DE2646353B1 - Transportable mast, especially for wind turbines - Google Patents

Description

As a result, the adjusting device can take the erection process out of the horizontal starting position of the two mast parts without the help of additional Lifting devices begin (in contrast to the construction according to DE-OS 17 59 033) and in particular the folding up of the upper mast part up to run stretched and at least approximately vertical end position.

In an advantageous embodiment of the invention, the two mast parts can be joined together by a combined hinge-flange connection. One such a connection is not only easy to establish; it also makes transferring easier the so-called tower torque (in the case of a wind turbine with a vertical drive shaft passed through the mast).

So that the length of the stroke that the adjustment device executes must be kept within reasonable limits, one expediently places one of the both articulation axes of the adjustment device (preferably those of the upper mast part assigned joint axis) at a relatively short distance from the hinge axis. However, the smaller this distance (and thus the stroke) is chosen, the greater the required adjustment forces. The sizes mentioned are freely selectable, when the adjustment device is arranged outside the mast and thus on the Attacks the outside of the mast parts (claim 3).

If the adjustment device is to be protected from the weather, so it can (according to claims 4 and 5) inside the designed as a hollow body Be arranged mast. Here, however, is the one caused by the adjusting device maximum feasible stroke limited by the clear width of the mast cross-section, especially if the mast is designed as a closed hollow body. The distance between the hinge axis assigned to the upper mast part and the hinge axis must here be chosen so that the bracket mentioned in claim 5 during the pivoting movements remain within the clearance profile of the mast.

When the adjustment device engages on the outside of the mast parts (Claim 3), then it must in the first process step, namely when erecting of the two mast parts from the initial horizontal position to pull an A. and in the second process step, namely when folding up the upper part of the mast, oppressive. On the other hand, one must be arranged inside the mast and thus on the inside the adjustment device engaging the mast parts in the first step of the process and have a pulling effect on the second.

An adjustment device arranged inside the mast can be used for Shortening of the required stroke can advantageously be formed according to claim 6.

If the mast is to stand vertically in the erected state, then the erection of the mast facilitated by the fact that the lower mast part is shorter than the upper mast part, e.g. B. by 10 to 30% (claim 7).

As a result, the lower part of the mast gets without in the first process step further action in the vertical position.

In the case of a mast for a wind turbine, however, it can be of constructive nature Reasons also be appropriate that the mast in the erected state compared to the Vertical stands inclined, for example, by 10 °. It is useful here to use the perform both mast parts at least approximately the same length (claim 8), because this makes it easier to transport the two mast sections.

When erecting the mast, the two mast parts are then after first process step like an at least approximately symmetrical A.

Embodiments of the invention are shown below with reference to the drawing described. In it, F i g. 1 a mast with an adjusting device acting on the outside in the assembled state, but still lying horizontally on the floor, FIG. 2 the mast according to FIG. 1 in an intermediate state during the erection process, F i g. 3 the mast according to FIG. 1 in the half and fully erected state, F i g. 4 a mast standing inclined in the final state with an internal adjustment device, in the assembled state, but still lying horizontally on the floor, FIG. 5 the mast according to FIG. 4 in the semi-erect state, F i g. 6 the mast according to F i g. 4 in the fully erected state and FIG. 7 through a partial longitudinal section a mast with an internal, but opposite the F i g. 4 to 6 modified adjustment device.

The in the F i g. 1 to 3 shown, in the erected state vertically standing and intended for a wind turbine mast essentially comprises the following items: lower mast part 10, upper mast part 11, hinge 12 with flanges 12a, 12b, an adjusting device designed as a double-acting hydraulic cylinder 13, bearing housing 14 for a wind turbine rotor 15 with two rotor blades 16 a base plate 17 with a hinge 18 articulated foot part 19. In the foot part 19, the mast lower part 10 is rotatably mounted so that the mast with the wind turbine accordingly can be rotated depending on the wind direction.

In Fig. 1, the two mast parts 10 and 11 are only via the hinge 12 connected to each other; Furthermore, the lower mast part 10 is with its foot part 19 connected to the base plate 17 via the hinge 18. At the other end it rests Mast over the bearing housing 14 with a roller 20 on the floor 21.

The adjusting device 13 comprises a cylinder 22 with a Joint bearing 23 is attached to the lower mast part 10, as well as a piston with a piston rod 24, which is fastened to the mast upper part 11 via a pivot bearing 25. To straighten up of the mast, pressure medium is supplied to the cylinder 22 in such a way that the two pivot bearings 23 and 25 are drawn towards each other.

As shown in FIGS. 2 and 3 can be seen, this is the mast base 10 erect. The mast top 11 takes at the end of this first process step the in F i g. 3 position shown by dash-dotted lines. The lower part of the mast is now with its foot part 19 firmly screwed to the base plate. Then - after the Assembly of the rotor blades 16 - the cylinder 22 is again supplied with pressure medium, namely this time the other side, so that the mast top 11 is pushed up and thus is also erected in the vertical position. After screwing the both flanges 12a and 12b, the erection of the mast is finished. To lay down of the mast is moved in the reverse order.

In the case of the FIG. In the state shown in FIG. 1, the hinge 12 is always in position in the area of the underside of the mast parts 10, 11, the axis of the hinge 12 always extends approximately in the horizontal direction. The axes of the joints 23 and 25 are parallel to the axis of the hinge 12. If, as in FIG. 1 to 3 shown, the adjustment device 13 during the first process step has a pulling effect, it must be on the outside, namely in FIG. 1 on the underside of the mast sections attack.

As already mentioned, form the axes of the spherical plain bearings 23 and 25 and the axis of the hinge 12 in the extended state of the mast (Figs. 1 and 3) an obtuse triangle.

Instead of the adjusting device 13 designed as a pressure cylinder a threaded spindle can also be used, which is mechanically driven by a motor, z. B.

can be driven by a hydraulic motor.

In the case of the FIG. 4 to 6 shown embodiment the mast is slightly inclined in relation to the vertical when erected. Even Such a mast can (as in FIGS. 1 to 3) an external adjusting device exhibit. In contrast to this, however, in FIGS. 4 to 6 one inside Adjusting device 33 shown, for example again with a pressure cylinder 42 Piston rod 44.

The mast again comprises a lower mast part 30 with a foot part 39 and a mast top 31 with bearing housing 34 for a wind turbine rotor 36 and with a Roller 40. The two mast parts 30 and 31 are shown in FIG. 4 coupled to one another by the hinge 32, and the foot part 39 is connected to a base plate 37 by a hinge 38. The printing cylinder 42 is attached to the lower mast part 30 with a pivot bearing 43; the entire printing cylinder 42 is located in the interior of the lower mast part 30.

To connect the piston rod 44 to the mast top 31 is shown in the inside of the mast top part welded in a bearing block 46 with a hinge eye 45 - in the mast position according to FIGS. 4 and 6 - into the interior of the lower part of the mast 30 protrudes. Here form the Axscn of the joints 43 and 45 with the axis of the Hinge 32 is again an elongated obtuse-angled triangle. The distance a between the axes of the joints 32 and 45 (this dimension corresponds to about half of the maximum Stroke of the pressure cylinder 42) is chosen such that the bearing block 46 during the Pivoting movements within the clearance profile of the lower mast part 30 remains.

In the first process step, namely the transition from the position according to FIG. 4 for the position according to FIG. 5, the adjusting device 33 has a pushing effect. In the second process step, after screwing the lower part of the mast onto the The adjusting device acts on the base plate 37 for swiveling up the top part of the mast pulling.

The in F i g. 7 illustrated embodiment of the adjustment device be provided if the total stroke of the adjustment device is as short as possible target. In Fig. 7 is the lower part of the mast with 50, the upper part of the mast with 51, the hinge connection between these two mast parts with 52, the adjusting device, consisting of Pressure cylinder 53 and piston rod 54.

labeled 53a. The attachment of the pressure cylinder 53 to the mast base is in FIG. 7 not visible; it is as in Figs. 4 to 6 executed. Notwithstanding the F i g. 4 to 6, the piston rod 54 engages an angle lever 55 at. This is attached to the lower part 50 of the mast with a short lever arm Joint bearing 56 supported. The other, long and angled lever arm of the angle lever 55 is connected via a link 57 to a bearing block 58, which is in the mast top 51 is welded in. When the mast is bent, the angle lever takes the position shown with dash-dotted lines.

Claims (8)

Claims: 1. Transportable mast or tower, especially for a wind turbine, with a mast lower part and a mast upper part, which when horizontal Position of the mast parts can be connected to one another at one end by a joint and their ends facing away from the joint for erecting the lower mast part in an at least approximately vertical position can be moved relative to one another, wherein after erecting the lower part of the mast, the upper part of the mast by means of an adjustment device can be folded up, characterized in that the adjusting device (13, 33; 53a) engages with one joint each on the two mast parts (10/11; 30/31; 50/51) and designed to be double-acting, d. h .. is either pulling or pushing effective. 2. Transportable mast according to claim 1, characterized in that the lower mast part (10, 30, 50) and the upper mast part (11,31,51) by a hinge (12) can be connected to one another with flanges (12a, 12b). 3. Transportable mast according to claim 1 or 2, characterized in that that the adjusting device (13) engages on the outside of the mast parts (10, 11). 4. Transportable mast according to claim 1 or 2, characterized in that that the adjusting device (33 or 53a) is formed as a hollow body within the Mast parts (30, 31 or 50, 51) is arranged. 5. Transportable mast according to claim 4, characterized in that the adjusting device (33) in the interior of one, preferably the lower mast part (30) is arranged, and that one rigidly on the other, preferably on the mast top (31) attached bearing block (46) to which the adjusting device (33) is articulated, extends in the extended state of the mast into the interior of one mast part. 6. Transportable mast according to claim 4, characterized. that the actuator (e.g. piston rod 54) of the adjustment device arranged in the mast lower part (50) engages in the middle area of an angle lever (55), one lever arm of which in a pivot bearing (56) attached to the lower mast part (50) is mounted and its another lever arm via a link (57) with one arranged in the mast top part (51) Bearing block (58) is connected (Fig. 7). 7. Transportable mast that is vertical when erected, according to one of claims 1 to 6, characterized in that the mast lower part (10) is about 10 to 30% shorter than the mast top (11). 8. Transportable mast according to one of claims 1 to 6, characterized characterized in that it is inclined in the erect state relative to the vertical stands, e.g. B. by 10 degrees, and that the two Mastteilc (30 and 31) at least approximated are the same length. The invention relates to a portable mast or tower according to the Preamble of claim 1. Such a mast or tower is erected as follows: The two mast parts are in a horizontal position by a Joint connected to each other and then erected to an A, until the mast base in the desired, at least is brought approximately vertical position. In this position he becomes on one Foundation, base plate or the like attached. Then the mast top is made using swiveled up an adjusting device. Such a transportable mast is known from DT-AS 15 59 162. There is the adjusting device used to fold up the top part of the mast a tensioning device is formed and comprises a hollowable by means of a winch Rope. The erection of the mast sections to form an A is done there with other aids or partially by hand. Another known transportable tower construction (DT-OS 17 59 033) has a rope and winch for erecting two tower parts to form an A. existing adjustment device. Another straightening up into a stretched position but is not provided there. The present invention is based on the object of the known To improve mast constructions so that the erection of both mast parts can be carried out as simply as possible in an at least approximately vertical position is; at the same time, the individual parts of the mast should be produced in the simplest possible manner be. This task is accomplished through the application of the distinguishing features of claim 1 solved. Then one is attached to the two mast parts with one joint each Adjusting device - as known per se (DE-OS 23 19 877) - designed double-acting, that is, it is either pulling or pushing. Preferably this can a double-acting hydraulic cylinder can be used or a z. B. by a reversible hydraulic motor driven lead screw. However, it may come a hydraulic swivel motor (rotary flap motor) into the joint, that connects the two mast parts with each other, is installed. The invention achieves that both process steps namely first the erection of the two mast parts from the horizontal position an A and then (after attaching the lower mast part in at least approximated vertical position) swiveling up the mast top, by one and the same Adjusting device can take place, this pulling in the first process step and the second is oppressive or vice versa. This makes it possible to achieve a proportionate high mast or tower, such as B. is required for wind turbines (height e.g. 30 m or more), without additional aids, in particular without a construction crane, to build. The adjusting device designed according to the invention can of course also for swiveling down the mast top or for laying down the whole Mast can be used. This can be used to carry out repairs or maintenance work may be required, e.g. B. in the case of the wind turbine mentioned. It goes without saying that in the construction according to the invention, the two Joint axes of the adjustment device together with the hinge axis (at the connection point between the two mast parts) in the extended state of the mast - in the direction seen of the axes - must form an obtuse triangle.