CN102311069A - Jacking mechanism and offshore fan transportation and installation platform with same - Google Patents

Jacking mechanism and offshore fan transportation and installation platform with same Download PDF

Info

Publication number
CN102311069A
CN102311069A CN201110247753A CN201110247753A CN102311069A CN 102311069 A CN102311069 A CN 102311069A CN 201110247753 A CN201110247753 A CN 201110247753A CN 201110247753 A CN201110247753 A CN 201110247753A CN 102311069 A CN102311069 A CN 102311069A
Authority
CN
China
Prior art keywords
pushing tow
tow unit
jacking
guiding
articulated
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201110247753A
Other languages
Chinese (zh)
Inventor
白俊磊
杨学锋
田尚云
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sany Electric Co Ltd
Original Assignee
Sany Electric Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sany Electric Co Ltd filed Critical Sany Electric Co Ltd
Priority to CN201110247753A priority Critical patent/CN102311069A/en
Publication of CN102311069A publication Critical patent/CN102311069A/en
Pending legal-status Critical Current

Links

Images

Landscapes

  • Bridges Or Land Bridges (AREA)

Abstract

The invention discloses a jacking mechanism, which is characterized in that the jacking mechanism comprises at least two jacking unit groups and at least three force transfer components distributed along the height direction, and each jacking unit group comprises at least two jacking units; each jacking unit is provided with an upper connecting rod and a lower connecting rod which are hinged together at one end, the jacking units are sequentially arranged between adjacent force transfer components, and the upper ends of the upper connecting rods and the lower ends of the lower connecting rods are respectively hinged between adjacent force transfer components; the jacking mechanism additionally comprises a thrust device which drives the jacking units to be reset or stretched straight; and hinge shafts are arranged in parallel. Compared with the prior art, since the jacking mechanism provided by the invention is a multistage jacking mechanism, by orderly connecting the jacking units among the force transfer components to increase the lift of the jacking mechanism stage by stage to the sum of the lifts of all jacking units, the overall lift of the jacking mechanism is improved. The invention additionally discloses an offshore fan transportation and installation platform.

Description

A kind of lifting body and have the offshore wind turbine transportation erecting stage of this mechanism
Technical field
The present invention relates to technical field of engineering machinery, particularly a kind of lifting body.The invention still further relates to a kind of offshore wind turbine transportation erecting stage.
Background technology
Lifting body has certain application in technical field of engineering machinery.With offshore wind turbine transportation erecting stage is example.
Existing offshore wind turbine mounting means mainly contains two kinds: split type installation and integral type are installed, and the integral type mounting means has been divided into hanging again and has embraced the act formula.
Please refer to Fig. 1, Fig. 1 is the structural representation of offshore wind turbine transportation erecting stage, the figure shows in order to embrace embracing of act blower fan and lifts mechanism.
Application number is that 201010519989.9 patent application discloses a kind of blower fan and embraces and lift mechanism, is located on the blower fan transportation erecting stage 11.This armful lift mechanism 13 comprise be positioned at embrace that embracing of height of a house lower end lift device 132 and upper end shield and sustain device 131, the lower end of blower fan 12 tower tubes can place to embrace lifts a device 132, the upper end is sandwiched in shields and sustain in the device 131, in case tilt.The transportation erecting stage is provided with track 111, and blower fan is embraced the lower end of lifting mechanism 13 and had and can run to and wait to embrace an act blower fan place along the running gear of track 111 operations, embraces to lift device 132 and shield and sustain device 131 and open, and blower fan 12 moves into, and realizes that embracing of blower fan 12 lift; In order to guarantee to embrace the intensity and the fiduciary level of lifting device 132; Embrace act device 132 and be designed to one-sided opening structure; Need back turnback after then embracing 132 armfuls of act blower fans 12 of act device, and continue to move to place, blower fan 12 installation basis and install, after the installation along track 111; Rerun to blower fan 12 storings place, return turnback and install so that carry out the transportation of next blower fan 12.
From the above, blower fan is embraced and is lifted mechanism 13 and on platform 11, need to realize revolution, the interference in order to prevent to turn round; Make revolution more flexible, in platform 11, be provided with the lifting body (not shown), lifting body places on the inner ring of platform 11 in-to-in pivoting supports; Promptly can realize revolution; The top board of lifting body is the mechano decking 112 on platform 11 decks, embraces act mechanism 13 and is positioned on the mechano decking 112, and lifting body goes up and down to drive to embrace lifts mechanism's 13 up-downs.This kind lifting body need carry whole blower fan and embrace the weight of lifting mechanism, and weight is bigger, such as, the blower fan of power 5.0MW and armful total weight of lifting mechanism are up to 1800 tons, and therefore, this lifting body need possess bigger top lift.
At present, lifting body is mainly realized jacking with the thrust of oil cylinder, such as; Two connecting rod mechanism formula lifting bodies, it is arranged as substantially: a plurality of two connecting rod mechanisms are set in the below of treating Lift Part, and the lower end of two connecting rod mechanisms is hinged on the support; The upper end with treat that Lift Part is hinged, the middle pin jointed end of each two connecting rod mechanism is connected with driving oil cylinder, and the driving oil cylinder horizontal positioned; Move through flexible two connecting rod mechanisms that promote of driving oil cylinder, realize treating the rising or the decline of Lift Part.
Not enough below this kind lifting body exists: the first, can realize the jacking function for assurance two connecting rods, under the certain situation of driving oil cylinder thrust, its lift is restricted; The second, be the Lift Part of treating of jacking constant weight, two connecting rod mechanism numbers are more, and the driving oil cylinder number is also correspondingly more, when the action of driving oil cylinder is inconsistent, treat that the stroke of Lift Part up-down is inconsistent, exist and tumble or stuck danger.
Therefore, how a kind of lifting body is provided, it can be had than high-lift under the small driving force effect, and conserve space, be those skilled in the art's technical issues that need to address.
Summary of the invention
The object of the invention is for providing a kind of lifting body, and this lifting body has multistage jacking unit, can be implemented in to improve the lift purpose under the less propulsive effort effect.Another object of the present invention is that a kind of offshore wind turbine transportation erecting stage with above-mentioned lifting body is provided.
For reaching first purpose of the present invention, the present invention provides a kind of lifting body, has at least two group pushing tow unit groups and at least three force transferring parts that distribute along short transverse, and each pushing tow unit group has at least two pushing tow unit; Said pushing tow unit has boxed rod and the lower link that an end is hinged, and each said pushing tow unit places between the adjacent force transferring part successively, and the lower end of the upper end of boxed rod and lower link is articulated in adjacent force transferring part respectively; Also comprise and drive the thruster that said pushing tow unit resets or stretches; And each jointed shaft all laterally arranges.
Preferably, the number of force transferring part is three, and the said force transferring part that is positioned at top layer is a bearing plate, and the said force transferring part that is positioned at bottom is a underframe, and the force transferring part that is positioned at the middle part is a central frame; The boxed rod of said pushing tow unit is articulated in the upper end of central frame; Lower link is articulated in the force transferring part underframe that is positioned at said central frame below; The lower link of unit is articulated in the lower end of central frame on another said top, and boxed rod is articulated in the force transferring part bearing plate that is positioned at said central frame top; And each pushing tow unit is connected with same thruster in the pushing tow unit group.
Preferably, each said pushing tow unit has middle push rod, and an end of said middle push rod is articulated in the hinged place of said boxed rod and said lower link; Said thruster comprises push arm, and an end of said push arm is articulated in the supporting seat that is positioned at said base plate or said central frame, and said thruster also comprises the jacking cylinder that the said push arm of driving rotates around the supporting seat hinge-point; The middle push rod of each said pushing tow unit is all hinged with the middle part of said push arm in the said pushing tow unit group; Each jointed shaft all laterally arranges.
Preferably; Said thruster also comprises lifting beam and push rod; The two ends of said jacking cylinder connect the upper end and the said underframe of said lifting beam respectively; An end relative with the supporting seat pin jointed end is articulated in an end of said push rod on the said push arm, and the other end of said push rod is articulated in the lower end of said lifting beam; Each jointed shaft all laterally arranges.
Preferably, the direction setting that group edge, a pair of said pushing tow unit is vertical with each jointed shaft, and be provided with a said thruster between the two, the number of push rod and said push arm is two described in the said thruster, and is divided into the both sides of said lifting beam; The middle push rod of each pushing tow unit in the hinged pushing tow unit group in the middle part of one said push arm, the middle push rod of each pushing tow unit in hinged another the said pushing tow unit group in the middle part of another said push arm.
Preferably, have two pairs of said pushing tow unit groups, parallel and looking-glass symmetry places between said underframe and the said bearing plate; Be provided with pipe link between the symmetrically arranged two said push arms in two pairs of said pushing tow unit groups, said pipe link and two cooresponding said push arms rotate synchronously.
Preferably, said underframe is provided with first track that extends straight up, and the lower end of said lifting beam is provided with first guide rail along said first orbital motion.
Preferably, also comprise the guide frame that is fixed in said central frame upper end, said guide frame is provided with second track that extends straight down, and the upper end of said lifting beam is provided with second guide rail along said second orbital motion.
With respect to prior art; Lifting body provided by the invention is multistage lifting body; Through setting a plurality of force transferring parts; And the orderly connection of the pushing tow unit between force transferring part, the lift of lifting body is increased to the lift sum of all pushing tow unit step by step, thereby improved the whole lift of lifting body.
In further technical scheme; The force transferring part that is positioned at the middle part is a central frame; And the boxed rod of pushing tow unit is articulated in the upper end of central frame, and lower link is articulated in the force transferring part underframe of central frame below, and the lower link of another pushing tow unit is articulated in the lower end of central frame; Boxed rod is articulated in the force transferring part bearing plate of central frame top; Then the elemental height of each pushing tow unit is roughly consistent in the pushing tow unit group, thereby is convenient to each pushing tow unit all is connected with same thruster, reaches laborsaving, simplifies the internal structure of an organization and improve the purpose of synchronism.
In further technical scheme, thruster comprises jacking cylinder, lifting beam and push rod; Two pushing tow unit groups are positioned at the both sides of lifting beam; Jacking cylinder drives two push arms and rotates, and two push arms promote the bending of each pushing tow unit in the two pushing tow unit groups and stretch, thereby realizes; Therefore, also has synchronism between the two pushing tow unit groups.
In further technical scheme; Two pairs of parallel and looking-glass symmetry settings of pushing tow unit group; Be provided with pipe link between symmetrically arranged two push arms, pipe link rotates with the rotation of push arm, then also synchronization action between the two pairs of pushing tow unit groups; Thereby realized each equal synchronization action in pushing tow unit in the lifting body, made synchronism good.
For reaching another object of the present invention; The present invention also provides a kind of offshore wind turbine transportation erecting stage; Comprise that having blower fan shields and sustain device and embrace with a blower fan that embrace to lift device and lift mechanism, be used for the said blower fan of jacking and embrace the lifting body of lifting mechanism; Said lifting body is fixed on the inner ring of the inner pivoting support of said platform; Said lifting body is above-mentioned each described lifting body, and the bearing plate of said lifting body is said flat-bed mechano decking, and said underframe is and the fixing turret mount of said pivoting support inner ring.
Preferably; The said device of shielding and sustain has the guiding overcoat that is horizontally disposed with and is nested and the interior cover that leads, drives and overlap first actuating device that stretches with respect to said guiding overcoat in the said guiding; And the support bar that connects and stretch out cover in the said guiding; Said guiding overcoat vertically is articulated in the upper end of said balladeur train, and the upper end of said balladeur train is provided with and drives second actuating device that said guiding overcoat horizontally rotates; And said number of shielding and sustain device is at least two.
Preferably, said support bar is hinged through cover in cross jointed shaft and the said guiding; Also comprise horizontally hinged in said guiding cover and support the support plate of said support bar in level attitude, and drive the 3rd actuating device that said support plate vertically rotates.
Preferably; Said the 3rd actuating device comprises oscillating oil cylinder and two rocking bars; One end of said oscillating oil cylinder is articulated in the sidewall of cover in the said guiding, and an end of the other end and two said rocking bars is all hinged, and the other end of two said rocking bars is articulated in cover and said support plate in the said guiding respectively.
Preferably, said first actuating device and said second actuating device are oil cylinder, and said first actuating device is located between interior cover of said guiding and the said guiding overcoat.
Preferably, the upper surface of said balladeur train is provided with fixed cover, and said guiding is sheathed in the said fixed cover also vertically hinged outward.
Blower fan transportation erecting stage provided by the invention is provided with above-mentioned each described lifting body, then has the technique effect identical with above-mentioned lifting body.
In further technical scheme; Blower fan transportation erecting stage is provided with blower fan and shields and sustain device; This guiding overcoat of shielding and sustain device can vertically be articulated in the upper end of embracing the height of a house; Promptly shield and sustain device and in horizontal surface, can rotate, the upper end of embracing the height of a house is provided with and drives the 3rd actuating device that the guiding overcoat horizontally rotates.Before blower fan move into to be embraced in the height of a house, can drive and shield and sustain the device rotation, it is not interfered with blower fan tower barrel, thus blower fan that can compatible different-diameter, and this kind regulative mode is more easy to be reliable.
Description of drawings
Fig. 1 is the structural representation of offshore wind turbine transportation erecting stage;
Fig. 2 is the structural representation of a kind of specific embodiment of lifting body provided by the present invention;
Fig. 3 is a lifting body in-to-in structural representation among Fig. 2;
Fig. 4 is the birds-eye view of Fig. 3;
Fig. 5 is the structural representation of one-level pushing tow unit;
Fig. 6 is the structural representation of central frame among Fig. 2;
Fig. 7 is the structural representation of underframe among Fig. 2;
Fig. 8 is the structural representation of bearing plate among Fig. 2;
Fig. 9 is the structural representation of push arm among Fig. 2;
Figure 10 is the structural representation of jacking unit among Fig. 2;
Figure 11 is the structural representation of lifting beam among Figure 10;
Figure 12 is in the kinematic sketch of mechanism of initial position for pushing tow unit group among Fig. 2;
Figure 13 is in the kinematic sketch of mechanism of end position for pushing tow unit group among Figure 12;
Figure 14 is the structural representation of guide frame among Fig. 3;
Figure 15 lifts mechanism for the present invention provides in the offshore wind turbine transportation erecting stage blower fan to embrace and embraces the structural representation of lifting blower fan;
Figure 16 is the local enlarged diagram at A position among Figure 15;
Figure 17 is for shielding and sustain the structural representation of device among Figure 15;
Figure 18 is in the structural representation of collapsed state for the support plate of shielding and sustain device among Figure 17;
Figure 19 is the axial cutaway view of Figure 17.
The specific embodiment
Core of the present invention is for providing a kind of lifting body, and this lifting body has multistage jacking unit, can be implemented in the purpose that improves lift under the less propulsive effort effect.Another core of the present invention is that a kind of offshore wind turbine transportation erecting stage with above-mentioned lifting body is provided.
In order to make those skilled in the art understand technical scheme of the present invention better, the present invention is done further detailed description below in conjunction with accompanying drawing and specific embodiment.Lifting body among each embodiment of this paper all places in the offshore wind turbine transportation erecting stage, is used for the jacking blower fan and embraces act mechanism, and in fact, the lifting body among each embodiment also can be used to go up and down other framing members.
Please refer to Fig. 2 to Fig. 4, Fig. 2 is the structural representation of a kind of specific embodiment of lifting body provided by the present invention; Fig. 3 is a lifting body in-to-in structural representation among Fig. 2; Fig. 4 is the birds-eye view of Fig. 3.
Lifting body in this embodiment; Place in the blower fan transportation erecting stage; This lifting body has three force transferring parts, and the force transferring part that the force transferring part that is positioned at top layer is bearing plate 2, be positioned at bottom is a underframe 1, and the force transferring part central frame between the two; Also have four groups of pushing tow unit groups, acting as of force transferring part transmitted the jacking force of pushing tow unit successively.During lifting body work, blower fan is embraced act mechanism and is positioned on the bearing plate 2.Underframe 1 guarantees promptly that for being positioned at the turret mount that platform is inner and captive joint with the pivoting support inner ring underframe 1 can rotate, and pivoting support shown in Figure 2 places on the tank top plate 8 in the platform, and the outer ring of pivoting support and tank top plate 8 are fixing; Bearing plate 2 is the part of platform deck, is mechano decking, when bearing plate 2 descends; Concordant with other one deck section, during rising, mechano decking is higher than other partial decks; The blower fan of being convenient to be positioned on the bearing plate 2 is embraced when lifting mechanism's revolution, with other component interferences, can not understand with reference to Fig. 1.
The structure of four groups of pushing tow unit groups is in full accord shown in Fig. 3, all has two pushing tow unit, i.e. one-level pushing tow unit 41 and secondary pushing tow unit 42.Can be with reference to figure 5, Fig. 5 is the structural representation of one-level pushing tow unit, secondary pushing tow unit 42 is identical with one-level pushing tow unit 41 structures.One-level pushing tow unit 41 has boxed rod 411, lower link 412 and the middle push rod 413 that an end is articulated in a place.
In conjunction with Fig. 6 to Fig. 8, Fig. 6 is the structural representation of central frame among Fig. 2; Fig. 7 is the structural representation of underframe among Fig. 2; Fig. 8 is the structural representation of bearing plate among Fig. 2.
The lower end of four one-level pushing tow unit 41 lower links 411 four jiaos four hinged groove 1a, 1b, 1a ' and 1b ' of hinged underframe 1 respectively in four groups of pushing tow unit groups, the upper end of boxed rod 412 is four hinged groove 3c, 3d, 3c ' and the 3d ' at the inboard place of hinged central frame 3 upper ends four drift angles respectively; Four hinged groove 3a, 3b, 3a ' and the 3b ' in the outside, hinged central frame 3 four base angles, lower end of four secondary pushing tow unit 42 lower links; Four hinged groove 2a, 2b, 2a ' and 2b ' that the hinged bearing plate in the upper end of boxed rod is 2 four jiaos, then one-level pushing tow unit 41 is supported in bearing plate 2 on the underframe 1 with secondary pushing tow unit 42.Can be known that by Fig. 3 the boxed rod 411 of one-level pushing tow unit 41 forms two connecting rod mechanisms with lower link 412, secondary pushing tow unit 42 is consistent with its structure; When one-level pushing tow unit 41 is in reset mode with secondary pushing tow unit 42, have preset angle between boxed rod and the lower link, promptly the distance between boxed rod upper end and the lower link lower end is shorter; When the pushing tow unit is in running order; Boxed rod and lower link rotate gradually, and when the two was in straight configuration, promptly the two angle was 180 when spending; Distance between boxed rod upper end and the lower link lower end is the longest, and then the rise or the decline that can realize bearing plate 2 to resetting is stretched or stretched to being reset to of two pushing tow whole units.
In this specific embodiment; Each is organized, and one-level pushing tow unit 41 all has middle push rod (having middle push rod 413 like one-level pushing tow unit 41) with secondary pushing tow unit 42 in the pushing tow unit group; Push rods all are connected with thruster in the middle of two, and push rod 413 moves and then the bending of drive one-level pushing tow unit 41 and secondary pushing tow unit 42 and stretching in the middle of being driven by thruster.Thruster can be a driving oil cylinder, such as, an end of driving oil cylinder is articulated in underframe 1, and the other end directly is connected with middle push rod 413, or the middle push rod of one-level pushing tow unit 41 and secondary pushing tow unit 42 all is connected synchronization action with driving oil cylinder.Then motion crooked and that stretch is done in one-level pushing tow unit 41 and secondary pushing tow unit 42 under the effect of thruster, thereby bearing plate 2 is risen or decline.
When four groups of pushing tow unit groups of lifting body are done the jacking action (boxed rod 411 and lower link 412 like one-level pushing tow unit 41 stretch); Under the effect of one-level pushing tow unit 41; Central frame 3 rising certain altitudes; Drive secondary pushing tow unit 42 rising corresponding height (lower link of secondary pushing tow unit 42 is articulated in central frame 3), and secondary pushing tow unit 42 is under the effect of thruster, certain altitude self also can raise.Therefore, the lift of secondary pushing tow unit 42 in the jacking course of action is the lift sum of self lift and one-level pushing tow unit 41, and the lift of secondary pushing tow unit 42 is the lift of bearing plate 2.
Principle can be known thus; Plural pushing tow unit can also be set in the pushing tow unit group, correspondingly increase the number of central frame 3, the number of central frame 3 should lack one than the number of pushing tow unit; And central frame 3 distributes along short transverse, is equipped with the pushing tow unit between the central frame 3.Be that central frame 3 is according to being set to first central frame, second central frame etc. by low paramount order; During connection; One-level pushing tow unit 41 boxed rods 411 are articulated in the underframe 1 and first central frame respectively with lower link 412; Secondary pushing tow unit 42 boxed rods and lower link are articulated in first central frame and second central frame respectively; Three grades of pushing tow unit boxed rods and lower link are articulated in second central frame and the 3rd central frame respectively, and the rest may be inferred, boxed rod and hinged respectively central frame and the bearing plate 2 that is in the extreme higher position of lower link until last pushing tow unit.The lift of then final bearing plate 2 be all pushing tow unit lifts and, formed multistage lifting body.Certainly, in view of the restriction of arrangement space, and be convenient to factor such as being provided with of central frame 3 and thruster, four groups of pushing tow unit groups all have two-stage pushing tow unit in this embodiment, can satisfy the demand of use, and are convenient to practical operation.
Central frame 3 shown in Fig. 3 is designed to the hexahedron framed structure, and framed structure is simple, is easy to guarantee in lifting process, do not receive other framing members to interfere, and alleviates structural weight; In addition; Because the boxed rod 411 of one-level pushing tow unit 41 is articulated in the drift angle hinged groove place of central frame 3; The lower link of secondary pushing tow unit 42 is articulated in the hinged groove place, base angle of central frame 3; The height that can guarantee one-level pushing tow unit 41 and secondary pushing tow unit 42 is close, and then the height between the point of connection of the two and thruster is close, thereby is convenient to that each pushing tow unit is connected with same thruster in the pushing tow unit group; Reach the purpose that simplifies the internal structure of an organization and improve synchronism, be convenient to the application of force of thruster simultaneously.Certainly; The structure of central frame 3 is not limited to above-mentioned hexahedron framed structure; According to the difference of pushing tow number of unit in the number of pushing tow unit group and each the pushing tow unit group, can design corresponding central frame structure, can realize that another pushing tow unit of pushing tow unit pushing tow gets final product.
In addition; Underframe 1 among Fig. 7 has underframe body and four overhanging arms of captiveing joint with the pivoting support inner ring, and underframe 1 is used for being positioned at end, lower end pivotally attached four hinged groove 1a, 1b, 1a ' and 1b ' of four one-level pushing tow unit 41 lower links 412 free end of four overhanging arms.Underframe 1 structure of this structure can avoid its in turning course with other constructive interferences; In addition, rising arm outside it is variable section structure, and along the bearing of trend of overhanging arm, its cross section convergent when rising arm and underframe body Joint strenght outside guaranteeing, can reduce the volume and weight of underframe 1 as far as possible.
Can know by foregoing; With respect to prior art; Lifting body provided by the invention is multistage lifting body; Through setting the orderly connection of central frame 3 and pushing tows at different levels unit, the lift of lifting body is increased to the lift sum of all pushing tow unit step by step, thereby improved the whole lift of lifting body; And each pushing tow unit is driven by same thruster in the pushing tow unit group, under the situation that does not increase propulsive effort, has realized the increase of lift, has also guaranteed the synchronism between each pushing tow unit in the pushing tow unit group simultaneously, satisfies the durability requirements of jacking.
Need to prove that in this embodiment, be provided with four groups of pushing tow unit groups, and be symmetrical set, four groups of pushing tow unit components shown in Fig. 3 are distributed in foursquare four jiaos.In fact, two groups of pushing tow unit groups can realize the purpose of jacking.Four groups of pushing tow unit groups are set here are optimized technical scheme comparatively, can be more steadily jacking bearing plate 2 reliably, bear blower fan then and embrace the weight of lifting mechanism.
Further, thruster can comprise push arm 5 and jacking unit 6.Please refer to Fig. 9 to Figure 11, Fig. 9 is the structural representation of push arm among Fig. 2; Figure 10 is the structural representation of jacking unit among Fig. 2; Figure 11 is the structural representation of lifting beam among Figure 10.
As shown in Figure 9; The two ends of push arm 5 are equipped with hinge hole 5a, 5d; The both sides at push arm 5 middle parts also have hinge hole 5b, 5c, and the two hinge hole 5b at middle part, that 5c is respectively applied for is hinged with the middle push rod of one-level pushing tow unit 41 and secondary pushing tow unit 42, and the hinge hole 5d of push arm 5 one ends is used for the push rod of hinged following jacking unit 6; The hinge hole 5a of the other end is used for the supporting seat 7 of hinged securement on central frame 3, and supporting seat 7 also can be fixed on the underframe 1.
Shown in figure 10, jacking unit 6 has lifting beam 63, jacking cylinder and push rod, and the lifting beam shown in the figure is a tee girder; The number of jacking cylinder and push rod is two; Promptly first jacking cylinder 621 and second jacking cylinder 622, first push rod 641 and second push rod, 642, two jacking cylinders are divided into the both sides of tee girder, and an end of two jacking cylinders connects the crossbeam of tee girder; The end of first oil cylinder 621 and second oil cylinder 622 is articulated in two hinge hole 63a, the 63a ' of crossbeam respectively among the figure; When other end connection underframe 1, two jacking cylinder is flexible, can drives lifting beam 63 and go up and down.Have on the mount pad that is provided with between 1 liang of overhanging arm of underframe shown in Fig. 7 and be used for and two jacking cylinder bonded assemblys, two hinge hole 1d, 1c, other two overhanging arms also are provided with identical mount pad and hinge hole, supply another group jacking unit 6 to use.Two push rods also are divided into the both sides of tee girder; For avoiding interfering between push rod and the jacking cylinder; Be convenient to the connection between push rod and the push arm 5 simultaneously; Two push rods are divided into the both sides up and down of lifting beam 63, and two jacking cylinders are divided into the left and right sides (up and down with about be visual angle with Fig. 4) of lifting beam 63, and two push rod lines are vertical with two jacking cylinder lines among Figure 10.The end that the shared one group of thruster of two groups of pushing tow unit groups shown in Fig. 3, the both sides of jacking unit 6 are provided with two push arms, 5, the first push rods 641 is articulated in a hinged groove 63b of lifting beam 63 lower ends, and the other end is articulated in the hinged groove 5d of a push arm 5 one ends; One end of second push rod 642 is articulated in another hinged groove 63b ' of lifting beam 63 lower ends, and the other end is articulated in the hinged groove 5d of another push arm 5 one ends; The other end of two push arms 5 is articulated in the middle push rod of each pushing tow unit of group, two groups of pushing tow unit respectively; Then the propulsive effort of two groups of pushing tow unit groups all comes from first jacking cylinder 621 and second jacking cylinder 622 in the jacking unit 6; Therefore; Two groups of pushing tow unit groups are made synchronous lifting action with two jacking cylinders, and two groups of pushing tow unit groups in addition of four groups of pushing tow unit groups are taked this kind arrangement equally, and then the synchronism of this lifting body is further improved.
Four groups of pushing tow unit groups shown in Fig. 3 can be divided into two pairs; Two pairs of parallel and looking-glass symmetry ground layouts of pushing tow unit group; Each has realized synchronization action to pushing tow unit group through same jacking unit 6, in order further to coordinate the synchronism between two pairs of pushing tow unit groups, pipe link 9 can be set.As shown in the figure; Two pairs of pushing tow unit groups have four push arms 5; Be provided with pipe link 9 between symmetrically arranged two push arms 5, two pipe links, 9, two push arms 5 then be set altogether drive pipe link 9 rotations (pipe link 9 can be connected with push arm 5 through spline) that are attached thereto; Then two push arms 5 at pipe link 9 two ends are with synchronization action, and the cooresponding pushing tow of two push arms unit group is also with synchronization action.Hence one can see that, pipe link 9 is set after, also realized synchronization action between two pairs of pushing tow unit groups in the lifting body, be provided with then that each pushing tow unit all can synchronization action in the lifting body of pipe link 9.
Please refer to Figure 12 and Figure 13, Figure 12 is in the kinematic sketch of mechanism of initial position for pushing tow unit group among Fig. 2; Figure 13 is the kinematic sketch of mechanism that pushing tow unit group is in end position among Figure 12, and Figure 12 and Figure 13 illustrate two groups of pushing tow unit groups.
One group of thruster being made up of push arm 5 and jacking unit 6 drives the process that two pushing tow unit groups move and is described below; Wherein, Secondary pushing tow unit 42 dots: two jacking cylinders slowly extend; Drive lifting beam 63 upward movements, hinge-point a1, the a2 of lifting beam 63 and two push rods move to a1 ', the a2 ' among Figure 13 among Figure 12, also make cw in the time of two push rod upward movements respectively and rotate counterclockwise; The hinge-point of two push arms 5 and two bearings is c1, c2, and then two push rods drive respectively with pivotally attached two push arms 5 are around fulcrum c1, c2 rotation separately, and the hinge-point d1 on two push arms 5 and two push rods, d2 also rotate around fulcrum c1, c2 simultaneously; When two push arms 5 rotate; The middle push rod 413 that drives corresponding one-level pushing tow unit 41 travels forward and (shows as among Figure 12; Left side and the middle push rod on right side respectively left and move right); Then the lower link of two one-level pushing tow unit 41 rotates around hinge-point e1, e2 (hinge-point of two one-level pushing tow unit 41 lower links and underframe 1), thereby the hinge-point f1, f2 that make two one-level pushing tow unit 41 are forward and upward movement, when the boxed rod of two one-level pushing tow unit 41 and lower link move to straight line, reaches the limit of the position; Two hinge-point f1, f2 move to f1 ', f2 ', and hinge-point g1, the g2 of two boxed rods and central frame 3 move to g1 ', g2 '; Then central frame 3 drives the highly h that risen down in two one-level pushing tow unit 41; Thereby drive with the fulcrum c1 of its pivotally attached two push arms 5, c2 upward movement height h, and the lower link hinge-point h1 of two secondary pushing tow unit 42, h2 (hinge-points at two lower links and central frame 3 base angles) upward movement h highly;
When two push arms 5 rotate; The push rod that also has 42, two secondary pushing tow unit 42, secondary pushing tow unit that moves simultaneously with one-level pushing tow unit 41 is equally under the driving of two push arms 5, forward and upward movement; The lower link of two secondary pushing tow unit 42 rotates around fulcrum h1, h2; Thereby the hinge-point i1, i2 (hinge-point of boxed rod and lower link) that make two secondary pushing tow unit 42 are forward and upward movement, when the boxed rod of two secondary pushing tow unit 42 and lower link move to straight line, reach the limit of the position, and hinge-point j1, the j2 of two boxed rods and central frame 3 move to j1 ', j2 '; Certain altitude has also risen; Because one-level pushing tow unit 41 is identical with the structure of secondary pushing tow unit 42, and the two initial condition is also basic identical, when secondary jacking unit 6 reaches capacity the position; The height of its rising also is h, then with secondary pushing tow unit 42 upper end pivotallys attached on the mechano decking upward movement 2h.
In order to guarantee the reliability of jacking unit 6 and push arm 5 power transmissions; The first track 1e that extends straight up can be set on underframe 1; As shown in Figure 6; Be provided with base between 1 liang of overhanging arm of underframe, be symmetrical set two first track 1e on the base, the lower end of lifting beam is provided with along two first guide rails 631 of two first track 1e operation among Figure 11.When then lifting beam is done dipping and heaving with jacking cylinder, can be along first track 1e operation, promptly lifting beam moves between two first track 1e and keeps vertical state, guarantees that push arm 5 can rotate under the induced effect of push rod.
For this reason, can also make further improvement, lifting body also is provided with the guide frame 31 that is fixed on the central frame 3, and is shown in figure 14, and Figure 14 is the structural representation of guide frame among Fig. 3.
Among Figure 14, guide frame 31 has the securing cover plate of fixing with central frame 3, is fixed with two vertical two second tracks 311 that extend on the securing cover plate downwards, and the upper end of lifting beam 63 is provided with two second guide rails 632 that move along two second tracks 311 among Figure 11.Consistent with the principle of the above-mentioned first track 1e and first guide rail 631, this locates being equipped with of second track 311 and second guide rail 632 can play the transfer function of guaranteeing power between jacking unit 6 and the push arm 5 equally.
The present invention also provides a kind of offshore wind turbine transportation erecting stage; Comprising that the blower fan that is used for embracing act blower fan 60 is embraced lifts mechanism; Blower fan is embraced and is lifted mechanism and comprise that blower fan shields and sustain device 58 and lift a device 55 with embracing; Also be provided with on the platform and be used for blower fan and embrace and lift the rotating lifting body of mechanism, the existing argumentation relevant with lifting body repeated no more.
Please refer to Figure 15 to Figure 19, Figure 15 lifts mechanism for the present invention provides in the offshore wind turbine transportation erecting stage blower fan to embrace and embraces the structural representation of lifting blower fan; Figure 16 is the local enlarged diagram at A position among Figure 15; Figure 17 is for shielding and sustain the structural representation of device among Figure 15; Figure 18 is in the structural representation of collapsed state for the support plate of shielding and sustain device among Figure 17; Figure 19 is the axial cutaway view of Figure 17.
Shield and sustain the embodiment of device 58 for above-mentioned setting; Shielding and sustain device 58 specifically can have cover 582 in the guiding overcoat that is horizontally disposed with and is nested 581 and the guiding, drive first actuating device flexible with respect to guiding overcoat 581 of cover 582 in the guiding; And the support bar 583 that connects and stretch out in cover 582 in the guiding; Help the outer wall of the leading section of bar 583, play a supporting role in order to the tower tube of conflict blower fan; Shield and sustain upper end that the guiding overcoat 581 of device 58 can vertically be articulated in balladeur train 54 (when balladeur train 54 not being set; Also can directly be articulated in the upper end of guide frame 515); Promptly shield and sustain device 58 and in horizontal surface, can rotate, the upper end of balladeur train 54 is provided with and drives second actuating device that guiding overcoat 581 horizontally rotates.First actuating device and second actuating device all can be oil cylinder, and be shown in figure 19, is provided with main effect oil cylinder 589 between the cover 582 in guiding overcoat 581 and the guiding, and cover 582 is flexible with respect to guiding overcoat 581 in the telescopic drive guiding of main effect oil cylinder 589; The side of the overcoat of guiding shown in Figure 16 581 rear ends links to each other with an end of rotation driving oil cylinder 542; The other end of rotation driving oil cylinder 542 is articulated in the upper surface of balladeur train 54; Guiding overcoat 581 can be the rectangular box that is welded by steel plate, the outside portion welding of rear end and rotation driving oil cylinder 542 bonded assembly pin ears, certainly; The pin ear has certain distance with the vertical hinge-point of guiding overcoat 581 and balladeur train 54, and the flexible guiding overcoat 581 that can drive that then rotates driving oil cylinder 542 horizontally rotates; Cover 582 also can be the rectangular box that is welded by steel plate in the guiding, cooperates with guiding overcoat 581, for helping the effect of playing guiding of stretching out of bar 583.
Balladeur train 54 upper surfaces shown in Figure 15 are provided with four above-mentioned devices 58 of shielding and sustain altogether, are distributed in the upper surface of balladeur train 54 two sides.When blower fan 60 moves between balladeur trains 54 two sides, make two of balladeur train 54 entrance to shield and sustain device 58 rotations, enlarge the distance between the two, be convenient to the immigration of blower fan 60, blower fan 60 that promptly can compatible different-diameter, applied range; After blower fan 60 moves into; Shield and sustain device 58 when starting working; 542 contractions of rotation driving oil cylinder make each the support bar of shielding and sustain device 58 583 vertical centerline direction that point to the tower tube of blower fans, and cover 582 and support bar 583 are released forward in will leading through main effect oil cylinder 59 afterwards; Conflict until the leading section of helping bar 583 and the outer wall of the tower tube of blower fan, reach the tower tube of helping blower fan 60, prevent that blower fan 60 from squinting, keeping the purpose that blower fan 60 is in vertical state.After blower fan 60 installs; Cover 582 in the guiding is regained in 59 withdrawals of main effect oil cylinder, helps the bar 583 and the tower tube of blower fan 60 to break away from; Rotation driving oil cylinder 542 is stretched out to drive and is shielded and sustain device 58; Make it rotate to suitable angle,, shield and sustain device 58 this moment and accomplish the one action cycle so that luffing device 5 breaks away from blower fan 60.Installed four among Figure 15 and shielded and sustain device 58, in fact, two or more have been installed shield and sustain device 58; Be used, also can realize the object of the invention, under the conflict power effect of helping bar 583; Prevent that blower fan 60 skews from getting final product; Certainly, be uniformly distributed with four shield and sustain device 58 is comparatively preferred scheme, can stablize and helps blower fan 60 evenly.
It is vertical when hinged to shield and sustain device 58 and balladeur train 54, can realize through fixed cover 541.Guiding overcoat 581 places fixed cover 541, and fixed cover 541 can be the hollow square framework that is welded by steel plate, is fixedly welded on the upper surface of balladeur train 54, and the guiding overcoat 581 of shielding and sustain device 58 vertically is articulated in the fixed cover 541.Can pin-and-hole be set at the middle part of guiding overcoat 581, be connected with fixed cover 541, make and shield and sustain the degree of freedom that device 58 in the vertical directions have rotation through vertical bearing pin.541 connections of special fixed cover are set shield and sustain device 58, be convenient to shield and sustain the installation or removal of device 58.
Further; The rear end of support bar 583 can be hinged through overlapping 582 in cross jointed shaft 584 and the guiding; Shown in figure 19; Cross jointed shaft 584 realize helping in bars 583 and the guiding cover 582 vertically and horizontal direction hinged, then help bar 583 to swing up and down, and can in horizontal surface, swing.Can know by foregoing, when blower fan 60 is installed, basic flange hole is installed for precisely cooperating blower fan tower barrel flange hole and blower fan; Embracing act device 55 possibly have small moving by in the vertical directions, also possibly do tiny rotation adjustment, at this moment; Because cross jointed shaft 584 is helped bar 583 to move down accordingly, or is done certain rotation with blower fan 60; Simultaneously, still can help blower fan 60, guarantee that blower fan 60 can not squint.Therefore, help in bar 583 and the guiding cover 582 through cross jointed shaft 584 hinged after, can do to adjust accordingly with the adjustment of blower fan 60 positions, can not act on to main effect oil cylinder 589 thereby guarantee to shield and sustain device 58 suffered application forces.
Under this structure; Because shielding and sustain device 58 can move up and down; Also be provided with horizontally hinged in guiding cover 582 and support the support plate 585 of support bar 583 in level attitude; And drive the 3rd actuating device of helping plate 585 vertically to rotate, and make and help bar 583 in flexible process, be in horizontality.Shown in figure 17, help plate 585 to be welded by steel plate, the middle part of its front end top is provided with crescent projection 5851, as the supporting seat of helping bar 583, makes the bar maintenance level in telescopic process of helping; Help an end of plate 585 horizontally hinged in guiding the bottom of cover 582, help top, plate 585 rear ends to be welded with the pin ear, cover 582 is connected through bearing pin in pin ear and the guiding, realize helping plate 585 and lead interior overlap 582 horizontally hinged; Help plate 585 to realize swing through oscillating oil cylinder 586 and two rocking bars, first rocking bar 587 as shown in Figure 17 and second rocking bar 588, an end of oscillating oil cylinder 586 are articulated in cover 582 in the guiding; The other end is articulated in an end of first rocking bar 587 and second rocking bar 588; Cover 582 in the respectively hinged support plate 585 of the other end of first rocking bar 587 and second rocking bar 588 and the guiding helps plate 585 front ends top to be welded with the pin ear, and cover 582 front ends top also is welded with the pin ear in the guiding; Respectively in order to connect an end of two rocking bars; Two rocking bars and oscillating oil cylinder 586 are formed rocker mechanism, help plate 585 to rotate up and down thereby make, and the rocker mechanism shown in Figure 17 is two groups; The both sides of cover 582 are respectively established one group in the guiding, drive the support plate 585 that is positioned at its bottom.
Support plate 585 shown in Figure 18 is in closure state, promptly is in horizontality, helps bar 583 to be supported in (i.e. crescent projection 5851 shown in the figure) on the supporting seat of helping plate 585, and keeps horizontality.During work, behind the tower drum outer wall of support bar 583 conflict blower fans, under oscillating oil cylinder 586 effects; Help plate 585 to clockwise rotate; Help plate 585 to be separated with helping bar 583, help bar 583 can not helped plate 585 restrictions, in the vertical direction is done certain swing; After blower fan 60 installed, oscillating oil cylinder 586 drives helped plate 585 closures, helps bar 583 in the level attitude support again, and under 589 effects of main effect oil cylinder, cover 582 again can be with respect to 581 withdrawals of guiding overcoat in helping bar 583 and leading.Support plate 585 shown in Figure 18 is positioned at the bottom of guiding cover 582; In fact; Help plate 585 also can be positioned at the side of guiding cover 582; The flexible of cover 582 is necessity in the guiding not interfere, and its front end has the supporting seat that extend out to support bar 583 belows, equally also can realize the object of the invention.In addition, the 3rd actuating device also can be an elevator.
More than a kind of lifting body provided by the present invention and offshore wind turbine transportation erecting stage with this mechanism have been carried out detailed introduction.Used concrete example among this paper principle of the present invention and embodiment are set forth, the explanation of above embodiment just is used for helping to understand method of the present invention and core concept thereof.Should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention, can also carry out some improvement and modification to the present invention, these improvement and modification also fall in the protection domain of claim of the present invention.

Claims (14)

1. a lifting body is characterized in that, has at least two group pushing tow unit groups and at least three force transferring parts that distribute along short transverse, and each pushing tow unit group has at least two pushing tow unit; Said pushing tow unit has boxed rod and the lower link that an end is hinged, and each said pushing tow unit places between the adjacent force transferring part successively, and the lower end of the upper end of boxed rod and lower link is articulated in adjacent force transferring part respectively; Also comprise and drive the thruster that said pushing tow unit resets or stretches; And each jointed shaft all laterally arranges.
2. lifting body according to claim 1 is characterized in that the number that said force transferring part is is three, and the said force transferring part that is positioned at top layer is a bearing plate, and the said force transferring part that is positioned at bottom is a underframe, and the force transferring part that is positioned at the middle part is a central frame; The boxed rod of said pushing tow unit is articulated in the upper end of central frame; Lower link is articulated in the force transferring part underframe that is positioned at said central frame below; The lower link of another said pushing tow unit is articulated in the lower end of central frame, and boxed rod is articulated in the force transferring part bearing plate that is positioned at said central frame top; And each pushing tow unit is connected with same thruster in the pushing tow unit group.
3. lifting body according to claim 2 is characterized in that, each said pushing tow unit has middle push rod, and an end of said middle push rod is articulated in the hinged place of said boxed rod and said lower link; Said thruster comprises push arm, and an end of said push arm is articulated in the supporting seat that is positioned at said base plate or said central frame, and said thruster also comprises the jacking cylinder that the said push arm of driving rotates around the supporting seat hinge-point; The middle push rod of each said pushing tow unit is all hinged with the middle part of said push arm in the said pushing tow unit group; Each jointed shaft all laterally arranges.
4. lifting body according to claim 3; It is characterized in that; Said thruster also comprises lifting beam and push rod; The two ends of said jacking cylinder connect the upper end and the said underframe of said lifting beam respectively, and an end relative with the supporting seat pin jointed end is articulated in an end of said push rod on the said push arm, and the other end of said push rod is articulated in the lower end of said lifting beam; Each jointed shaft all laterally arranges.
5. lifting body according to claim 4; It is characterized in that; The direction setting that group edge, a pair of said pushing tow unit is vertical with each jointed shaft; And be provided with a said thruster between the two, the number of push rod and said push arm is two described in the said thruster, and is divided into the both sides of said lifting beam; The middle push rod of each pushing tow unit in the hinged pushing tow unit group in the middle part of one said push arm, the middle push rod of each pushing tow unit in hinged another the said pushing tow unit group in the middle part of another said push arm.
6. lifting body according to claim 5 is characterized in that, has two pairs of said pushing tow unit groups, and parallel and looking-glass symmetry places between said base plate and the said bearing plate; Be provided with pipe link between the symmetrically arranged two said push arms in two pairs of said pushing tow unit groups, said pipe link and two cooresponding said push arms rotate synchronously.
7. according to each described lifting body of claim 1 to 6, it is characterized in that said underframe is provided with first track that extends straight up, the lower end of said lifting beam is provided with first guide rail along said first orbital motion.
8. lifting body according to claim 7; It is characterized in that; Also comprise the guide frame that is fixed in said central frame upper end, said guide frame is provided with second track that extends straight down, and the upper end of said lifting beam is provided with second guide rail along said second orbital motion.
9. an offshore wind turbine transports erecting stage; Comprise that having blower fan shields and sustain device and embrace with a blower fan that embrace to lift device and lift mechanism, be used for the said blower fan of jacking and embrace the lifting body of lifting mechanism; Said lifting body is fixed on the inner ring of the inner pivoting support of said platform, it is characterized in that said lifting body is each described lifting body of claim 1 to 8; The bearing plate of said lifting body is said flat-bed mechano decking, and said underframe is and the fixing turret mount of said pivoting support inner ring.
10. offshore wind turbine transportation erecting stage according to claim 9; It is characterized in that; The said device of shielding and sustain has the guiding overcoat that is horizontally disposed with and is nested and the interior cover that leads, drives and overlap first actuating device that stretches with respect to said guiding overcoat in the said guiding; And the support bar that connects and stretch out cover in the said guiding, said guiding overcoat vertically is articulated in the upper end of said balladeur train, and the upper end of said balladeur train is provided with and drives second actuating device that said guiding overcoat horizontally rotates; And said number of shielding and sustain device is at least two.
11. offshore wind turbine transportation erecting stage according to claim 10 is characterized in that said support bar is hinged through cover in cross jointed shaft and the said guiding; Also comprise horizontally hinged in said guiding cover and support the support plate of said support bar in level attitude, and drive the 3rd actuating device that said support plate vertically rotates.
12. offshore wind turbine transportation erecting stage according to claim 11; It is characterized in that; Said the 3rd actuating device comprises oscillating oil cylinder and two rocking bars; One end of said oscillating oil cylinder is articulated in the sidewall of cover in the said guiding, and an end of the other end and two said rocking bars is all hinged, and the other end of two said rocking bars is articulated in cover and said support plate in the said guiding respectively.
13. offshore wind turbine transportation erecting stage according to claim 12 is characterized in that said first actuating device and said second actuating device are oil cylinder, said first actuating device is located between interior cover of said guiding and the said guiding overcoat.
14. offshore wind turbine transportation erecting stage according to claim 13 is characterized in that the upper surface of said balladeur train is provided with fixed cover, said guiding is sheathed in the said fixed cover also vertically hinged outward.
CN201110247753A 2011-08-24 2011-08-24 Jacking mechanism and offshore fan transportation and installation platform with same Pending CN102311069A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201110247753A CN102311069A (en) 2011-08-24 2011-08-24 Jacking mechanism and offshore fan transportation and installation platform with same

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201110247753A CN102311069A (en) 2011-08-24 2011-08-24 Jacking mechanism and offshore fan transportation and installation platform with same

Publications (1)

Publication Number Publication Date
CN102311069A true CN102311069A (en) 2012-01-11

Family

ID=45424690

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201110247753A Pending CN102311069A (en) 2011-08-24 2011-08-24 Jacking mechanism and offshore fan transportation and installation platform with same

Country Status (1)

Country Link
CN (1) CN102311069A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103935933A (en) * 2014-01-20 2014-07-23 浙江吉利控股集团有限公司 Conveyor line synchronous lifting device
CN109603199A (en) * 2019-01-09 2019-04-12 北京精密机电控制设备研究所 Surely dress raw material drink general automation toggle holds out against extraction equipment to one kind
CN110329950A (en) * 2019-07-19 2019-10-15 上海船舶研究设计院(中国船舶工业集团公司第六0四研究院) Large-scale elevator structure peculiar to vessel
CN110606446A (en) * 2018-06-14 2019-12-24 平高集团有限公司 Transfer trolley and lifting structure
WO2021008529A1 (en) * 2019-07-16 2021-01-21 中国石油大学(华东) Integrated installation vessel capable of achieving horizontal towage of offshore wind turbine

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2587841Y (en) * 2002-12-10 2003-11-26 李德侔 Paraller lifting/lowering vehicle lift with automatic compensation device
CN200943452Y (en) * 2006-08-30 2007-09-05 西安凯诺石油科技有限公司 Pipe column centralizer
CN101164859A (en) * 2007-09-04 2008-04-23 上海微电子装备有限公司 Precision lifting device
CN101927815A (en) * 2009-11-27 2010-12-29 华锐风电科技(集团)股份有限公司 Marine wind turbine generator system transporting and hoisting ship and transporting and hoisting method
CN101973501A (en) * 2010-10-20 2011-02-16 三一电气有限责任公司 Fan integral installation rotating holding mechanism

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2587841Y (en) * 2002-12-10 2003-11-26 李德侔 Paraller lifting/lowering vehicle lift with automatic compensation device
CN200943452Y (en) * 2006-08-30 2007-09-05 西安凯诺石油科技有限公司 Pipe column centralizer
CN101164859A (en) * 2007-09-04 2008-04-23 上海微电子装备有限公司 Precision lifting device
CN101927815A (en) * 2009-11-27 2010-12-29 华锐风电科技(集团)股份有限公司 Marine wind turbine generator system transporting and hoisting ship and transporting and hoisting method
CN101973501A (en) * 2010-10-20 2011-02-16 三一电气有限责任公司 Fan integral installation rotating holding mechanism

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103935933A (en) * 2014-01-20 2014-07-23 浙江吉利控股集团有限公司 Conveyor line synchronous lifting device
CN103935933B (en) * 2014-01-20 2016-02-03 浙江吉利控股集团有限公司 A kind of travel line synchronous jacking device
CN110606446A (en) * 2018-06-14 2019-12-24 平高集团有限公司 Transfer trolley and lifting structure
CN110606446B (en) * 2018-06-14 2021-08-06 平高集团有限公司 Transfer trolley and lifting structure
CN109603199A (en) * 2019-01-09 2019-04-12 北京精密机电控制设备研究所 Surely dress raw material drink general automation toggle holds out against extraction equipment to one kind
WO2021008529A1 (en) * 2019-07-16 2021-01-21 中国石油大学(华东) Integrated installation vessel capable of achieving horizontal towage of offshore wind turbine
CN110329950A (en) * 2019-07-19 2019-10-15 上海船舶研究设计院(中国船舶工业集团公司第六0四研究院) Large-scale elevator structure peculiar to vessel
CN110329950B (en) * 2019-07-19 2021-02-09 上海船舶研究设计院(中国船舶工业集团公司第六0四研究院) Large-scale marine lift structure

Similar Documents

Publication Publication Date Title
CN102311069A (en) Jacking mechanism and offshore fan transportation and installation platform with same
NL2014696B1 (en) Vessel and gangway construction.
CN110114298A (en) Crane for compensating for wave-induced motions, ship and load transfer method
CN109110700B (en) A tunnel overhauls operation locomotive that is used for operation platform of tunnel to overhaul and includes it
CN102425145B (en) Offshore wind turbine installation platform and hoisting device thereof
RU2013129448A (en) FAST TRANSPORT DRILLING RIG
CN102322409B (en) Platform for transporting and mounting offshore wind turbine and amplitude variation device thereof
CN202347913U (en) Lifting tower and fast integration communication device
ES2657450T3 (en) Provision for fixing an elevator lifting machine and method for installing an elevator lifting machine
CN102616674A (en) Boom with folding structure
KR101075827B1 (en) Multi stage without pitching
CN102408066A (en) Crane and its displacement device
JP6378250B2 (en) Suspended load elevating apparatus and method for elevating suspended load for wind power generator
CN201801315U (en) Crane and shifting device thereof
JP2010235261A (en) Vehicle lifting device and winding machine
CN208152654U (en) A kind of synchronous drive device promoted for hoistable platform
CN110725218A (en) Cross-span longitudinal moving mechanism applied to bridge girder erection machine
CN216478089U (en) Overhauling operation equipment and overhauling system
CN204080041U (en) circular blank tapping machine
CN211772923U (en) Cross-span longitudinal moving device applied to bridge girder erection machine
CN208855497U (en) Turntable arm support system and special vehicle
CN108499123B (en) amusement equipment
CN104232878A (en) circular blank tapping machine
CN205329541U (en) Multi -functional bridge construction detection car
CN101381050A (en) Elevator

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C12 Rejection of a patent application after its publication
RJ01 Rejection of invention patent application after publication

Application publication date: 20120111