DE102009014926A1 - 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

The The invention relates to a tower, preferably for wind turbines, the at least partially upstanding on a foundation plate and on top of each other arranged precast concrete wall elements, and a method to build a tower.

Wind turbines are known for a long time. In this case one differentiates z. B. conical tubular steel towers, lattice towers, guyed Masts or hybrid towers. Especially with high systems, from 100 m in height, z. High conical tubular steel towers, which are made of individual, to be connected on site shots, very big pipe diameter needed. These single pipe shots with the huge pipe diameters can be with known means of transport over the Street or in extreme cases, difficult to access Because hardly transport.

you but has already passed to Towers at least partly made of concrete. For a quick setup of such It is towers also already known to produce the tower of precast concrete components. These are curved prefabricated concrete components, which, if the tower is tapering upwards should, for every shot must have different bending radii. It must therefore be a size Number of shapes of different radii be prepared to to produce the corresponding precast concrete wall elements. Thereby Although the problem of easier transport is solved, the high costs for costs However, the many forms are also against the background of sustainability unacceptable.

Of the Invention is based on the object, a tower and a method to improve the construction of a tower so that its Elements can easily be transported to the tower site can be erected quickly by prefabricated elements that the erection can be done safely and quickly even without complex scaffolding can and that making the elements themselves simple, sustainable economical and saves time.

to solution the task is proposed that the upwardly tapered tower consists of level prefabricated concrete wall elements, which is a one Polygon plan have structure are composed.

Thereby that the precast concrete wall elements are flat, sufficient one level formwork, in which only the wall elements adjustable, and to the desired Dimension adjustable have to be. Even though when polygon also a triangular plan shape is eligible, should the tower preferably have an octagonal shape.

It has proved its worth, that the prefabricated wall elements take the form of an isosceles Trapezes have. This ensures that the tower steadily tapered upwards. Individual steps, as they may be in the case of rounded prefabricated concrete wall elements existing towers are thus excluded.

Nachahmenswent is that the levels precast concrete wall elements in depth with beveled cheeks are provided. This allows the individual precast concrete wall elements better adapt to each other. In the connecting joints between the Ready-mixed concrete wall elements must be less concreted.

Advantageous is that of the precast concrete wall elements rising directly on the foundation plate at least one has a lower height than the others directly on the floor slab upright precast concrete wall elements that the between the directly on the bottom plate rising precast concrete forest elements and the top finished prefabricated concrete wall elements all precast concrete wall elements the same height have and that in the gaps between the top precast concrete wall elements Precast concrete wall element lower height are used.

By this arrangement of the lowest ring of precast concrete wall elements is z. B. achieved in a polygon with eight pages of equal length that four equal long elements and four equal short elements for the lowest one Ring are provided, taking in the gaps between the long elements now four equal, long elements used and sufficient can be fixed which in turn have gaps between them in the second level, in turn, long elements are inserted and fastened. By this climbing construction lets the tower build up very fast and above all very safe, there the ones in the gaps used prefabricated concrete wall elements equal to the already existing Side panels can be connected, so that even when building a great strength and safety given is.

Become z. B. prefabricated concrete wall elements used with a greater height of 10 m, can the tower thus heights in the grid of 5 m height difference have, depending on whether the top precast concrete wall elements on a high precast concrete wall elements or a precast concrete wall elements lower altitude are based.

It has been proven that the precast concrete wall elements are concreted with each other and with the foundation plate on concrete benches, and that the Fertigbe clay wall elements have in the direction of their height sheaths, and that the precast concrete wall elements are biased against each other and possibly against the foundation via inserted in the ducts spans.

By the prestressed concrete parts can be Loads in the vertical direction, in particular from wind power as well the actions due to the rotor blades are very well received.

Remarkable is that on the top finishing concrete wall elements forming a conclusion a spire made of steel or the machine nacelle itself arranged is.

If the tower of precast concrete elements already a height of approx. 100 m, z. As the spire made of steel, the tower then increase by about 30 m is to be processed with significantly smaller diameters than for the bottom shots a steel tube tower with a height of 130 m. Such smaller diameter can still be at rough terrain points deliver. But there is also the possibility to go directly to the Close-up of prefabricated concrete wall elements forming the machine nacelle sit up.

It is recommended to build a tower according to the invention, that the Precast concrete wall elements placed on the foundation plate and with this and interconnected, with at least one Precast concrete wall element one lower height, preferably half the height of the other wall elements wherein the high and half-height precast concrete wall elements preferably alternately in the shape of the desired Polygon floor plan be set up on the so-constructed lower ring each high ready-mixed concrete wall elements are placed wherein the precast concrete wall elements each in the gap between the higher standing prefabricated concrete wall elements be used and connected, and that this climbing construction wise to the desired Height of Tower continued will and when you reach the desired Height in the gaps there only half-height ready-mixed concrete wall elements are used.

By The climbing construction ensures that the precast concrete wall elements are securely placed on each other can and support each other. This is also a simple and secure connection of the precast concrete wall elements together given. In addition, the climbing construction is a very fast Construction of the tower possible.

It is expedient that in the ducts the prefabricated concrete wall elements are inserted into tensioning strands, which after reaching the desired tower height be put under tension and the precast concrete wall elements against each other and if necessary pretension against the foundation. This allows the tower in vertical direction very well remove high loads.

The The invention will be explained in more detail with reference to a figure. Showing:

1 a tower according to the invention;

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

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

1 shows a tower 1 standing on a foundation plate 2 stands and made of individual precast concrete wall elements 3 . 4 whose tip is made of a conical steel tube 5 which is the machine nacelle 6 wearing.

2 shows the foundation plate 2 , on the wall elements 3 . 4 in the form of an octagonal polygon. Here are the wall elements 3 a high altitude, z. B. 10 m, while the wall elements 4 half the height, z. B. 5 m have. Between every two wall elements 3 is a wall element 4 arranged. The resulting gap between the wall elements 3 serves to create a new wall element 3 ' to bring in, wherein the wall element 3 ' not only on the wall element 4 gets up but also with the sides of the wall elements 3 can be connected. In the next level can now wall elements 3 '' be used in the then resulting gaps.

These Climbing construction is particularly safe because the individual wall elements not only stand up firmly, but at their sides with existing wall elements can be connected. The construction of such a tower is very fast. The transport the individual z. B. 10 m long concrete elements can be on the usual Trucks take place. Since these are also flat elements, let These are easily stacked or stored side by side on the truck.

At the top of the tower is in the last gaps between the wall elements 3 ⁿ wall elements 4 ' set so that an equal height of the upper ring of the tower is achieved. On this ring may possibly have an adapter 7 the steel pipe 5 or maybe a machine nacelle 6 be placed directly on.

The individual precast concrete elements 3 . 3 ' . 3 '' . ..., 3 ⁿ all have the same height, while the eight required wall elements 4 . 4 ' half the height. An octagonal polygon can always have four identical wall elements 3 . 4 Find application. The next higher wall elements then have to be formed again because of the conicity of the tower so that the two parallel sides of the isosceles trapezoid are each formed correspondingly shorter.

The However, corresponding precast concrete wall elements can be easily in a formwork. If the side boundaries of the formwork on the wished Angles are set the page boundaries only for shortened parallel pages respectively must be hired to each other.

1

tower

2

foundation plate

3

wall element

4

wall element

5

steel tube

6

nacelle

7

adapter

Claims (8)

Tower ( 1 ), preferably for wind-powered wheels, which at least partly consists of one on a foundation plate ( 2 ) upright and stacked precast concrete wall elements ( 3 . 4 ), characterized in that the upwardly tapered tower ( 1 ) of level prefabricated concrete wall elements ( 3 . 4 ) composed of a polygon floor plan structure. Tower ( 1 ) according to claim 1, characterized in that the levels of precast concrete wall elements ( 3 . 4 ) have the shape of an isosceles trapezium. Tower ( 1 ) according to claim 1 or 2, characterized in that the levels of precast concrete wall elements ( 3 . 4 ) are provided in the depth with bevelled cheeks. Tower ( 1 ) according to claim 1 or 3, characterized in that of the directly on the foundation plate ( 2 ) upstanding precast concrete elements ( 3 . 4 ) at least one precast concrete wall element ( 4 ) has a lower height than the others directly on the foundation plate ( 2 ) upstanding precast concrete wall elements ( 3 ) that between the directly on the foundation plate ( 2 ) upstanding precast concrete wall elements ( 3 . 4 ) and the top finishing precast concrete wall elements ( 3 ⁿ . 4 ' ) all precast concrete wall elements ( 3 ) have the same height, and that in the gaps between the upper prefabricated concrete wall elements ( 3 ⁿ ) Precast concrete wall element ( 4 ' ) lower height are used. Tower ( 1 ) according to one of claims 1 to 4, characterized in that the precast concrete wall elements ( 3 . 4 ) with each other and with the foundation plate ( 2 ) are concreted over concrete benches and that the precast concrete wall elements ( 3 . 4 ) have ducts in the direction of their height and that the precast concrete wall elements ( 3 . 4 ) are preloaded against each other via embedded in the cladding strands. Tower ( 1 ) according to one of claims 1 to 5, characterized in that on the one-step finished concrete wall elements ( 3 ⁿ . 4 ' ) or on a corresponding adapter ( 7 ) a spire of tubular steel ( 5 ) with attached nacelle ( 6 ) or the nacelle ( 6 ) is arranged directly. Method of constructing a tower ( 1 ) according to at least one of claims 1 to 6, characterized in that the precast concrete wall elements ( 3 . 4 ) on the foundation plate ( 2 ) are mounted and connected to this and each other, wherein at least one precast concrete wall element ( 4 ) a lower height, preferably half the height of the other precast concrete wall elements ( 3 ), wherein the high and half-height precast concrete wall elements ( 3 . 4 ) are preferably placed alternately in the form of the desired polygon, that on the resulting lower ring each high precast concrete wall elements ( 3 ' . 3 '' , ..., 3 ⁿ ), the precast concrete wall elements ( 3 ' . 3 '' , ..., 3 ⁿ ) in each case in the gaps between the higher precast concrete wall elements ( 3 . 3 ' . 3 '' . 3 ^n-1 ) and connected and that the climbing construction to the desired height of the tower ( 1 ) and that upon reaching the desired height in the existing gap between the precast concrete wall elements ( 3 ⁿ ) Precast Concrete Wall Elements ( 4 ' ) are used with low height. A method according to claim 7, characterized in that in the ducts of the precast concrete wall elements ( 3 . 4 ) Tensioning strands are placed, which are put under tension after reaching the desired tower height and the precast concrete wall elements ( 3 . 4 ) bias against each other.