ES2376980T3 - Tower - Google Patents

Abstract

The tower (1) has partial ready-mix concrete wall elements (3,4) which are fitted on a base plate (2) in upright and stacked manner. The ready-mix concrete wall elements have a structure with polygon horizontal projection. The ready-mix concrete wall elements have a form of an equal-sided trapezium. An independent claim is also included for method for installing the tower.

Description

Tower.

The invention relates to a tower, preferably for wind turbines, which is composed at least in part of precast concrete wall elements located vertically on a foundation plate and arranged one above the other, where the tower that is Continuously close up is made of precast concrete wall elements, which are composed so that they form a building that has a polygonal plant. The invention also relates to a method for erecting a tower.

Wind power towers have been known for a long time. This differentiates, for example, between conical steel tube towers, grid towers, bracing masts or hybrid towers. Especially in the case of elevated installations, from 100 m high, for example high conical steel tube towers, which are manufactured with insulated segments to be joined at the site, very large tube diameters are required for static reasons. These insulated tube segments with their huge tube diameters can hardly be transported with known means of transport by a road or, in extreme cases, by hard-to-reach roads.

However, it has also begun to produce at least part of concrete towers. For a quick installation of these towers it is also known to produce the tower with prefabricated concrete construction pieces. This is, as is known for example from document DE 603 09 668 T2, of prefabricated concrete parts curved or angled that, if you want to narrow the tower upwards, you have to present different bending radii for each element height . Therefore, it is necessary to prepare a large number of molds of different radii, in order to produce the corresponding precast concrete wall elements. By means of this, although the problem of easier transport is solved, the high cost of so many molds is not acceptable, however, from the point of view of sustainability.

The document JP 2007-120080 A, although it already makes patent for the construction of towers two flat concrete elements, however, rectangular and trapezoidal elements that are alternately placed next to each other are needed to form a tower. That is to say, also here there is a high cost for the large number of molds.

Document DE 20 2007 003 842 U2 makes clear, apart from flat mast segments, at least also bent segments, so that also here it is necessary to take into account a high cost for the molds.

The invention has set itself the task of improving a tower as well as a procedure for erecting a tower, so that its elements can be easily transported, the tower can be quickly erected on the site by means of prefabricated elements, the erection can also be carried out without complicated frameworks safely and quickly, and the production of the elements themselves is simple, economically sustainable and saves time.

To solve this task, it is proposed that the flat prefabricated wall elements should be in the form of an isosceles trapezoid, that at least one of the prefabricated concrete wall elements located vertically on the foundation plate is less than the remaining ones Precast concrete wall elements located vertically directly on the base plate, which between the prefabricated concrete wall elements located vertically directly on the base plate and the upper prefabricated concrete wall elements, which form the closure, all elements of precast concrete wall have the same height and that in the gaps between the upper prefabricated concrete wall elements are inserted prefabricated concrete wall elements of lower height.

By means of which the prefabricated concrete wall elements are configured flat, a flat formwork is sufficient, in which it is only necessary to adjust the wall elements and adjust them to the desired measurement. Although a triangular plan shape can also be considered as a polygon, the tower should preferably have an octagonal shape.

By means of the use of isosceles trapezoids it is guaranteed that the tower is continuously narrowed upwards. In this way, isolated steps are discarded, such as those which, if necessary, are obtained in towers composed of rounded prefabricated concrete wall elements.

By means of the requested arrangement of the lower ring of the precast concrete wall elements, for example, in the case of a polygon with eight sides of the same length, four long equal elements and four equal short elements for the lower ring are provided, where, in the gaps between the long elements, four equal long elements can then be inserted and fixed sufficiently, which in the background also have gaps between them, in which, in turn, long elements are inserted and fixed. By means of this self-climbing construction, the tower can be installed very quickly and above all very safely, since the prefabricated concrete wall elements inserted in the holes can be attached in the same way to the already arranged side parts, so that during the installation gives high resistance and safety.

If, for example, prefabricated concrete wall elements with a large height of 10 m are used, the tower can thus have heights in a module with a height difference of 5 m, depending on whether the upper precast concrete wall elements are fused. in a high prefabricated concrete wall element or also in a prefabricated concrete wall element of reduced height.

It should be noted that the flat prefabricated concrete wall elements are endowed with chamfered regions. By means of this, the prefabricated concrete wall elements can be better adapted to each other. At the junctions between the precast concrete wall elements it is not necessary to concretize so much.

It has proven to be convenient that the precast concrete wall elements are concreted with each other and with the foundation plate through concrete niches, and that the prefabricated concrete wall elements in the direction of their height have wrapping tubes, and that the Precast concrete wall elements are prestressed through tension meshes inserted in the wrapping tubes, with respect to each other and, if necessary, with respect to the foundation.

By means of the prestressed construction pieces, loads in the vertical direction can be absorbed very well, especially because of the force of the wind as well as the effects produced by the rotor blades.

It should be noted that on the upper prefabricated concrete wall elements that form a closure a steel tower tip or even the machine gondola itself is arranged.

If the tower formed by prefabricated concrete construction elements already has a height of about 100 m, the steel tower tip, which should then raise the tower still by possibly 30 m, can be treated for example with diameters rather smaller than for the lower elements of a tower of steel tubes with a height of 130 m. However, there is also the possibility of placing the machine gondola directly on the precast concrete wall elements that form the closure.

It is recommended, to install a tower according to the invention, that the prefabricated concrete wall elements be placed on the foundation plate and attached to it and between them, where at least one precast concrete wall element has a lower height , preferably half the height of the remaining wall elements, where the prefabricated high and medium height concrete wall elements are preferably placed alternately in the form of the desired polygonal plant, which on the lower ring thus erected, in each case, high prefabricated concrete wall elements are placed, where the prefabricated concrete wall elements are inserted and joined in each case in the gaps between the prefabricated concrete wall elements located higher, and that this constructive form Autotrepante is continued to the desired height of the tower and that, upon reaching the desired height, in the gaps there already present it is inserted half-height prefabricated concrete wall elements.

By means of the self-climbing constructive form, it is guaranteed that the prefabricated concrete wall elements can be placed securely on top of each other and thus mutually support each other. By means of this, a simple and safe mutual union of the precast concrete wall elements is also obtained. In addition to this, by means of the self-climbing constructive form, a very fast installation of the tower is possible.

It is convenient that in the wrapping tubes of the prefabricated concrete wall elements, tension meshes are implanted which, upon reaching the desired tower height, are subjected to tension and prestress the prefabricated concrete wall elements mutually and if necessary with respect to The foundation By means of this the tower can very well absorb high vertical loads.

The invention is explained in more detail based on a figure. With this they show:

Figure 1 a tower according to the invention;

Figure 2, in perspective, the lower ring of a tower according to the invention, and

Figure 3, in perspective, the lower region of a tower according to the invention.

Figure 1 shows a tower 1, which is located on a foundation plate 2 and is composed of insulated precast concrete wall elements 3, 4, the tip of which is formed by a conical steel tube 5, which supports the gondola of machine 6.

Figure 2 shows the foundation plate 2, on which wall elements 3, 4 are positioned vertically in the form of an octagonal polygon. With this, the wall elements 3 have a great height, for example 10 m, while the wall elements 4 have half the height, for example 5 m. Between each case two wall elements 3 a wall element 4 is arranged. The gap produced by this between the wall elements 3 serves to introduce a new wall element 3 ', where the wall element 3 'Not only is it located vertically on the wall element 4, but it can also be attached to the sides of the wall elements 3. In the following plane, wall elements 3 "can then be inserted into the gaps that are subsequently produced.

This self-climbing constructive form is especially safe, since the insulated wall elements are not only fixed vertically, but on their sides they can be attached equally to existing wall elements. The installation of such a tower is very fast. The transport of insulated concrete elements, for example 10 m in length, can be carried out on a normal truck. Because they are also flat elements, they can be easily stacked or stored next to each other on the truck.

At the upper end of the tower are placed in the last gaps between the wall elements 3n wall elements 4 ’, such that by means of this the same height of the upper ring of the tower is reached. The steel tube 5 or possibly a machine gondola 6 (see Figure 1) can be placed on this ring, if necessary.

The prefabricated concrete elements 3, 3 ’, 3”,…, 3 ”insulated have all the same height, while the eight necessary 4, 4’ wall elements are half the height. In the case of an octagon polygon, four equal 3, 4 wall elements can always be used. The closest higher arranged wall elements must then be reconfigured because of the conicity of the tower, such that the two parallel sides of the isosceles trapezoid are correspondingly shorter in each case.

The corresponding precast concrete wall elements, however, can easily be produced in a formwork. If the lateral limitations of the formwork are adjusted to the desired angle, the lateral limitations must be adjusted only for shortened parallel sides, in each case relative to each other.

Summary of reference symbols

1 tower

2 Foundation plate

3 Wall element

4 Wall element

5 steel tube

6 Machine Gondola

7 Adapter

Claims (6)

one.

Tower (1), preferably for wind turbines, which is composed at least in part of precast concrete wall elements (3, 4) located vertically on a foundation plate (2) and arranged one above the other, in where the tower (1) that continuously narrows upwards is made of precast concrete wall elements (3, 4), which are composed so that they form a building that has a polygonal plan, characterized in that the concrete wall elements Prefabricated (3, 4) planes have the shape of an isosceles trapezoid, because of the prefabricated concrete wall elements (3, 4) located vertically directly on the foundation plate (3) at least one precast concrete wall elements it has a height less than that of the remaining precast concrete wall elements located vertically directly on the foundation plate (2), because between the concrete wall elements prefabricated (3, 4) located vertically directly on the foundation plate (2) and the prefabricated concrete closing wall elements (3n, 4 ') above all precast concrete wall elements (3) have the same height , and because in the gaps between the upper prefabricated concrete wall elements 3n, prefabricated concrete wall elements (4 ') of smaller height are inserted.

2.

 Tower (1) according to claim 1, characterized in that the flat prefabricated concrete wall elements (3, 4) are provided in depth with chamfered regions.

3.

 Tower (1) according to claim 1 or 2, characterized in that the precast concrete wall elements (3, 4) are concreted with each other and with the foundation plate (2) through concrete niches, and because the elements of Precast concrete wall (3, 4) in the direction of its height have wrapping tubes, and because the precast concrete wall elements (3, 4) are prestressed through tension meshes inserted in the wrapping tubes, with respect to each other .

Four.

 Tower (1) according to one of claims 1 to 3, characterized in that a pipe tower tip is directly arranged on the prefabricated concrete wall elements (3n, 4 ') forming a closure or on a corresponding adapter (7) Steel (5) with machine gondola (6) placed on top or machine gondola (6).

5.

 Method for erecting a tower (1) according to at least one of claims 1 to 4, characterized in that the prefabricated concrete wall elements (3, 4) are placed on the foundation plate (2) and joined to it and between they, where at least one precast concrete wall elements (4) has a lower height, preferably half the height than the other precast concrete wall elements (3), where the concrete wall elements Prefabricated (3, 4) high and medium height are preferably placed alternately in the form of the desired polygon, because on the lower ring thus produced are placed in each case prefabricated concrete wall elements (3 ', 3 ", ..., 3n) high, where the precast concrete wall elements (3 ', 3 ", ..., 3n) are inserted and joined in each case in the gaps between the precast concrete wall elements (3, 3', 3" ..., 3n-1) higher, and because the self-climbing constructive form continues to the desired height of the tower (1) and because, upon reaching the desired height, prefabricated concrete wall elements (4 ') of reduced height are inserted into the gaps there between the wall elements of precast concrete (3n).

6.

 Method according to claim 5, characterized in that in the wrapping tubes of the precast concrete wall elements (3, 4) tensile meshes are implanted which, upon reaching the desired tower height, are subjected to tension and prestress the wall elements of precast concrete (3, 4) mutually relative to each other.