DE102008035350A1 - Wind turbine, has transformer unit including opening detachably closed by wall section in multiple segments of tower, where height and width of opening is larger than height and width of transformer unit - Google Patents

Abstract

The turbine has a tower including multiple segments (10) connected with each other. A transformer unit is arranged within the segments in an area of a tower base. The transformer unit has an opening (12), whose width (A) is larger than the width of the transformer unit. The height of the opening is larger than the height of the transformer unit. The opening is detachably closed by a wall section (14) in the segments. A door opening (18) is provided in the wall section, where the tower is stepped by the door opening.

Description

The The present invention relates to a wind turbine with a Tower.

Wind turbines Become regular from a certain performance class equipped with a medium voltage system, which is the connection of the generator to a medium voltage network. The medium voltage system covers as the largest component in space a transformer. For maintenance and repair of the medium voltage system Occasionally the problem arises that the transformer is not within the Tower can be repaired, but removed from the tower got to.

Out US 2006/0236648 An anchoring of a tower of a wind turbine is known, in which the lower segment of the tower is fastened with anchoring tongues projecting from the foundation via lashing plates. 4 The document shows an oval door opening bounded by metal sheets.

Out Windblatt 01/2006 it is known transformers for housing in the mast of the wind turbine so compact build that they through a standard door opening in the The tower can be brought in and removed from the tower. The Size of the door opening and the Tower reinforcement in the door area is doing through determines the dimensions of the transformer. To those with the door opening Connected weakening of the tower as low as possible To keep the transformer as compact as possible built.

Of the Invention is based on the object, a wind turbine with to provide a tower, in which also conventional components a medium-voltage plant, in particular a medium-voltage transformer, can be placed in the tower and removed from the tower, without that limits the stability of the tower becomes.

According to the invention the task by a wind turbine with the features of claim 1 solved. Advantageous embodiments form the subject the dependent claims.

The Wind turbine according to the invention has a Tower, which consists of several interconnected segments. Furthermore, the wind turbine is equipped with a transformer unit, which are arranged in the region of the base of the tower within a segment is. The segment has an opening whose width is larger as the width of the transformer unit and its height greater than the height of the component Medium voltage system, in particular the transformer unit is. According to the invention the opening in the segment by a wall portion detachable locked. The detachable connection between wall section and the segment equipped with an opening it if necessary to remove the wall section from the segment and the transformer unit or other components from the tower of the Wind turbine too big for the door opening, through to transport the opening.

Out WO 2006/050723 A1 For example, a tower for a wind energy plant is known, in which a segment has an opening into which a wall section is used, which has a uniform thickness and is thicker than the segment with the opening. The wall section is welded to the segment so that it can not be removed from the tower.

In In a preferred embodiment, the opening is along its circumference releasably connected to the wall portion. In a possible embodiment of the wall section with bolted directly to the segment. In an alternative embodiment is the wall portion with the segment over at least one Lashing plate bolted. Below a Laschblech is below a connecting means understood that a flat body with holes, with the two components, here segment and Wall section, connectable to each other.

at the embodiment in which the wall section with the segment over a safety plate is bolted, it is possible to carry out the lashing sheet in one piece. In a alternative embodiment, the Laschblech executed in several parts be. In both embodiments has at least one of the Laschbleche or a portion of the one-piece lashing sheet, a larger width as the remaining Laschbleche or the other sections of the Laschblechs. The broadening of the lashing surface allowed it, which occurs at the tower segment in the region of the opening Better absorb forces and initiate into the segment.

In In a preferred embodiment, the wall section is additional equipped with a door opening through which the Tower can be entered. A transformer unit for the connection to the medium-voltage network is greater as the dimension of a door, such as through DIN standards is prescribed. The provision of a door opening in the wall section detachably connected to the segment, allows the rest of the structure of the tower unchanged to let and in this way the stability of the tower not to be weak.

In an alternative embodiment, the wall section has no door opening. At this off Design is another segment equipped with a door opening or the door opening is located in the segment with the wall section, but at a different location. In general, the dimensions of the door opening are designed so that there is no appreciable weakening of the tower segment.

If another segment with a door opening for the tower is provided, this is preferably above or provided below the segment with the opening. Conveniently, can the closed by the wall portion opening and the door opening in the other segment in different Positions are arranged so that they do not lie directly on top of each other.

To In a preferred embodiment, the wall section is made of cast steel educated. As also appropriate and the Stability of the door opening conducive it turned out to be the door opening to provide a circumferential ridge, based on the radial direction of the segment projecting inwardly and / or outwardly. Of the Footbridge forms a still for the door opening.

preferred Embodiments of the invention are described below with reference to drawings explained in more detail.

It shows:

1 a section of a segment with an opening in which a wall section is arranged,

2 a section of a segment having an opening whose edge region is connected to a wall section via a double lashing connection,

3 a section of a segment whose opening is connected in its edge region by a wall section with an outer overlay plate,

4 a section of a segment whose opening is closed by a wall section which is set on the outside of the segment,

5 a section of a segment whose opening is closed by an inner wall section,

6 a top view of a portion of the segment whose opening is closed by a wall portion via four outer Laschbleche

7 a section of a segment in the region of the lower left corner of the opening, in which a lashing plate is provided with a larger width,

8th a top view of a section of a segment, with an opening into which a wall section is inserted via a one-piece Laschblech,

9 a foot area of a tower in a cross-sectional view, wherein the tower has an input and a releasably closed opening for the transformer, and

10 a section of a segment whose opening is closed by a double-walled wall section.

1 shows the section of a tower segment 10 a tower for a wind turbine. Towers of wind turbines consist of several annular segments, which are arranged one above the other. The segments may be interconnected in various forms. This in 1 represented segment 10 has an opening 12 having a width A. For transformer units with 2 MW or more for connection to the medium voltage network, a width A of about 90 to 120 cm has been found to be sufficient. Directly with the segment 10 is a wall section 14 releasably connected. The wall section 14 will be in its edge area 16 via screws (not shown) with the segment 10 in the edge area of the opening 12 connected. In the in 1 illustrated embodiment is the wall portion 14 from the outside to the segment 10 placed. The wall section 14 has a door opening 18 whose width B is smaller than the width A. The width B corresponds to the usual width of 60 cm for door openings of wind turbines. The door opening 18 is from a circumferential jetty 20 edged in both the interior of the segment 10 protrudes, as well as outward from the segment 10 protrudes. The jetty 20 makes a pool for the door opening 18 to stiffen the opening, so that the loads occurring in the opening area can be safely absorbed.

In regular operation of the wind turbine, the tower can through the door opening 18 be entered, of course, in the doorway 18 a suitable door is provided, which is also sealed if necessary, to prevent the entry of water, moisture and other environmental influences into the tower.

The door opening forms a point of discontinuity in the tower shell. The door opening can therefore through the bridge 20 with a sufficient material thickness, the tower in the door opening additionally stabilize, so that a total of no modification of the Load capacity under dynamic loads of the tower takes place.

If the need for the wind turbine to replace the transformer unit, so the wall section 14 by loosening the screw connection in the edge area 16 from the segment 10 are removed and there is an opening with the width A, through which the transformer can be removed and / or brought into the tower. The removal of the wall section is possible because in the case of an exchange of the transformer unit, the system is out of order and therefore the loads on the rotor and indirectly on the turn are significantly smaller.

2 has an alternative embodiment, a wall section 140 , which is not directly connected to the tower segment, but a pair of Laschblechen 22 and 24 held at this. The lashing sheets 22 and 24 are each at one end of the wall of the segment 10 bolted and at the other end with the wall section 140 screwed. Between segment 10 and wall section 140 is a fugue 26 provided that allow easy production and assembly.

3 shows an alternative connection of the wall portion 140 with the segment 10 , in which an external Laschblech 28 is provided. Between the segment 10 and wall section 140 is, as already in 2 represented, a fugue 30 intended.

4 corresponds to the embodiment of 1 in which the wall section 141 outside on the segment 10 is set. In contrast to the wall section 14 out 1 , which has an inwardly and outwardly projecting web 20 owns, is the wall section 141 with an inwardly projecting web 32 fitted. The jetty 32 has a transition area 34 , in which the web wall is made thicker. The larger thickness of the web wall gives the wall section 141 an additional stability.

5 shows a wall section 142 , which in contrast to the wall section 141 out 4 from the inside with the segment 10 connected is. The wall section 142 has a thickness d greater than the wall thickness of the segment 10 is. When dismantling the wall section 142 from the segment 10 can the wall section 142 be removed by rotation about its longitudinal and about its transverse axis from the tower through the opening in the segment. Alternatively, it is also possible, the wall section 142 even during the replacement of the transformer unit in the tower to leave.

6 shows a plan view of the segment 10 , where the boundary of the opening in the segment 10 by a dashed line 36 is shown. The opening in the segment 10 has a rectangular shape, for example, has a width of 95 cm and a height of 3 m. The corners of the opening are rounded. Around the wall section 142 with the segment 10 To connect, are four paired parallel Laschbleche 38 and 40 intended. Here are the longer Laschbleche 38 along the long side of the opening on the segment 10 arranged while the pair of shorter lashing sheets 40 at the top or bottom of the opening in the segment 10 is arranged. The Laschbleche each have two mutually parallel rows with holes through which the Laschbleche 38 and 40 with the segment 10 are screwed in the edge region of the opening. The wall section 142 is bolted in its edge region via an inner row of holes with the Laschblech. Central in the wall section 142 is a doorway 144 provided by a circumferential bridge 146 is limited.

7 shows an alternative embodiment for a arranged in the lower region of the opening Laschblech 42 , The link plate 42 , of which only the left half in 7 is shown, has in its central area over two parallel rows of holes 44 and 46 , The total of four parallel rows of holes in the central area of the Laschblechs 42 can absorb attacking forces better and avoid excessive loads in the transition area.

8th shows an alternative embodiment, wherein the opening in the segment 10 has a circular or elliptical shape on the top and bottom of the vertical, parallel longitudinal sides of the opening. The opening is ideally at a constant distance to the Still the wall opening, which is designed according to optimal load. The Laschblech can be made in one piece and completely around the wall section 142 extend. The advantage of using a one-piece Laschblechs 48 is that after its disassembly it can be safely and without interchanging of individual parts in its original position. A division of the Laschblechs is also conceivable to minimize the use of materials and to reduce the transport dimensions.

9 shows the tower 50 the wind turbine in the area of the tower foot. The tower base has two storey levels arranged one above the other 52 and 53 , The - floor level 52 is with an opening 54 provided with a bolted wall section 56 is closed. The wall section 56 Can be removed from the opening by loosening the screws 54 be removed. Within the floor level 52 is a transformer unit 58 arranged. The transformer unit 58 stands on a floor plate 60 over pillars 62 is supported. Below the bottom plate 60 are cavities 64 formed, for example, act as a cable tray. The floor level is ventilated 52 via an air inlet 66 in the lower area and an air outlet 68 in the upper area of the floor level.

To protect the transformer unit 58 is a roof 70 provided at a low height above the transformer unit 58 is located and covers this. For easier transport of the transformer unit 58 within the floor level 52 is a hoist 72 provided along a horizontal rail 72 is guided. The hoist 72 Can be used to the transformer unit 58 lift and this within the floor level 52 to move.

The Transformer unit can also work on rails that are at height the bottom of the opening, moved out of the tower become.

Farther is it possible to finish at a later date built wind turbine an opening when needed for the replacement of the transformer unit or another component provided. Here is an opening by a material removal be incorporated into the segment or wall of the segment, which is then closed by wall sections. in this connection is preferably a wall portion without door opening used to the subsequently incorporated opening to close.

The above the floor level 52 lying plane 53 is with a door 76 provided, through which the wind turbine can be entered. The door 76 the floor level 53 can via a staircase 78 be achieved. Inside the - storey level 53 there is another component 80 the medium-voltage system, via which the power generated by the generator can be fed after stepping the voltage into the electrical supply network. The middle voltage position consists in the illustrated embodiment of a component 80 and the transformer unit 58 , The key thought here is that if the part fails 80 the medium voltage system, this can be dismantled and disassembled via the door opening 76 can be exchanged. Alternatively, it is also possible in the floor of the floor level 53 to provide a closable opening over which the part 80 the medium voltage system in the floor level 52 can be lowered from where it passes through the opening 54 can be exchanged.

An alternative way to close an opening in the tower is in 10 shown. 10 shows the section of a segment 10 with an opening 11 , The opening 11 In this case, it can be introduced directly during the manufacture of the tower or, if necessary, subsequently introduced by material removal. The opening 11 is through an inner wall section 13 and an outer wall section 15 closed, with both wall sections 13 and 15 together about screws 17 with the segment 10 are connected. The advantage of this embodiment is that both wall sections 13 and 15 in a smaller material thickness than the material thickness of the segment 10 can be produced. In a circumferential row of screws for fixing the wall sections 13 and 15 There is an optimal power flow, whereby the risk is reduced by frictional connection.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• US 2006/0236648 [0003]
• WO 2006/050723 A1 [0008]

Claims (16)

Wind turbine with a tower consisting of several interconnected segments and with a transformer unit ( 58 ) in the area of the tower base ( 50 ) within a segment ( 52 ), which has an opening ( 54 ) which has a width A which is greater than the width of the transformer unit ( 58 ), and which has a height which is greater than the height of the transformer unit, wherein the opening ( 54 ) in the segment ( 52 ) by a wall section ( 56 ) is releasably closed. Wind energy plant according to claim 1, characterized in that the opening ( 54 ) is releasably connected along its periphery with the wall portion. Wind energy plant according to claim 1 or 2, characterized in that the wall section is directly connected to the segment is. Wind energy plant according to claim 1 or 2, characterized characterized in that the wall section with the segment over at least one Laschblech is screwed. Wind energy plant according to claim 4, characterized in that the lashing plate ( 48 ) is made in one piece. Wind energy plant according to claim 4, characterized in that that the Laschblech is made of several parts. Wind energy plant according to claim 5 or 6, characterized characterized in that at least one of the Laschbleche or at least a portion of Lasch sheet a greater width has as the remaining Laschbleche or the other sections of the Laschblechs. Wind energy plant according to one of the claims 1 to 7, characterized in that in the wall section a Door opening is provided through which the tower can be entered. Wind energy plant according to one of claims 1 to 8, characterized in that in addition to the opening ( 54 ) a door opening ( 76 ) is provided. Wind energy plant according to claim 9, characterized in that the door opening ( 76 ) above or below the opening ( 54 ) is provided. Wind energy plant according to one of the claims 1 to 10, characterized in that the wall section of cast steel is made. Wind energy plant according to claim 8 or 9, characterized in that the door opening has a circumferential web ( 20 ) which projects inwardly and / or outwardly with respect to the radial direction of the segment. Wind energy plant according to one of claims 1 to 12, characterized in that the opening in the segment is closed by a double-walled wall portion which has an outer wall portion ( 15 ) and an inner wall section ( 13 ) owns. Wind turbine according to claim 13, characterized in that the outer and the inner wall section ( 13 . 15 ) each have a wall thickness which is less than the wall thickness of the segment. Wind energy plant according to claim 1 to 4, characterized characterized in that the opening in the segment after erection the wind turbine is introduced. Wind energy plant according to claim 15, characterized that the opening is introduced by material removal.