DE102005012817A1 - Mast construction for towers has corner shafts with separation joints that form different angles for tower with four and eight corner shafts - Google Patents

Abstract

Each corner shaft is comprised of two partial profiles that, together, form a closed profile and two separation joints. The separation joints form an angle of approximately 90 degrees for a tower with four corner shafts, and an angle of approximately 125 degrees for a tower with eight corner shafts.

Description

For the corner handles Tower constructions by means of trusses are used as a rule Angle profiles. With the height the towers and with the size of the tower-mounted equipment (e.g., wind turbines) increases the load for the Angle profiles. To some extent, you can overcome these pressures the use of profiles with larger profile cross sections correspond. The enlargement of the profile cross sections However, it can not be done to any degree, as the production of angle profiles manufacturing technology is limited.

It is a way increase the number of corner stems, which is generally four, to to meet the static specifications. Here are the leg connected by cross braces the commonly used rectangular angle profiles no longer in a flight, so that the connection of the Ausfachungsstreben not parallel to the corresponding legs of the angle profiles, which is disadvantageous.

This Problem is encountered by the corner handles of several, - in general up to a number of four, which makes the Cross-sectional area the corner stalks indeed increased but the basic construction continues to be a construction with four corner posts: The disadvantage, however, is that important for the buckling stability radii of gyration are very small, as a large part the cross-sectional area lies in the focal area.

Corresponding are many intermediate supports the corner stem necessary, which significantly increases the design effort increased.

It exist constructions for Lattice towers, in which the corner handles and also the infill formed from tubes become. In particular, the material concentration is static optimal arrangement far away from the neutral chamfer of the profile. However, the connections are the infills and the bumps of the corner handles complicated and unfavorable, than in the aforementioned angle profile constructions.

Welded connections are consuming in manufacturing and have high notch effect, which is why they for dynamic claimed towers as in wind turbines greatly oversized have to be and therefore hardly come into question.

Especially against the background of new generations of wind turbines whose Hub heights over 150 Meters are new approaches to design the truss structure has been developed. In steel construction calendar 2004 (pp. 579-586) is described in a contribution by Mr Univ. Professor Dr.-Ing Peil one optimized in terms of material usage and assembly Eckstielprofil explained. This is a commercial I-profile, as it is known in the art under the name "Peiner-carrier", after its rolling process brought into a new shape so that the straps an angle of 90 ° with each other lock in. The profile can be open or closed. In the latter case the straps are welded together at the contact line. The Term "closed Profile "is in the Following for Used profile constructions that either a touch line the entire profile or a touch line at certain points of the profile. These above-mentioned Eckstielkonstruktionen are suitable after the o.g. versions especially for Lattice towers with four or three corner stems.

These Production of these new profiles is expensive, after rolling the I-Profiles, another manufacturing process is necessary. advantage opposite angle profiles is the big one Cross-sectional area, which can be reached with only one profile, as well as the opposite angle constructions greater inertia radius. adversely is that the radius of gyration across from a comparable tube is substantially smaller (about a factor of 1.4), and that the diagonals are not the forces initiate in the center of gravity of the profile, so that the corner staves twisted become.

The The object of the invention is a mast construction - in particular the corner handles of the same - to disposal to provide, which has a high stability and easy to assemble is.

The The object is according to claim 1 of the present invention solved. embodiments are in the subclaims described.

The the following example explains the invention with reference to a particularly preferred embodiment of the invention, the following drawings for explanation enclosed are:

1 : Cross section of a tower with eight corner posts in the area of the basic construction

2 : Corner stalk of a tower with eight corner stems made of two profiled sheets with lugs

3 : Stebe a infill

4 Cross section of a tower with eight corner stalks in the area of the pot

5 Cross section of a tower with four corner stems in the area of the basic construction

6 : Corner stalk of a tower with four corner stems made of two profiled sheets with tabs

7 : Combination of a truss tower with a tubular tower

In this embodiment, the tower has eight corner posts. These corner handles consist in the longitudinal direction of segments, which are each formed of two preferably folded sheets. These sheets have in the assembled state a cross section corresponding to that of an octagonal tube. The two sheets are not symmetrical, but designed so that the tabs ( 1 . 6 ) of aspiration ( 2 ) of the infills are located between the contact lines of the sheets, that the connection points of the struts lie flat between the contact areas of the two sheets.

For the exemplary mast construction with four corner stems results for the outer sheet ( 3 ) of the corner post accordingly an angle of about 235 °. For the inner sheet ( 4 ) of the corner post results in an angle of approximately 125 °.

One particularly advantageous aspect of this construction is that in the assembled state, a nearly closed profile of the corner post results. The shape and thus also the radius of gyration and the buckling stability correspond Nearly one tube, which is known to be the possible optimum in buckling stability. Thereby saves weight, the necessary number of diagonals and screw connections is reduced. As a rule, it is possible to use a crossed diagonal be, it is enough a zig-zag infill. On auxiliary infills can be completely dispensed with. Necessary remain horizontal bandages, the can be easily connected to the flanges of the corner handles.

The Assembly of the construction is done by screw, preferably at the site of the building. welding i.A. unnecessary.

The aspiration ( 2 ) are with your flat tabs ( 1 . 6 ) between the contact areas of the sheets and reduce, compared to a conventional construction of the corner handles of angle profiles, directed by the center of the corner stem force application, bending moments and torsion of corner handles.

Another advantage of the aforementioned construction of the corner handles results for the realization of the connection of the corner handles to the transition piece or the pot for the nacelle of a wind turbine. This pot is generally made of a tube rolled and welded sheets. In the construction according to the invention, the plate of the pot between the respective outer sheet ( 3 ) and inner sheet ( 4 ) of the respective corner post. This results in the advantage that the force is applied from the nacelle forces on the pot wall almost centrally in the corner handles and thus no static unfavorable power diversions are necessary. Furthermore, the force is introduced through the outer sheet ( 3 ) and the inner sheet ( 4 ) in two parts, which considerably reduces the number of screws required for connection.

The joints of the corner handles are lashed, with the tabs ( 1 . 6 ) on the surfaces of the preferably octagonal profile of the struts ( 2 ) are screwed.

Out The above-described principle, which has become a closed Profile complementary, asymmetrically divided corner handles, resulting in more advantageous Construction possibilities.

So it is possible, for example, to manufacture a tower with four corner handles, for example, according to this principle. For the outer sheet ( 3 ) of the corner stem results in an angle of 270 ° and for the inner plate an angle of 90 °. Here variant constructions are possible, which are optimized in particular with regard to the transition to the pot of the wind turbine.

By the increased stability and the increase The number of corner stems of a mast construction can be the needed Floor space across from a conventional one Significantly reduce mast construction. This is especially true in the Case of concern, in which the distance of the rotor blades - due to the deflection same - too the mast construction plays a safety-relevant role. Here it is possible, a mast construction with four corner stems in the base area with a Mast construction with e.g. eight corner posts in the upper part of the construction to combine.

This gives a very slim tower in the upper area, which has the required distance to the rotor blades. On the basis of the abovementioned design features, it is also possible to construct the framework construction according to the invention with a tubular tower construction ( 5 ) and thus combine the advantages of both designs.

Claims (10)

Mast construction with corner stems of sub-profiles, characterized in that the corner posts each consist of at least two sub-profiles and these sub-profiles together form a closed profile and two joints of the closed profile are determined so that these joints in alignment with the corresponding joints of the closed profiles of Next adjacent corner handles are arranged and thus an example of the previously described joints for a tower with four corner stems an angle of about 90 ° and for a tower with eight corner stems an angle of about 125 ° results, with the above angle of the angle is designated, which through the tab 1 and through the tab 6 is included. Invention according to the preceding claim, characterized in that the formed by the sub-profiles closed profile of the corner stem preferably that of an octagonal Tube corresponds. Invention according to one or more of the preceding claims, characterized in that the infill of the mast construction of struts ( 2 ) consists of symmetrical profiles, wherein the cross-section of the assembled profiles preferably corresponds to that of an octagonal tube. Invention according to one or more of the preceding claims, characterized in that the joined struts ( 2 ) of infill by tabs mounted between the symmetrical profiles of the infill ( 1 . 6 ) are connected to the corner stems. Invention according to one or more of the aforementioned Claims, characterized in that the number of corner posts of the mast construction on the Height of Masts is not constant. Invention according to one or more of the preceding claims, characterized in that the profiles forming a lattice tower are provided with a tubular tower ( 5 ), wherein the tubular tower ( 5 ) is positioned between the lattice tower and the nacelle of the wind power plant, are connected. Invention according to one or more of the aforementioned Claims, characterized in that the elements forming a lattice tower with a tubular one Segment, preferably connected to the pot of the nacelle of the wind power plant is and a partial profile of the corner stem on the outer wall of the pot and a Part profile is positioned on the inner wall of the pot. Invention according to one or more of the preceding claims, characterized in that the materials of the corner stems and / or the struts ( 2 ) are at least partially formed by non-metallic materials such as laminated carbon fibers. Invention according to one or more of the preceding claims, characterized in that the materials of the corner stems and / or the struts ( 2 ) are at least partially formed by non-metallic materials such as laminated carbon fibers. Invention according to one or more of the preceding claims, characterized in that the materials of the corner stems and / or the struts ( 2 ) are at least partially formed by fibrous natural materials.