System and method for transporting and testing a crane intended for use in an offshore wind turbine

Abstract

A system for transporting and testing a crane includes a crane, a transporting frame and a foundation. A first connecting mechanism is provided for establishing a releasable connection between the crane and the transporting frame. A second connecting mechanism is provided for establishing a releasable connection between the transporting frame and the foundation. In a starting state, the crane, the transporting frame and the foundation are separate from one another. In a transporting state, the crane is connected to the transporting frame. In a testing state, the crane is connected to the transporting frame and the transporting frame is connected to the foundation. The invention also relates to a corresponding method. The invention makes it possible for the crane to be assembled, and tested, at a site remote from an offshore wind turbine.

Claims

1. A system for transporting and testing a crane intended for use in an offshore wind turbine, comprising a crane, a shipping frame, and a foundation, said system having a first connection mechanism for establishing a releasable connection between the crane and the shipping frame and a second connection mechanism for establishing a releasable connection between the shipping frame and the foundation, said second connection mechanism comprising a retaining opening and a retaining protrusion which matches the retaining opening, wherein the system is conceived for the following states: a. an initial state in which the crane, the shipping frame, and the foundation are provided separate from one another; b. a shipping state in which the crane is connected to the shipping frame; c. a testing state in which the crane is connected to the shipping frame and the shipping frame is connected to the foundation; and wherein in the testing state the retaining protrusion engages behind the retaining opening.

2. The system as claimed in claim 1, wherein the first connection mechanism comprises a connector flange configured on the crane and a counterpiece assigned to the shipping frame.

3. The system as claimed in claim 2, wherein the shipping frame has an adaptor part and the counterpiece is disposed on the adaptor part.

4. The system as claimed in claim 3, comprising a set of adaptor parts, wherein the adaptor parts have various counterpieces for connecting to various types of cranes.

5. The system as claimed in claim 2, wherein the shipping frame has a pan which surrounds the counterpiece.

6. The system as claimed in claim 5, wherein the shipping frame is equipped with a rack face disposed beside the pan.

7. The system as claimed in claim 6, wherein said crane includes an outrigger and the outrigger of the crane in the shipping state is oriented toward the rack face.

8. The system as claimed in claim 1, wherein the second connection mechanism is stable in relation to moments of tilt and the second connection mechanism is released when a force substantially oriented upward acts between the shipping frame and the foundation.

9. The system as claimed in claim 1, wherein a cover frame for the shipping frame is comprised therein and the cover frame in the shipping state encases the contour of the crane.

10. The system as claimed in claim 9, wherein the cover frame at the upper end thereof has a connection element for establishing a connection to a second shipping frame.

11. The system as claimed in claim 9, wherein the cover frame is releasably connected to the shipping frame.

12. A system for transporting and testing a crane intended for use in an offshore wind turbine, comprising a crane including an outrigger, a shipping frame having a pan and a rack face disposed beside the pan, and a foundation, said system having a first connection mechanism for establishing a releasable connection between the crane and the shipping frame and a second connection mechanism for establishing a releasable connection between the shipping frame and the foundation, said first connection mechanism comprising a connector flange configured on the crane and a counterpiece assigned to the shipping frame and surrounded by the pan, wherein the system is conceived for the following states: a. an initial state in which the crane, the shipping frame, and the foundation are provided separate from one another; b. a shipping state in which the crane is connected to the shipping frame; c. a testing state in which the crane is connected to the shipping frame and the shipping frame is connected to the foundation; and wherein in the shipping state said outrigger is oriented toward the rack face.

13. A system for transporting and testing a crane intended for use in an offshore wind turbine, comprising a crane, a first shipping frame, a second shipping frame, a cover frame for the first shipping frame having a connection element at an upper end for establishing a connection to the second shipping frame, and a foundation, said system having a first connection mechanism for establishing a releasable connection between the crane and the first shipping frame and a second connection mechanism for establishing a releasable connection between the first shipping frame and the foundation, wherein the system is conceived for the following states: a. an initial state in which the crane, the shipping frame, and the foundation are provided separate from one another; b. a shipping state in which the crane is connected to the shipping frame; c. a testing state in which the crane is connected to the shipping frame and the shipping frame is connected to the foundation; and wherein in the shipping state said cover frame encases the contour of the crane.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention will be described in an exemplary manner hereunder with reference to the appended drawings by means of advantageous embodiments. In the drawings:

(2) FIG. 1 shows a schematic illustration of a system according to the invention;

(3) FIG. 2 shows a plan view of a shipping frame;

(4) FIG. 3 shows a unit consisting of a crane and a shipping frame in the shipping state;

(5) FIG. 4 shows the unit of FIG. 3 in another state;

(6) FIG. 5 shows the unit of FIG. 3 in a further state;

(7) FIGS. 6A and 6B show a set of two adaptor plates; and

(8) FIG. 7 shows an offshore wind turbine having a crane.

DETAILED DESCRIPTION

(9) According to FIG. 7, a crane 14 is intended to be used on a working platform 20 of an offshore wind turbine 21. There, the crane 14 serves for picking up comparatively small loads up to a weight of a few tons, for example, from a ship and for lifting them onto the working platform.

(10) The crane 14 which is provided with an outrigger 37 exceeds the dimensions which are permissible for normal road haulage, on account of which the crane 14 usually is not assembled in the factory but is delivered in individual parts. Since unfavorable conditions for assembling the crane 14 prevail at the offshore wind turbine 21, it is provided in the invention for the crane 14 to be assembled from the individual parts at a setup site which is remote from the wind turbine 21. The setup site is preferably chosen such that no further shipment is required by way of public roads between the setup site and the wind turbine 21. The setup site may be in a port area, for example, such that the completely assembled crane 14 may be directly loaded onto a ship by way of which it is shipped to the offshore wind turbine 21.

(11) The crane 14 is constructed such that it has to be anchored by way of a connector flange 22, in order for the crane to be footed in an upright manner. In order for the crane 14 to be held in the upright state during assembly and shipping, a shipping frame 15 is provided. The shipping frame 15 has a counterpiece 23 which matches the connector flange 22 of the crane 14. The connector flange 22 is fastened to the counterpiece 22 by way of a plurality of stud bolts distributed across the circumference (not illustrated). Together, the connector flange 22 and the counterpiece 23 form a first connection mechanism 22, 23 in the context of the invention.

(12) In the example of FIG. 2, the counterpiece 23 is exactly adapted to the connector flange 22 of the crane 14. The counterpiece 23 may thus not be used with other types of cranes in which the connector flange is of different design. In order for the shipping frame 15 to be able to be used with other types of cranes, adaptor plates 39 such as shown in FIG. 6 may be provided. The adaptor plates 39 have an inner annulus of bores 40, which is configured so as to be congruent in both adaptor plates 39. The adaptor plate 39 may be connected to the shipping frame 15 by way of the bores 40. The outer annulus of bores 41 forms the counterpiece 23 by way of which the connection to the connector flange 22 of the crane 14 is established. In the case of the adaptor plate 39 which is illustrated on the left (image A), the counterpiece 23 has a larger annulus diameter having six bores 41. In the left image B, the counterpiece 23 has a smaller annulus diameter and eight bores 41. By way of a selection of a suitable adaptor plate 39, various types of cranes may be connected to the shipping frame 15.

(13) According to FIG. 2, the shipping frame 15 has a square basic shape, an upright side wall 24 in each case extending between adjacent corners. The area which is enclosed between the side walls 24 is downwardly closed off by a base 25. The pan which is formed by the side walls 24 and the base 25 is tight, such that fluids are retained in the pan. The pan 24, 25 is provided with a discharge opening 26 through which the fluids can be discharged.

(14) A stiffening 27 for stabilizing the counterpiece 23 extends from each corner to the counterpiece 23. A rack face 28 which has a perforated base adjoins one of the side walls 24. Accessories may be stored on the rack face 28.

(15) The shipping frame 15 is equipped with four fittings 29 which are disposed on the lower corners of the shipping frame 15. The fittings 29 are equipped with retaining openings 30 which point downward and which are not visible in FIG. 2. The fittings 29 correspond to the fittings of standard maritime shipping containers.

(16) The shipping frame 15 at the four upper corners thereof has four correspondingly shaped fittings 31 which are provided with retaining openings 32. Two further fittings 33 having retaining openings 34 which point downward are disposed on the two external corners of the rack face 28. The fittings 33 of the rack face 28 may be used for fastening the shipping frame 15 during shipment on a ship or a trailer.

(17) After the crane 14 has been assembled from the individual parts, the crane 14 together with the shipping frame 15 forms a unit such as that illustrated in FIG. 3. The unit is in the shipping state. The crane 14 is footed upright in a stable manner, and the outrigger 37 is oriented toward the rack face 28. If and when the crane 14 is footed in an upright position, the operating fluids remain in the crane 14. The crane 14 may be switched off and stored. If operating fluids do leak after leakage has occurred in the crane 14, said operating fluids accumulate in the pan 24, 25 of the shipping frame 15. Environmental damage caused by the operating fluids is rendered impossible.

(18) In order for the shipping frame 15 having the crane 14 to be loaded or to be moved to another site, a lifting crane (not illustrated), which in FIG. 5 is indicated by the reference sign 35, is required.

(19) Moreover, according to FIG. 4, a cover frame 36 for the shipping frame 15 is provided. The cover frame 36 on the lower four corners thereof is equipped with retaining protrusions (not visible) which engage in the retaining openings 32 of the fittings 31 of the shipping frame 15, so as to connect the cover frame 36 to the shipping frame 15. The cover frame 36 is dimensioned such that it encases the contour of the crane 14. Only the outrigger 37 of the crane 14 protrudes laterally beyond the cover frame 36.

(20) The cover frame 36 at the upper four corners thereof is provided with retaining protrusions which point up and which are likewise not visible in FIG. 4. If and when a second shipping frame 15 is placed onto the cover frame 36 from above, the retaining protrusions engage in the retaining openings 30 of the fittings 29 of the second shipping frame 15. The second shipping frame 15 is then fixedly connected to the cover frame 36. A plurality of shipping frames 15 having the crane 14 may be stacked on top of one another in this way. This saves space during intermediate storage of the cranes 14 in the port area and/or during maritime shipment to the offshore wind turbine 21.

(21) The shipping frame 15 is dimensioned such that the crane 14 is footed in a stable upright manner, as long as it is without load. Functional tests in which the outrigger 37 is loaded are not possible when the crane 14 is footed on the shipping frame 15. In order for load tests and overload tests to be nevertheless performed with the crane 14, the system according to the invention, apart from the crane 14 and the shipping frame 15, comprises a foundation 16 which is illustrated in FIG. 1.

(22) The foundation 16 is fixedly anchored in the ground 17. In a plan view, the foundation 16 is square. The foundation 16 on the upper side thereof has a planar face 18. The foundation 16 comprises four retaining protrusions 19 which are disposed so as to be close to the four corners of the foundation and protrude upward in relation to the face 18. The spacing between the retaining protrusions 19 corresponds to the spacing of the fittings 29 of the shipping frame 15.

(23) If and when the shipping frame 15 is placed onto the foundation 16 from above, the retaining protrusions 19 engage in the retaining openings 30 of the fittings 29 and lock the shipping frame 15 in relation to the foundation 16. The retaining protrusions 19 and the fittings 29 together form a second connection mechanism in the context of the invention.

(24) In this state which in the context of the invention is referred to as the testing state, the crane 14 may be loaded with a load 38, without the crane 14 tilting over. The moment of tilt exerted by the load 38 is transmitted into the foundation 16 by way of the fittings 29 and the retaining protrusions 19. After completion of the load tests and overload tests, the crane 14 having the shipping frame 15 is lifted up. Under the influence of a force which is substantially directed upward, the fittings 29 are automatically released from the retaining protrusions 19.