CN202031073U

CN202031073U - Adaptive variable-pile-diameter hydraulic elevating device

Info

Publication number: CN202031073U
Application number: CN2011200527257U
Authority: CN
Inventors: 孙友义; 李新仲; 侯金林; 张晖
Original assignee: China National Offshore Oil Corp CNOOC; CNOOC Research Center
Current assignee: China National Offshore Oil Corp CNOOC; CNOOC Research Center
Priority date: 2011-03-02
Filing date: 2011-03-02
Publication date: 2011-11-09
Anticipated expiration: 2021-03-02

Abstract

The utility model relates to an adaptive variable-pile-diameter hydraulic elevating device, which is characterized by comprising a pile fixing barrel for connecting a platform deck, wherein an elevating structure is arranged in the pile fixing barrel, and comprises an upper pile clamping device which is fixed on the inner wall of the pile fixing barrel; the bottom end of the upper pile clamping device is connected with a plurality of elevating oil cylinders; the other end of each elevating oil cylinder is connected with a lower pile clamping device; each elevating oil cylinder is connected with a hydraulic system; the upper pile clamping device and the lower pile clamping device are used for locking and unlocking a pile leg which passes through the inside of the pile fixing barrel; the upper pile clamping device and the lower pile clamping device comprise outer pile clamping devices with telescopic oil cylinders; and a variable-diameter structure is arranged in each outer pile clamping device. The adaptive variable-pile-diameter hydraulic elevating device has a simple structure, and is convenient to operate; and by adjusting the strokes of the telescopic oil cylinders and assembling variable-diameter structures of different sizes, the elevating device can adapt to platforms of different pile diameter specifications, so that the adaptive variable-pile-diameter hydraulic elevating device can be widely applied to ocean self-elevating production platforms.

Description

A kind of adaptation, become stake footpath formula hydraulic lift

Technical field

The utility model relates to a kind of hydraulic lift, particularly about a kind of adapted to change stake footpath formula hydraulic lift with Yu Haiyang self lift type production platform.

Background technology

The self lift type production platform have removable, reusable, in place fast, characteristics such as easy construction, comprehensive multifunctional, can realize that " honeybee formula " recover the oil, brought into play important function in the marginal oil field at sea.Lifting gear is to realize that the self lift type production platform is installed, the key device of displacement, and its function is to implement lifting platform.The self lift type production platform adopts hydraulic lifting device substantially, and this is because hydraulic lifting device has advantages such as cost is lower, the accuracy of manufacture is low.Be to improve the development benefit of marginal oil field, require many platforms can a shared cover lifting gear.Existing platform lifting device or conceptual design all only are applicable to the platform of single stake footpath specification, and it exchanges function of use and limited by the strictness in platform stake footpath, thereby range of application has significant limitation.

Summary of the invention

At the problems referred to above, the purpose of this utility model provides a kind of utilization ratio that can improve lifting gear, makes the adapted to change stake footpath formula hydraulic lift of the shared cover lifting gear of self lift type production platform of many piles with different footpath specifications.

For achieving the above object, the utility model is taked following technical scheme: a kind of adaptation becomes stake footpath formula hydraulic lift, it is characterized in that: it comprises that one is used to connect the solid stake tube of Platform Deck, is provided with lifting structure in the described solid stake tube; Described lifting structure comprise be fixed on described solid stake tube inwall on hold a device under the arm, hold a device bottom on described under the arm and connect some hoist cylinders, the other end of each described hoist cylinder is held a device under the arm under connecting, each described hoist cylinder connects hydraulic system, holds a device under the arm on described and holds down that a device is used to lock, the spud leg in the described solid stake tube is passed in release under the arm.

Hold a device on described under the arm and hold down a device under the arm and include an outer device of holding under the arm, described holding under the arm in the device outward is provided with variable-diameter structure; Hold a device under the arm outside described and comprise a cylindrical shell, all be welded with a ring flat-plate on the top of described cylindrical shell and the bottom outer wall, be welded with some risers between the two described ring flat-plates at interval, be provided with a gathering sill between each adjacent two described riser, each described gathering sill includes two side plates on the described ring flat-plate that is welded on the bottom, the top of two described side plates is provided with a top board, be provided with inserted block in the described gathering sill, offer the through hole that allows described inserted block to pass on the described cylindrical shell, the other end of described inserted block connects telescopic oil cylinder, described telescopic oil cylinder is arranged on the described ring flat-plate of bottom, and described telescopic oil cylinder connects hydraulic system; Described variable-diameter structure also comprises a cylindrical shell, all be welded with a ring flat-plate on the top of this described cylindrical shell and the bottom outer wall, be welded with some risers between the two described ring flat-plates at interval, be respectively arranged with a gathering sill between each two adjacent described riser, each described gathering sill includes the side plate that is welded at interval between the two described ring flat-plates, two described side plate middle part welding, one top board; Offer on the described cylindrical shell of described variable-diameter structure and allow the described outer through hole that the described inserted block in the device passes of holding under the arm.

Described outer holding under the arm on the cylinder inboard wall of a device, and all be arranged at intervals with some limiting plates on the cylinder inboard wall of described variable-diameter structure.

Hold under the arm on described in the device, the described outer opposite side of holding the described cylinder top of a device and each described ring flat-plate that weld the bottom under the arm all is welded on the inwall of described solid stake tube, one face down bonding of each the described riser that welds between the two described ring flat-plates is connected on described outer holding under the arm on the described cylinder body outer wall of a device, and opposite side is welded on the inwall of described solid stake tube; Hold under the arm in the device under described, described outer opposite side and the described inwall of a tube admittedly of holding the described cylinder top of a device and each described ring flat-plate that weld the bottom under the arm leaves certain distance, one face down bonding of each the described riser that welds between the two described ring flat-plates is connected on described outer holding under the arm on the described cylinder body outer wall of a device, and the inwall of opposite side and described solid stake tube leaves certain distance.

The utility model is owing to take above technical scheme, it has the following advantages: 1, the utility model is provided with flexible insert block type and holds a device and variable-diameter structure with matching outward under the arm, by regulating the stroke of telescopic oil cylinder, and the variable-diameter structure of assembling different size, can make lifting gear can adapt to the platform of piles with different footpath specification, significantly improve the utilization ratio of lifting gear, thereby reduce the engineering services investment cost of marginal oil field.2, the utility model hold at home and abroad that a utensil has under the arm and spud leg between locking, release and spacing repertoire, when outside hold a device size under the arm just and platform stake when directly adapting, need not to assemble variable-diameter structure, simple in structure.3, only need be in the utility model according to platform stake footpath specification, the variable-diameter structure of different size is set, and do not need to change the main structure of the utility model device, promptly applicable to piles with different platform directly, therefore, it exchanges function of use and not limited by the strictness in platform stake footpath, has increased range of application, has reduced cost.The utility model is simple in structure, and is easy to operate, by the stroke of adjusting telescopic oil cylinder, and the variable-diameter structure of assembling different size, can make lifting gear can adapt to the platform of piles with different footpath specification, therefore, can be widely used on the self lift type production platform of ocean.

Description of drawings

Fig. 1 is the utility model structural representation

Fig. 2 is the schematic top plan view of Fig. 1

Fig. 3 is that the utility model is held a device structural representation under the arm

Fig. 4 is the schematic top plan view of Fig. 3

Fig. 5 is that the utility model is held a device structural representation outward under the arm

Fig. 6 is the schematic top plan view of Fig. 5

Fig. 7 is the utility model variable-diameter structure schematic diagram

Fig. 8 is the schematic top plan view of Fig. 7

The specific embodiment

Below in conjunction with drawings and Examples, the utility model is described in detail.

As shown in Figure 1 and Figure 2, the utility model comprises a solid stake tube 1, Gu stake tube 1 bottom is provided with the flange that is used for being connected with Platform Deck one, Gu be provided with lifting structure in the stake tube 1.Lifting structure comprise be fixed on solid stake tube 1 inwall on hold a device 2 under the arm, on hold a device 2 bottoms under the arm and connect some hoist cylinders 3, the other end of each hoist cylinder 3 is held a device 4 under the arm under connecting.Each hoist cylinder 3 connects hydraulic system (not shown), the stretching motion of each hoist cylinder 3 of HYDRAULIC CONTROL SYSTEM, but the lifting of implementation platform.The utility model device by on hold a device 2 under the arm and hold a device 4 lockings down under the arm, the spud leg 5 in the solid stake tube 1 is passed in release, spud leg 5 passes platform, the bottom is fixed on the seabed.

As shown in Figure 3, Figure 4, on hold a device 2 under the arm and comprise an outer device 6 and the variable-diameter structure 7 of holding under the arm, the top of holding a device 6 outward under the arm is connected with junction plate 8 by bolt with the bottom, and variable-diameter structure 7 is arranged on outer holding under the arm in the device 6, and is connected by bolt with the junction plate 8 of holding a device 6 tops and bottom outward under the arm.

As Fig. 5, shown in Figure 6, hold a device 6 outward under the arm and comprise that one outer holds a device cylindrical shell 61 under the arm, hold under the arm outward on the inwall that the opposite side that all is welded with a ring flat-plate 62, two ring flat-plates 62 on a top of device cylindrical shell 61 and the bottom outer wall is welded on solid stake tube 1 respectively.Be welded with some risers 63 between two ring flat-plates 62 of top and bottom at interval, a face down bonding of each riser 63 is connected on outer holding under the arm on device cylindrical shell 61 outer wall, and opposite side is welded on the inwall of solid stake tube 1.Be respectively arranged with a gathering sill on the ring flat-plate 62 of the bottom between each adjacent two riser 63, each gathering sill includes two gathering sill side plates 64 on the ring flat-plate 62 that is welded on the bottom, one end of each gathering sill side plate 64 is welded on outer holding under the arm on device cylindrical shell 61 outer wall, two gathering sill side plates, 64 tops are provided with a top board 65, are provided with inserted block 66 in the gathering sill.Outer the holding under the arm on the device cylindrical shell 61 of inserted block 66 positions offers rectangular opening, and inserted block 66 1 ends can pass rectangular opening and put in outer holding under the arm in the device cylindrical shell 61.The other end of inserted block 66 connects telescopic oil cylinder 67, and telescopic oil cylinder 67 is welded on by telescopic oil cylinder seat 68 on the ring flat-plate 62 of bottom, and telescopic oil cylinder 67 connects the hydraulic system (not shown).Hold under the arm outward on the inwall of device cylindrical shell 61 at interval and be welded with some limiting plates 69, have the effect of relative horizontal movement between restriction the utility model device and the spud leg 5, limiting plate 69 only works when not assembling variable-diameter structure 7.

As Fig. 7, shown in Figure 8, variable-diameter structure 7 comprises a variable-diameter structure cylindrical shell 71, all be welded with on the top of variable-diameter structure cylindrical shell 71 and the bottom outer wall between a ring flat-plate 72, two ring flat-plates 72 and be arranged at intervals with some risers 73, a face down bonding of each riser 73 is connected on the outer wall of variable-diameter structure cylindrical shell 71.Be respectively arranged with a gathering sill between each two adjacent riser 73, each gathering sill includes the gathering sill side plate 74 that is welded at interval between upper and lower two ring flat-plates 72, and gathering sill side plate 74 1 face down bondings are connected on variable-diameter structure cylindrical shell 71 outer walls, and a top board 75 is welded at two gathering sill side plates, 74 middle parts.Offer rectangular opening on the variable-diameter structure cylindrical shell 71, hold the inserted block 66 of a device 6 outward under the arm and can put in the variable-diameter structure cylindrical shell 71 by the gathering sill of variable-diameter structure 7, the rectangular opening on the variable-diameter structure cylindrical shell 71.At interval be welded with some limiting plates 75 on variable-diameter structure cylindrical shell 71 inwalls, have the effect of relative horizontal movement between restriction the utility model device and the spud leg 5.

Hold under the arm under of the present utility model a device 4 structures and on hold a device 2 structural similarities under the arm, difference is down to hold under the arm a device 4, and outer holding under the arm between each ring flat-plate of being provided with on the device cylindrical shell and each riser and the solid stake tube 1 left certain distance.

Above-mentioned junction plate 8 is separately positioned on to be held a device 2 under the arm and holds the outer of a device 4 under the arm down and hold under the arm on the ring flat-plate of device cylindrical shell, one end of above-mentioned hoist cylinder 3 is connected the ring flat-plate bottom of holding a device 2 bottoms under the arm, and the other end of above-mentioned hoist cylinder 3 is connected down the ring flat-plate top on the top of holding a device 4 under the arm.

In the foregoing description, the hydraulic system that each hoist cylinder 3 connects, and the hydraulic system that each telescopic oil cylinder connects belongs to prior art, no longer describes in detail at this.

In the foregoing description, the size of variable-diameter structure can be according to the specification setting in platform stake footpath.

The using method of the utility model device is:

1) according to the platform stake corresponding variable-diameter structure of size Selection directly, each variable-diameter structure correspondence is placed on holds a device 2 under the arm and hold the outer of a device 4 under the arm down and hold under the arm in the device cylindrical shell, and by bolt and junction plate corresponding respectively with on hold a device 2 under the arm and be connected with an outer device of holding under the arm of time holding a device 4 under the arm.

2) the solid stake tube 1 that will be provided with variable-diameter structure is set in spud leg 5 outsides, and connect as one with Platform Deck, stretch out with the telescopic oil cylinder of holding under the arm in the device 4 down by holding a device 2 on the HYDRAULIC CONTROL SYSTEM under the arm, drive inserted block and put in outer holding under the arm in a device cylindrical shell and the variable-diameter structure cylindrical shell, cooperate the locking that realizes with spud leg 5 with the voussoir on the spud leg 5, by the withdrawal of HYDRAULIC CONTROL SYSTEM telescopic oil cylinder, drive the inserted block withdrawal, realize release with spud leg 5.

3) after the utility model device is with the platform installation in position, the utility model device is taken apart from flange place and the Platform Deck of solid stake tube 1, variable-diameter structure from holding a device 2 under the arm and holding under the arm the device 4 down and remove, is reclaimed the utility model device, wait for next use.

The utility model is by the stroke of adjusting telescopic oil cylinder, and the variable-diameter structure of assembling different size, can make lifting gear can adapt to the platform of piles with different footpath specification; When outside hold a device size under the arm just and platform stake when directly adapting, need not to assemble variable-diameter structure.

As shown in Figure 1, the utility model is under original state, and hoist cylinder 3 all is in contraction state, on hold a device 2 under the arm and all be in the state of stretching out with the telescopic oil cylinder of holding under the arm in the device 4 down, on hold a device 2 under the arm and hold a device 4 down under the arm and all lock with spud leg 5.

The utility model lifting work may further comprise the steps:

1) telescopic oil cylinder of holding under the arm under in the device 4 keeps stretching out state, holds a device 4 down under the arm and keeps locking with spud leg 5, and the telescopic oil cylinder of holding under the arm on the HYDRAULIC CONTROL SYSTEM in the device 2 shrinks, and drives the inserted block withdrawal, on hold a device 2 and spud leg 5 releases under the arm;

2) HYDRAULIC CONTROL SYSTEM hoist cylinder 3 stretches out, and holds under the arm in the promotion on a device 2 and the platform and moves, and puts in place until oil cylinder stroke;

3) telescopic oil cylinder of holding under the arm on the HYDRAULIC CONTROL SYSTEM in the device 2 stretches out, promote inserted block and stretch out, on hold a device 2 and spud leg 5 lockings under the arm;

4) telescopic oil cylinder of holding under the arm under the HYDRAULIC CONTROL SYSTEM in the device 4 shrinks, and drives the inserted block withdrawal, holds a device 4 and spud leg 5 releases down under the arm;

5) HYDRAULIC CONTROL SYSTEM hoist cylinder 3 shrinks, and holds under the arm on the device 4 under driving and moves, and puts in place until oil cylinder stroke;

6) telescopic oil cylinder of holding under the arm under the HYDRAULIC CONTROL SYSTEM in the device 4 stretches out, and promotes inserted block and stretches out, and holds a device 4 and spud leg 5 lockings down under the arm;

7) return step 1), the platform step-by-step movement rises, until platform rise put in place after, hoist cylinder 3 all is contracted to oil cylinder stroke and puts in place, on hold a device 2 under the arm and hold a device 4 equal and pile leg lockings down under the arm.

The utility model decline work may further comprise the steps:

1) telescopic oil cylinder of holding under the arm in the device 2 keeps stretching out state, on hold a device 2 under the arm and keep locking with spud leg 5, the telescopic oil cylinder of holding under the arm under the HYDRAULIC CONTROL SYSTEM in the device 4 shrinks, and drives the inserted block withdrawal, holds a device 4 and spud leg 5 releases down under the arm;

2) HYDRAULIC CONTROL SYSTEM hoist cylinder 3 stretches out, and holds a device 2 under the arm under driving and moves down, and puts in place until oil cylinder stroke;

3) telescopic oil cylinder of holding under the arm under the HYDRAULIC CONTROL SYSTEM in the device 4 stretches out, and promotes inserted block and stretches out, and holds a device 4 and spud leg 5 lockings down under the arm;

4) telescopic oil cylinder of holding under the arm on the HYDRAULIC CONTROL SYSTEM in the device 2 shrinks, and drives the inserted block withdrawal, on hold a device 2 and spud leg 5 releases under the arm;

5) HYDRAULIC CONTROL SYSTEM hoist cylinder 3 shrinks, and holds a device 2 in the drive under the arm and moves down with platform, puts in place until oil cylinder stroke;

6) telescopic oil cylinder of holding under the arm on the HYDRAULIC CONTROL SYSTEM in the device 2 stretches out, promote inserted block and stretch out, on hold a device 2 and spud leg 5 lockings under the arm;

7) return step 1), the platform step-by-step movement descends, until platform descend put in place after, hoist cylinder 3 all is contracted to oil cylinder stroke and puts in place, on hold a device 2 under the arm and hold a device 4 down under the arm and all lock with spud leg 5.

The various embodiments described above only are used to illustrate the utility model; wherein the structure of each parts, connected mode etc. all can change to some extent; every equivalents of carrying out on the basis of technical solutions of the utility model and improvement all should not got rid of outside protection domain of the present utility model.

Claims

1. one kind can adapt to a change stake footpath formula hydraulic lift, it is characterized in that: it comprises that one is used to connect the solid stake tube of Platform Deck, is provided with lifting structure in the described tube of stake admittedly; Described lifting structure comprise be fixed on described solid stake tube inwall on hold a device under the arm, hold a device bottom on described under the arm and connect some hoist cylinders, the other end of each described hoist cylinder is held a device under the arm under connecting, each described hoist cylinder connects hydraulic system, holds a device under the arm on described and holds down that a device is used to lock, the spud leg in the described solid stake tube is passed in release under the arm.

2. a kind of adaptation the as claimed in claim 1, become a stake footpath formula hydraulic lift, it is characterized in that: hold a device on described under the arm and hold a device down under the arm and include an outer device of holding under the arm, hold under the arm in the device outside described and be provided with variable-diameter structure;

Hold a device under the arm outside described and comprise a cylindrical shell, all be welded with a ring flat-plate on the top of described cylindrical shell and the bottom outer wall, be welded with some risers between the two described ring flat-plates at interval, be provided with a gathering sill between each adjacent two described riser, each described gathering sill includes two side plates on the described ring flat-plate that is welded on the bottom, the top of two described side plates is provided with a top board, be provided with inserted block in the described gathering sill, offer the through hole that allows described inserted block to pass on the described cylindrical shell, the other end of described inserted block connects telescopic oil cylinder, described telescopic oil cylinder is arranged on the described ring flat-plate of bottom, and described telescopic oil cylinder connects hydraulic system;

Described variable-diameter structure also comprises a cylindrical shell, all be welded with a ring flat-plate on the top of this described cylindrical shell and the bottom outer wall, be welded with some risers between the two described ring flat-plates at interval, be respectively arranged with a gathering sill between each two adjacent described riser, each described gathering sill includes the side plate that is welded at interval between the two described ring flat-plates, two described side plate middle part welding, one top board; Offer on the described cylindrical shell of described variable-diameter structure and allow the described outer through hole that the described inserted block in the device passes of holding under the arm.

3. a kind of adaptation the as claimed in claim 2, become stake footpath formula hydraulic lift, it is characterized in that: described outer holding under the arm on the cylinder inboard wall of a device, and all be arranged at intervals with some limiting plates on the cylinder inboard wall of described variable-diameter structure.

4. become stake footpath formula hydraulic lift as claim 2 or 3 described a kind of adaptations, it is characterized in that:

Hold under the arm on described in the device, the described outer opposite side of holding the described cylinder top of a device and each described ring flat-plate that weld the bottom under the arm all is welded on the inwall of described solid stake tube, one face down bonding of each the described riser that welds between the two described ring flat-plates is connected on described outer holding under the arm on the described cylinder body outer wall of a device, and opposite side is welded on the inwall of described solid stake tube;

Hold under the arm in the device under described, described outer opposite side and the described inwall of a tube admittedly of holding the described cylinder top of a device and each described ring flat-plate that weld the bottom under the arm leaves certain distance, one face down bonding of each the described riser that welds between the two described ring flat-plates is connected on described outer holding under the arm on the described cylinder body outer wall of a device, and the inwall of opposite side and described solid stake tube leaves certain distance.