CN109415883A - Ship with guide pile bar assembly - Google Patents

Abstract

The present invention relates to a kind of dredger ship (1) with guide pile bar assembly, which includes pedestal (21)；It is as pivotally connected to the guide pile bar bracket (61) of pedestal；The guide pile bar (60) guided by guide pile bar bracket；First hydraulic cylinder (78) is pivotally connected to pedestal in its first side and is pivotally connected to guide pile bar bracket in its second side to pivot guide pile bar relative to pedestal；And clamp the clamping component (90) of guide pile bar, its first side for being operably coupled to first hydraulic cylinder, wherein guide pile bar assembly has Lifting scheme, wherein the first time of first hydraulic cylinder is mobile relative to guide pile bar, thus the elongation of first hydraulic cylinder or the clamping component for retracting reduction and being operably connected relative to pedestal promotion.

Description

Ship with guide pile bar assembly

Background technique

The present invention relates to the ships for having guide pile bar, such as dredger ship.Guide pile bar is in the sea bed immediately below dredger ship Form anchor point.Guide pile bar is guided by guide pile bar bracket and is connected to lifting system.In the normal operation period, pass through Lifting system continually declines and retracts guide pile bar.After the completion of dredging operation, guide pile bar is fully retracted and in horizontal position It sets and turns to deck downwards.

For this dredger ship, guide pile bar is needed at any time, such as under unexpected weather and sea situation, it can It retracts always.However, lifting system may fail in practice.In the event of a failure, guide pile bar may bent, thus It needs replacing.

It is fixed to retract or be promoted it the purpose of the present invention is providing a kind of attachment device for the dredger ship with guide pile bar Position stake bar.

Summary of the invention

According in a first aspect, the present invention provides a kind of ship including hull and guide pile bar assembly, wherein guide pile bar Component includes: pedestal；It is as pivotally connected to the guide pile bar bracket of pedestal；Elongated guide pile bar, at it relative to hull Direction of elongate on by guide pile bar bracket guide to be promoted and be declined；First hydraulic cylinder is pivotally connected in its first side Pedestal and its operate opposite second side be pivotally connected to guide pile bar bracket to relative to pedestal pivot guide pile bar Bracket and guide pile bar；And the clamping component of guide pile bar is clamped, it is operably coupled to the first side of first hydraulic cylinder, Wherein guide pile bar assembly can switch between inverted pattern and Lifting scheme, wherein under inverted pattern, the of hydraulic cylinder Pivot location between side and guide pile bar bracket is fixed relative to guide pile bar bracket, thus the elongation of first hydraulic cylinder and Retraction can be such that guide pile bar bracket and guide pile bar pivots relative to pedestal, and wherein under Lifting scheme hydraulic cylinder the Pivot between side and guide pile bar bracket can be moved relative to guide pile bar bracket, thus the elongation of first hydraulic cylinder Or it retracts the clamping component for making to be operably connected and declines or promoted relative to pedestal.

Dredger ship according to the present invention includes guide pile bar bracket, is pivoted under inverted pattern by first hydraulic cylinder.The The presence of one hydraulic cylinder can rotate down guide pile bar after it is fully retracted.Under Lifting scheme, first hydraulic cylinder is used In decline and promote clamping component and guide pile bar.In this way, identical first hydraulic cylinder is effectively formed spare set Standby major part (mayor) is to retract guide pile bar in main lift failure of apparatus.

In one embodiment, clamping component is operably coupled to the first side of first hydraulic cylinder by the first hoisting rope, The first hoisting rope wherein is guided along the gin wheel on guide pile bar bracket, wherein gin wheel is located at clamping component and first The top of first side of hydraulic cylinder.Hoisting rope forms to be directly connected between hydraulic cylinder and clamping component.When without using first When hoisting rope, it can be loosely suspended.

In one embodiment, guide pile bar assembly includes: the first track, is connected to guide pile bar bracket；Slider, It is slided along the first track；And the first releasable lock between slider and the first track, to lock slider along first The sliding of track, wherein the first side of first hydraulic cylinder is pivotally connected to slider and clamping component is operably coupled to Slider, wherein the first lock is locked out under inverted pattern, and the first lock is release under the Lifting scheme.Slider by Track guidance so as to controller well it is mobile relative to the pivot of guide pile bar bracket and after the lock of release first only It is limited to slide.

In one embodiment, guide pile bar bracket includes tilting rack comprising the first passage of guide pile bar and can pivot It is connected to pedestal with turning, wherein guide pile bar assembly includes the second releasable lock between tilting rack and guide pile bar, at it Relative to the movement for locking guide pile bar in the direction of elongate of tilting rack.Second releasable lock can temporary stationary positioned stake bar, The reciprocating stroke of clamping component so as to be powered by first hydraulic cylinder promotes it step by step.

In one embodiment, guide pile bar bracket includes tilting rack comprising the first passage of guide pile bar and can pivot It is connected to pedestal with turning, wherein guide pile bar assembly includes the third releasable lock between tilting rack and pedestal, relative to base The pivoting action of frame locking tilting rack.When the guide pile bar being fully retracted rotates finally down under inverted pattern, third locks quilt Unlock.

In one embodiment, guide pile bar bracket includes tilting rack and yoke, and wherein tilting rack has the first of guide pile bar Channel and it is pivotally connected to pedestal, and yoke is pivotally connected to tilting rack or pedestal, wherein yoke includes abutting end, this connects End is closed for engaging the guide pile bar being spaced apart with tilting rack, wherein the first side of first hydraulic cylinder is pivotally connected to yoke.? During conventional dredging operation, yoke, which can rotate down, leaves guide pile bar to allow guide pile bar to do lateral fortune relative to hull It is dynamic.

In one embodiment, gin wheel is installed to yoke.

In one embodiment, clamping component is back and forth moved by the first hydraulic cylinder between tilting rack and the abutting end of yoke It is dynamic.

In one embodiment, clamping component includes the channel of guide pile bar, which clamps face and second by first and clamp Face is defined, and the first clamping face and the second clamping face are relative to each other transverse to the longitudinal direction of guide pile bar, wherein clamping component phase Guide pile bar is moved between the first position and the second position, wherein first clamps face and the second folder at first position Tight face keeps the gap relative to guide pile bar together, and wherein in the second place, and first, which clamps face and second, clamps face Guide pile bar is tightly engaged together.First clamping face and the second clamping face enter the power closure engagement of guide pile bar.With this Mode, guide pile bar itself are not needed with the supplementary features used under Lifting scheme.

In one embodiment, the first clamping face is in the second position, and the second position is on the longitudinal direction of guide pile bar Face is clamped relative to second to increase.

In one embodiment, the first side of second hydraulic cylinder is operably coupled to the first clamping face relative to the second folder Tight face increases the first side.

In one embodiment, clamping component includes clamping the main clamp in face with first, clamping the driven of face with second Fixture and pairs of parallel draw bar, wherein parallel draw bar is pivotally connected to main clamp with driven fixture with formed parallel four Side shape structure.Parallelogram sturcutre ensure main clamp can only in limited pendulum motion relative to driven fixture translate with Two clamping faces are positioned directly in the circumferential wall of guide pile bar.

In one embodiment, the guide pile bar bracket with guide pile bar is under inverted pattern by upright position and horizontal position First hydraulic cylinder between setting pivots, and wherein guide pile bar is in the generallyperpendicular extension in upright position, and guide pile bar is in water Prosposition sets substantially horizontal extension.

In one embodiment, center line of the center line of first hydraulic cylinder under Lifting scheme relative to guide pile bar is with small Extend in 20 ° of angles.

In one embodiment, clamping component is elevated under Lifting scheme by the retraction of first hydraulic cylinder.

In one embodiment, the connection of guide pile bar or suspension are to the second hoisting rope, wherein the second hoisting rope is connected to lifting Winch.These lifting equipments can be used for the regular frequent decline and retraction of guide pile bar.

In one embodiment, hull includes elongated well, and wherein pedestal is moved along the second track, and the second track is along well It horizontally extends, wherein ship includes the second hydraulic cylinder between hull and pedestal to move pedestal along the second track.

In one embodiment, ship is dredger ship.

According to second aspect, the present invention provides a kind of methods for promoting the elongated guide pile bar of ship, wherein dredging Ship includes hull and guide pile bar assembly, and wherein guide pile bar assembly includes: pedestal；It is as pivotally connected to the guide pile of pedestal Bar bracket, wherein guide pile bar is guided by guide pile bar bracket in its direction of elongate promotion and decline relative to hull；The One hydraulic cylinder, is pivotally connected to pedestal and operates opposite second side at it and be pivotally connected to guide pile bar in its first side Bracket is to pivot guide pile bar bracket and guide pile bar relative to pedestal；And clamp the clamping component of guide pile bar, the folder Tight component is operably coupled to the first side of first hydraulic cylinder, and wherein guide pile bar assembly can be in inverted pattern and Lifting Modules Switch between formula, wherein under inverted pattern, pivot location between the first side and guide pile bar bracket of hydraulic cylinder relative to Guide pile bar bracket is fixed, thus the elongation and retraction of first hydraulic cylinder can make guide pile bar bracket and guide pile bar relative to Pedestal pivots, and wherein the pivot between the first side of hydraulic cylinder under Lifting scheme and guide pile bar bracket can be relative to Guide pile bar bracket is mobile, so that the elongation or retraction of first hydraulic cylinder make the clamping component being operably connected relative to pedestal Decline is promoted, wherein the method includes being switched to Lifting scheme when guide pile bar is upright, and in engagement guide pile bar Clamping component is promoted by first hydraulic cylinder later.

In one embodiment, which includes the channel of guide pile bar, which clamps face and the second folder by first Tight face is defined, and the first clamping face and the second clamping face are relative to each other transverse to the longitudinal direction of guide pile bar, wherein first is hydraulic Cylinder is operably coupled to the first clamping face, wherein the method includes pressing from both sides on the longitudinal direction of guide pile bar relative to second Tight face promotes first and clamps face, so that the first clamping face and the second clamping face engage guide pile bar tightly together to close with its power Splice grafting closes.

It in the case of any possible, can individually various aspects and feature described and illustrated in application specifications. Various aspects and feature described in these unique aspects, especially accompanying independent claim can become divisional patents The theme of application.

Detailed description of the invention

The present invention will be illustrated based on exemplary embodiment shown in the accompanying drawings, in which:

Figure 1A and 1B is the suction type dredging ship with spud gantry component according to the embodiment of the present invention in emergency lifting When isometric view and partial longitudinal section；

Fig. 2A, 2B and 2C are side view of the spud gantry component during the overturning of its guide pile bar in Figure 1A and 1B.

Specific embodiment

Figure 1A shows the guide pile bar side face of ship 1 (for example, twisting suction type dredging ship or backhoe dredger ship).Ship 1 includes thin Long hull 2, the elongated hull 2 have the spud gantry well 5 moved at the rear side 3 of hull 2.Such as twisting suction type dredging In the case where ship, ship 1 is provided with the rotating cutter head (not shown) on ladder in the opposite side of hull 2.Spud gantry well 5 Including two parallel side walls 4 horizontal rail 7 parallel with two, two parallel horizontal rails 7 are along two parallel sides Wall 4 is hung to slidably support the spud gantry component 20 of embodiment according to the present invention.Positioning is also individually shown in fig. ib Pile frame component 20 and horizontal rail 7.

Spud gantry component 20 includes base steel frame 21, wherein the side wall 23 parallel with two with antetheca 22 of base steel frame 21, Wherein the side wall 23 parallel with two of antetheca 22 is usually formed hollow U-shaped, this is hollow U-shaped unlimited at the rear side of hull 2.Pedestal 21 include two support constructions 25, prominent from side wall 23.Support construction 25 is installed in its bottom side to hinge 26, wherein piston shoes 30 It is connected to hinge 26.To allow pedestal 21, A's 30 engagement rail 7 of piston shoes reciprocatingly slides in the horizontal direction.

In an illustrated embodiment, pedestal 21 includes top sheave frame 40 on each side, and each top sheave frame 40 is in piston shoes 30 top keeps two pulleys 41 adjacent to each other；Pedestal 21 further includes two elastic downslide wheel carriers 42, each elasticity lower sheave Frame 42 keeps pulley 43 in the lower section of piston shoes 30.Hull 2 is provided with the pulley schematically shown in the top of spud gantry well 5 44,47 and the pulley 45,46,48,49 schematically shown is internally provided in spud gantry well 5.Pedestal 21 is kept upright It is slided in the horizontal direction by means of two steel cross spiders 50,51 on every side of pedestal 21 simultaneously.Clear for Figure 1A rises See, illustrate only pulley 44-49 and a pair of cross line 50,51, they are located at the larboard (port of spud gantry component 20 side).Astarboard (starboard side) is provided with identical pulley 44-49 and cross spider 50,51.For purpose of explanation, The first cross spider 50 is indicated with the line thinner than the second cross spider 51.

First cross spider 50 is connected to hull 2 in the front of spud gantry well 5, and along one of top sheave of pedestal 21 41 detour to the top sheave 44 of top and front positioned at spud gantry well 5.Then, the first cross spider 50 passes freely through top sheave Frame 40 and be located at pulley 48,49 top, middle pulley 48,49 spud gantry well 5 rear and be located above it and Lower section.Then, the first cross spider 50 passes through lower sheave 42 later and is ultimately connected to hull 2.

Second cross spider 51 of same larboard symmetrically detours relative to the first cross spider 50.That is, the second cross spider 51 exists It is connected to hull 2 behind spud gantry well 5, and detours along another top sheave 41 of pedestal 21 to positioned at spud gantry well 5 Above and behind top sheave 47.Then, the second cross spider 51 passes freely through top sheave frame 40 and is located at the upper of pulley 45,46 Side, middle pulley 45,46 spud gantry well 5 front and be located above and below it.Then, the second cross spider 51 exists Front passes through another lower sheave 43 and is ultimately connected to hull 2.

Cross spider 50,51 is by unshowned hydraulic cylinder by a pulley in the pulley 44,47 of 5 top of spud gantry well Move horizontally to bias.The moving horizontally by the hydraulic cylinder between hull 2 and pedestal 21 (equally not in direction a of pedestal 21 Show) power is provided.Cross spider 50,51 keeps pedestal 21 upright, while pedestal 21 passes through unshowned hydraulic cylinder in direction A On move horizontally.Pedestal 21 can be kept upright by any suspension system appropriate of any type of ship, wherein water It is optional that translation is dynamic.

Spud gantry component 20 includes the guide pile bar 60 of elongated steel and the steel guide pile bar bracket 61 of guide pile bar 60. Guide pile bar 60 includes pipe 65 and tip 66, and pipe 65 can be formed by a series of pipe portion.Guide pile bar bracket 61 includes tilting rack 62 and unshowned wedge or any other releasable lock, wherein tilting rack 62 has the channel 63 of guide pile bar 60, and wedge Shape object and any other releasable lock are used to lock the sliding of guide pile bar 60 by guide pile bar bracket 61.In front side, inclination Frame 62 is connected to two the first support constructions 64 of pedestal 21 by swivel bearing, thus around first level pivot B in direction C On relative to pedestal 21 pivot.In free rear side, tilting rack 62 is connected to pedestal 21 by pin or any other releasable lock.

In addition, guide pile bar bracket 61 is provided with steel yoke 70, steel yoke 70 has reversed Y- frame 71 and passes through in its bottom side Swivel bearing is connected to tilting rack 62 to make it pivot on the E of direction relative to tilting rack 62 around the second horizontal pivot D.? In the embodiment, since the size first level pivot B and the second horizontal pivot D of bearing are positioned in close still these pivots Axis B, D can also be overlapped.

Yoke 70 includes guide pile bar pawl 72 at the upside of Y- frame 71.Pawl 72 tightly engages guide pile bar 60 about one Half circumference.Steel closure member 73 is pivotally connected to pawl 72.In the open position of closure member 73, guide pile bar can enter pawl 72, and be slidably closed in the whole circumference of closed position guide pile bar 60.

Yoke 70 includes multiple tracks 75 and slider 76, and plurality of track 75 prolongs at the elongated rear portion of Y- frame 71 It stretches, and slider 76 is engaged and slided along track 71.Slider 76 is pivotally connected to two parallel hydraulic cylinders 78, In two parallel hydraulic cylinders in their bottom side be pivotally connected to two the second support constructions 77 of pedestal 21, the two Two support constructions 77 are located at the lower section of the first support construction 64 and are spaced from.Slider 76 is moved along track 75 in the directionf It is dynamic, wherein in upside, sliding can be locked at the height of pawl 72 by attached pin not shown in the figure or any other lock and Unlock.

To include two lifting tackles 81 on the top of pawl 72 parallel with detour on pulley 81 two for yoke 70 One hoisting rope 80.First hoisting rope 80 is connected to slider 76 at one end and clamping component 90 is suspended at opposite side At one rope 80.Clamping component 90 includes main clamp 91 and driven fixture 92, both has the circumference corresponding to guide pile bar 60 Semicircle joint surface 93 and clamping component 90 further include two pairs of parallel pull rods 94, two pairs of parallel pull rods 94 are at both ends On be pivotally connected to the opposite end of fixture 91,92.Pull rod 94 forms parallelogram sturcutre, and the parallelogram sturcutre is to folder Tool 91,92 applies the translational motion mutually swung, wherein at the outermost mutual distance perpendicular to guide pile bar 60, fixture 91, one of them of 92 is detached from from guide pile bar 60.Only main clamp 91 is connected to the first hoisting rope 80.

Guide pile bar assembly 20 includes the second hoisting rope 82 to detour on the pulley 83 in pedestal 21.Second hoisting rope 82 At one end close to the tip 66 for being connected to guide pile bar 60, and the second hoisting rope 82 is connected on hull 2 at the other end Unshowned winch.By drawing or releasing winch, elongated guide pile bar 60 retracts or declines in vertical directiong.

In order to carry out dredging operation, guide pile bar 60 declines in directiong with tip 66 to stand or penetrate sea bed.It is logical The retraction for crossing hydraulic cylinder 78 rotates down yoke 70 on the E of direction.This is described in fig. 2.First hoisting rope, 80 long enough is with pine It hangs scatteredly while being connected to slider 76 and main clamp 91.Clamp assembly 90 is fixed on the flat upper of guide pile bar bracket 61 To which fixture 91,92 does not engage guide pile bar 60 on surface.During dredging operation, twists suction type dredging ship 1 and surround guide pile bar 60 with the contact point of sea bed reciprocally sideshake to move cutter head along curved path.After each swing, guide pile Frame component 20 is moved forward or rearward hull 2 relative to sea bed along direction A move step by step.Each complete stroke it Afterwards, guide pile bar 60 promotes several meters in directiong and then declines again after direction A return.By using the second hoisting rope 82 To execute the decline of guide pile bar 60 and promote frequency.

After completing dredging operation, guide pile bar 60 can stir downwards towards hull 2.As shown in Figure 2 B, firstly, it is logical The second hoisting rope 82 is crossed to promote guide pile bar 60 completely.It is retracted in pedestal 21 at the tip 66 of the raised position, guide pile bar. Then, rotate yoke 70 straight up on the E of direction by the extension of hydraulic cylinder 78, so that pawl 72 engages guide pile bar 60.It is logical The retraction for crossing hydraulic cylinder 78 rotates down the guide pile bar bracket 61 with guide pile bar 60.Then, it is closed with closure member 73 Pawl 72, and tilting rack 62 is unlocked to allow yoke 70 and tilting rack 62 whole as one around trunnion axis B and guide pile bar 60 Body inclination.The process executes in reverse order so that the vertical rotation again of guide pile bar 60.

In the case where the second hoisting rope 82 or relevant critical component fail, spud gantry component 20 is provided with spare set For to promote guide pile bar 60.Stand-by equipment is formed by hydraulic cylinder 78 and slider 76, and hydraulic cylinder 78 and slider 76 are also used for Guide pile bar 60 is overturn, and stand-by equipment is formed by the first hoisting rope 80 of clamping component 90 and overturning pulley 81.Work as use When stand-by equipment, guide pile bar assembly 20 is switched to emergency lifting mode from conventional inverted pattern.In preparation, hydraulic cylinder 78 Stretching, extension is to erect yoke 70 and close its closure member 73.During erectting yoke 70, clamping component 90 remains in guide pile bar bracket On 61.Pivoting action of the tilting rack 62 on the E of direction keeps locking.At this location, guide pile bar assembly 20 passes through release Slider 76 is along the slide handover of track 71 to emergency lifting mode.Then, hydraulic cylinder 78 is fully retracted, so that clamping component 90 move up.In the upward stroke, main clamp 91 is initially promoted relative to driven fixture 92 to engage guide pile bar 60, is connect Be that guide pile bar 60 is actually promoted into longer track.The power that clamping component 90 enters guide pile bar 60 is closed engagement.This connects The tightening proportional to the lifting force applied is closed to prevent the sliding along guide pile bar 60.Terminate in the upward stroke When, the guide pile bar 60 of promotion is temporarily fixed by guide pile bar bracket 61, wherein after the stretching of hydraulic cylinder 78.This to downlink The power closure engagement of Cheng Zhong, clamping component 90 discharge automatically and clamping component 90 is under its own weight along guide pile bar 60 Slide downward.

By repeating the above steps, guide pile bar 60 is stepped up, and wherein range of lift is slightly less than hydraulic cylinder 78 every time Stroke length.When finally also needing to rotate down guide pile bar 60, after the last extension of hydraulic cylinder 78, by again will Slider 76 is locked in top and guide pile bar assembly 20 is switched back into inverted pattern again.Inclination fortune on release direction D After dynamic, the guide pile bar bracket 61 with guide pile bar 60 can rotate down as previously mentioned.Stand-by equipment, which allows to twist, to be inhaled Formula dredger ship 1 or any other ship with this guide pile bar assembly 20 are with its guide pile bar 60 of any movement retraction.Work as master Facility temporarily guide pile bar 60 when needing to retract downwards is wanted, such as due to uncertain weather and sea situation, this is necessary.

It will be appreciated that foregoing description is intended to illustrate the operation of preferred embodiment, it is not intended to limit the scope of the present invention. In from the discussion above, to those skilled in the art, many modifications are it will be apparent that these modifications will be included in this In the spirit and scope of invention.

Claims (20)

1. ship, including hull and guide pile bar assembly, wherein the guide pile bar assembly includes: pedestal；It is as pivotally connected to The guide pile bar bracket of the pedestal；Elongated guide pile bar, the guide pile bar in its direction of elongate relative to hull by Guide pile bar bracket is guided to be promoted and be declined；First hydraulic cylinder, the first hydraulic cylinder are pivotally connected to base in its first side Frame, and operate opposite second side at it and be pivotally connected to guide pile bar bracket, to pivot guide pile bar relative to pedestal Bracket and guide pile bar；And the clamping component of guide pile bar is clamped, which is operably connected to first hydraulic cylinder First side, wherein guide pile bar assembly can switch between inverted pattern and Lifting scheme, wherein hydraulic under inverted pattern Pivot location between the first side and guide pile bar bracket of cylinder is fixed relative to guide pile bar bracket, thus first hydraulic cylinder Elongation and retraction can be such that guide pile bar bracket and guide pile bar pivots relative to pedestal, and wherein hydraulic under Lifting scheme Pivot between the first side and guide pile bar bracket of cylinder can be moved relative to guide pile bar bracket, thus first hydraulic cylinder Elongation or retraction make the clamping component being operatively connected relative to pedestal decline or promoted.

2. ship according to claim 1, wherein the clamping component is operably connected to the first liquid by the first hoisting rope First side of cylinder pressure, wherein guiding the first hoisting rope along the gin wheel on guide pile bar bracket, wherein gin wheel is located at The top of first side of clamping component and first hydraulic cylinder.

3. according to ship described in any one of aforementioned claim, wherein the guide pile bar assembly includes: the first track, connection To guide pile bar bracket；Slider is slided along the first track；And first between slider and the first track is releasable Lock, to lock slider along the sliding of the first track, wherein the first side of first hydraulic cylinder is pivotally connected to slider simultaneously And clamping component is operably connected to the slider, wherein the first lock is locked out under the inverted pattern, and in Lifting Modules The first lock is release under formula.

4. according to ship described in any one of aforementioned claim, wherein the guide pile bar bracket includes tilting rack, the inclination Frame has the first passage of guide pile bar and is as pivotally connected to the pedestal, wherein the guide pile bar assembly includes inclining The second releasable lock between oblique frame and guide pile bar, to lock guide pile bar in its direction of elongate relative to tilting rack Movement.

5. according to ship described in any one of aforementioned claim, wherein the guide pile bar bracket includes tilting rack, the inclination Frame has the first passage of guide pile bar and is as pivotally connected to the pedestal, and wherein guide pile bar assembly includes tilting rack Third releasable lock between pedestal, with the pivoting action relative to pedestal locking tilting rack.

6. according to ship described in any one of aforementioned claim, wherein the guide pile bar bracket includes tilting rack and yoke, wherein The tilting rack has the first passage of guide pile bar and is pivotally connected to pedestal, and the yoke is pivotally connected to and inclines Oblique frame or pedestal, wherein the yoke includes abutting end, with for engaging the guide pile bar being spaced apart with tilting rack, wherein the first liquid First side of cylinder pressure is pivotally connected to the yoke.

7. according to ship described in claim 2 and 6, wherein the gin wheel is installed to the yoke.

8. ship according to claim 6 or 7, wherein the clamping component passes through the between tilting rack and the abutting end of yoke One hydraulic cylinder moves back and forth.

9. according to ship described in any one of aforementioned claim, wherein the clamping component includes the channel of guide pile bar, it is described Channel is defined by the first clamping face and the second clamping face, and first, which clamps face and second, clamps face transverse to the longitudinal direction side of guide pile bar It is opposite to each other, wherein the clamping component moves between the first position and the second position relative to guide pile bar, wherein At first position, the first clamping face and the second clamping face keep the gap relative to guide pile bar together, and wherein second At position, first clamps face and the second clamping face tightly engages guide pile bar together.

10. ship according to claim 9, wherein described first clamps face in the longitudinal direction of guide pile bar in the second place Face is clamped relative to second on direction to increase.

11. ship according to claim 9 or 10, wherein the first side of the first hydraulic cylinder is operably connected to described One clamps face.

12. the ship according to any one of claim 9 to 11, wherein the clamping component includes clamping face with first Main clamp, the driven fixture and pairs of parallel draw bar for clamping face with second, wherein the parallel draw bar is pivotally connected to Main clamp and driven fixture are with formed parallelogram sturcutre.

13. according to ship described in any one of aforementioned claim, wherein the guide pile bar bracket with guide pile bar is in turning mould It is pivoted between upright position and horizontal position under formula by first hydraulic cylinder, wherein guide pile bar is generallyperpendicular in upright position Extend, and guide pile bar is in the substantially horizontal extension in horizontal position.

14. according to ship described in any one of aforementioned claim, wherein under Lifting scheme, the center line of the first hydraulic cylinder Center line relative to guide pile bar is extended with the angle less than 20 °.

15. according to ship described in any one of aforementioned claim, wherein passing through retracting for first hydraulic cylinder under Lifting scheme Promote the clamping component.

16. according to ship described in any one of aforementioned claim, wherein the guide pile bar connects or hangs to the second hoisting rope, Wherein the second hoisting rope is connected to crab.

17. according to ship described in any one of aforementioned claim, wherein the hull includes elongated well, wherein pedestal is along the Two tracks are mobile, and the second track is horizontally extended along well, wherein the ship includes the second hydraulic cylinder between hull and pedestal To move pedestal along the second track.

18. according to ship described in any one of aforementioned claim, wherein the ship is dredger ship.

19. the method for the elongated guide pile bar for promoting ship, wherein dredger ship includes hull and guide pile bar assembly, wherein Guide pile bar assembly includes: pedestal；It is as pivotally connected to the guide pile bar bracket of the pedestal, wherein guide pile bar is by positioning The guidance of stake bar bracket is in its direction of elongate promotion and decline relative to hull；First hydraulic cylinder, the first hydraulic cylinder is at it First side, which is pivotally connected to pedestal and operates opposite second side at it, is pivotally connected to guide pile bar bracket to opposite Guide pile bar bracket and guide pile bar are pivoted in pedestal；And the clamping component of guide pile bar is clamped, the clamping component operation Ground is connected to the first side of first hydraulic cylinder, and wherein guide pile bar assembly can switch between inverted pattern and Lifting scheme, Wherein under inverted pattern, the pivot location between the first side and guide pile bar bracket of hydraulic cylinder is relative to guide pile bar bracket It is fixed, so that the elongation and retraction of first hydraulic cylinder can be such that guide pile bar bracket and guide pile bar pivots relative to pedestal, and And wherein the pivot between the first side of hydraulic cylinder under Lifting scheme and guide pile bar bracket can be relative to guide pile bar branch Frame and move, thus the elongation or retraction of first hydraulic cylinder make the clamping component being operatively connected relative to pedestal decline or mention It rises, wherein passing through the method includes being switched to Lifting scheme when guide pile bar is upright, and after engaging guide pile bar First hydraulic cylinder promotes clamping component.

20. according to the method for claim 19, wherein the clamping component includes the channel of guide pile bar, the channel by First clamping face and the second clamping face are defined, first clamp face and second clamp face transverse to guide pile bar longitudinal direction each other Relatively, wherein first hydraulic cylinder is operably connected to the first clamping face, wherein the method includes in the longitudinal direction side of guide pile bar Face is clamped relative to second upwards and promotes the first clamping face, so that tightly engagement is fixed together for the first clamping face and the second clamping face Position stake bar with its power closure to engage.