectively solve the current problems associated with the assembly of windmills without creating other problems of equal or similar magnitude to those already existing. The ideal case is simplifying and reducing all costs related to the transportation, assembly and disassembly of the means required for the installation or removal of windmills. Also, it would be equally advantageous to be able to have an equipment for the maintenance of big corrective actions of the windmill, which is simple to build, as well as more easy, faster and more economical to install and use compared with means of the current technology, while enabling to perform all operations in a totally safe manner both for the elements that are handled (i.e. all components of the windmills) and for the staff involved in all the operations.
These objectives have been fully achieved through a system that will be described here-below and which essential features have been detailed under the claims accompanying the present description.
Thus, a first object of the invention consists in providing an ascending/descending system of all the components of a windmill for the purpose of assembling/disassembling the latter, wherein the elements that are part of the equipment for the practical materialization of the system have been designed in such a way that permit an easy transportation up to the place of installation, inside three or four containers carried in three or four respective trucks. As an only auxiliary element the installation means are intended to include a truck-crane of a conventional kind besides the resources usually available in a wind turbine fields.
A second object of the invention consists in developing and creating an equipment capable of ascending/descending along the tower of the windmill, in a totally safe manner.
In order to achieve both objects, the system of the invention for assembling/disassembling windmills has considered the creation of equipment made of:
As it will be understood, an equipment designed as set forth in the foregoing, intended for operations of hoisting/descent of all the components of a windmill during the assembly/disassembly operations of the latter, greatly simplifies all operations related to the transportation and use of the components, with the consequent saving of time, labour and, above all, transportation and operation expenses compared with the systems of the current technology used for the same purposes.
These and other features and advantages of the invention will be made clear from the following detailed description of a preferred embodiment thereof, given only by way of illustrative example and without any limitation purpose with reference to the accompanying drawings, wherein:
As mentioned above, the detailed description of the preferred embodiment of the object of the invention, is to be performed in what follows with the help of the attached drawings, throughout which the same reference numerals are used to designate the same or similar parts. Thus, attending first to the representation of
Included in the equipment required for the complete assembly of a turbine, the system of the invention has provided minor size, electrically operated cranes 12, arranged in the intermediate fixing structure 8 as shown in
One the main elements that are part of the system of the invention are known, the process required for the installation of a complete turbine by using the system of the invention will be discussed.
The first step is to install the main structure 3 around the gap where the tower segment 1 will be placed. The tower segment arrives in a horizontal position on a truck. An auxiliary beam 19 (see
With the last tower segment installed, the intermediate fixing structure 8 is maintained in position. That is, at this point it is not necessary to remove it from the tower segment. The auxiliary beam 19 is again connected to the hooks 5. Using conventional lifting equipment and elements, the nacelle 23 of the turbine is hoisted with the help of the hook 21 of the auxiliary beam 19.
With these manoeuvres the turbine is fully assembled, but it is necessary to perform the manoeuvres to remove both the main structure 3 and the intermediate fixing structure 8 from turbine tower. The various steps required to lower both structures over the tower down to the lowest part can be seen in
The disassembly of the intermediate fixing structure 8 is performed as shown in
Thus, now it only remains to disassemble the main structure. There are two possibilities to perform the disassembly. As discussed at the beginning, depending on whether the first tower segment has a minimum diameter greater than the maximum working diameter of the main structure 3, it will be required to perform an additional operation or not. If the main structure 3 can be lowered down to the ground without any opposition from the tower, disassembly is performed on the ground. However, when it is not possible to bring the main structure 3 to the ground due to geometric reasons, it will be required to perform the steps that are depicted in the sequence shown in
Although the assembly of wind turbines has been mentioned as the primary mode of use, this equipment can also be used for the big corrective operations, from the change of the generator to the change of the multiplier or the replacement of blades or the substitution of bearings.
Making the content of this description any longer is deemed unnecessary for a skilled person in the matter to understand its scope and the resulting advantages in order to make a practical realization of the invention.
Notwithstanding the above, and since the description made corresponds only to an example of a preferred embodiment of the invention, it may be perfectly understood that within its essentials, multiple variations may be introduced, also protected, which may affect the shape, the size or the materials of fabrication of the whole or any of its parts, without that implying any alteration of the invention, which is only restricted by the claims provided below.
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/ES2017/070187 | 3/30/2017 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2018/178409 | 10/4/2018 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
8584429 | Zavitz et al. | Nov 2013 | B2 |
9376291 | Laurens | Jun 2016 | B2 |
10494235 | Nelson | Dec 2019 | B2 |
20030183594 | Torres Martinez | Oct 2003 | A1 |
20090282776 | Berg | Nov 2009 | A1 |
20110067353 | Tadayon | Mar 2011 | A1 |
20150048043 | Laurens | Feb 2015 | A1 |
Number | Date | Country |
---|---|---|
19647515 | May 1998 | DE |
19741988 | Apr 1999 | DE |
1857670 | Nov 2007 | EP |
2746571 | Jun 2014 | EP |
11082285 | Mar 1999 | JP |
2010136026 | Dec 2010 | WO |
Number | Date | Country | |
---|---|---|---|
20180290864 A1 | Oct 2018 | US |