DE102014104546A1 - lifting device - Google Patents

Abstract

The invention relates to a lifting device for a device along an elongate component (13) with a closed clamping chain (21) having a longitudinal direction (L), wherein at least two movable groups of clamping elements (40, 41) are arranged on the clamping chain (21) and the clamping elements (40, 41) of each group have a fixed relative distance with respect to clamping elements (40, 41) of the same group and the clamping elements (40, 41) of different groups are movable relative to each other in the longitudinal direction (L) and the clamping elements (40, 41) each Group together each form a variable in size clamping cross section, wherein in at least one cross section of the clamping chain (21) perpendicular to the longitudinal direction (L) on the clamping chain (21) clamping elements (40, 41) of different groups are arranged.

Description

The invention relates to a lifting device for a device along an elongate component.

Lifting devices, in particular for offshore installations, such as offshore platforms, are basically known in the prior art in various forms, for example in the form of jacking systems.

From the US 2011/0305521 A1 is an offshore platform known that can be pulled by a barge on location. The offshore platform has four vertically movable support legs, each with a arranged at the sea bottom end foot. The support legs are moved relative to the platform by means of two pinions. Along the support legs racks are provided, in which engage the pinions. By driving the sprockets, the support legs can first be lowered onto the seabed and the platform subsequently lifted out of the sea.

In the US 2,944,403 a hydraulic jacking system with two clamping rings is known, each having a plurality of along the clamping ring circumference arranged clamping jaws, which are pressed by means of hydraulic cylinders against the outer wall of the support leg. The offshore platform can be raised in the redrawing step by successively clamping and releasing the two separate clamping rings.

In the US 3,565,400 is a jacking system with two circumferential, divided by along a longitudinally tapered contact surface clamping rings known that increase the tensile force on the outer wall of the support leg by pulling force on the outer clamping ring part. The clamping rings are permanently closed around the support leg.

A disadvantage of the pinion system is the relatively complicated production of the support leg. Furthermore, a disadvantage of the known jacking systems that they have two separate clamping rings that must be moved relative to each other by means of lifting cylinders or other devices. Their production requires a large amount of material and installation on the leg requires a lot of space.

The object of the invention is therefore to provide a lifting device mentioned above, which has a lower material requirement and smaller footprint.

The object is achieved by an aforementioned lifting device with the features of claim 1.

The invention relates to a lifting device, which requires only one clamping chain, preferably exactly one clamping chain to carry out a lifting process per support leg. Other clamping chains can be arranged to expand the lifting capacity. However, the lifting device is already functional with a clamping chain. Under lifting method and a lifting device is here a method or means understood, which allows both the raising and the lowering of a device along an elongate member, wherein means preferably an offshore device, in particular an offshore platform, an oil rig or the like is to be understood and under an elongate member, a support leg having along its longitudinal extent at least in the region of the stroke of the lifting device has a constant outer diameter, outer circumference or constant outer cross-section. The lifting movement is preferably carried out exactly parallel or exactly antiparallel to the direction of gravitational force.

The lifting device has a closed clamping chain, the clamping chain can of course also have devices for opening and closing and for clamping and loosening the clamping chain by changing the radius or changing the circumference, but during the application of the lifting device, the clamping chain is closed by a support leg placed. On the one clamping chain, at least two movable groups of clamping elements are arranged, wherein the clamping elements of each group have a fixed relative distance with respect to clamping elements of the same group. By this is meant that a relative distance, for example that between axes of rotation of the clamping elements or between holders of the clamping elements, does not change during use, but parts or regions of the clamping elements of the same group may possibly change their relative distance. The clamping elements of different groups are movable relative to each other, the clamping elements of the different groups can preferably be moved against each other in the longitudinal direction. The clamping elements of each group together form a resizable clamping cross section, and the clamping elements of the various groups are movable relative to each other in the trailing step along the elongate member.

According to the invention, in at least one cross-section of the clamping chain, clamping elements of different groups are arranged perpendicular to the longitudinal direction on the clamping chain. There exists or exist several cross sections in which (or in which) during the application of the lifting device in at least one operating position clamping elements of different groups are arranged. The one and other clamping elements may alternate along the cross section, or they may be alternately arranged. Preferably, clamping elements of the other group are arranged between clamping elements of one group and / or vice versa.

In a preferred embodiment of the invention, a plurality of longitudinally aligned elongate segments connected to the clamping chain are provided, in each of which one clamping element of one group and the other clamping element of the other group are movable relative to one another. The one clamping elements of a group can be arranged side by side along the segment, wherein the one clamping elements can each be pivotable about an axis of rotation and the axes of rotation are arranged parallel to each other. The one clamping elements of a group are controlled together by means of a control and jointly pivoted simultaneously. The other clamping elements of the other group are preferably also driven together and simultaneously pivoted.

The clamping elements of the various groups are movable relative to each other in the longitudinal direction of the segments, in particular translationally movable. The maximum relative travel length corresponds to the stroke of the lifting device in a single re-drawing step.

The formation of the clamping elements need not be further determined constructively. The clamping elements can cause a cross-sectional reduction or enlargement by pivoting arranged on an arm clamping elements or by rotating arranged on an arm clamping elements or pneumatically or hydraulically by radial movement of clamping elements.

Each of the groups of clamping elements creates a self-locking on the support leg. The self-locking can be generated in the longitudinal direction and against the longitudinal direction. Self-locking mechanisms are particularly safe.

In a preferred embodiment of the invention, at least one adjusting device is provided. With the at least one adjusting device, a clamping cross-section of each of the at least two movable groups of clamping elements to form a bias or for retightening or redressing adjustable. The clamping chains are placed somewhat loosely around the support leg. By means of the at least one adjusting device, a bias of the clamping chain on the support leg can be generated. The adjustment can be manually adjusted or done by electronic or mechanical control. After adjusting the bias, the clamping elements, preferably with their sliders on the outer wall of the support leg. By pressing the clamping elements, a clamping effect of the clamping chain is preferably generated by self-locking on the support leg.

The adjusting device preferably has a radial adjusting device between the clamping elements and a segment housing in which the clamping elements are arranged on.

In a preferred embodiment of the invention, the clamping elements are trapezoidal in cross section at a radially inner portion, wherein the cross section is arranged perpendicular to the sea surface and in the longitudinal direction and in the radial direction. In the radial direction, a direction pointing in a center of the closed clamping chain is to be understood here, which extends perpendicularly from a tangent of the circumference of the clamping chain. The trapezoidal section has a platform-side and a platform-side clamping surface and a radial inner surface therebetween.

At each of the trapezoidal clamping elements, a platform-side and a platform-side clamping surface are provided in each case. By interaction of all platform-side or platform-side clamping surfaces of the one and / or the other clamping elements of the one and / or the other group a clamping cross section is reduced in each case and caused a clamping effect of the lifting device on the outer wall of the support leg. Each of the one and / or other clamping elements thus has two clamping positions, namely a first clamping position, when the platform-side clamping surfaces cooperate and a second clamping position, when the platform abseitigen clamping surfaces cooperate and a disengaged position, when the clamping element is positioned between two positions.

Preferably, radially inwardly of the segment sliding means such as rollers or sliding pads are provided. The sliding devices can be arranged at different positions of the segment. The term sliding is well understood here and includes rolling, sliding, grinding and combinations of these movements.

In a particularly preferred embodiment of the invention, a roller rotating in the longitudinal direction or counter to the longitudinal direction is provided as a sliding device on the radially inner end of the clamping elements, preferably on the radial inner side of the trapezoidal section. The role is in the dissolved state of the clamping elements in constant contact with the outer wall of the support leg and thus prevents slipping of the lifting device or the clamping chain relative to the support leg and thus a penetration of the clamping elements to the platform or away from the platform.

Preferably, each of the segments comprises a box-shaped housing having longitudinally aligned rows of clamping members of one group disposed along sides of the segments and clamping members of another group disposed between the clamping members of one group. Of course, completely different arrangements of the clamping elements of the groups are conceivable.

Conveniently, each of the segments on a segment housing, wherein in the segment housing a cassette is arranged to move back and forth in the longitudinal direction and on the segment housing the one clamping elements are arranged stationary and the other clamping elements are arranged stationary on the cassette. However, all Kemmelemente are designed to be movable. Under a segment housing is an open or closed box-like construction to understand, which may also have the cassette and / or tie rods. The cassette is preferably pulled out of the segment housing in the longitudinal direction and can be replaced in case of repair by another cassette. The clamping chain maintains its clamping voltage when replacing the cassette. When replacing the cassette, the one clamping elements generate the clamping action, and the other clamping elements are released.

Preferably, the segment at the platform-side end has a lifting cylinder with a cylinder housing, which is fixedly connected to the segment housing, and a piston which is fixedly connected to the cassette. The lifting cylinder allows a process of one and the other clamping element groups against each other. In principle, the lifting cylinder can also be arranged at other locations, for example between platform and segment.

The invention will be described with reference to an embodiment in six figures. Showing:

1 a lifting device according to the prior art,

2 a perspective view of a lifting device according to the invention with an offshore platform and a support leg,

3 a view of a single segment of the lifting device with connecting tabs to an adjacent segment of the lifting device in 2 .

4 a perspective view of a platform-off portion of the segment without connecting straps according to 3 .

5 a sectional view taken along the line VV in 4 .

6 Section view along the line VI-VI in 4 ,

1 shows a lifting device 10 according to the prior art. The lifting device 10 has two clamping chains, a platform-side 11 and a platform-side clamp chain 12 according to the prior art. Each of the two clamping chains 11 . 12 includes a plurality of platform-side segments 111 or platform-independent segments 121 according to the prior art, each along a longitudinal direction L of a support leg 13 are aligned. The clamping chains 11 . 12 are each around the support leg 13 closed. The two clamping chains are connected to each other by means of several lifting cylinders 14 according to the prior art, wherein in the longitudinal direction L directly superimposed platform-side and platform-side segments 111 . 121 according to the prior art with each other by one of the lifting cylinder 14 movably in accordance with the prior art. Horizontal, ie the support leg 13 encircling, are both adjacent platform-side and platform-side segments 111 . 121 (according to the prior art) with a plurality of connecting straps 24 hinged together to platform-side or platform-side clamping chain 11 . 12 connected.

In 1 is a deck 15 an offshore platform, at the platform-side ends of the platform-side segments 111 in the longitudinal direction L are fixedly connected. Each of the segments 111 . 121 has a plurality of clamping elements, which allow it by reducing the size of a clamping cross-section, independently of each other, the platform-side 12 and / or the platform-side clamping chain 11 firmly on the support leg 13 clamp and to solve by increasing the clamping cross-section again and so by alternately clamping and releasing in combination with a pulling apart and contraction of the lifting cylinder 14 the offshore platform on the support leg 3 to move in the longitudinal direction L in Nachziehschritt. Preferably, the lifting method is for lifting off-water floating offshore platforms along a plurality of support legs 13 , preferably four support legs 13 , used. In 1 is just one of the four support legs 13 drawn; Of course, it can also be any other number of support legs 13 used, so-called monopiles are also conceivable.

2 In contrast, shows an inventively modified lifting device 20 , The lifting device according to the invention 20 has only one closed to the support leg 13 extending clamping chain 21 on. 2 shows the deck 15 an offshore platform with fastening devices 22 for the clamping chain 21 , The support leg 13 is through an opening in the deck 15 completely passed through the offshore platform, one end of the support leg 13 gets up on the sea floor, another end of the support leg 13 is free. The clamping chain 21 again comprises a plurality of segments 23 , which are elongated and aligned in the longitudinal direction L and arranged parallel to each other, wherein the segments 23 from the known segments 111 . 121 according to the prior art of 1 structurally different, as will be described below.

Neighboring segments 23 the clamping chain 21 are hinged together by connecting straps 24 connected. The individual connecting straps 24 can each turn from a bundle of individual connecting straps 24 consist. The connecting straps 24 each have a hole at both ends 241 on. The connecting straps 24 are with through the holes 241 guided bolts on the associated segment 23 hinged. The clamping chain 21 is by means of the fastening devices 22 at the individual segments 23 on the deck 15 fixed in the longitudinal direction L and preferably fixed radially inwardly or outwardly in an articulated manner. Under the radial direction, the direction is along the radius of the around the support leg 13 placed clamping chain 21 designated.

According to the invention, the lifting device 20 of the 2 exactly one clamping chain 21 with two different groups of clamping elements 40 . 41 on. The clamping elements 40 . 41 Each of the two groups is reciprocated as a group together in the longitudinal direction L and reciprocated as a group together in the radial direction, pivoted or the like, to generate a clamping effect as a group. Both groups of clamping elements 40 . 41 can each by reducing the clamping cross-section a clamping action on the outer wall of the support leg 13 produce. At the platform-off end of the segments 23 are lifting cylinders 25 arranged, which allow the two groups of clamping elements 40 . 41 relative to each other in each segment 23 to move.

In 2 is the visible case 250 the lifting cylinder 25 shown. At the platform-off end of the segment 23 is platform side of the lift cylinder 25 a crossbeam 43 attached with two cutouts 431 , Between the recesses 431 and associated eyelets 221 on the fastening devices 22 are tie rods 45 braced the associated segment 23 tense. At the platform-side end, the tie rods 45 Hammer heads and eyes on the platform side. In 4 the construction is shown in more detail.

3 shows in a view without support leg 13 a radial inside of one of the segments 23 , The segment 23 includes a radially inner open housing 30 , The housing 30 is at its platform end 301 in the longitudinal direction L stationary with the fastening device 22 with the deck 15 connected. The fastening devices 22 are concentric around the opening 32 in the deck 15 arranged. Along the circumferential direction of the clamping chain 21 are outside of the housing 30 Mounts are provided for bolts passing through the holes 241 the connecting straps 24 are plugged, creating each of the connection tabs 24 via a bolt hinged to the outside of the housing 30 is articulated. 3 only shows the connection tabs 24 on a radial outside of the housing 30 , In the 3 free ends of the connecting straps 24 be about bolts with an adjacent (not shown) housing one of the adjacent segments 23 articulated in the same way. The same applies to in 3 to the left of the marked segment 23 provided further segments 23 , Through alternating sequences of segments 23 and connecting straps 24 becomes the clamping chain 21 educated.

At a platform-off end 302 of the housing 30 is the lifting cylinder 25 intended.

4 shows the platform-side end 302 of the housing 30 of the segment 23 in 3 in a more detailed presentation. 4 shows three arranged in the longitudinal direction L rows of clamping elements 40 . 41 , The clamping elements 40 . 41 have two different types of construction. The clamping elements 40 of a building type are associated with a clamping element group and the clamping elements 41 of the other type are assigned to another group of clamping elements. The clamping elements 40 . 41 Both groups are rotatable relative to the housing 30 , At her radial to the support leg 13 pointing section are all clamping elements 40 . 41 in a cross-sectional area extending in the radial direction and in the longitudinal direction L, trapezoidal along its outer circumferential line. Each of the clamping elements 40 . 41 has two clamping surfaces 401 . 402 . 411 . 412 on, namely in each case the platform-side clamping surfaces 401 . 411 and in each case the platform-side clamping surfaces 402 . 412 , which are each formed by the associated oblique trapezoidal sides. The radially inner, each mean trapezoidal surface is with a roll 50 . 51 provided, which also in the 4 shown dissolved state of the clamping elements 40 . 41 a contact with the outer wall of the support leg 13 produce and so a dislocation of the clamping chain 21 opposite the support leg 13 counteract and prevent it, whereby a penetration of the clamping elements 40 . 41 is prevented. By turning the clamping elements 40 . 41 one group or the other group, for example in 4 clockwise or counterclockwise, set the platform-side clamping surfaces 401 the clamping elements 40 or platform-side clamping surfaces 411 the other clamping elements 41 or the platform-side clamping surfaces 402 the clamping elements 40 or platform-side clamping surfaces 412 the other clamping elements 41 a contact with the outer wall of the support leg 13 forth and produce by interaction of all clamping elements 40 . 41 the one or the other group by cross-sectional reduction a clamping action by self-locking. The cross-sectional reduction arises compared to the position of the clamping elements 40 . 41 in 4 in that the radial inner surface of the clamping elements 40 . 41 Trapezoidal is formed and the two clamping surfaces 401 . 402 . 411 . 412 a greater distance to the axis of rotation of the clamping element 40 . 41 have as the mean surface where the role 50 . 51 is arranged. In principle, there are also other embodiments of the mechanisms of the clamping elements 40 . 41 , For example, with lifting devices, with inclined surfaces, etc., conceivable.

The axes of rotation of a clamping elements 40 are stationary against the housing 30 while the other clamping elements 41 in the case 30 in the longitudinal direction L are movable back and forth. The (inventive) lifting cylinder 25 drives the other clamping elements 41 a segment 23 together in the longitudinal direction L back and forth. At the platform-side end 302 of the housing 30 are beyond radially inside two radial sliding pads 63 intended. They limit the axial movement of the segments 23 , At a lower position of the other clamping elements 41 would make the tensioned platform-off connection tab 24 the segment 23 against the support leg 13 pull. This unwanted pulling avoid the sliding pads 63 ,

The segment 23 points at the height of each connecting lug 24 at its radially outer region a clip 64 with two stop eyes 65 on, through the bolts for hinged attachment of a connecting tab 24 are provided. Between the bracket 64 and the housing 30 a (not shown) adjusting device can be arranged, which makes it possible, the one clamping elements 40 together with the other clamping elements 41 to move radially and thus vorzujustieren a clamping cross section. The clamping chain 21 is first around the support leg 13 placed and then biased by the adjusting device so that the non-tensioned clamping elements 40 by means of their roles 50 touch the outer wall of the support leg. By turning all one clamping elements 40 in one or the other direction of rotation is a self-locking of a clamping elements 40 by pressing the platform-side clamping surfaces 401 or by pressing the platform-side clamping surfaces 402 achieved. The same applies to the other clamping elements 41 ,

5 shows the internal structure of the segment 23 and the lift cylinder 25 in section along the line VV in 4 , The one clamping elements 40 and the other clamping elements 41 are each pivoted together and in the same way, so that either the one group of clamping elements 40 and / or the other group of clamping elements 41 a clamping action on the support leg 13 produce. The one clamping elements 40 are stationary on the housing 30 of the segment 23 arranged. Stationary means that the one clamping elements 40 although opposite the case 30 around a rotation axis 60 are arranged pivotally, which is an axis of rotation 60 however, is itself in position relative to the housing 30 not changed. In contrast, the other clamping elements 41 on a cassette 62 , the cassette 62 rotatably arranged, and the cassette 62 is along the longitudinal direction L of the housing 30 movable back and forth. The cassette 62 is with the other clamping elements arranged on it 41 in the longitudinal direction L by means of the lifting cylinder 25 driven and movable back and forth. The cassette 62 is with the piston 251 the lifting cylinder 25 fixedly connected while the Hubzylindergehäuse 250 with the housing 30 of the segment 23 is fixedly connected.

The piston 251 is in 5 moved completely down. By depressing the piston 251 become the other clamping elements 41 centrally between two rows of one clamping elements 40 are arranged, in the direction of the deck 15 method. 5 shows the one axes of rotation 60 the one clamping elements 40 and other axes of rotation 61 the other clamping elements 41 , The internal structure of each of the segments 23 is equal to.

6 shows a horizontal sectional view taken along the line VI-VI in 4 , The one clamping elements 40 are about the one axes of rotation 60 rotatable. Between two longitudinally L formed rows of clamping elements 40 is a middle row of other clamping elements 41 arranged in a longitudinal direction L trained row.

The around the other axis of rotation 61 rotatable clamping elements 41 have larger dimensions and greater material thicknesses than the clamping elements 40 , The one rotary axes 60 and the other axes of rotation 61 are horizontal and parallel to the deck 15 and slightly tilted against each other to the curvature of the support leg 13 To take account of. 6 shows the contact of the two a clamping elements 40 by means of the rollers 50 and the contact of the other clamping element 41 by means of the other role 51 with the outer surface of the support leg 13 ,

The process of lifting the offshore platform out of the sea along the support leg 13 takes place similar to the known lifting device 10 according to 1 with the help of a successively running clamping of a group of clamping elements 40 and the other group of clamping elements 41 , For example, in the position in 5 the one clamping elements 40 on the support leg 13 clamped while the other clamping elements 41 be solved. Then the lift cylinder 25 extended, causing the platform a bit far, namely the stroke of the lifting cylinder 25 , is raised as the case 30 the segments 23 in the longitudinal direction L stationary with the deck 15 keep in touch. When the lift cylinder 25 is extended, the other clamping elements 41 on the outer wall of the support leg 13 clamped and then the one clamping elements 40 solved. This will change the position of the offshore platform relative to the support leg 13 held. The lifting cylinder 25 is retracted again, and thereby the other clamping elements 41 to move the stroke in the longitudinal direction L, and in the retracted position, the clamping action of the one and the other group of clamping elements 40 . 41 exchanged again. By this method, the platform becomes in the trailing step along the support leg 13 raised from the sea. Accordingly, the platform can also be lowered.

LIST OF REFERENCE NUMBERS

10

Lifting device according to the prior art

11

Platform-side clamping chain

12

Platform-side clamping chain

13

outrigger

14

Lifting cylinder according to the prior art

15

deck

20

Lifting device according to the invention

21

clamping chain

22

fasteners

23

segments

24

connecting straps

25

inventive lifting cylinder

30

casing

32

opening

40

Clamping elements / clamping element group

41

clamping elements

43

crossbeam

45

tie rods

50

role

51

role

60

a rotation axis

61

other axis of rotation

62

cassette

63

radial sliding pad

64

clip

65

stop eye

111

platform-side segments

121

Platform-side segments

221

Eyelets for fastening devices

241

Holes of connecting straps

250

Hubzylindergehäuse

251

piston

301

Platform-side end of the housing 30

302

Platform-side end of the housing 30

401

platform-side clamping surface

402

platform-side clamping surface

411

platform-side clamping surface

412

platform-side clamping surface

431

recesses

L

longitudinal direction

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US 2011/0305521 A1 [0003]
• US 2,944,403 [0004]
• US 3565400 [0005]

Claims (6)

Lifting device for a device along an elongated component ( 13 ) with a closed clamping chain ( 21 ) with a longitudinal direction (L), wherein at the clamping chain ( 21 ) at least two movable groups of clamping elements ( 40 . 41 ) are arranged and the clamping elements ( 40 . 41 ) of each group with respect to clamping elements ( 40 . 41 ) of the same group have a fixed relative distance and the clamping elements ( 40 . 41 ) of different groups in the longitudinal direction (L) are movable relative to each other and the clamping elements ( 40 . 41 ) each group together form a variable in size clamping cross-section, characterized in that in at least one cross-section of the clamping chain ( 21 ) perpendicular to the longitudinal direction (L) on the clamping chain ( 21 ) Clamping elements ( 40 . 41 ) of different groups are arranged. Lifting device according to claim 1, characterized by several together to the clamping chain ( 21 ), longitudinal (L) aligned elongated segments ( 23 ), in which the one clamping elements ( 40 ) of one group and the other clamping elements ( 41 ) of the other groups in the longitudinal direction (L) are arranged relatively movable to each other. Lifting device according to claim 1 or 2, characterized by at least one adjusting device, with which a clamping cross section of the at least two movable groups of clamping elements ( 40 . 41 ) is adjustable to form a bias or for tensioning or redemption. Lifting device according to one of claims 1, 2 or 3, characterized by sliding devices ( 50 . 51 ) at the radially inner end of the segments ( 23 ). Lifting device according to one of the preceding claims, characterized in that each of the segments ( 23 ) a segment housing ( 30 ) and in the segment housing ( 30 ) a cassette ( 62 ) is arranged movable in the longitudinal direction (L) and on the segment housing ( 30 ) the one clamping elements ( 40 ) are stationary and on the cassette ( 62 ) the other clamping elements ( 41 ) are arranged stationary. Lifting device according to one of the preceding claims, characterized in that the segment ( 23 ) at the platform-side end a lifting cylinder ( 25 ) has a cylinder housing ( 250 ), which is connected to the segment housing ( 30 ) is fixedly connected, and with a piston ( 251 ), with the cassette ( 62 ) is fixedly connected.

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